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diff --git a/Documentation/hwmon/abituguru-datasheet.rst b/Documentation/hwmon/abituguru-datasheet.rst new file mode 100644 index 0000000000..0cd61471d2 --- /dev/null +++ b/Documentation/hwmon/abituguru-datasheet.rst @@ -0,0 +1,336 @@ +=============== +uGuru datasheet +=============== + +First of all, what I know about uGuru is no fact based on any help, hints or +datasheet from Abit. The data I have got on uGuru have I assembled through +my weak knowledge in "backwards engineering". +And just for the record, you may have noticed uGuru isn't a chip developed by +Abit, as they claim it to be. It's really just an microprocessor (uC) created by +Winbond (W83L950D). And no, reading the manual for this specific uC or +mailing Windbond for help won't give any useful data about uGuru, as it is +the program inside the uC that is responding to calls. + +Olle Sandberg <ollebull@gmail.com>, 2005-05-25 + + +Original version by Olle Sandberg who did the heavy lifting of the initial +reverse engineering. This version has been almost fully rewritten for clarity +and extended with write support and info on more databanks, the write support +is once again reverse engineered by Olle the additional databanks have been +reverse engineered by me. I would like to express my thanks to Olle, this +document and the Linux driver could not have been written without his efforts. + +Note: because of the lack of specs only the sensors part of the uGuru is +described here and not the CPU / RAM / etc voltage & frequency control. + +Hans de Goede <j.w.r.degoede@hhs.nl>, 28-01-2006 + + +Detection +========= + +As far as known the uGuru is always placed at and using the (ISA) I/O-ports +0xE0 and 0xE4, so we don't have to scan any port-range, just check what the two +ports are holding for detection. We will refer to 0xE0 as CMD (command-port) +and 0xE4 as DATA because Abit refers to them with these names. + +If DATA holds 0x00 or 0x08 and CMD holds 0x00 or 0xAC an uGuru could be +present. We have to check for two different values at data-port, because +after a reboot uGuru will hold 0x00 here, but if the driver is removed and +later on attached again data-port will hold 0x08, more about this later. + +After wider testing of the Linux kernel driver some variants of the uGuru have +turned up which will hold 0x00 instead of 0xAC at the CMD port, thus we also +have to test CMD for two different values. On these uGuru's DATA will initially +hold 0x09 and will only hold 0x08 after reading CMD first, so CMD must be read +first! + +To be really sure an uGuru is present a test read of one or more register +sets should be done. + + +Reading / Writing +================= + +Addressing +---------- + +The uGuru has a number of different addressing levels. The first addressing +level we will call banks. A bank holds data for one or more sensors. The data +in a bank for a sensor is one or more bytes large. + +The number of bytes is fixed for a given bank, you should always read or write +that many bytes, reading / writing more will fail, the results when writing +less then the number of bytes for a given bank are undetermined. + +See below for all known bank addresses, numbers of sensors in that bank, +number of bytes data per sensor and contents/meaning of those bytes. + +Although both this document and the kernel driver have kept the sensor +terminology for the addressing within a bank this is not 100% correct, in +bank 0x24 for example the addressing within the bank selects a PWM output not +a sensor. + +Notice that some banks have both a read and a write address this is how the +uGuru determines if a read from or a write to the bank is taking place, thus +when reading you should always use the read address and when writing the +write address. The write address is always one (1) more than the read address. + + +uGuru ready +----------- + +Before you can read from or write to the uGuru you must first put the uGuru +in "ready" mode. + +To put the uGuru in ready mode first write 0x00 to DATA and then wait for DATA +to hold 0x09, DATA should read 0x09 within 250 read cycles. + +Next CMD _must_ be read and should hold 0xAC, usually CMD will hold 0xAC the +first read but sometimes it takes a while before CMD holds 0xAC and thus it +has to be read a number of times (max 50). + +After reading CMD, DATA should hold 0x08 which means that the uGuru is ready +for input. As above DATA will usually hold 0x08 the first read but not always. +This step can be skipped, but it is undetermined what happens if the uGuru has +not yet reported 0x08 at DATA and you proceed with writing a bank address. + + +Sending bank and sensor addresses to the uGuru +---------------------------------------------- + +First the uGuru must be in "ready" mode as described above, DATA should hold +0x08 indicating that the uGuru wants input, in this case the bank address. + +Next write the bank address to DATA. After the bank address has been written +wait for to DATA to hold 0x08 again indicating that it wants / is ready for +more input (max 250 reads). + +Once DATA holds 0x08 again write the sensor address to CMD. + + +Reading +------- + +First send the bank and sensor addresses as described above. +Then for each byte of data you want to read wait for DATA to hold 0x01 +which indicates that the uGuru is ready to be read (max 250 reads) and once +DATA holds 0x01 read the byte from CMD. + +Once all bytes have been read data will hold 0x09, but there is no reason to +test for this. Notice that the number of bytes is bank address dependent see +above and below. + +After completing a successful read it is advised to put the uGuru back in +ready mode, so that it is ready for the next read / write cycle. This way +if your program / driver is unloaded and later loaded again the detection +algorithm described above will still work. + + + +Writing +------- + +First send the bank and sensor addresses as described above. +Then for each byte of data you want to write wait for DATA to hold 0x00 +which indicates that the uGuru is ready to be written (max 250 reads) and +once DATA holds 0x00 write the byte to CMD. + +Once all bytes have been written wait for DATA to hold 0x01 (max 250 reads) +don't ask why this is the way it is. + +Once DATA holds 0x01 read CMD it should hold 0xAC now. + +After completing a successful write it is advised to put the uGuru back in +ready mode, so that it is ready for the next read / write cycle. This way +if your program / driver is unloaded and later loaded again the detection +algorithm described above will still work. + + +Gotchas +------- + +After wider testing of the Linux kernel driver some variants of the uGuru have +turned up which do not hold 0x08 at DATA within 250 reads after writing the +bank address. With these versions this happens quite frequent, using larger +timeouts doesn't help, they just go offline for a second or 2, doing some +internal calibration or whatever. Your code should be prepared to handle +this and in case of no response in this specific case just goto sleep for a +while and then retry. + + +Address Map +=========== + +Bank 0x20 Alarms (R) +-------------------- +This bank contains 0 sensors, iow the sensor address is ignored (but must be +written) just use 0. Bank 0x20 contains 3 bytes: + +Byte 0: + This byte holds the alarm flags for sensor 0-7 of Sensor Bank1, with bit 0 + corresponding to sensor 0, 1 to 1, etc. + +Byte 1: + This byte holds the alarm flags for sensor 8-15 of Sensor Bank1, with bit 0 + corresponding to sensor 8, 1 to 9, etc. + +Byte 2: + This byte holds the alarm flags for sensor 0-5 of Sensor Bank2, with bit 0 + corresponding to sensor 0, 1 to 1, etc. + + +Bank 0x21 Sensor Bank1 Values / Readings (R) +-------------------------------------------- +This bank contains 16 sensors, for each sensor it contains 1 byte. +So far the following sensors are known to be available on all motherboards: + +- Sensor 0 CPU temp +- Sensor 1 SYS temp +- Sensor 3 CPU core volt +- Sensor 4 DDR volt +- Sensor 10 DDR Vtt volt +- Sensor 15 PWM temp + +Byte 0: + This byte holds the reading from the sensor. Sensors in Bank1 can be both + volt and temp sensors, this is motherboard specific. The uGuru however does + seem to know (be programmed with) what kindoff sensor is attached see Sensor + Bank1 Settings description. + +Volt sensors use a linear scale, a reading 0 corresponds with 0 volt and a +reading of 255 with 3494 mV. The sensors for higher voltages however are +connected through a division circuit. The currently known division circuits +in use result in ranges of: 0-4361mV, 0-6248mV or 0-14510mV. 3.3 volt sources +use the 0-4361mV range, 5 volt the 0-6248mV and 12 volt the 0-14510mV . + +Temp sensors also use a linear scale, a reading of 0 corresponds with 0 degree +Celsius and a reading of 255 with a reading of 255 degrees Celsius. + + +Bank 0x22 Sensor Bank1 Settings (R) and Bank 0x23 Sensor Bank1 Settings (W) +--------------------------------------------------------------------------- + +Those banks contain 16 sensors, for each sensor it contains 3 bytes. Each +set of 3 bytes contains the settings for the sensor with the same sensor +address in Bank 0x21 . + +Byte 0: + Alarm behaviour for the selected sensor. A 1 enables the described + behaviour. + +Bit 0: + Give an alarm if measured temp is over the warning threshold (RW) [1]_ + +Bit 1: + Give an alarm if measured volt is over the max threshold (RW) [2]_ + +Bit 2: + Give an alarm if measured volt is under the min threshold (RW) [2]_ + +Bit 3: + Beep if alarm (RW) + +Bit 4: + 1 if alarm cause measured temp is over the warning threshold (R) + +Bit 5: + 1 if alarm cause measured volt is over the max threshold (R) + +Bit 6: + 1 if alarm cause measured volt is under the min threshold (R) + +Bit 7: + - Volt sensor: Shutdown if alarm persist for more than 4 seconds (RW) + - Temp sensor: Shutdown if temp is over the shutdown threshold (RW) + +.. [1] This bit is only honored/used by the uGuru if a temp sensor is connected + +.. [2] This bit is only honored/used by the uGuru if a volt sensor is connected + Note with some trickery this can be used to find out what kinda sensor + is detected see the Linux kernel driver for an example with many + comments on how todo this. + +Byte 1: + - Temp sensor: warning threshold (scale as bank 0x21) + - Volt sensor: min threshold (scale as bank 0x21) + +Byte 2: + - Temp sensor: shutdown threshold (scale as bank 0x21) + - Volt sensor: max threshold (scale as bank 0x21) + + +Bank 0x24 PWM outputs for FAN's (R) and Bank 0x25 PWM outputs for FAN's (W) +--------------------------------------------------------------------------- + +Those banks contain 3 "sensors", for each sensor it contains 5 bytes. + - Sensor 0 usually controls the CPU fan + - Sensor 1 usually controls the NB (or chipset for single chip) fan + - Sensor 2 usually controls the System fan + +Byte 0: + Flag 0x80 to enable control, Fan runs at 100% when disabled. + low nibble (temp)sensor address at bank 0x21 used for control. + +Byte 1: + 0-255 = 0-12v (linear), specify voltage at which fan will rotate when under + low threshold temp (specified in byte 3) + +Byte 2: + 0-255 = 0-12v (linear), specify voltage at which fan will rotate when above + high threshold temp (specified in byte 4) + +Byte 3: + Low threshold temp (scale as bank 0x21) + +byte 4: + High threshold temp (scale as bank 0x21) + + +Bank 0x26 Sensors Bank2 Values / Readings (R) +--------------------------------------------- + +This bank contains 6 sensors (AFAIK), for each sensor it contains 1 byte. + +So far the following sensors are known to be available on all motherboards: + - Sensor 0: CPU fan speed + - Sensor 1: NB (or chipset for single chip) fan speed + - Sensor 2: SYS fan speed + +Byte 0: + This byte holds the reading from the sensor. 0-255 = 0-15300 (linear) + + +Bank 0x27 Sensors Bank2 Settings (R) and Bank 0x28 Sensors Bank2 Settings (W) +----------------------------------------------------------------------------- + +Those banks contain 6 sensors (AFAIK), for each sensor it contains 2 bytes. + +Byte 0: + Alarm behaviour for the selected sensor. A 1 enables the described behaviour. + +Bit 0: + Give an alarm if measured rpm is under the min threshold (RW) + +Bit 3: + Beep if alarm (RW) + +Bit 7: + Shutdown if alarm persist for more than 4 seconds (RW) + +Byte 1: + min threshold (scale as bank 0x26) + + +Warning for the adventurous +=========================== + +A word of caution to those who want to experiment and see if they can figure +the voltage / clock programming out, I tried reading and only reading banks +0-0x30 with the reading code used for the sensor banks (0x20-0x28) and this +resulted in a _permanent_ reprogramming of the voltages, luckily I had the +sensors part configured so that it would shutdown my system on any out of spec +voltages which probably safed my computer (after a reboot I managed to +immediately enter the bios and reload the defaults). This probably means that +the read/write cycle for the non sensor part is different from the sensor part. diff --git a/Documentation/hwmon/abituguru.rst b/Documentation/hwmon/abituguru.rst new file mode 100644 index 0000000000..cfda60b757 --- /dev/null +++ b/Documentation/hwmon/abituguru.rst @@ -0,0 +1,113 @@ +Kernel driver abituguru +======================= + +Supported chips: + + * Abit uGuru revision 1 & 2 (Hardware Monitor part only) + + Prefix: 'abituguru' + + Addresses scanned: ISA 0x0E0 + + Datasheet: Not available, this driver is based on reverse engineering. + A "Datasheet" has been written based on the reverse engineering it + should be available in the same dir as this file under the name + abituguru-datasheet. + + Note: + The uGuru is a microcontroller with onboard firmware which programs + it to behave as a hwmon IC. There are many different revisions of the + firmware and thus effectively many different revisions of the uGuru. + Below is an incomplete list with which revisions are used for which + Motherboards: + + - uGuru 1.00 ~ 1.24 (AI7, KV8-MAX3, AN7) [1]_ + - uGuru 2.0.0.0 ~ 2.0.4.2 (KV8-PRO) + - uGuru 2.1.0.0 ~ 2.1.2.8 (AS8, AV8, AA8, AG8, AA8XE, AX8) + - uGuru 2.2.0.0 ~ 2.2.0.6 (AA8 Fatal1ty) + - uGuru 2.3.0.0 ~ 2.3.0.9 (AN8) + - uGuru 3.0.0.0 ~ 3.0.x.x (AW8, AL8, AT8, NI8 SLI, AT8 32X, AN8 32X, + AW9D-MAX) [2]_ + +.. [1] For revisions 2 and 3 uGuru's the driver can autodetect the + sensortype (Volt or Temp) for bank1 sensors, for revision 1 uGuru's + this does not always work. For these uGuru's the autodetection can + be overridden with the bank1_types module param. For all 3 known + revision 1 motherboards the correct use of this param is: + bank1_types=1,1,0,0,0,0,0,2,0,0,0,0,2,0,0,1 + You may also need to specify the fan_sensors option for these boards + fan_sensors=5 + +.. [2] There is a separate abituguru3 driver for these motherboards, + the abituguru (without the 3 !) driver will not work on these + motherboards (and visa versa)! + +Authors: + - Hans de Goede <j.w.r.degoede@hhs.nl>, + - (Initial reverse engineering done by Olle Sandberg + <ollebull@gmail.com>) + + +Module Parameters +----------------- + +* force: bool + Force detection. Note this parameter only causes the + detection to be skipped, and thus the insmod to + succeed. If the uGuru can't be read the actual hwmon + driver will not load and thus no hwmon device will get + registered. +* bank1_types: int[] + Bank1 sensortype autodetection override: + + * -1 autodetect (default) + * 0 volt sensor + * 1 temp sensor + * 2 not connected +* fan_sensors: int + Tell the driver how many fan speed sensors there are + on your motherboard. Default: 0 (autodetect). +* pwms: int + Tell the driver how many fan speed controls (fan + pwms) your motherboard has. Default: 0 (autodetect). +* verbose: int + How verbose should the driver be? (0-3): + + * 0 normal output + * 1 + verbose error reporting + * 2 + sensors type probing info (default) + * 3 + retryable error reporting + + Default: 2 (the driver is still in the testing phase) + +Notice: if you need any of the first three options above please insmod the +driver with verbose set to 3 and mail me <j.w.r.degoede@hhs.nl> the output of: +dmesg | grep abituguru + + +Description +----------- + +This driver supports the hardware monitoring features of the first and +second revision of the Abit uGuru chip found on Abit uGuru featuring +motherboards (most modern Abit motherboards). + +The first and second revision of the uGuru chip in reality is a Winbond +W83L950D in disguise (despite Abit claiming it is "a new microprocessor +designed by the ABIT Engineers"). Unfortunately this doesn't help since the +W83L950D is a generic microcontroller with a custom Abit application running +on it. + +Despite Abit not releasing any information regarding the uGuru, Olle +Sandberg <ollebull@gmail.com> has managed to reverse engineer the sensor part +of the uGuru. Without his work this driver would not have been possible. + +Known Issues +------------ + +The voltage and frequency control parts of the Abit uGuru are not supported. + +.. toctree:: + :maxdepth: 1 + + abituguru-datasheet.rst diff --git a/Documentation/hwmon/abituguru3.rst b/Documentation/hwmon/abituguru3.rst new file mode 100644 index 0000000000..88046d8663 --- /dev/null +++ b/Documentation/hwmon/abituguru3.rst @@ -0,0 +1,75 @@ +Kernel driver abituguru3 +======================== + +Supported chips: + * Abit uGuru revision 3 (Hardware Monitor part, reading only) + + Prefix: 'abituguru3' + + Addresses scanned: ISA 0x0E0 + + Datasheet: Not available, this driver is based on reverse engineering. + + Note: + The uGuru is a microcontroller with onboard firmware which programs + it to behave as a hwmon IC. There are many different revisions of the + firmware and thus effectively many different revisions of the uGuru. + Below is an incomplete list with which revisions are used for which + Motherboards: + + - uGuru 1.00 ~ 1.24 (AI7, KV8-MAX3, AN7) + - uGuru 2.0.0.0 ~ 2.0.4.2 (KV8-PRO) + - uGuru 2.1.0.0 ~ 2.1.2.8 (AS8, AV8, AA8, AG8, AA8XE, AX8) + - uGuru 2.3.0.0 ~ 2.3.0.9 (AN8) + - uGuru 3.0.0.0 ~ 3.0.x.x (AW8, AL8, AT8, NI8 SLI, AT8 32X, AN8 32X, + AW9D-MAX) + + The abituguru3 driver is only for revision 3.0.x.x motherboards, + this driver will not work on older motherboards. For older + motherboards use the abituguru (without the 3 !) driver. + +Authors: + - Hans de Goede <j.w.r.degoede@hhs.nl>, + - (Initial reverse engineering done by Louis Kruger) + + +Module Parameters +----------------- + +* force: bool + Force detection. Note this parameter only causes the + detection to be skipped, and thus the insmod to + succeed. If the uGuru can't be read the actual hwmon + driver will not load and thus no hwmon device will get + registered. +* verbose: bool + Should the driver be verbose? + + * 0/off/false normal output + * 1/on/true + verbose error reporting (default) + + Default: 1 (the driver is still in the testing phase) + +Description +----------- + +This driver supports the hardware monitoring features of the third revision of +the Abit uGuru chip, found on recent Abit uGuru featuring motherboards. + +The 3rd revision of the uGuru chip in reality is a Winbond W83L951G. +Unfortunately this doesn't help since the W83L951G is a generic microcontroller +with a custom Abit application running on it. + +Despite Abit not releasing any information regarding the uGuru revision 3, +Louis Kruger has managed to reverse engineer the sensor part of the uGuru. +Without his work this driver would not have been possible. + +Known Issues +------------ + +The voltage and frequency control parts of the Abit uGuru are not supported, +neither is writing any of the sensor settings and writing / reading the +fanspeed control registers (FanEQ) + +If you encounter any problems please mail me <j.w.r.degoede@hhs.nl> and +include the output of: `dmesg | grep abituguru` diff --git a/Documentation/hwmon/acbel-fsg032.rst b/Documentation/hwmon/acbel-fsg032.rst new file mode 100644 index 0000000000..f1684b95e1 --- /dev/null +++ b/Documentation/hwmon/acbel-fsg032.rst @@ -0,0 +1,80 @@ +Kernel driver acbel-fsg032 +========================== + +Supported chips: + + * ACBEL FSG032-00xG power supply. + +Author: Lakshmi Yadlapati <lakshmiy@us.ibm.com> + +Description +----------- + +This driver supports ACBEL FSG032-00xG Power Supply. This driver +is a client to the core PMBus driver. + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +Sysfs entries +------------- + +The following attributes are supported: + +======================= ====================================================== +curr1_crit Critical maximum current. +curr1_crit_alarm Input current critical alarm. +curr1_input Measured output current. +curr1_label "iin" +curr1_max Maximum input current. +curr1_max_alarm Maximum input current high alarm. +curr1_rated_max Maximum rated input current. +curr2_crit Critical maximum current. +curr2_crit_alarm Output current critical alarm. +curr2_input Measured output current. +curr2_label "iout1" +curr2_max Maximum output current. +curr2_max_alarm Output current high alarm. +curr2_rated_max Maximum rated output current. + + +fan1_alarm Fan 1 warning. +fan1_fault Fan 1 fault. +fan1_input Fan 1 speed in RPM. +fan1_target Set fan speed reference. + +in1_alarm Input voltage under-voltage alarm. +in1_input Measured input voltage. +in1_label "vin" +in1_rated_max Maximum rated input voltage. +in1_rated_min Minimum rated input voltage. +in2_crit Critical maximum output voltage. +in2_crit_alarm Output voltage critical high alarm. +in2_input Measured output voltage. +in2_label "vout1" +in2_lcrit Critical minimum output voltage. +in2_lcrit_alarm Output voltage critical low alarm. +in2_rated_max Maximum rated output voltage. +in2_rated_min Minimum rated output voltage. + +power1_alarm Input fault or alarm. +power1_input Measured input power. +power1_label "pin" +power1_max Input power limit. +power1_rated_max Maximum rated input power. +power2_crit Critical output power limit. +power2_crit_alarm Output power crit alarm limit exceeded. +power2_input Measured output power. +power2_label "pout" +power2_max Output power limit. +power2_max_alarm Output power high alarm. +power2_rated_max Maximum rated output power. + +temp[1-3]_input Measured temperature. +temp[1-2]_max Maximum temperature. +temp[1-3]_rated_max Temperature high alarm. +======================= ====================================================== diff --git a/Documentation/hwmon/acpi_power_meter.rst b/Documentation/hwmon/acpi_power_meter.rst new file mode 100644 index 0000000000..8628c11610 --- /dev/null +++ b/Documentation/hwmon/acpi_power_meter.rst @@ -0,0 +1,54 @@ +Kernel driver power_meter +========================= + +This driver talks to ACPI 4.0 power meters. + +Supported systems: + + * Any recent system with ACPI 4.0. + + Prefix: 'power_meter' + + Datasheet: https://uefi.org/specifications, section 10.4. + +Author: Darrick J. Wong + +Description +----------- + +This driver implements sensor reading support for the power meters exposed in +the ACPI 4.0 spec (Chapter 10.4). These devices have a simple set of +features--a power meter that returns average power use over a configurable +interval, an optional capping mechanism, and a couple of trip points. The +sysfs interface conforms with the specification outlined in the "Power" section +of Documentation/hwmon/sysfs-interface.rst. + +Special Features +---------------- + +The `power[1-*]_is_battery` knob indicates if the power supply is a battery. +Both `power[1-*]_average_{min,max}` must be set before the trip points will work. +When both of them are set, an ACPI event will be broadcast on the ACPI netlink +socket and a poll notification will be sent to the appropriate +`power[1-*]_average` sysfs file. + +The `power[1-*]_{model_number, serial_number, oem_info}` fields display +arbitrary strings that ACPI provides with the meter. The measures/ directory +contains symlinks to the devices that this meter measures. + +Some computers have the ability to enforce a power cap in hardware. If this is +the case, the `power[1-*]_cap` and related sysfs files will appear. When the +average power consumption exceeds the cap, an ACPI event will be broadcast on +the netlink event socket and a poll notification will be sent to the +appropriate `power[1-*]_alarm` file to indicate that capping has begun, and the +hardware has taken action to reduce power consumption. Most likely this will +result in reduced performance. + +There are a few other ACPI notifications that can be sent by the firmware. In +all cases the ACPI event will be broadcast on the ACPI netlink event socket as +well as sent as a poll notification to a sysfs file. The events are as +follows: + +`power[1-*]_cap` will be notified if the firmware changes the power cap. +`power[1-*]_interval` will be notified if the firmware changes the averaging +interval. diff --git a/Documentation/hwmon/ad7314.rst b/Documentation/hwmon/ad7314.rst new file mode 100644 index 0000000000..bf389736bc --- /dev/null +++ b/Documentation/hwmon/ad7314.rst @@ -0,0 +1,34 @@ +Kernel driver ad7314 +==================== + +Supported chips: + + * Analog Devices AD7314 + + Prefix: 'ad7314' + + Datasheet: Publicly available at Analog Devices website. + + * Analog Devices ADT7301 + + Prefix: 'adt7301' + + Datasheet: Publicly available at Analog Devices website. + + * Analog Devices ADT7302 + + Prefix: 'adt7302' + + Datasheet: Publicly available at Analog Devices website. + +Description +----------- + +Driver supports the above parts. The ad7314 has a 10 bit +sensor with 1lsb = 0.25 degrees centigrade. The adt7301 and +adt7302 have 14 bit sensors with 1lsb = 0.03125 degrees centigrade. + +Notes +----- + +Currently power down mode is not supported. diff --git a/Documentation/hwmon/adc128d818.rst b/Documentation/hwmon/adc128d818.rst new file mode 100644 index 0000000000..d248802343 --- /dev/null +++ b/Documentation/hwmon/adc128d818.rst @@ -0,0 +1,50 @@ +Kernel driver adc128d818 +======================== + +Supported chips: + + * Texas Instruments ADC818D818 + + Prefix: 'adc818d818' + + Addresses scanned: I2C 0x1d, 0x1e, 0x1f, 0x2d, 0x2e, 0x2f + + Datasheet: Publicly available at the TI website https://www.ti.com/ + +Author: Guenter Roeck + +Description +----------- + +This driver implements support for the Texas Instruments ADC128D818. +It is described as 'ADC System Monitor with Temperature Sensor'. + +The ADC128D818 implements one temperature sensor and seven voltage sensors. + +Temperatures are measured in degrees Celsius. There is one set of limits. +When the HOT Temperature Limit is crossed, this will cause an alarm that will +be reasserted until the temperature drops below the HOT Hysteresis. +Measurements are guaranteed between -55 and +125 degrees. The temperature +measurement has a resolution of 0.5 degrees; the limits have a resolution +of 1 degree. + +Voltage sensors (also known as IN sensors) report their values in volts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. Note that minimum in this case always means 'closest to +zero'; this is important for negative voltage measurements. All voltage +inputs can measure voltages between 0 and 2.55 volts, with a resolution +of 0.625 mV. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may +already have disappeared by the time the alarm is read. The driver +caches the alarm status for each sensor until it is at least reported +once, to ensure that alarms are reported to user space. + +The ADC128D818 only updates its values approximately once per second; +reading it more often will do no harm, but will return 'old' values. + +In addition to the scanned address list, the chip can also be configured for +addresses 0x35 to 0x37. Those addresses are not scanned. You have to instantiate +the driver explicitly if the chip is configured for any of those addresses in +your system. diff --git a/Documentation/hwmon/adm1021.rst b/Documentation/hwmon/adm1021.rst new file mode 100644 index 0000000000..116fb20199 --- /dev/null +++ b/Documentation/hwmon/adm1021.rst @@ -0,0 +1,153 @@ +Kernel driver adm1021 +===================== + +Supported chips: + + * Analog Devices ADM1021 + + Prefix: 'adm1021' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Analog Devices website + + * Analog Devices ADM1021A/ADM1023 + + Prefix: 'adm1023' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Analog Devices website + + * Genesys Logic GL523SM + + Prefix: 'gl523sm' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: + + * Maxim MAX1617 + + Prefix: 'max1617' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Maxim website + + * Maxim MAX1617A + + Prefix: 'max1617a' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Maxim website + + * National Semiconductor LM84 + + Prefix: 'lm84' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the National Semiconductor website + + * Philips NE1617 + + Prefix: 'max1617' (probably detected as a max1617) + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Philips website + + * Philips NE1617A + + Prefix: 'max1617' (probably detected as a max1617) + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Philips website + + * TI THMC10 + + Prefix: 'thmc10' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the TI website + + * Onsemi MC1066 + + Prefix: 'mc1066' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Onsemi website + + +Authors: + - Frodo Looijaard <frodol@dds.nl>, + - Philip Edelbrock <phil@netroedge.com> + +Module Parameters +----------------- + +* read_only: int + Don't set any values, read only mode + + +Description +----------- + +The chips supported by this driver are very similar. The Maxim MAX1617 is +the oldest; it has the problem that it is not very well detectable. The +MAX1617A solves that. The ADM1021 is a straight clone of the MAX1617A. +Ditto for the THMC10. From here on, we will refer to all these chips as +ADM1021-clones. + +The ADM1021 and MAX1617A reports a die code, which is a sort of revision +code. This can help us pinpoint problems; it is not very useful +otherwise. + +ADM1021-clones implement two temperature sensors. One of them is internal, +and measures the temperature of the chip itself; the other is external and +is realised in the form of a transistor-like device. A special alarm +indicates whether the remote sensor is connected. + +Each sensor has its own low and high limits. When they are crossed, the +corresponding alarm is set and remains on as long as the temperature stays +out of range. Temperatures are measured in degrees Celsius. Measurements +are possible between -65 and +127 degrees, with a resolution of one degree. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may already +have disappeared! + +This driver only updates its values each 1.5 seconds; reading it more often +will do no harm, but will return 'old' values. It is possible to make +ADM1021-clones do faster measurements, but there is really no good reason +for that. + + +Netburst-based Xeon support +--------------------------- + +Some Xeon processors based on the Netburst (early Pentium 4, from 2001 to +2003) microarchitecture had real MAX1617, ADM1021, or compatible chips +within them, with two temperature sensors. Other Xeon processors of this +era (with 400 MHz FSB) had chips with only one temperature sensor. + +If you have such an old Xeon, and you get two valid temperatures when +loading the adm1021 module, then things are good. + +If nothing happens when loading the adm1021 module, and you are certain +that your specific Xeon processor model includes compatible sensors, you +will have to explicitly instantiate the sensor chips from user-space. See +method 4 in Documentation/i2c/instantiating-devices.rst. Possible slave +addresses are 0x18, 0x1a, 0x29, 0x2b, 0x4c, or 0x4e. It is likely that +only temp2 will be correct and temp1 will have to be ignored. + +Previous generations of the Xeon processor (based on Pentium II/III) +didn't have these sensors. Next generations of Xeon processors (533 MHz +FSB and faster) lost them, until the Core-based generation which +introduced integrated digital thermal sensors. These are supported by +the coretemp driver. diff --git a/Documentation/hwmon/adm1025.rst b/Documentation/hwmon/adm1025.rst new file mode 100644 index 0000000000..283e65e348 --- /dev/null +++ b/Documentation/hwmon/adm1025.rst @@ -0,0 +1,60 @@ +Kernel driver adm1025 +===================== + +Supported chips: + + * Analog Devices ADM1025, ADM1025A + + Prefix: 'adm1025' + + Addresses scanned: I2C 0x2c - 0x2e + + Datasheet: Publicly available at the Analog Devices website + + * Philips NE1619 + + Prefix: 'ne1619' + + Addresses scanned: I2C 0x2c - 0x2d + + Datasheet: Publicly available at the Philips website + +The NE1619 presents some differences with the original ADM1025: + + * Only two possible addresses (0x2c - 0x2d). + * No temperature offset register, but we don't use it anyway. + * No INT mode for pin 16. We don't play with it anyway. + +Authors: + - Chen-Yuan Wu <gwu@esoft.com>, + - Jean Delvare <jdelvare@suse.de> + +Description +----------- + +(This is from Analog Devices.) The ADM1025 is a complete system hardware +monitor for microprocessor-based systems, providing measurement and limit +comparison of various system parameters. Five voltage measurement inputs +are provided, for monitoring +2.5V, +3.3V, +5V and +12V power supplies and +the processor core voltage. The ADM1025 can monitor a sixth power-supply +voltage by measuring its own VCC. One input (two pins) is dedicated to a +remote temperature-sensing diode and an on-chip temperature sensor allows +ambient temperature to be monitored. + +One specificity of this chip is that the pin 11 can be hardwired in two +different manners. It can act as the +12V power-supply voltage analog +input, or as the a fifth digital entry for the VID reading (bit 4). It's +kind of strange since both are useful, and the reason for designing the +chip that way is obscure at least to me. The bit 5 of the configuration +register can be used to define how the chip is hardwired. Please note that +it is not a choice you have to make as the user. The choice was already +made by your motherboard's maker. If the configuration bit isn't set +properly, you'll have a wrong +12V reading or a wrong VID reading. The way +the driver handles that is to preserve this bit through the initialization +process, assuming that the BIOS set it up properly beforehand. If it turns +out not to be true in some cases, we'll provide a module parameter to force +modes. + +This driver also supports the ADM1025A, which differs from the ADM1025 +only in that it has "open-drain VID inputs while the ADM1025 has on-chip +100k pull-ups on the VID inputs". It doesn't make any difference for us. diff --git a/Documentation/hwmon/adm1026.rst b/Documentation/hwmon/adm1026.rst new file mode 100644 index 0000000000..66f996fa30 --- /dev/null +++ b/Documentation/hwmon/adm1026.rst @@ -0,0 +1,101 @@ +Kernel driver adm1026 +===================== + +Supported chips: + * Analog Devices ADM1026 + + Prefix: 'adm1026' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: Publicly available at the Analog Devices website + + https://www.onsemi.com/PowerSolutions/product.do?id=ADM1026 + +Authors: + - Philip Pokorny <ppokorny@penguincomputing.com> for Penguin Computing + - Justin Thiessen <jthiessen@penguincomputing.com> + +Module Parameters +----------------- + +* gpio_input: int array (min = 1, max = 17) + List of GPIO pins (0-16) to program as inputs + +* gpio_output: int array (min = 1, max = 17) + List of GPIO pins (0-16) to program as outputs + +* gpio_inverted: int array (min = 1, max = 17) + List of GPIO pins (0-16) to program as inverted + +* gpio_normal: int array (min = 1, max = 17) + List of GPIO pins (0-16) to program as normal/non-inverted + +* gpio_fan: int array (min = 1, max = 8) + List of GPIO pins (0-7) to program as fan tachs + + +Description +----------- + +This driver implements support for the Analog Devices ADM1026. Analog +Devices calls it a "complete thermal system management controller." + +The ADM1026 implements three (3) temperature sensors, 17 voltage sensors, +16 general purpose digital I/O lines, eight (8) fan speed sensors (8-bit), +an analog output and a PWM output along with limit, alarm and mask bits for +all of the above. There is even 8k bytes of EEPROM memory on chip. + +Temperatures are measured in degrees Celsius. There are two external +sensor inputs and one internal sensor. Each sensor has a high and low +limit. If the limit is exceeded, an interrupt (#SMBALERT) can be +generated. The interrupts can be masked. In addition, there are over-temp +limits for each sensor. If this limit is exceeded, the #THERM output will +be asserted. The current temperature and limits have a resolution of 1 +degree. + +Fan rotation speeds are reported in RPM (rotations per minute) but measured +in counts of a 22.5kHz internal clock. Each fan has a high limit which +corresponds to a minimum fan speed. If the limit is exceeded, an interrupt +can be generated. Each fan can be programmed to divide the reference clock +by 1, 2, 4 or 8. Not all RPM values can accurately be represented, so some +rounding is done. With a divider of 8, the slowest measurable speed of a +two pulse per revolution fan is 661 RPM. + +There are 17 voltage sensors. An alarm is triggered if the voltage has +crossed a programmable minimum or maximum limit. Note that minimum in this +case always means 'closest to zero'; this is important for negative voltage +measurements. Several inputs have integrated attenuators so they can measure +higher voltages directly. 3.3V, 5V, 12V, -12V and battery voltage all have +dedicated inputs. There are several inputs scaled to 0-3V full-scale range +for SCSI terminator power. The remaining inputs are not scaled and have +a 0-2.5V full-scale range. A 2.5V or 1.82V reference voltage is provided +for negative voltage measurements. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may already +have disappeared! Note that in the current implementation, all hardware +registers are read whenever any data is read (unless it is less than 2.0 +seconds since the last update). This means that you can easily miss +once-only alarms. + +The ADM1026 measures continuously. Analog inputs are measured about 4 +times a second. Fan speed measurement time depends on fan speed and +divisor. It can take as long as 1.5 seconds to measure all fan speeds. + +The ADM1026 has the ability to automatically control fan speed based on the +temperature sensor inputs. Both the PWM output and the DAC output can be +used to control fan speed. Usually only one of these two outputs will be +used. Write the minimum PWM or DAC value to the appropriate control +register. Then set the low temperature limit in the tmin values for each +temperature sensor. The range of control is fixed at 20 °C, and the +largest difference between current and tmin of the temperature sensors sets +the control output. See the datasheet for several example circuits for +controlling fan speed with the PWM and DAC outputs. The fan speed sensors +do not have PWM compensation, so it is probably best to control the fan +voltage from the power lead rather than on the ground lead. + +The datasheet shows an example application with VID signals attached to +GPIO lines. Unfortunately, the chip may not be connected to the VID lines +in this way. The driver assumes that the chips *is* connected this way to +get a VID voltage. diff --git a/Documentation/hwmon/adm1031.rst b/Documentation/hwmon/adm1031.rst new file mode 100644 index 0000000000..be74ec1f3e --- /dev/null +++ b/Documentation/hwmon/adm1031.rst @@ -0,0 +1,43 @@ +Kernel driver adm1031 +===================== + +Supported chips: + * Analog Devices ADM1030 + + Prefix: 'adm1030' + + Addresses scanned: I2C 0x2c to 0x2e + + Datasheet: Publicly available at the Analog Devices website + + https://www.analog.com/en/prod/0%2C2877%2CADM1030%2C00.html + + * Analog Devices ADM1031 + + Prefix: 'adm1031' + + Addresses scanned: I2C 0x2c to 0x2e + + Datasheet: Publicly available at the Analog Devices website + + https://www.analog.com/en/prod/0%2C2877%2CADM1031%2C00.html + +Authors: + - Alexandre d'Alton <alex@alexdalton.org> + - Jean Delvare <jdelvare@suse.de> + +Description +----------- + +The ADM1030 and ADM1031 are digital temperature sensors and fan controllers. +They sense their own temperature as well as the temperature of up to one +(ADM1030) or two (ADM1031) external diodes. + +All temperature values are given in degrees Celsius. Resolution is 0.5 +degree for the local temperature, 0.125 degree for the remote temperatures. + +Each temperature channel has its own high and low limits, plus a critical +limit. + +The ADM1030 monitors a single fan speed, while the ADM1031 monitors up to +two. Each fan channel has its own low speed limit. diff --git a/Documentation/hwmon/adm1177.rst b/Documentation/hwmon/adm1177.rst new file mode 100644 index 0000000000..1c85a2af92 --- /dev/null +++ b/Documentation/hwmon/adm1177.rst @@ -0,0 +1,36 @@ +Kernel driver adm1177 +===================== + +Supported chips: + * Analog Devices ADM1177 + Prefix: 'adm1177' + Datasheet: https://www.analog.com/media/en/technical-documentation/data-sheets/ADM1177.pdf + +Author: Beniamin Bia <beniamin.bia@analog.com> + + +Description +----------- + +This driver supports hardware monitoring for Analog Devices ADM1177 +Hot-Swap Controller and Digital Power Monitors with Soft Start Pin. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst +for details. + + +Sysfs entries +------------- + +The following attributes are supported. Current maxim attribute +is read-write, all other attributes are read-only. + +in0_input Measured voltage in microvolts. + +curr1_input Measured current in microamperes. +curr1_max_alarm Overcurrent alarm in microamperes. diff --git a/Documentation/hwmon/adm1266.rst b/Documentation/hwmon/adm1266.rst new file mode 100644 index 0000000000..2b877011cf --- /dev/null +++ b/Documentation/hwmon/adm1266.rst @@ -0,0 +1,37 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver adm1266 +===================== + +Supported chips: + * Analog Devices ADM1266 + Prefix: 'adm1266' + Datasheet: https://www.analog.com/media/en/technical-documentation/data-sheets/ADM1266.pdf + +Author: Alexandru Tachici <alexandru.tachici@analog.com> + + +Description +----------- + +This driver supports hardware monitoring for Analog Devices ADM1266 sequencer. + +ADM1266 is a sequencer that features voltage readback from 17 channels via an +integrated 12 bit SAR ADC, accessed using a PMBus interface. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write, history reset +attributes are write-only, all other attributes are read-only. + +inX_label "voutx" +inX_input Measured voltage. +inX_min Minimum Voltage. +inX_max Maximum voltage. +inX_min_alarm Voltage low alarm. +inX_max_alarm Voltage high alarm. diff --git a/Documentation/hwmon/adm1275.rst b/Documentation/hwmon/adm1275.rst new file mode 100644 index 0000000000..804590eeab --- /dev/null +++ b/Documentation/hwmon/adm1275.rst @@ -0,0 +1,148 @@ +Kernel driver adm1275 +===================== + +Supported chips: + + * Analog Devices ADM1075 + + Prefix: 'adm1075' + + Addresses scanned: - + + Datasheet: www.analog.com/static/imported-files/data_sheets/ADM1075.pdf + + * Analog Devices ADM1272 + + Prefix: 'adm1272' + + Addresses scanned: - + + Datasheet: www.analog.com/static/imported-files/data_sheets/ADM1272.pdf + + * Analog Devices ADM1275 + + Prefix: 'adm1275' + + Addresses scanned: - + + Datasheet: www.analog.com/static/imported-files/data_sheets/ADM1275.pdf + + * Analog Devices ADM1276 + + Prefix: 'adm1276' + + Addresses scanned: - + + Datasheet: www.analog.com/static/imported-files/data_sheets/ADM1276.pdf + + * Analog Devices ADM1278 + + Prefix: 'adm1278' + + Addresses scanned: - + + Datasheet: www.analog.com/static/imported-files/data_sheets/ADM1278.pdf + + * Analog Devices ADM1293/ADM1294 + + Prefix: 'adm1293', 'adm1294' + + Addresses scanned: - + + Datasheet: https://www.analog.com/media/en/technical-documentation/data-sheets/ADM1293_1294.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports hardware monitoring for Analog Devices ADM1075, ADM1272, +ADM1275, ADM1276, ADM1278, ADM1293, and ADM1294 Hot-Swap Controller and +Digital Power Monitors. + +ADM1075, ADM1272, ADM1275, ADM1276, ADM1278, ADM1293, and ADM1294 are hot-swap +controllers that allow a circuit board to be removed from or inserted into +a live backplane. They also feature current and voltage readback via an +integrated 12 bit analog-to-digital converter (ADC), accessed using a +PMBus interface. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +The ADM1075, unlike many other PMBus devices, does not support internal voltage +or current scaling. Reported voltages, currents, and power are raw measurements, +and will typically have to be scaled. + +The shunt value in micro-ohms can be set via device tree at compile-time. Please +refer to the Documentation/devicetree/bindings/hwmon/adi,adm1275.yaml for bindings +if the device tree is used. + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. Please see +Documentation/hwmon/pmbus.rst for details. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write, history reset +attributes are write-only, all other attributes are read-only. + +======================= ======================================================= +inX_label "vin1" or "vout1" depending on chip variant and + configuration. On ADM1075, ADM1293, and ADM1294, + vout1 reports the voltage on the VAUX pin. +inX_input Measured voltage. +inX_min Minimum Voltage. +inX_max Maximum voltage. +inX_min_alarm Voltage low alarm. +inX_max_alarm Voltage high alarm. +inX_highest Historical maximum voltage. +inX_reset_history Write any value to reset history. + +curr1_label "iout1" +curr1_input Measured current. +curr1_max Maximum current. +curr1_max_alarm Current high alarm. +curr1_lcrit Critical minimum current. Depending on the chip + configuration, either curr1_lcrit or curr1_crit is + supported, but not both. +curr1_lcrit_alarm Critical current low alarm. +curr1_crit Critical maximum current. Depending on the chip + configuration, either curr1_lcrit or curr1_crit is + supported, but not both. +curr1_crit_alarm Critical current high alarm. +curr1_highest Historical maximum current. +curr1_reset_history Write any value to reset history. + +power1_label "pin1" +power1_input Input power. +power1_input_lowest Lowest observed input power. ADM1293 and ADM1294 only. +power1_input_highest Highest observed input power. +power1_reset_history Write any value to reset history. + + Power attributes are supported on ADM1075, ADM1272, + ADM1276, ADM1293, and ADM1294. + +temp1_input Chip temperature. +temp1_max Maximum chip temperature. +temp1_max_alarm Temperature alarm. +temp1_crit Critical chip temperature. +temp1_crit_alarm Critical temperature high alarm. +temp1_highest Highest observed temperature. +temp1_reset_history Write any value to reset history. + + Temperature attributes are supported on ADM1272 and + ADM1278. +======================= ======================================================= diff --git a/Documentation/hwmon/adm9240.rst b/Documentation/hwmon/adm9240.rst new file mode 100644 index 0000000000..91063b0f4c --- /dev/null +++ b/Documentation/hwmon/adm9240.rst @@ -0,0 +1,201 @@ +Kernel driver adm9240 +===================== + +Supported chips: + + * Analog Devices ADM9240 + + Prefix: 'adm9240' + + Addresses scanned: I2C 0x2c - 0x2f + + Datasheet: Publicly available at the Analog Devices website + + http://www.analog.com/UploadedFiles/Data_Sheets/79857778ADM9240_0.pdf + + * Dallas Semiconductor DS1780 + + Prefix: 'ds1780' + + Addresses scanned: I2C 0x2c - 0x2f + + Datasheet: Publicly available at the Dallas Semiconductor (Maxim) website + + http://pdfserv.maxim-ic.com/en/ds/DS1780.pdf + + * National Semiconductor LM81 + + Prefix: 'lm81' + + Addresses scanned: I2C 0x2c - 0x2f + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/ds.cgi/LM/LM81.pdf + +Authors: + - Frodo Looijaard <frodol@dds.nl>, + - Philip Edelbrock <phil@netroedge.com>, + - Michiel Rook <michiel@grendelproject.nl>, + - Grant Coady <gcoady.lk@gmail.com> with guidance + from Jean Delvare <jdelvare@suse.de> + +Interface +--------- +The I2C addresses listed above assume BIOS has not changed the +chip MSB 5-bit address. Each chip reports a unique manufacturer +identification code as well as the chip revision/stepping level. + +Description +----------- +[From ADM9240] The ADM9240 is a complete system hardware monitor for +microprocessor-based systems, providing measurement and limit comparison +of up to four power supplies and two processor core voltages, plus +temperature, two fan speeds and chassis intrusion. Measured values can +be read out via an I2C-compatible serial System Management Bus, and values +for limit comparisons can be programmed in over the same serial bus. The +high speed successive approximation ADC allows frequent sampling of all +analog channels to ensure a fast interrupt response to any out-of-limit +measurement. + +The ADM9240, DS1780 and LM81 are register compatible, the following +details are common to the three chips. Chip differences are described +after this section. + + +Measurements +------------ +The measurement cycle + +The adm9240 driver will take a measurement reading no faster than once +each two seconds. User-space may read sysfs interface faster than the +measurement update rate and will receive cached data from the most +recent measurement. + +ADM9240 has a very fast 320us temperature and voltage measurement cycle +with independent fan speed measurement cycles counting alternating rising +edges of the fan tacho inputs. + +DS1780 measurement cycle is about once per second including fan speed. + +LM81 measurement cycle is about once per 400ms including fan speed. +The LM81 12-bit extended temperature measurement mode is not supported. + +Temperature +----------- +On chip temperature is reported as degrees Celsius as 9-bit signed data +with resolution of 0.5 degrees Celsius. High and low temperature limits +are 8-bit signed data with resolution of one degree Celsius. + +Temperature alarm is asserted once the temperature exceeds the high limit, +and is cleared when the temperature falls below the temp1_max_hyst value. + +Fan Speed +--------- +Two fan tacho inputs are provided, the ADM9240 gates an internal 22.5kHz +clock via a divider to an 8-bit counter. Fan speed (rpm) is calculated by: + +rpm = (22500 * 60) / (count * divider) + +Automatic fan clock divider + + * User sets 0 to fan_min limit + + - low speed alarm is disabled + - fan clock divider not changed + - auto fan clock adjuster enabled for valid fan speed reading + + * User sets fan_min limit too low + + - low speed alarm is enabled + - fan clock divider set to max + - fan_min set to register value 254 which corresponds + to 664 rpm on adm9240 + - low speed alarm will be asserted if fan speed is + less than minimum measurable speed + - auto fan clock adjuster disabled + + * User sets reasonable fan speed + + - low speed alarm is enabled + - fan clock divider set to suit fan_min + - auto fan clock adjuster enabled: adjusts fan_min + + * User sets unreasonably high low fan speed limit + + - resolution of the low speed limit may be reduced + - alarm will be asserted + - auto fan clock adjuster enabled: adjusts fan_min + + * fan speed may be displayed as zero until the auto fan clock divider + adjuster brings fan speed clock divider back into chip measurement + range, this will occur within a few measurement cycles. + +Analog Output +------------- +An analog output provides a 0 to 1.25 volt signal intended for an external +fan speed amplifier circuit. The analog output is set to maximum value on +power up or reset. This doesn't do much on the test Intel SE440BX-2. + +Voltage Monitor + +^^^^^^^^^^^^^^^ + +Voltage (IN) measurement is internally scaled: + + === =========== =========== ========= ========== + nr label nominal maximum resolution + mV mV mV + === =========== =========== ========= ========== + 0 +2.5V 2500 3320 13.0 + 1 Vccp1 2700 3600 14.1 + 2 +3.3V 3300 4380 17.2 + 3 +5V 5000 6640 26.0 + 4 +12V 12000 15940 62.5 + 5 Vccp2 2700 3600 14.1 + === =========== =========== ========= ========== + +The reading is an unsigned 8-bit value, nominal voltage measurement is +represented by a reading of 192, being 3/4 of the measurement range. + +An alarm is asserted for any voltage going below or above the set limits. + +The driver reports and accepts voltage limits scaled to the above table. + +VID Monitor +----------- +The chip has five inputs to read the 5-bit VID and reports the mV value +based on detected CPU type. + +Chassis Intrusion +----------------- +An alarm is asserted when the CI pin goes active high. The ADM9240 +Datasheet has an example of an external temperature sensor driving +this pin. On an Intel SE440BX-2 the Chassis Intrusion header is +connected to a normally open switch. + +The ADM9240 provides an internal open drain on this line, and may output +a 20 ms active low pulse to reset an external Chassis Intrusion latch. + +Clear the CI latch by writing value 0 to the sysfs intrusion0_alarm file. + +Alarm flags reported as 16-bit word + + === ============= ========================== + bit label comment + === ============= ========================== + 0 +2.5 V_Error high or low limit exceeded + 1 VCCP_Error high or low limit exceeded + 2 +3.3 V_Error high or low limit exceeded + 3 +5 V_Error high or low limit exceeded + 4 Temp_Error temperature error + 6 FAN1_Error fan low limit exceeded + 7 FAN2_Error fan low limit exceeded + 8 +12 V_Error high or low limit exceeded + 9 VCCP2_Error high or low limit exceeded + 12 Chassis_Error CI pin went high + === ============= ========================== + +Remaining bits are reserved and thus undefined. It is important to note +that alarm bits may be cleared on read, user-space may latch alarms and +provide the end-user with a method to clear alarm memory. diff --git a/Documentation/hwmon/ads7828.rst b/Documentation/hwmon/ads7828.rst new file mode 100644 index 0000000000..b830b490cf --- /dev/null +++ b/Documentation/hwmon/ads7828.rst @@ -0,0 +1,65 @@ +Kernel driver ads7828 +===================== + +Supported chips: + + * Texas Instruments/Burr-Brown ADS7828 + + Prefix: 'ads7828' + + Datasheet: Publicly available at the Texas Instruments website: + + http://focus.ti.com/lit/ds/symlink/ads7828.pdf + + * Texas Instruments ADS7830 + + Prefix: 'ads7830' + + Datasheet: Publicly available at the Texas Instruments website: + + http://focus.ti.com/lit/ds/symlink/ads7830.pdf + +Authors: + - Steve Hardy <shardy@redhat.com> + - Vivien Didelot <vivien.didelot@savoirfairelinux.com> + - Guillaume Roguez <guillaume.roguez@savoirfairelinux.com> + +Platform data +------------- + +The ads7828 driver accepts an optional ads7828_platform_data structure (defined +in include/linux/platform_data/ads7828.h). The structure fields are: + +* diff_input: (bool) Differential operation + set to true for differential mode, false for default single ended mode. + +* ext_vref: (bool) External reference + set to true if it operates with an external reference, false for default + internal reference. + +* vref_mv: (unsigned int) Voltage reference + if using an external reference, set this to the reference voltage in mV, + otherwise it will default to the internal value (2500mV). This value will be + bounded with limits accepted by the chip, described in the datasheet. + + If no structure is provided, the configuration defaults to single ended + operation and internal voltage reference (2.5V). + +Description +----------- + +This driver implements support for the Texas Instruments ADS7828 and ADS7830. + +The ADS7828 device is a 12-bit 8-channel A/D converter, while the ADS7830 does +8-bit sampling. + +It can operate in single ended mode (8 +ve inputs) or in differential mode, +where 4 differential pairs can be measured. + +The chip also has the facility to use an external voltage reference. This +may be required if your hardware supplies the ADS7828 from a 5V supply, see +the datasheet for more details. + +There is no reliable way to identify this chip, so the driver will not scan +some addresses to try to auto-detect it. That means that you will have to +statically declare the device in the platform support code. diff --git a/Documentation/hwmon/adt7410.rst b/Documentation/hwmon/adt7410.rst new file mode 100644 index 0000000000..3f5a43561b --- /dev/null +++ b/Documentation/hwmon/adt7410.rst @@ -0,0 +1,94 @@ +Kernel driver adt7410 +===================== + +Supported chips: + + * Analog Devices ADT7410 + + Prefix: 'adt7410' + + Addresses scanned: None + + Datasheet: Publicly available at the Analog Devices website + + https://www.analog.com/static/imported-files/data_sheets/ADT7410.pdf + * Analog Devices ADT7420 + + Prefix: 'adt7420' + + Addresses scanned: None + + Datasheet: Publicly available at the Analog Devices website + + https://www.analog.com/static/imported-files/data_sheets/ADT7420.pdf + + * Analog Devices ADT7310 + + Prefix: 'adt7310' + + Addresses scanned: None + + Datasheet: Publicly available at the Analog Devices website + + https://www.analog.com/static/imported-files/data_sheets/ADT7310.pdf + + * Analog Devices ADT7320 + + Prefix: 'adt7320' + + Addresses scanned: None + + Datasheet: Publicly available at the Analog Devices website + + https://www.analog.com/static/imported-files/data_sheets/ADT7320.pdf + +Author: Hartmut Knaack <knaack.h@gmx.de> + +Description +----------- + +The ADT7310/ADT7410 is a temperature sensor with rated temperature range of +-55°C to +150°C. It has a high accuracy of +/-0.5°C and can be operated at a +resolution of 13 bits (0.0625°C) or 16 bits (0.0078°C). The sensor provides an +INT pin to indicate that a minimum or maximum temperature set point has been +exceeded, as well as a critical temperature (CT) pin to indicate that the +critical temperature set point has been exceeded. Both pins can be set up with a +common hysteresis of 0°C - 15°C and a fault queue, ranging from 1 to 4 events. +Both pins can individually set to be active-low or active-high, while the whole +device can either run in comparator mode or interrupt mode. The ADT7410 supports +continuous temperature sampling, as well as sampling one temperature value per +second or even just get one sample on demand for power saving. Besides, it can +completely power down its ADC, if power management is required. + +The ADT7320/ADT7420 is register compatible, the only differences being the +package, a slightly narrower operating temperature range (-40°C to +150°C), and +a better accuracy (0.25°C instead of 0.50°C.) + +The difference between the ADT7310/ADT7320 and ADT7410/ADT7420 is the control +interface, the ADT7310 and ADT7320 use SPI while the ADT7410 and ADT7420 use +I2C. + +Configuration Notes +------------------- + +Since the device uses one hysteresis value, which is an offset to minimum, +maximum and critical temperature, it can only be set for temp#_max_hyst. +However, temp#_min_hyst and temp#_crit_hyst show their corresponding +hysteresis. +The device is set to 16 bit resolution and comparator mode. + +sysfs-Interface +--------------- + +======================== ==================================================== +temp#_input temperature input +temp#_min temperature minimum setpoint +temp#_max temperature maximum setpoint +temp#_crit critical temperature setpoint +temp#_min_hyst hysteresis for temperature minimum (read-only) +temp#_max_hyst hysteresis for temperature maximum (read/write) +temp#_crit_hyst hysteresis for critical temperature (read-only) +temp#_min_alarm temperature minimum alarm flag +temp#_max_alarm temperature maximum alarm flag +temp#_crit_alarm critical temperature alarm flag +======================== ==================================================== diff --git a/Documentation/hwmon/adt7411.rst b/Documentation/hwmon/adt7411.rst new file mode 100644 index 0000000000..57ad16fb21 --- /dev/null +++ b/Documentation/hwmon/adt7411.rst @@ -0,0 +1,50 @@ +Kernel driver adt7411 +===================== + +Supported chips: + + * Analog Devices ADT7411 + + Prefix: 'adt7411' + + Addresses scanned: 0x48, 0x4a, 0x4b + + Datasheet: Publicly available at the Analog Devices website + +Author: Wolfram Sang (based on adt7470 by Darrick J. Wong) + +Description +----------- + +This driver implements support for the Analog Devices ADT7411 chip. There may +be other chips that implement this interface. + +The ADT7411 can use an I2C/SMBus compatible 2-wire interface or an +SPI-compatible 4-wire interface. It provides a 10-bit analog to digital +converter which measures 1 temperature, vdd and 8 input voltages. It has an +internal temperature sensor, but an external one can also be connected (one +loses 2 inputs then). There are high- and low-limit registers for all inputs. + +Check the datasheet for details. + +sysfs-Interface +--------------- + +================ ================= +in0_input vdd voltage input +in[1-8]_input analog 1-8 input +temp1_input temperature input +================ ================= + +Besides standard interfaces, this driver adds (0 = off, 1 = on): + + ============== ======================================================= + adc_ref_vdd Use vdd as reference instead of 2.25 V + fast_sampling Sample at 22.5 kHz instead of 1.4 kHz, but drop filters + no_average Turn off averaging over 16 samples + ============== ======================================================= + +Notes +----- + +SPI, external temperature sensor and limit registers are not supported yet. diff --git a/Documentation/hwmon/adt7462.rst b/Documentation/hwmon/adt7462.rst new file mode 100644 index 0000000000..139e196961 --- /dev/null +++ b/Documentation/hwmon/adt7462.rst @@ -0,0 +1,70 @@ +Kernel driver adt7462 +===================== + +Supported chips: + + * Analog Devices ADT7462 + + Prefix: 'adt7462' + + Addresses scanned: I2C 0x58, 0x5C + + Datasheet: Publicly available at the Analog Devices website + +Author: Darrick J. Wong + +Description +----------- + +This driver implements support for the Analog Devices ADT7462 chip family. + +This chip is a bit of a beast. It has 8 counters for measuring fan speed. It +can also measure 13 voltages or 4 temperatures, or various combinations of the +two. See the chip documentation for more details about the exact set of +configurations. This driver does not allow one to configure the chip; that is +left to the system designer. + +A sophisticated control system for the PWM outputs is designed into the ADT7462 +that allows fan speed to be adjusted automatically based on any of the three +temperature sensors. Each PWM output is individually adjustable and +programmable. Once configured, the ADT7462 will adjust the PWM outputs in +response to the measured temperatures without further host intervention. This +feature can also be disabled for manual control of the PWM's. + +Each of the measured inputs (voltage, temperature, fan speed) has +corresponding high/low limit values. The ADT7462 will signal an ALARM if +any measured value exceeds either limit. + +The ADT7462 samples all inputs continuously. The driver will not read +the registers more often than once every other second. Further, +configuration data is only read once per minute. + +Special Features +---------------- + +The ADT7462 have a 10-bit ADC and can therefore measure temperatures +with 0.25 degC resolution. + +The Analog Devices datasheet is very detailed and describes a procedure for +determining an optimal configuration for the automatic PWM control. + +The driver will report sensor labels when it is able to determine that +information from the configuration registers. + +Configuration Notes +------------------- + +Besides standard interfaces driver adds the following: + +* PWM Control + +* pwm#_auto_point1_pwm and temp#_auto_point1_temp and +* pwm#_auto_point2_pwm and temp#_auto_point2_temp - + + - point1: Set the pwm speed at a lower temperature bound. + - point2: Set the pwm speed at a higher temperature bound. + +The ADT7462 will scale the pwm between the lower and higher pwm speed when +the temperature is between the two temperature boundaries. PWM values range +from 0 (off) to 255 (full speed). Fan speed will be set to maximum when the +temperature sensor associated with the PWM control exceeds temp#_max. diff --git a/Documentation/hwmon/adt7470.rst b/Documentation/hwmon/adt7470.rst new file mode 100644 index 0000000000..d225f816e9 --- /dev/null +++ b/Documentation/hwmon/adt7470.rst @@ -0,0 +1,94 @@ +Kernel driver adt7470 +===================== + +Supported chips: + + * Analog Devices ADT7470 + + Prefix: 'adt7470' + + Addresses scanned: I2C 0x2C, 0x2E, 0x2F + + Datasheet: Publicly available at the Analog Devices website + +Author: Darrick J. Wong + +Description +----------- + +This driver implements support for the Analog Devices ADT7470 chip. There may +be other chips that implement this interface. + +The ADT7470 uses the 2-wire interface compatible with the SMBus 2.0 +specification. Using an analog to digital converter it measures up to ten (10) +external temperatures. It has four (4) 16-bit counters for measuring fan speed. +There are four (4) PWM outputs that can be used to control fan speed. + +A sophisticated control system for the PWM outputs is designed into the ADT7470 +that allows fan speed to be adjusted automatically based on any of the ten +temperature sensors. Each PWM output is individually adjustable and +programmable. Once configured, the ADT7470 will adjust the PWM outputs in +response to the measured temperatures with further host intervention. This +feature can also be disabled for manual control of the PWM's. + +Each of the measured inputs (temperature, fan speed) has corresponding high/low +limit values. The ADT7470 will signal an ALARM if any measured value exceeds +either limit. + +The ADT7470 samples all inputs continuously. A kernel thread is started up for +the purpose of periodically querying the temperature sensors, thus allowing the +automatic fan pwm control to set the fan speed. The driver will not read the +registers more often than once every 5 seconds. Further, configuration data is +only read once per minute. + +Special Features +---------------- + +The ADT7470 has a 8-bit ADC and is capable of measuring temperatures with 1 +degC resolution. + +The Analog Devices datasheet is very detailed and describes a procedure for +determining an optimal configuration for the automatic PWM control. + +Configuration Notes +------------------- + +Besides standard interfaces driver adds the following: + +* PWM Control + +* pwm#_auto_point1_pwm and pwm#_auto_point1_temp and +* pwm#_auto_point2_pwm and pwm#_auto_point2_temp - + + - point1: Set the pwm speed at a lower temperature bound. + - point2: Set the pwm speed at a higher temperature bound. + +The ADT7470 will scale the pwm between the lower and higher pwm speed when +the temperature is between the two temperature boundaries. PWM values range +from 0 (off) to 255 (full speed). Fan speed will be set to maximum when the +temperature sensor associated with the PWM control exceeds +pwm#_auto_point2_temp. + +The driver also allows control of the PWM frequency: + +* pwm1_freq + +The PWM frequency is rounded to the nearest one of: + +* 11.0 Hz +* 14.7 Hz +* 22.1 Hz +* 29.4 Hz +* 35.3 Hz +* 44.1 Hz +* 58.8 Hz +* 88.2 Hz +* 1.4 kHz +* 22.5 kHz + +Notes +----- + +The temperature inputs no longer need to be read periodically from userspace in +order for the automatic pwm algorithm to run. This was the case for earlier +versions of the driver. diff --git a/Documentation/hwmon/adt7475.rst b/Documentation/hwmon/adt7475.rst new file mode 100644 index 0000000000..ef3ea1ea9b --- /dev/null +++ b/Documentation/hwmon/adt7475.rst @@ -0,0 +1,156 @@ +Kernel driver adt7475 +===================== + +Supported chips: + + * Analog Devices ADT7473 + + Prefix: 'adt7473' + + Addresses scanned: I2C 0x2C, 0x2D, 0x2E + + Datasheet: Publicly available at the On Semiconductors website + + * Analog Devices ADT7475 + + Prefix: 'adt7475' + + Addresses scanned: I2C 0x2E + + Datasheet: Publicly available at the On Semiconductors website + + * Analog Devices ADT7476 + + Prefix: 'adt7476' + + Addresses scanned: I2C 0x2C, 0x2D, 0x2E + + Datasheet: Publicly available at the On Semiconductors website + + * Analog Devices ADT7490 + + Prefix: 'adt7490' + + Addresses scanned: I2C 0x2C, 0x2D, 0x2E + + Datasheet: Publicly available at the On Semiconductors website + +Authors: + - Jordan Crouse + - Hans de Goede + - Darrick J. Wong (documentation) + - Jean Delvare + + +Description +----------- + +This driver implements support for the Analog Devices ADT7473, ADT7475, +ADT7476 and ADT7490 chip family. The ADT7473 and ADT7475 differ only in +minor details. The ADT7476 has additional features, including extra voltage +measurement inputs and VID support. The ADT7490 also has additional +features, including extra voltage measurement inputs and PECI support. All +the supported chips will be collectively designed by the name "ADT747x" in +the rest of this document. + +The ADT747x uses the 2-wire interface compatible with the SMBus 2.0 +specification. Using an analog to digital converter it measures three (3) +temperatures and two (2) or more voltages. It has four (4) 16-bit counters +for measuring fan speed. There are three (3) PWM outputs that can be used +to control fan speed. + +A sophisticated control system for the PWM outputs is designed into the +ADT747x that allows fan speed to be adjusted automatically based on any of the +three temperature sensors. Each PWM output is individually adjustable and +programmable. Once configured, the ADT747x will adjust the PWM outputs in +response to the measured temperatures without further host intervention. +This feature can also be disabled for manual control of the PWM's. + +Each of the measured inputs (voltage, temperature, fan speed) has +corresponding high/low limit values. The ADT747x will signal an ALARM if +any measured value exceeds either limit. + +The ADT747x samples all inputs continuously. The driver will not read +the registers more often than once every other second. Further, +configuration data is only read once per minute. + +Chip Differences Summary +------------------------ + +ADT7473: + * 2 voltage inputs + * system acoustics optimizations (not implemented) + +ADT7475: + * 2 voltage inputs + +ADT7476: + * 5 voltage inputs + * VID support + +ADT7490: + * 6 voltage inputs + * 1 Imon input (not implemented) + * PECI support (not implemented) + * 2 GPIO pins (not implemented) + * system acoustics optimizations (not implemented) + +Sysfs Mapping +------------- + +==== =========== =========== ========= ========== +in ADT7490 ADT7476 ADT7475 ADT7473 +==== =========== =========== ========= ========== +in0 2.5VIN (22) 2.5VIN (22) - - +in1 VCCP (23) VCCP (23) VCCP (14) VCCP (14) +in2 VCC (4) VCC (4) VCC (4) VCC (3) +in3 5VIN (20) 5VIN (20) +in4 12VIN (21) 12VIN (21) +in5 VTT (8) +==== =========== =========== ========= ========== + +Special Features +---------------- + +The ADT747x has a 10-bit ADC and can therefore measure temperatures +with a resolution of 0.25 degree Celsius. Temperature readings can be +configured either for two's complement format or "Offset 64" format, +wherein 64 is subtracted from the raw value to get the temperature value. + +The datasheet is very detailed and describes a procedure for determining +an optimal configuration for the automatic PWM control. + +Fan Speed Control +----------------- + +The driver exposes two trip points per PWM channel. + +- point1: Set the PWM speed at the lower temperature bound +- point2: Set the PWM speed at the higher temperature bound + +The ADT747x will scale the PWM linearly between the lower and higher PWM +speed when the temperature is between the two temperature boundaries. +Temperature boundaries are associated to temperature channels rather than +PWM outputs, and a given PWM output can be controlled by several temperature +channels. As a result, the ADT747x may compute more than one PWM value +for a channel at a given time, in which case the maximum value (fastest +fan speed) is applied. PWM values range from 0 (off) to 255 (full speed). + +Fan speed may be set to maximum when the temperature sensor associated with +the PWM control exceeds temp#_max. + +At Tmin - hysteresis the PWM output can either be off (0% duty cycle) or at the +minimum (i.e. auto_point1_pwm). This behaviour can be configured using the +`pwm[1-*]_stall_disable sysfs attribute`. A value of 0 means the fans will shut +off. A value of 1 means the fans will run at auto_point1_pwm. + +The responsiveness of the ADT747x to temperature changes can be configured. +This allows smoothing of the fan speed transition. To set the transition time +set the value in ms in the `temp[1-*]_smoothing` sysfs attribute. + +Notes +----- + +The nVidia binary driver presents an ADT7473 chip via an on-card i2c bus. +Unfortunately, they fail to set the i2c adapter class, so this driver may +fail to find the chip until the nvidia driver is patched. diff --git a/Documentation/hwmon/aht10.rst b/Documentation/hwmon/aht10.rst new file mode 100644 index 0000000000..213644b4ec --- /dev/null +++ b/Documentation/hwmon/aht10.rst @@ -0,0 +1,56 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver aht10 +===================== + +Supported chips: + + * Aosong AHT10/AHT20 + + Prefix: 'aht10' + + Addresses scanned: None + + Datasheet(AHT10): + + Chinese: http://www.aosong.com/userfiles/files/media/AHT10%E4%BA%A7%E5%93%81%E6%89%8B%E5%86%8C%20A3%2020201210.pdf + English: https://server4.eca.ir/eshop/AHT10/Aosong_AHT10_en_draft_0c.pdf + + Datasheet(AHT20): + + English: http://www.aosong.com/userfiles/files/media/Data%20Sheet%20AHT20.pdf + +Author: Johannes Cornelis Draaijer <jcdra1@gmail.com> + + +Description +----------- + +The AHT10/AHT20 is a Temperature and Humidity sensor + +The address of this i2c device may only be 0x38 + +Special Features +---------------- + +AHT20 has additional CRC8 support which is sent as the last byte of the sensor +values. + +Usage Notes +----------- + +This driver does not probe for AHT10/ATH20 devices, as there is no reliable +way to determine if an i2c chip is or isn't an AHT10/AHT20. The device has +to be instantiated explicitly with the address 0x38. See +Documentation/i2c/instantiating-devices.rst for details. + +Sysfs entries +------------- + +=============== ============================================ +temp1_input Measured temperature in millidegrees Celsius +humidity1_input Measured humidity in %H +update_interval The minimum interval for polling the sensor, + in milliseconds. Writable. Must be at + least 2000. +=============== ============================================ diff --git a/Documentation/hwmon/amc6821.rst b/Documentation/hwmon/amc6821.rst new file mode 100644 index 0000000000..5ddb2849da --- /dev/null +++ b/Documentation/hwmon/amc6821.rst @@ -0,0 +1,108 @@ +Kernel driver amc6821 +===================== + +Supported chips: + + Texas Instruments AMC6821 + + Prefix: 'amc6821' + + Addresses scanned: 0x18, 0x19, 0x1a, 0x2c, 0x2d, 0x2e, 0x4c, 0x4d, 0x4e + + Datasheet: http://focus.ti.com/docs/prod/folders/print/amc6821.html + +Authors: + Tomaz Mertelj <tomaz.mertelj@guest.arnes.si> + + +Description +----------- + +This driver implements support for the Texas Instruments amc6821 chip. +The chip has one on-chip and one remote temperature sensor and one pwm fan +regulator. +The pwm can be controlled either from software or automatically. + +The driver provides the following sensor accesses in sysfs: + +======================= == =============================================== +temp1_input ro on-chip temperature +temp1_min rw " +temp1_max rw " +temp1_crit rw " +temp1_min_alarm ro " +temp1_max_alarm ro " +temp1_crit_alarm ro " + +temp2_input ro remote temperature +temp2_min rw " +temp2_max rw " +temp2_crit rw " +temp2_min_alarm ro " +temp2_max_alarm ro " +temp2_crit_alarm ro " +temp2_fault ro " + +fan1_input ro tachometer speed +fan1_min rw " +fan1_max rw " +fan1_fault ro " +fan1_div rw Fan divisor can be either 2 or 4. + +pwm1 rw pwm1 +pwm1_enable rw regulator mode, 1=open loop, 2=fan controlled + by remote temperature, 3=fan controlled by + combination of the on-chip temperature and + remote-sensor temperature, +pwm1_auto_channels_temp ro 1 if pwm_enable==2, 3 if pwm_enable==3 +pwm1_auto_point1_pwm ro Hardwired to 0, shared for both + temperature channels. +pwm1_auto_point2_pwm rw This value is shared for both temperature + channels. +pwm1_auto_point3_pwm rw Hardwired to 255, shared for both + temperature channels. + +temp1_auto_point1_temp ro Hardwired to temp2_auto_point1_temp + which is rw. Below this temperature fan stops. +temp1_auto_point2_temp rw The low-temperature limit of the proportional + range. Below this temperature + pwm1 = pwm1_auto_point2_pwm. It can go from + 0 degree C to 124 degree C in steps of + 4 degree C. Read it out after writing to get + the actual value. +temp1_auto_point3_temp rw Above this temperature fan runs at maximum + speed. It can go from temp1_auto_point2_temp. + It can only have certain discrete values + which depend on temp1_auto_point2_temp and + pwm1_auto_point2_pwm. Read it out after + writing to get the actual value. + +temp2_auto_point1_temp rw Must be between 0 degree C and 63 degree C and + it defines the passive cooling temperature. + Below this temperature the fan stops in + the closed loop mode. +temp2_auto_point2_temp rw The low-temperature limit of the proportional + range. Below this temperature + pwm1 = pwm1_auto_point2_pwm. It can go from + 0 degree C to 124 degree C in steps + of 4 degree C. + +temp2_auto_point3_temp rw Above this temperature fan runs at maximum + speed. It can only have certain discrete + values which depend on temp2_auto_point2_temp + and pwm1_auto_point2_pwm. Read it out after + writing to get actual value. +======================= == =============================================== + + +Module parameters +----------------- + +If your board has a BIOS that initializes the amc6821 correctly, you should +load the module with: init=0. + +If your board BIOS doesn't initialize the chip, or you want +different settings, you can set the following parameters: + +- init=1, +- pwminv: 0 default pwm output, 1 inverts pwm output. diff --git a/Documentation/hwmon/aquacomputer_d5next.rst b/Documentation/hwmon/aquacomputer_d5next.rst new file mode 100644 index 0000000000..94dc2d93d1 --- /dev/null +++ b/Documentation/hwmon/aquacomputer_d5next.rst @@ -0,0 +1,109 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver aquacomputer-d5next +================================= + +Supported devices: + +* Aquacomputer Aquaero 5/6 fan controllers +* Aquacomputer D5 Next watercooling pump +* Aquacomputer Farbwerk RGB controller +* Aquacomputer Farbwerk 360 RGB controller +* Aquacomputer Octo fan controller +* Aquacomputer Quadro fan controller +* Aquacomputer High Flow Next sensor +* Aquacomputer Leakshield leak prevention system +* Aquacomputer Aquastream XT watercooling pump +* Aquacomputer Aquastream Ultimate watercooling pump +* Aquacomputer Poweradjust 3 fan controller + +Author: Aleksa Savic + +Description +----------- + +This driver exposes hardware sensors of listed Aquacomputer devices, which +communicate through proprietary USB HID protocols. + +The Aquaero devices expose eight physical, eight virtual and four calculated +virtual temperature sensors, as well as two flow sensors. The fans expose their +speed (in RPM), power, voltage and current. Temperature offsets and fan speeds +can be controlled. + +For the D5 Next pump, available sensors are pump and fan speed, power, voltage +and current, as well as coolant temperature and eight virtual temp sensors. Also +available through debugfs are the serial number, firmware version and power-on +count. Attaching a fan to it is optional and allows it to be controlled using +temperature curves directly from the pump. If it's not connected, the fan-related +sensors will report zeroes. + +The pump can be configured either through software or via its physical +interface. Configuring the pump through this driver is not implemented, as it +seems to require sending it a complete configuration. That includes addressable +RGB LEDs, for which there is no standard sysfs interface. Thus, that task is +better suited for userspace tools. + +The Octo exposes four physical and sixteen virtual temperature sensors, as well as +eight PWM controllable fans, along with their speed (in RPM), power, voltage and +current. + +The Quadro exposes four physical and sixteen virtual temperature sensors, a flow +sensor and four PWM controllable fans, along with their speed (in RPM), power, +voltage and current. Flow sensor pulses are also available. + +The Farbwerk and Farbwerk 360 expose four temperature sensors. Additionally, +sixteen virtual temperature sensors of the Farbwerk 360 are exposed. + +The High Flow Next exposes +5V voltages, water quality, conductivity and flow readings. +A temperature sensor can be connected to it, in which case it provides its reading +and an estimation of the dissipated/absorbed power in the liquid cooling loop. + +The Leakshield exposes two temperature sensors and coolant pressure (current, min, max and +target readings). It also exposes the estimated reservoir volume and how much of it is +filled with coolant. Pump RPM and flow can be set to enhance on-device calculations, +but this is not yet implemented here. + +The Aquastream XT pump exposes temperature readings for the coolant, external sensor +and fan IC. It also exposes pump and fan speeds (in RPM), voltages, as well as pump +current. + +The Aquastream Ultimate pump exposes coolant temp and an external temp sensor, along +with speed, power, voltage and current of both the pump and optionally connected fan. +It also exposes pressure and flow speed readings. + +The Poweradjust 3 controller exposes a single external temperature sensor. + +Depending on the device, not all sysfs and debugfs entries will be available. +Writing to virtual temperature sensors is not currently supported. + +Usage notes +----------- + +The devices communicate via HID reports. The driver is loaded automatically by +the kernel and supports hotswapping. + +Sysfs entries +------------- + +================ ============================================================== +temp[1-20]_input Physical/virtual temperature sensors (in millidegrees Celsius) +temp[1-8]_offset Temperature sensor correction offset (in millidegrees Celsius) +fan[1-8]_input Pump/fan speed (in RPM) / Flow speed (in dL/h) +fan1_min Minimal fan speed (in RPM) +fan1_max Maximal fan speed (in RPM) +fan1_target Target fan speed (in RPM) +fan5_pulses Quadro flow sensor pulses +power[1-8]_input Pump/fan power (in micro Watts) +in[0-7]_input Pump/fan voltage (in milli Volts) +curr[1-8]_input Pump/fan current (in milli Amperes) +pwm[1-8] Fan PWM (0 - 255) +================ ============================================================== + +Debugfs entries +--------------- + +================ ================================================= +serial_number Serial number of the device +firmware_version Version of installed firmware +power_cycles Count of how many times the device was powered on +================ ================================================= diff --git a/Documentation/hwmon/asb100.rst b/Documentation/hwmon/asb100.rst new file mode 100644 index 0000000000..c2d5f97085 --- /dev/null +++ b/Documentation/hwmon/asb100.rst @@ -0,0 +1,73 @@ +Kernel driver asb100 +==================== + +Supported Chips: + + * Asus ASB100 and ASB100-A "Bach" + + Prefix: 'asb100' + + Addresses scanned: I2C 0x2d + + Datasheet: none released + +Author: Mark M. Hoffman <mhoffman@lightlink.com> + +Description +----------- + +This driver implements support for the Asus ASB100 and ASB100-A "Bach". +These are custom ASICs available only on Asus mainboards. Asus refuses to +supply a datasheet for these chips. Thanks go to many people who helped +investigate their hardware, including: + +Vitaly V. Bursov +Alexander van Kaam (author of MBM for Windows) +Bertrik Sikken + +The ASB100 implements seven voltage sensors, three fan rotation speed +sensors, four temperature sensors, VID lines and alarms. In addition to +these, the ASB100-A also implements a single PWM controller for fans 2 and +3 (i.e. one setting controls both.) If you have a plain ASB100, the PWM +controller will simply not work (or maybe it will for you... it doesn't for +me). + +Temperatures are measured and reported in degrees Celsius. + +Fan speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. + +Voltage sensors (also known as IN sensors) report values in volts. + +The VID lines encode the core voltage value: the voltage level your +processor should work with. This is hardcoded by the mainboard and/or +processor itself. It is a value in volts. + +Alarms: (TODO question marks indicate may or may not work) + +- 0x0001 => in0 (?) +- 0x0002 => in1 (?) +- 0x0004 => in2 +- 0x0008 => in3 +- 0x0010 => temp1 [1]_ +- 0x0020 => temp2 +- 0x0040 => fan1 +- 0x0080 => fan2 +- 0x0100 => in4 +- 0x0200 => in5 (?) [2]_ +- 0x0400 => in6 (?) [2]_ +- 0x0800 => fan3 +- 0x1000 => chassis switch +- 0x2000 => temp3 + +.. [1] This alarm will only trigger if the hysteresis value is 127C. + I.e. it behaves the same as w83781d. + +.. [2] The min and max registers for these values appear to + be read-only or otherwise stuck at 0x00. + +TODO: + * Experiment with fan divisors > 8. + * Experiment with temp. sensor types. + * Are there really 13 voltage inputs? Probably not... + * Cleanups, no doubt... diff --git a/Documentation/hwmon/asc7621.rst b/Documentation/hwmon/asc7621.rst new file mode 100644 index 0000000000..b5a9fad0f1 --- /dev/null +++ b/Documentation/hwmon/asc7621.rst @@ -0,0 +1,326 @@ +===================== +Kernel driver asc7621 +===================== + +Supported chips: + + Andigilog aSC7621 and aSC7621a + + Prefix: 'asc7621' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: http://www.fairview5.com/linux/asc7621/asc7621.pdf + +Author: + George Joseph + +Description provided by Dave Pivin @ Andigilog: + +Andigilog has both the PECI and pre-PECI versions of the Heceta-6, as +Intel calls them. Heceta-6e has high frequency PWM and Heceta-6p has +added PECI and a 4th thermal zone. The Andigilog aSC7611 is the +Heceta-6e part and aSC7621 is the Heceta-6p part. They are both in +volume production, shipping to Intel and their subs. + +We have enhanced both parts relative to the governing Intel +specification. First enhancement is temperature reading resolution. We +have used registers below 20h for vendor-specific functions in addition +to those in the Intel-specified vendor range. + +Our conversion process produces a result that is reported as two bytes. +The fan speed control uses this finer value to produce a "step-less" fan +PWM output. These two bytes are "read-locked" to guarantee that once a +high or low byte is read, the other byte is locked-in until after the +next read of any register. So to get an atomic reading, read high or low +byte, then the very next read should be the opposite byte. Our data +sheet says 10-bits of resolution, although you may find the lower bits +are active, they are not necessarily reliable or useful externally. We +chose not to mask them. + +We employ significant filtering that is user tunable as described in the +data sheet. Our temperature reports and fan PWM outputs are very smooth +when compared to the competition, in addition to the higher resolution +temperature reports. The smoother PWM output does not require user +intervention. + +We offer GPIO features on the former VID pins. These are open-drain +outputs or inputs and may be used as general purpose I/O or as alarm +outputs that are based on temperature limits. These are in 19h and 1Ah. + +We offer flexible mapping of temperature readings to thermal zones. Any +temperature may be mapped to any zone, which has a default assignment +that follows Intel's specs. + +Since there is a fan to zone assignment that allows for the "hotter" of +a set of zones to control the PWM of an individual fan, but there is no +indication to the user, we have added an indicator that shows which zone +is currently controlling the PWM for a given fan. This is in register +00h. + +Both remote diode temperature readings may be given an offset value such +that the reported reading as well as the temperature used to determine +PWM may be offset for system calibration purposes. + +PECI Extended configuration allows for having more than two domains per +PECI address and also provides an enabling function for each PECI +address. One could use our flexible zone assignment to have a zone +assigned to up to 4 PECI addresses. This is not possible in the default +Intel configuration. This would be useful in multi-CPU systems with +individual fans on each that would benefit from individual fan control. +This is in register 0Eh. + +The tachometer measurement system is flexible and able to adapt to many +fan types. We can also support pulse-stretched PWM so that 3-wire fans +may be used. These characteristics are in registers 04h to 07h. + +Finally, we have added a tach disable function that turns off the tach +measurement system for individual tachs in order to save power. That is +in register 75h. + +-------------------------------------------------------------------------- + +aSC7621 Product Description +=========================== + +The aSC7621 has a two wire digital interface compatible with SMBus 2.0. +Using a 10-bit ADC, the aSC7621 measures the temperature of two remote diode +connected transistors as well as its own die. Support for Platform +Environmental Control Interface (PECI) is included. + +Using temperature information from these four zones, an automatic fan speed +control algorithm is employed to minimize acoustic impact while achieving +recommended CPU temperature under varying operational loads. + +To set fan speed, the aSC7621 has three independent pulse width modulation +(PWM) outputs that are controlled by one, or a combination of three, +temperature zones. Both high- and low-frequency PWM ranges are supported. + +The aSC7621 also includes a digital filter that can be invoked to smooth +temperature readings for better control of fan speed and minimum acoustic +impact. + +The aSC7621 has tachometer inputs to measure fan speed on up to four fans. +Limit and status registers for all measured values are included to alert +the system host that any measurements are outside of programmed limits +via status registers. + +System voltages of VCCP, 2.5V, 3.3V, 5.0V, and 12V motherboard power are +monitored efficiently with internal scaling resistors. + +Features +-------- + +- Supports PECI interface and monitors internal and remote thermal diodes +- 2-wire, SMBus 2.0 compliant, serial interface +- 10-bit ADC +- Monitors VCCP, 2.5V, 3.3V, 5.0V, and 12V motherboard/processor supplies +- Programmable autonomous fan control based on temperature readings +- Noise filtering of temperature reading for fan speed control +- 0.25C digital temperature sensor resolution +- 3 PWM fan speed control outputs for 2-, 3- or 4-wire fans and up to 4 fan + tachometer inputs +- Enhanced measured temperature to Temperature Zone assignment. +- Provides high and low PWM frequency ranges +- 3 GPIO pins for custom use +- 24-Lead QSOP package + +Configuration Notes +=================== + +Except where noted below, the sysfs entries created by this driver follow +the standards defined in "sysfs-interface". + +temp1_source + = =============================================== + 0 (default) peci_legacy = 0, Remote 1 Temperature + peci_legacy = 1, PECI Processor Temperature 0 + 1 Remote 1 Temperature + 2 Remote 2 Temperature + 3 Internal Temperature + 4 PECI Processor Temperature 0 + 5 PECI Processor Temperature 1 + 6 PECI Processor Temperature 2 + 7 PECI Processor Temperature 3 + = =============================================== + +temp2_source + = =============================================== + 0 (default) Internal Temperature + 1 Remote 1 Temperature + 2 Remote 2 Temperature + 3 Internal Temperature + 4 PECI Processor Temperature 0 + 5 PECI Processor Temperature 1 + 6 PECI Processor Temperature 2 + 7 PECI Processor Temperature 3 + = =============================================== + +temp3_source + = =============================================== + 0 (default) Remote 2 Temperature + 1 Remote 1 Temperature + 2 Remote 2 Temperature + 3 Internal Temperature + 4 PECI Processor Temperature 0 + 5 PECI Processor Temperature 1 + 6 PECI Processor Temperature 2 + 7 PECI Processor Temperature 3 + = =============================================== + +temp4_source + = =============================================== + 0 (default) peci_legacy = 0, PECI Processor Temperature 0 + peci_legacy = 1, Remote 1 Temperature + 1 Remote 1 Temperature + 2 Remote 2 Temperature + 3 Internal Temperature + 4 PECI Processor Temperature 0 + 5 PECI Processor Temperature 1 + 6 PECI Processor Temperature 2 + 7 PECI Processor Temperature 3 + = =============================================== + +temp[1-4]_smoothing_enable / temp[1-4]_smoothing_time + Smooths spikes in temp readings caused by noise. + Valid values in milliseconds are: + + * 35000 + * 17600 + * 11800 + * 7000 + * 4400 + * 3000 + * 1600 + * 800 + +temp[1-4]_crit + When the corresponding zone temperature reaches this value, + ALL pwm outputs will got to 100%. + +temp[5-8]_input / temp[5-8]_enable + The aSC7621 can also read temperatures provided by the processor + via the PECI bus. Usually these are "core" temps and are relative + to the point where the automatic thermal control circuit starts + throttling. This means that these are usually negative numbers. + +pwm[1-3]_enable + =============== ======================================================== + 0 Fan off. + 1 Fan on manual control. + 2 Fan on automatic control and will run at the minimum pwm + if the temperature for the zone is below the minimum. + 3 Fan on automatic control but will be off if the + temperature for the zone is below the minimum. + 4-254 Ignored. + 255 Fan on full. + =============== ======================================================== + +pwm[1-3]_auto_channels + Bitmap as described in sysctl-interface with the following + exceptions... + + Only the following combination of zones (and their corresponding masks) + are valid: + + * 1 + * 2 + * 3 + * 2,3 + * 1,2,3 + * 4 + * 1,2,3,4 + + * Special values: + + == ====================== + 0 Disabled. + 16 Fan on manual control. + 31 Fan on full. + == ====================== + + +pwm[1-3]_invert + When set, inverts the meaning of pwm[1-3]. + i.e. when pwm = 0, the fan will be on full and + when pwm = 255 the fan will be off. + +pwm[1-3]_freq + PWM frequency in Hz + Valid values in Hz are: + + * 10 + * 15 + * 23 + * 30 (default) + * 38 + * 47 + * 62 + * 94 + * 23000 + * 24000 + * 25000 + * 26000 + * 27000 + * 28000 + * 29000 + * 30000 + + Setting any other value will be ignored. + +peci_enable + Enables or disables PECI + +peci_avg + Input filter average time. + + * 0 0 Sec. (no Smoothing) (default) + * 1 0.25 Sec. + * 2 0.5 Sec. + * 3 1.0 Sec. + * 4 2.0 Sec. + * 5 4.0 Sec. + * 6 8.0 Sec. + * 7 0.0 Sec. + +peci_legacy + = ============================================ + 0 Standard Mode (default) + Remote Diode 1 reading is associated with + Temperature Zone 1, PECI is associated with + Zone 4 + + 1 Legacy Mode + PECI is associated with Temperature Zone 1, + Remote Diode 1 is associated with Zone 4 + = ============================================ + +peci_diode + Diode filter + + = ==================== + 0 0.25 Sec. + 1 1.1 Sec. + 2 2.4 Sec. (default) + 3 3.4 Sec. + 4 5.0 Sec. + 5 6.8 Sec. + 6 10.2 Sec. + 7 16.4 Sec. + = ==================== + +peci_4domain + Four domain enable + + = =============================================== + 0 1 or 2 Domains for enabled processors (default) + 1 3 or 4 Domains for enabled processors + = =============================================== + +peci_domain + Domain + + = ================================================== + 0 Processor contains a single domain (0) (default) + 1 Processor contains two domains (0,1) + = ================================================== diff --git a/Documentation/hwmon/aspeed-pwm-tacho.rst b/Documentation/hwmon/aspeed-pwm-tacho.rst new file mode 100644 index 0000000000..f7bbe96f4b --- /dev/null +++ b/Documentation/hwmon/aspeed-pwm-tacho.rst @@ -0,0 +1,24 @@ +Kernel driver aspeed-pwm-tacho +============================== + +Supported chips: + ASPEED AST2400/2500 + +Authors: + <jaghu@google.com> + +Description: +------------ +This driver implements support for ASPEED AST2400/2500 PWM and Fan Tacho +controller. The PWM controller supports up to 8 PWM outputs. The Fan tacho +controller supports up to 16 tachometer inputs. + +The driver provides the following sensor accesses in sysfs: + +=============== ======= ===================================================== +fanX_input ro provide current fan rotation value in RPM as reported + by the fan to the device. + +pwmX rw get or set PWM fan control value. This is an integer + value between 0(off) and 255(full speed). +=============== ======= ===================================================== diff --git a/Documentation/hwmon/asus_ec_sensors.rst b/Documentation/hwmon/asus_ec_sensors.rst new file mode 100644 index 0000000000..7e3cd5b668 --- /dev/null +++ b/Documentation/hwmon/asus_ec_sensors.rst @@ -0,0 +1,67 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver asus_ec_sensors +================================= + +Supported boards: + * PRIME X470-PRO + * PRIME X570-PRO + * Pro WS X570-ACE + * ProArt X570-CREATOR WIFI + * ProArt B550-CREATOR + * ROG CROSSHAIR VIII DARK HERO + * ROG CROSSHAIR VIII HERO (WI-FI) + * ROG CROSSHAIR VIII FORMULA + * ROG CROSSHAIR VIII HERO + * ROG CROSSHAIR VIII IMPACT + * ROG CROSSHAIR X670E HERO + * ROG MAXIMUS XI HERO + * ROG MAXIMUS XI HERO (WI-FI) + * ROG STRIX B550-E GAMING + * ROG STRIX B550-I GAMING + * ROG STRIX X570-E GAMING + * ROG STRIX X570-E GAMING WIFI II + * ROG STRIX X570-F GAMING + * ROG STRIX X570-I GAMING + * ROG STRIX Z390-F GAMING + * ROG STRIX Z690-A GAMING WIFI D4 + * ROG ZENITH II EXTREME + * ROG ZENITH II EXTREME ALPHA + +Authors: + - Eugene Shalygin <eugene.shalygin@gmail.com> + +Description: +------------ +ASUS mainboards publish hardware monitoring information via Super I/O +chip and the ACPI embedded controller (EC) registers. Some of the sensors +are only available via the EC. + +The driver is aware of and reads the following sensors: + +1. Chipset (PCH) temperature +2. CPU package temperature +3. Motherboard temperature +4. Readings from the T_Sensor header +5. VRM temperature +6. CPU_Opt fan RPM +7. VRM heatsink fan RPM +8. Chipset fan RPM +9. Readings from the "Water flow meter" header (RPM) +10. Readings from the "Water In" and "Water Out" temperature headers +11. CPU current +12. CPU core voltage + +Sensor values are read from EC registers, and to avoid race with the board +firmware the driver acquires ACPI mutex, the one used by the WMI when its +methods access the EC. + +Module Parameters +----------------- + * mutex_path: string + The driver holds path to the ACPI mutex for each board (actually, + the path is mostly identical for them). If ASUS changes this path + in a future BIOS update, this parameter can be used to override + the stored in the driver value until it gets updated. + A special string ":GLOBAL_LOCK" can be passed to use the ACPI + global lock instead of a dedicated mutex. diff --git a/Documentation/hwmon/asus_wmi_sensors.rst b/Documentation/hwmon/asus_wmi_sensors.rst new file mode 100644 index 0000000000..8f2096cf51 --- /dev/null +++ b/Documentation/hwmon/asus_wmi_sensors.rst @@ -0,0 +1,78 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver asus_wmi_sensors +================================= + +Supported boards: + * PRIME X399-A, + * PRIME X470-PRO, + * ROG CROSSHAIR VI EXTREME, + * ROG CROSSHAIR VI HERO, + * ROG CROSSHAIR VI HERO (WI-FI AC), + * ROG CROSSHAIR VII HERO, + * ROG CROSSHAIR VII HERO (WI-FI), + * ROG STRIX B450-E GAMING, + * ROG STRIX B450-F GAMING, + * ROG STRIX B450-I GAMING, + * ROG STRIX X399-E GAMING, + * ROG STRIX X470-F GAMING, + * ROG STRIX X470-I GAMING, + * ROG ZENITH EXTREME, + * ROG ZENITH EXTREME ALPHA. + +Authors: + - Ed Brindley <kernel@maidavale.org> + +Description: +------------ +ASUS mainboards publish hardware monitoring information via WMI interface. + +ASUS WMI interface provides a methods to get list of sensors and values of +such, which is utilized by this driver to publish those sensor readings to the +HWMON system. + +The driver is aware of and reads the following sensors: + * CPU Core Voltage, + * CPU SOC Voltage, + * DRAM Voltage, + * VDDP Voltage, + * 1.8V PLL Voltage, + * +12V Voltage, + * +5V Voltage, + * 3VSB Voltage, + * VBAT Voltage, + * AVCC3 Voltage, + * SB 1.05V Voltage, + * CPU Core Voltage, + * CPU SOC Voltage, + * DRAM Voltage, + * CPU Fan RPM, + * Chassis Fan 1 RPM, + * Chassis Fan 2 RPM, + * Chassis Fan 3 RPM, + * HAMP Fan RPM, + * Water Pump RPM, + * CPU OPT RPM, + * Water Flow RPM, + * AIO Pump RPM, + * CPU Temperature, + * CPU Socket Temperature, + * Motherboard Temperature, + * Chipset Temperature, + * Tsensor 1 Temperature, + * CPU VRM Temperature, + * Water In, + * Water Out, + * CPU VRM Output Current. + +Known Issues: + * The WMI implementation in some of Asus' BIOSes is buggy. This can result in + fans stopping, fans getting stuck at max speed, or temperature readouts + getting stuck. This is not an issue with the driver, but the BIOS. The Prime + X470 Pro seems particularly bad for this. The more frequently the WMI + interface is polled the greater the potential for this to happen. Until you + have subjected your computer to an extended soak test while polling the + sensors frequently, don't leave you computer unattended. Upgrading to new + BIOS version with method version greater than or equal to two should + rectify the issue. + * A few boards report 12v voltages to be ~10v. diff --git a/Documentation/hwmon/bcm54140.rst b/Documentation/hwmon/bcm54140.rst new file mode 100644 index 0000000000..bc6ea4b459 --- /dev/null +++ b/Documentation/hwmon/bcm54140.rst @@ -0,0 +1,45 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Broadcom BCM54140 Quad SGMII/QSGMII PHY +======================================= + +Supported chips: + + * Broadcom BCM54140 + + Datasheet: not public + +Author: Michael Walle <michael@walle.cc> + +Description +----------- + +The Broadcom BCM54140 is a Quad SGMII/QSGMII PHY which supports monitoring +its die temperature as well as two analog voltages. + +The AVDDL is a 1.0V analogue voltage, the AVDDH is a 3.3V analogue voltage. +Both voltages and the temperature are measured in a round-robin fashion. + +Sysfs entries +------------- + +The following attributes are supported. + +======================= ======================================================== +in0_label "AVDDL" +in0_input Measured AVDDL voltage. +in0_min Minimum AVDDL voltage. +in0_max Maximum AVDDL voltage. +in0_alarm AVDDL voltage alarm. + +in1_label "AVDDH" +in1_input Measured AVDDH voltage. +in1_min Minimum AVDDH voltage. +in1_max Maximum AVDDH voltage. +in1_alarm AVDDH voltage alarm. + +temp1_input Die temperature. +temp1_min Minimum die temperature. +temp1_max Maximum die temperature. +temp1_alarm Die temperature alarm. +======================= ======================================================== diff --git a/Documentation/hwmon/bel-pfe.rst b/Documentation/hwmon/bel-pfe.rst new file mode 100644 index 0000000000..4b4a7d6785 --- /dev/null +++ b/Documentation/hwmon/bel-pfe.rst @@ -0,0 +1,112 @@ +Kernel driver bel-pfe +====================== + +Supported chips: + + * BEL PFE1100 + + Prefixes: 'pfe1100' + + Addresses scanned: - + + Datasheet: https://www.belfuse.com/resources/datasheets/powersolutions/ds-bps-pfe1100-12-054xa.pdf + + * BEL PFE3000 + + Prefixes: 'pfe3000' + + Addresses scanned: - + + Datasheet: https://www.belfuse.com/resources/datasheets/powersolutions/ds-bps-pfe3000-series.pdf + +Author: Tao Ren <rentao.bupt@gmail.com> + + +Description +----------- + +This driver supports hardware monitoring for below power supply devices +which support PMBus Protocol: + + * BEL PFE1100 + + 1100 Watt AC to DC power-factor-corrected (PFC) power supply. + PMBus Communication Manual is not publicly available. + + * BEL PFE3000 + + 3000 Watt AC/DC power-factor-corrected (PFC) and DC-DC power supply. + PMBus Communication Manual is not publicly available. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +Example: the following will load the driver for an PFE3000 at address 0x20 +on I2C bus #1:: + + $ modprobe bel-pfe + $ echo pfe3000 0x20 > /sys/bus/i2c/devices/i2c-1/new_device + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +======================= ======================================================= +curr1_label "iin" +curr1_input Measured input current +curr1_max Input current max value +curr1_max_alarm Input current max alarm + +curr[2-3]_label "iout[1-2]" +curr[2-3]_input Measured output current +curr[2-3]_max Output current max value +curr[2-3]_max_alarm Output current max alarm + +fan[1-2]_input Fan 1 and 2 speed in RPM +fan1_target Set fan speed reference for both fans + +in1_label "vin" +in1_input Measured input voltage +in1_crit Input voltage critical max value +in1_crit_alarm Input voltage critical max alarm +in1_lcrit Input voltage critical min value +in1_lcrit_alarm Input voltage critical min alarm +in1_max Input voltage max value +in1_max_alarm Input voltage max alarm + +in2_label "vcap" +in2_input Hold up capacitor voltage + +in[3-8]_label "vout[1-3,5-7]" +in[3-8]_input Measured output voltage +in[3-4]_alarm vout[1-2] output voltage alarm + +power[1-2]_label "pin[1-2]" +power[1-2]_input Measured input power +power[1-2]_alarm Input power high alarm + +power[3-4]_label "pout[1-2]" +power[3-4]_input Measured output power + +temp[1-3]_input Measured temperature +temp[1-3]_alarm Temperature alarm +======================= ======================================================= + +.. note:: + + - curr3, fan2, vout[2-7], vcap, pin2, pout2 and temp3 attributes only + exist for PFE3000. diff --git a/Documentation/hwmon/bpa-rs600.rst b/Documentation/hwmon/bpa-rs600.rst new file mode 100644 index 0000000000..28313995d4 --- /dev/null +++ b/Documentation/hwmon/bpa-rs600.rst @@ -0,0 +1,74 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver bpa-rs600 +======================= + +Supported chips: + + * BPA-RS600-120 + + Datasheet: Publicly available at the BluTek website + http://blutekpower.com/wp-content/uploads/2019/01/BPA-RS600-120-07-19-2018.pdf + +Authors: + - Chris Packham <chris.packham@alliedtelesis.co.nz> + +Description +----------- + +The BPA-RS600 is a compact 600W removable power supply module. + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Sysfs attributes +---------------- + +======================= ============================================ +curr1_label "iin" +curr1_input Measured input current +curr1_max Maximum input current +curr1_max_alarm Input current high alarm + +curr2_label "iout1" +curr2_input Measured output current +curr2_max Maximum output current +curr2_max_alarm Output current high alarm + +fan1_input Measured fan speed +fan1_alarm Fan warning +fan1_fault Fan fault + +in1_label "vin" +in1_input Measured input voltage +in1_max Maximum input voltage +in1_max_alarm Input voltage high alarm +in1_min Minimum input voltage +in1_min_alarm Input voltage low alarm + +in2_label "vout1" +in2_input Measured output voltage +in2_max Maximum output voltage +in2_max_alarm Output voltage high alarm +in2_min Maximum output voltage +in2_min_alarm Output voltage low alarm + +power1_label "pin" +power1_input Measured input power +power1_alarm Input power alarm +power1_max Maximum input power + +power2_label "pout1" +power2_input Measured output power +power2_max Maximum output power +power2_max_alarm Output power high alarm + +temp1_input Measured temperature around input connector +temp1_alarm Temperature alarm + +temp2_input Measured temperature around output connector +temp2_alarm Temperature alarm +======================= ============================================ diff --git a/Documentation/hwmon/bt1-pvt.rst b/Documentation/hwmon/bt1-pvt.rst new file mode 100644 index 0000000000..cbb0c06131 --- /dev/null +++ b/Documentation/hwmon/bt1-pvt.rst @@ -0,0 +1,117 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver bt1-pvt +===================== + +Supported chips: + + * Baikal-T1 PVT sensor (in SoC) + + Prefix: 'bt1-pvt' + + Addresses scanned: - + + Datasheet: Provided by BAIKAL ELECTRONICS upon request and under NDA + +Authors: + Maxim Kaurkin <maxim.kaurkin@baikalelectronics.ru> + Serge Semin <Sergey.Semin@baikalelectronics.ru> + +Description +----------- + +This driver implements support for the hardware monitoring capabilities of the +embedded into Baikal-T1 process, voltage and temperature sensors. PVT IP-core +consists of one temperature and four voltage sensors, which can be used to +monitor the chip internal environment like heating, supply voltage and +transistors performance. The driver can optionally provide the hwmon alarms +for each sensor the PVT controller supports. The alarms functionality is made +compile-time configurable due to the hardware interface implementation +peculiarity, which is connected with an ability to convert data from only one +sensor at a time. Additional limitation is that the controller performs the +thresholds checking synchronously with the data conversion procedure. Due to +these in order to have the hwmon alarms automatically detected the driver code +must switch from one sensor to another, read converted data and manually check +the threshold status bits. Depending on the measurements timeout settings +(update_interval sysfs node value) this design may cause additional burden on +the system performance. So in case if alarms are unnecessary in your system +design it's recommended to have them disabled to prevent the PVT IRQs being +periodically raised to get the data cache/alarms status up to date. By default +in alarm-less configuration the data conversion is performed by the driver +on demand when read operation is requested via corresponding _input-file. + +Temperature Monitoring +---------------------- + +Temperature is measured with 10-bit resolution and reported in millidegree +Celsius. The driver performs all the scaling by itself therefore reports true +temperatures that don't need any user-space adjustments. While the data +translation formulae isn't linear, which gives us non-linear discreteness, +it's close to one, but giving a bit better accuracy for higher temperatures. +The temperature input is mapped as follows (the last column indicates the input +ranges):: + + temp1: CPU embedded diode -48.38C - +147.438C + +In case if the alarms kernel config is enabled in the driver the temperature input +has associated min and max limits which trigger an alarm when crossed. + +Voltage Monitoring +------------------ + +The voltage inputs are also sampled with 10-bit resolution and reported in +millivolts. But in this case the data translation formulae is linear, which +provides a constant measurements discreteness. The data scaling is also +performed by the driver, so returning true millivolts. The voltage inputs are +mapped as follows (the last column indicates the input ranges):: + + in0: VDD (processor core) 0.62V - 1.168V + in1: Low-Vt (low voltage threshold) 0.62V - 1.168V + in2: High-Vt (high voltage threshold) 0.62V - 1.168V + in3: Standard-Vt (standard voltage threshold) 0.62V - 1.168V + +In case if the alarms config is enabled in the driver the voltage inputs +have associated min and max limits which trigger an alarm when crossed. + +Sysfs Attributes +---------------- + +Following is a list of all sysfs attributes that the driver provides, their +permissions and a short description: + +=============================== ======= ======================================= +Name Perm Description +=============================== ======= ======================================= +update_interval RW Measurements update interval per + sensor. +temp1_type RO Sensor type (always 1 as CPU embedded + diode). +temp1_label RO CPU Core Temperature sensor. +temp1_input RO Measured temperature in millidegree + Celsius. +temp1_min RW Low limit for temp input. +temp1_max RW High limit for temp input. +temp1_min_alarm RO Temperature input alarm. Returns 1 if + temperature input went below min limit, + 0 otherwise. +temp1_max_alarm RO Temperature input alarm. Returns 1 if + temperature input went above max limit, + 0 otherwise. +temp1_offset RW Temperature offset in millidegree + Celsius which is added to the + temperature reading by the chip. It can + be used to manually adjust the + temperature measurements within 7.130 + degrees Celsius. +in[0-3]_label RO CPU Voltage sensor (either core or + low/high/standard thresholds). +in[0-3]_input RO Measured voltage in millivolts. +in[0-3]_min RW Low limit for voltage input. +in[0-3]_max RW High limit for voltage input. +in[0-3]_min_alarm RO Voltage input alarm. Returns 1 if + voltage input went below min limit, + 0 otherwise. +in[0-3]_max_alarm RO Voltage input alarm. Returns 1 if + voltage input went above max limit, + 0 otherwise. +=============================== ======= ======================================= diff --git a/Documentation/hwmon/coretemp.rst b/Documentation/hwmon/coretemp.rst new file mode 100644 index 0000000000..c609329e3b --- /dev/null +++ b/Documentation/hwmon/coretemp.rst @@ -0,0 +1,195 @@ +Kernel driver coretemp +====================== + +Supported chips: + * All Intel Core family + + Prefix: 'coretemp' + + CPUID: family 0x6, models + + - 0xe (Pentium M DC), 0xf (Core 2 DC 65nm), + - 0x16 (Core 2 SC 65nm), 0x17 (Penryn 45nm), + - 0x1a (Nehalem), 0x1c (Atom), 0x1e (Lynnfield), + - 0x26 (Tunnel Creek Atom), 0x27 (Medfield Atom), + - 0x36 (Cedar Trail Atom) + + Datasheet: + + Intel 64 and IA-32 Architectures Software Developer's Manual + Volume 3A: System Programming Guide + + http://softwarecommunity.intel.com/Wiki/Mobility/720.htm + +Author: Rudolf Marek + +Description +----------- + +This driver permits reading the DTS (Digital Temperature Sensor) embedded +inside Intel CPUs. This driver can read both the per-core and per-package +temperature using the appropriate sensors. The per-package sensor is new; +as of now, it is present only in the SandyBridge platform. The driver will +show the temperature of all cores inside a package under a single device +directory inside hwmon. + +Temperature is measured in degrees Celsius and measurement resolution is +1 degree C. Valid temperatures are from 0 to TjMax degrees C, because +the actual value of temperature register is in fact a delta from TjMax. + +Temperature known as TjMax is the maximum junction temperature of processor, +which depends on the CPU model. See table below. At this temperature, protection +mechanism will perform actions to forcibly cool down the processor. Alarm +may be raised, if the temperature grows enough (more than TjMax) to trigger +the Out-Of-Spec bit. Following table summarizes the exported sysfs files: + +All Sysfs entries are named with their core_id (represented here by 'X'). + +================= ======================================================== +tempX_input Core temperature (in millidegrees Celsius). +tempX_max All cooling devices should be turned on (on Core2). +tempX_crit Maximum junction temperature (in millidegrees Celsius). +tempX_crit_alarm Set when Out-of-spec bit is set, never clears. + Correct CPU operation is no longer guaranteed. +tempX_label Contains string "Core X", where X is processor + number. For Package temp, this will be "Physical id Y", + where Y is the package number. +================= ======================================================== + +On CPU models which support it, TjMax is read from a model-specific register. +On other models, it is set to an arbitrary value based on weak heuristics. +If these heuristics don't work for you, you can pass the correct TjMax value +as a module parameter (tjmax). + +Appendix A. Known TjMax lists (TBD): +Some information comes from ark.intel.com + +=============== =============================================== ================ +Process Processor TjMax(C) + +22nm Core i5/i7 Processors + i7 3920XM, 3820QM, 3720QM, 3667U, 3520M 105 + i5 3427U, 3360M/3320M 105 + i7 3770/3770K 105 + i5 3570/3570K, 3550, 3470/3450 105 + i7 3770S 103 + i5 3570S/3550S, 3475S/3470S/3450S 103 + i7 3770T 94 + i5 3570T 94 + i5 3470T 91 + +32nm Core i3/i5/i7 Processors + i7 2600 98 + i7 660UM/640/620, 640LM/620, 620M, 610E 105 + i5 540UM/520/430, 540M/520/450/430 105 + i3 330E, 370M/350/330 90 rPGA, 105 BGA + i3 330UM 105 + +32nm Core i7 Extreme Processors + 980X 100 + +32nm Celeron Processors + U3400 105 + P4505/P4500 90 + +32nm Atom Processors + S1260/1220 95 + S1240 102 + Z2460 90 + Z2760 90 + D2700/2550/2500 100 + N2850/2800/2650/2600 100 + +45nm Xeon Processors 5400 Quad-Core + X5492, X5482, X5472, X5470, X5460, X5450 85 + E5472, E5462, E5450/40/30/20/10/05 85 + L5408 95 + L5430, L5420, L5410 70 + +45nm Xeon Processors 5200 Dual-Core + X5282, X5272, X5270, X5260 90 + E5240 90 + E5205, E5220 70, 90 + L5240 70 + L5238, L5215 95 + +45nm Atom Processors + D525/510/425/410 100 + K525/510/425/410 100 + Z670/650 90 + Z560/550/540/530P/530/520PT/520/515/510PT/510P 90 + Z510/500 90 + N570/550 100 + N475/470/455/450 100 + N280/270 90 + 330/230 125 + E680/660/640/620 90 + E680T/660T/640T/620T 110 + E665C/645C 90 + E665CT/645CT 110 + CE4170/4150/4110 110 + CE4200 series unknown + CE5300 series unknown + +45nm Core2 Processors + Solo ULV SU3500/3300 100 + T9900/9800/9600/9550/9500/9400/9300/8300/8100 105 + T6670/6500/6400 105 + T6600 90 + SU9600/9400/9300 105 + SP9600/9400 105 + SL9600/9400/9380/9300 105 + P9700/9600/9500/8800/8700/8600/8400/7570 105 + P7550/7450 90 + +45nm Core2 Quad Processors + Q9100/9000 100 + +45nm Core2 Extreme Processors + X9100/9000 105 + QX9300 100 + +45nm Core i3/i5/i7 Processors + i7 940XM/920 100 + i7 840QM/820/740/720 100 + +45nm Celeron Processors + SU2300 100 + 900 105 + +65nm Core2 Duo Processors + Solo U2200, U2100 100 + U7700/7600/7500 100 + T7800/7700/7600/7500/7400/7300/7250/7200/7100 100 + T5870/5670/5600/5550/5500/5470/5450/5300/5270 100 + T5250 100 + T5800/5750/5200 85 + L7700/7500/7400/7300/7200 100 + +65nm Core2 Extreme Processors + X7900/7800 100 + +65nm Core Duo Processors + U2500/2400 100 + T2700/2600/2450/2400/2350/2300E/2300/2250/2050 100 + L2500/2400/2300 100 + +65nm Core Solo Processors + U1500/1400/1300 100 + T1400/1350/1300/1250 100 + +65nm Xeon Processors 5000 Quad-Core + X5000 90-95 + E5000 80 + L5000 70 + L5318 95 + +65nm Xeon Processors 5000 Dual-Core + 5080, 5063, 5060, 5050, 5030 80-90 + 5160, 5150, 5148, 5140, 5130, 5120, 5110 80 + L5138 100 + +65nm Celeron Processors + T1700/1600 100 + 560/550/540/530 100 +=============== =============================================== ================ diff --git a/Documentation/hwmon/corsair-cpro.rst b/Documentation/hwmon/corsair-cpro.rst new file mode 100644 index 0000000000..751f95476b --- /dev/null +++ b/Documentation/hwmon/corsair-cpro.rst @@ -0,0 +1,41 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver corsair-cpro +========================== + +Supported devices: + + * Corsair Commander Pro + * Corsair Commander Pro (1000D) + +Author: Marius Zachmann + +Description +----------- + +This driver implements the sysfs interface for the Corsair Commander Pro. +The Corsair Commander Pro is a USB device with 6 fan connectors, +4 temperature sensor connectors and 2 Corsair LED connectors. +It can read the voltage levels on the SATA power connector. + +Usage Notes +----------- + +Since it is a USB device, hotswapping is possible. The device is autodetected. + +Sysfs entries +------------- + +======================= ===================================================================== +in0_input Voltage on SATA 12v +in1_input Voltage on SATA 5v +in2_input Voltage on SATA 3.3v +temp[1-4]_input Temperature on connected temperature sensors +fan[1-6]_input Connected fan rpm. +fan[1-6]_label Shows fan type as detected by the device. +fan[1-6]_target Sets fan speed target rpm. + When reading, it reports the last value if it was set by the driver. + Otherwise returns an error. +pwm[1-6] Sets the fan speed. Values from 0-255. Can only be read if pwm + was set directly. +======================= ===================================================================== diff --git a/Documentation/hwmon/corsair-psu.rst b/Documentation/hwmon/corsair-psu.rst new file mode 100644 index 0000000000..16db34d464 --- /dev/null +++ b/Documentation/hwmon/corsair-psu.rst @@ -0,0 +1,101 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver corsair-psu +========================= + +Supported devices: + +* Corsair Power Supplies + + Corsair HX550i + + Corsair HX650i + + Corsair HX750i + + Corsair HX850i + + Corsair HX1000i (Series 2022 and 2023) + + Corsair HX1200i + + Corsair HX1500i (Series 2022 and 2023) + + Corsair RM550i + + Corsair RM650i + + Corsair RM750i + + Corsair RM850i + + Corsair RM1000i + +Author: Wilken Gottwalt + +Description +----------- + +This driver implements the sysfs interface for the Corsair PSUs with a HID protocol +interface of the HXi and RMi series. +These power supplies provide access to a micro-controller with 2 attached +temperature sensors, 1 fan rpm sensor, 4 sensors for volt levels, 4 sensors for +power usage and 4 sensors for current levels and additional non-sensor information +like uptimes. + +Sysfs entries +------------- + +======================= ======================================================== +curr1_input Total current usage +curr2_input Current on the 12v psu rail +curr2_crit Current max critical value on the 12v psu rail +curr3_input Current on the 5v psu rail +curr3_crit Current max critical value on the 5v psu rail +curr4_input Current on the 3.3v psu rail +curr4_crit Current max critical value on the 3.3v psu rail +fan1_input RPM of psu fan +in0_input Voltage of the psu ac input +in1_input Voltage of the 12v psu rail +in1_crit Voltage max critical value on the 12v psu rail +in1_lcrit Voltage min critical value on the 12v psu rail +in2_input Voltage of the 5v psu rail +in2_crit Voltage max critical value on the 5v psu rail +in2_lcrit Voltage min critical value on the 5v psu rail +in3_input Voltage of the 3.3v psu rail +in3_crit Voltage max critical value on the 3.3v psu rail +in3_lcrit Voltage min critical value on the 3.3v psu rail +power1_input Total power usage +power2_input Power usage of the 12v psu rail +power3_input Power usage of the 5v psu rail +power4_input Power usage of the 3.3v psu rail +pwm1 PWM value, read only +pwm1_enable PWM mode, read only +temp1_input Temperature of the psu vrm component +temp1_crit Temperature max cirtical value of the psu vrm component +temp2_input Temperature of the psu case +temp2_crit Temperature max critical value of psu case +======================= ======================================================== + +Usage Notes +----------- + +It is an USB HID device, so it is auto-detected, supports hot-swapping and +several devices at once. + +Flickering values in the rail voltage levels can be an indicator for a failing +PSU. Accordingly to the default automatic fan speed plan the fan starts at about +30% of the wattage rating. If this does not happen, a fan failure is likely. The +driver also provides some additional useful values via debugfs, which do not fit +into the hwmon class. + +Debugfs entries +--------------- + +======================= ======================================================== +ocpmode Single or multi rail mode of the PCIe power connectors +product Product name of the psu +uptime Session uptime of the psu +uptime_total Total uptime of the psu +vendor Vendor name of the psu +======================= ======================================================== diff --git a/Documentation/hwmon/da9052.rst b/Documentation/hwmon/da9052.rst new file mode 100644 index 0000000000..c1c0f1f089 --- /dev/null +++ b/Documentation/hwmon/da9052.rst @@ -0,0 +1,78 @@ +Kernel driver da9052 +==================== + +Supported chips: + + * Dialog Semiconductors DA9052-BC and DA9053-AA/Bx PMICs + + Prefix: 'da9052' + + Datasheet: Datasheet is not publicly available. + +Authors: David Dajun Chen <dchen@diasemi.com> + +Description +----------- + +The DA9052/53 provides an Analogue to Digital Converter (ADC) with 10 bits +resolution and track and hold circuitry combined with an analogue input +multiplexer. The analogue input multiplexer will allow conversion of up to 10 +different inputs. The track and hold circuit ensures stable input voltages at +the input of the ADC during the conversion. + +The ADC is used to measure the following inputs: + +========= =================================================================== +Channel 0 VDDOUT - measurement of the system voltage +Channel 1 ICH - internal battery charger current measurement +Channel 2 TBAT - output from the battery NTC +Channel 3 VBAT - measurement of the battery voltage +Channel 4 ADC_IN4 - high impedance input (0 - 2.5V) +Channel 5 ADC_IN5 - high impedance input (0 - 2.5V) +Channel 6 ADC_IN6 - high impedance input (0 - 2.5V) +Channel 7 XY - TSI interface to measure the X and Y voltage of the touch + screen resistive potentiometers +Channel 8 Internal Tjunc. - sense (internal temp. sensor) +Channel 9 VBBAT - measurement of the backup battery voltage +========= =================================================================== + +By using sysfs attributes we can measure the system voltage VDDOUT, the battery +charging current ICH, battery temperature TBAT, battery junction temperature +TJUNC, battery voltage VBAT and the back up battery voltage VBBAT. + +Voltage Monitoring +------------------ + +Voltages are sampled by a 10 bit ADC. + +The battery voltage is calculated as: + + Milli volt = ((ADC value * 1000) / 512) + 2500 + +The backup battery voltage is calculated as: + + Milli volt = (ADC value * 2500) / 512; + +The voltages on ADC channels 4, 5 and 6 are calculated as: + + Milli volt = (ADC value * 2500) / 1023 + +Temperature Monitoring +---------------------- + +Temperatures are sampled by a 10 bit ADC. Junction and battery temperatures +are monitored by the ADC channels. + +The junction temperature is calculated: + + Degrees celsius = 1.708 * (TJUNC_RES - T_OFFSET) - 108.8 + +The junction temperature attribute is supported by the driver. + +The battery temperature is calculated: + + Degree Celsius = 1 / (t1 + 1/298) - 273 + +where t1 = (1/B)* ln(( ADCval * 2.5)/(R25*ITBAT*255)) + +Default values of R25, B, ITBAT are 10e3, 3380 and 50e-6 respectively. diff --git a/Documentation/hwmon/da9055.rst b/Documentation/hwmon/da9055.rst new file mode 100644 index 0000000000..beae271a33 --- /dev/null +++ b/Documentation/hwmon/da9055.rst @@ -0,0 +1,57 @@ +Kernel driver da9055 +==================== + +Supported chips: + * Dialog Semiconductors DA9055 PMIC + + Prefix: 'da9055' + + Datasheet: Datasheet is not publicly available. + +Authors: David Dajun Chen <dchen@diasemi.com> + +Description +----------- + +The DA9055 provides an Analogue to Digital Converter (ADC) with 10 bits +resolution and track and hold circuitry combined with an analogue input +multiplexer. The analogue input multiplexer will allow conversion of up to 5 +different inputs. The track and hold circuit ensures stable input voltages at +the input of the ADC during the conversion. + +The ADC is used to measure the following inputs: + +- Channel 0: VDDOUT - measurement of the system voltage +- Channel 1: ADC_IN1 - high impedance input (0 - 2.5V) +- Channel 2: ADC_IN2 - high impedance input (0 - 2.5V) +- Channel 3: ADC_IN3 - high impedance input (0 - 2.5V) +- Channel 4: Internal Tjunc. - sense (internal temp. sensor) + +By using sysfs attributes we can measure the system voltage VDDOUT, +chip junction temperature and auxiliary channels voltages. + +Voltage Monitoring +------------------ + +Voltages are sampled in a AUTO mode it can be manually sampled too and results +are stored in a 10 bit ADC. + +The system voltage is calculated as: + + Milli volt = ((ADC value * 1000) / 85) + 2500 + +The voltages on ADC channels 1, 2 and 3 are calculated as: + + Milli volt = (ADC value * 1000) / 102 + +Temperature Monitoring +---------------------- + +Temperatures are sampled by a 10 bit ADC. Junction temperatures +are monitored by the ADC channels. + +The junction temperature is calculated: + + Degrees celsius = -0.4084 * (ADC_RES - T_OFFSET) + 307.6332 + +The junction temperature attribute is supported by the driver. diff --git a/Documentation/hwmon/dell-smm-hwmon.rst b/Documentation/hwmon/dell-smm-hwmon.rst new file mode 100644 index 0000000000..d8f1d6859b --- /dev/null +++ b/Documentation/hwmon/dell-smm-hwmon.rst @@ -0,0 +1,359 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +.. include:: <isonum.txt> + +Kernel driver dell-smm-hwmon +============================ + +:Copyright: |copy| 2002-2005 Massimo Dal Zotto <dz@debian.org> +:Copyright: |copy| 2019 Giovanni Mascellani <gio@debian.org> + +Description +----------- + +On many Dell laptops the System Management Mode (SMM) BIOS can be +queried for the status of fans and temperature sensors. Userspace +utilities like ``sensors`` can be used to return the readings. The +userspace suite `i8kutils`__ can also be used to read the sensors and +automatically adjust fan speed (please notice that it currently uses +the deprecated ``/proc/i8k`` interface). + + __ https://github.com/vitorafsr/i8kutils + +``sysfs`` interface +------------------- + +Temperature sensors and fans can be queried and set via the standard +``hwmon`` interface on ``sysfs``, under the directory +``/sys/class/hwmon/hwmonX`` for some value of ``X`` (search for the +``X`` such that ``/sys/class/hwmon/hwmonX/name`` has content +``dell_smm``). A number of other attributes can be read or written: + +=============================== ======= ======================================= +Name Perm Description +=============================== ======= ======================================= +fan[1-3]_input RO Fan speed in RPM. +fan[1-3]_label RO Fan label. +fan[1-3]_min RO Minimal Fan speed in RPM +fan[1-3]_max RO Maximal Fan speed in RPM +fan[1-3]_target RO Expected Fan speed in RPM +pwm[1-3] RW Control the fan PWM duty-cycle. +pwm1_enable WO Enable or disable automatic BIOS fan + control (not supported on all laptops, + see below for details). +temp[1-10]_input RO Temperature reading in milli-degrees + Celsius. +temp[1-10]_label RO Temperature sensor label. +=============================== ======= ======================================= + +Due to the nature of the SMM interface, each pwmX attribute controls +fan number X. + +Disabling automatic BIOS fan control +------------------------------------ + +On some laptops the BIOS automatically sets fan speed every few +seconds. Therefore the fan speed set by mean of this driver is quickly +overwritten. + +There is experimental support for disabling automatic BIOS fan +control, at least on laptops where the corresponding SMM command is +known, by writing the value ``1`` in the attribute ``pwm1_enable`` +(writing ``2`` enables automatic BIOS control again). Even if you have +more than one fan, all of them are set to either enabled or disabled +automatic fan control at the same time and, notwithstanding the name, +``pwm1_enable`` sets automatic control for all fans. + +If ``pwm1_enable`` is not available, then it means that SMM codes for +enabling and disabling automatic BIOS fan control are not whitelisted +for your hardware. It is possible that codes that work for other +laptops actually work for yours as well, or that you have to discover +new codes. + +Check the list ``i8k_whitelist_fan_control`` in file +``drivers/hwmon/dell-smm-hwmon.c`` in the kernel tree: as a first +attempt you can try to add your machine and use an already-known code +pair. If, after recompiling the kernel, you see that ``pwm1_enable`` +is present and works (i.e., you can manually control the fan speed), +then please submit your finding as a kernel patch, so that other users +can benefit from it. Please see +:ref:`Documentation/process/submitting-patches.rst <submittingpatches>` +for information on submitting patches. + +If no known code works on your machine, you need to resort to do some +probing, because unfortunately Dell does not publish datasheets for +its SMM. You can experiment with the code in `this repository`__ to +probe the BIOS on your machine and discover the appropriate codes. + + __ https://github.com/clopez/dellfan/ + +Again, when you find new codes, we'd be happy to have your patches! + +``thermal`` interface +--------------------------- + +The driver also exports the fans as thermal cooling devices with +``type`` set to ``dell-smm-fan[1-3]``. This allows for easy fan control +using one of the thermal governors. + +Module parameters +----------------- + +* force:bool + Force loading without checking for supported + models. (default: 0) + +* ignore_dmi:bool + Continue probing hardware even if DMI data does not + match. (default: 0) + +* restricted:bool + Allow fan control only to processes with the + ``CAP_SYS_ADMIN`` capability set or processes run + as root when using the legacy ``/proc/i8k`` + interface. In this case normal users will be able + to read temperature and fan status but not to + control the fan. If your notebook is shared with + other users and you don't trust them you may want + to use this option. (default: 1, only available + with ``CONFIG_I8K``) + +* power_status:bool + Report AC status in ``/proc/i8k``. (default: 0, + only available with ``CONFIG_I8K``) + +* fan_mult:uint + Factor to multiply fan speed with. (default: + autodetect) + +* fan_max:uint + Maximum configurable fan speed. (default: + autodetect) + +Legacy ``/proc`` interface +-------------------------- + +.. warning:: This interface is obsolete and deprecated and should not + used in new applications. This interface is only + available when kernel is compiled with option + ``CONFIG_I8K``. + +The information provided by the kernel driver can be accessed by +simply reading the ``/proc/i8k`` file. For example:: + + $ cat /proc/i8k + 1.0 A17 2J59L02 52 2 1 8040 6420 1 2 + +The fields read from ``/proc/i8k`` are:: + + 1.0 A17 2J59L02 52 2 1 8040 6420 1 2 + | | | | | | | | | | + | | | | | | | | | +------- 10. buttons status + | | | | | | | | +--------- 9. AC status + | | | | | | | +-------------- 8. fan0 RPM + | | | | | | +------------------- 7. fan1 RPM + | | | | | +--------------------- 6. fan0 status + | | | | +----------------------- 5. fan1 status + | | | +-------------------------- 4. temp0 reading (Celsius) + | | +---------------------------------- 3. Dell service tag (later known as 'serial number') + | +-------------------------------------- 2. BIOS version + +------------------------------------------ 1. /proc/i8k format version + +A negative value, for example -22, indicates that the BIOS doesn't +return the corresponding information. This is normal on some +models/BIOSes. + +For performance reasons the ``/proc/i8k`` doesn't report by default +the AC status since this SMM call takes a long time to execute and is +not really needed. If you want to see the ac status in ``/proc/i8k`` +you must explictitly enable this option by passing the +``power_status=1`` parameter to insmod. If AC status is not +available -1 is printed instead. + +The driver provides also an ioctl interface which can be used to +obtain the same information and to control the fan status. The ioctl +interface can be accessed from C programs or from shell using the +i8kctl utility. See the source file of ``i8kutils`` for more +information on how to use the ioctl interface. + +SMM Interface +------------- + +.. warning:: The SMM interface was reverse-engineered by trial-and-error + since Dell did not provide any Documentation, + please keep that in mind. + +The driver uses the SMM interface to send commands to the system BIOS. +This interface is normally used by Dell's 32-bit diagnostic program or +on newer notebook models by the buildin BIOS diagnostics. +The SMM is triggered by writing to the special ioports ``0xb2`` and ``0x84``, +and may cause short hangs when the BIOS code is taking too long to +execute. + +The SMM handler inside the system BIOS looks at the contents of the +``eax``, ``ebx``, ``ecx``, ``edx``, ``esi`` and ``edi`` registers. +Each register has a special purpose: + +=============== ================================== +Register Purpose +=============== ================================== +eax Holds the command code before SMM, + holds the first result after SMM. +ebx Holds the arguments. +ecx Unknown, set to 0. +edx Holds the second result after SMM. +esi Unknown, set to 0. +edi Unknown, set to 0. +=============== ================================== + +The SMM handler can signal a failure by either: + +- setting the lower sixteen bits of ``eax`` to ``0xffff`` +- not modifying ``eax`` at all +- setting the carry flag + +SMM command codes +----------------- + +=============== ======================= ================================================ +Command Code Command Name Description +=============== ======================= ================================================ +``0x0025`` Get Fn key status Returns the Fn key pressed after SMM: + + - 9th bit in ``eax`` indicates Volume up + - 10th bit in ``eax`` indicates Volume down + - both bits indicate Volume mute + +``0xa069`` Get power status Returns current power status after SMM: + + - 1st bit in ``eax`` indicates Battery connected + - 3th bit in ``eax`` indicates AC connected + +``0x00a3`` Get fan state Returns current fan state after SMM: + + - 1st byte in ``eax`` holds the current + fan state (0 - 2 or 3) + +``0x01a3`` Set fan state Sets the fan speed: + + - 1st byte in ``ebx`` holds the fan number + - 2nd byte in ``ebx`` holds the desired + fan state (0 - 2 or 3) + +``0x02a3`` Get fan speed Returns the current fan speed in RPM: + + - 1st byte in ``ebx`` holds the fan number + - 1st word in ``eax`` holds the current + fan speed in RPM (after SMM) + +``0x03a3`` Get fan type Returns the fan type: + + - 1st byte in ``ebx`` holds the fan number + - 1st byte in ``eax`` holds the + fan type (after SMM): + + - 5th bit indicates docking fan + - 1 indicates Processor fan + - 2 indicates Motherboard fan + - 3 indicates Video fan + - 4 indicates Power supply fan + - 5 indicates Chipset fan + - 6 indicates other fan type + +``0x04a3`` Get nominal fan speed Returns the nominal RPM in each fan state: + + - 1st byte in ``ebx`` holds the fan number + - 2nd byte in ``ebx`` holds the fan state + in question (0 - 2 or 3) + - 1st word in ``eax`` holds the nominal + fan speed in RPM (after SMM) + +``0x05a3`` Get fan speed tolerance Returns the speed tolerance for each fan state: + + - 1st byte in ``ebx`` holds the fan number + - 2nd byte in ``ebx`` holds the fan state + in question (0 - 2 or 3) + - 1st byte in ``eax`` returns the speed + tolerance + +``0x10a3`` Get sensor temperature Returns the measured temperature: + + - 1st byte in ``ebx`` holds the sensor number + - 1st byte in ``eax`` holds the measured + temperature (after SMM) + +``0x11a3`` Get sensor type Returns the sensor type: + + - 1st byte in ``ebx`` holds the sensor number + - 1st byte in ``eax`` holds the + temperature type (after SMM): + + - 1 indicates CPU sensor + - 2 indicates GPU sensor + - 3 indicates SODIMM sensor + - 4 indicates other sensor type + - 5 indicates Ambient sensor + - 6 indicates other sensor type + +``0xfea3`` Get SMM signature Returns Dell signature if interface + is supported (after SMM): + + - ``eax`` holds 1145651527 + (0x44494147 or "DIAG") + - ``edx`` holds 1145392204 + (0x44454c4c or "DELL") + +``0xffa3`` Get SMM signature Same as ``0xfea3``, check both. +=============== ======================= ================================================ + +There are additional commands for enabling (``0x31a3`` or ``0x35a3``) and +disabling (``0x30a3`` or ``0x34a3``) automatic fan speed control. +The commands are however causing severe sideeffects on many machines, so +they are not used by default. + +On several machines (Inspiron 3505, Precision 490, Vostro 1720, ...), the +fans supports a 4th "magic" state, which signals the BIOS that automatic +fan control should be enabled for a specific fan. +However there are also some machines who do support a 4th regular fan state too, +but in case of the "magic" state, the nominal RPM reported for this state is a +placeholder value, which however is not always detectable. + +Firmware Bugs +------------- + +The SMM calls can behave erratic on some machines: + +======================================================= ================= +Firmware Bug Affected Machines +======================================================= ================= +Reading of fan states return spurious errors. Precision 490 + +Reading of fan types causes erratic fan behaviour. Studio XPS 8000 + + Studio XPS 8100 + + Inspiron 580 + + Inspiron 3505 + +Fan-related SMM calls take too long (about 500ms). Inspiron 7720 + + Vostro 3360 + + XPS 13 9333 + + XPS 15 L502X +======================================================= ================= + +In case you experience similar issues on your Dell machine, please +submit a bugreport on bugzilla to we can apply workarounds. + +Limitations +----------- + +The SMM calls can take too long to execute on some machines, causing +short hangs and/or audio glitches. +Also the fan state needs to be restored after suspend, as well as +the automatic mode settings. +When reading a temperature sensor, values above 127 degrees indicate +a BIOS read error or a deactivated sensor. diff --git a/Documentation/hwmon/dme1737.rst b/Documentation/hwmon/dme1737.rst new file mode 100644 index 0000000000..82fcbc6b2b --- /dev/null +++ b/Documentation/hwmon/dme1737.rst @@ -0,0 +1,364 @@ +Kernel driver dme1737 +===================== + +Supported chips: + + * SMSC DME1737 and compatibles (like Asus A8000) + + Prefix: 'dme1737' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: Provided by SMSC upon request and under NDA + + * SMSC SCH3112, SCH3114, SCH3116 + + Prefix: 'sch311x' + + Addresses scanned: none, address read from Super-I/O config space + + Datasheet: Available on the Internet + + * SMSC SCH5027 + + Prefix: 'sch5027' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: Provided by SMSC upon request and under NDA + + * SMSC SCH5127 + + Prefix: 'sch5127' + + Addresses scanned: none, address read from Super-I/O config space + + Datasheet: Provided by SMSC upon request and under NDA + +Authors: + Juerg Haefliger <juergh@gmail.com> + + +Module Parameters +----------------- + +* force_start: bool + Enables the monitoring of voltage, fan and temp inputs + and PWM output control functions. Using this parameter + shouldn't be required since the BIOS usually takes care + of this. + +* probe_all_addr: bool + Include non-standard LPC addresses 0x162e and 0x164e + when probing for ISA devices. This is required for the + following boards: + - VIA EPIA SN18000 + + +Description +----------- + +This driver implements support for the hardware monitoring capabilities of the +SMSC DME1737 and Asus A8000 (which are the same), SMSC SCH5027, SCH311x, +and SCH5127 Super-I/O chips. These chips feature monitoring of 3 temp sensors +temp[1-3] (2 remote diodes and 1 internal), 8 voltages in[0-7] (7 external and +1 internal) and up to 6 fan speeds fan[1-6]. Additionally, the chips implement +up to 5 PWM outputs pwm[1-3,5-6] for controlling fan speeds both manually and +automatically. + +For the DME1737, A8000 and SCH5027, fan[1-2] and pwm[1-2] are always present. +Fan[3-6] and pwm[3,5-6] are optional features and their availability depends on +the configuration of the chip. The driver will detect which features are +present during initialization and create the sysfs attributes accordingly. + +For the SCH311x and SCH5127, fan[1-3] and pwm[1-3] are always present and +fan[4-6] and pwm[5-6] don't exist. + +The hardware monitoring features of the DME1737, A8000, and SCH5027 are only +accessible via SMBus, while the SCH311x and SCH5127 only provide access via +the ISA bus. The driver will therefore register itself as an I2C client driver +if it detects a DME1737, A8000, or SCH5027 and as a platform driver if it +detects a SCH311x or SCH5127 chip. + + +Voltage Monitoring +------------------ + +The voltage inputs are sampled with 12-bit resolution and have internal +scaling resistors. The values returned by the driver therefore reflect true +millivolts and don't need scaling. The voltage inputs are mapped as follows +(the last column indicates the input ranges): + +DME1737, A8000:: + + in0: +5VTR (+5V standby) 0V - 6.64V + in1: Vccp (processor core) 0V - 3V + in2: VCC (internal +3.3V) 0V - 4.38V + in3: +5V 0V - 6.64V + in4: +12V 0V - 16V + in5: VTR (+3.3V standby) 0V - 4.38V + in6: Vbat (+3.0V) 0V - 4.38V + +SCH311x:: + + in0: +2.5V 0V - 3.32V + in1: Vccp (processor core) 0V - 2V + in2: VCC (internal +3.3V) 0V - 4.38V + in3: +5V 0V - 6.64V + in4: +12V 0V - 16V + in5: VTR (+3.3V standby) 0V - 4.38V + in6: Vbat (+3.0V) 0V - 4.38V + +SCH5027:: + + in0: +5VTR (+5V standby) 0V - 6.64V + in1: Vccp (processor core) 0V - 3V + in2: VCC (internal +3.3V) 0V - 4.38V + in3: V2_IN 0V - 1.5V + in4: V1_IN 0V - 1.5V + in5: VTR (+3.3V standby) 0V - 4.38V + in6: Vbat (+3.0V) 0V - 4.38V + +SCH5127:: + + in0: +2.5 0V - 3.32V + in1: Vccp (processor core) 0V - 3V + in2: VCC (internal +3.3V) 0V - 4.38V + in3: V2_IN 0V - 1.5V + in4: V1_IN 0V - 1.5V + in5: VTR (+3.3V standby) 0V - 4.38V + in6: Vbat (+3.0V) 0V - 4.38V + in7: Vtrip (+1.5V) 0V - 1.99V + +Each voltage input has associated min and max limits which trigger an alarm +when crossed. + + +Temperature Monitoring +---------------------- + +Temperatures are measured with 12-bit resolution and reported in millidegree +Celsius. The chip also features offsets for all 3 temperature inputs which - +when programmed - get added to the input readings. The chip does all the +scaling by itself and the driver therefore reports true temperatures that don't +need any user-space adjustments. The temperature inputs are mapped as follows +(the last column indicates the input ranges):: + + temp1: Remote diode 1 (3904 type) temperature -127C - +127C + temp2: DME1737 internal temperature -127C - +127C + temp3: Remote diode 2 (3904 type) temperature -127C - +127C + +Each temperature input has associated min and max limits which trigger an alarm +when crossed. Additionally, each temperature input has a fault attribute that +returns 1 when a faulty diode or an unconnected input is detected and 0 +otherwise. + + +Fan Monitoring +-------------- + +Fan RPMs are measured with 16-bit resolution. The chip provides inputs for 6 +fan tachometers. All 6 inputs have an associated min limit which triggers an +alarm when crossed. Fan inputs 1-4 provide type attributes that need to be set +to the number of pulses per fan revolution that the connected tachometer +generates. Supported values are 1, 2, and 4. Fan inputs 5-6 only support fans +that generate 2 pulses per revolution. Fan inputs 5-6 also provide a max +attribute that needs to be set to the maximum attainable RPM (fan at 100% duty- +cycle) of the input. The chip adjusts the sampling rate based on this value. + + +PWM Output Control +------------------ + +This chip features 5 PWM outputs. PWM outputs 1-3 are associated with fan +inputs 1-3 and PWM outputs 5-6 are associated with fan inputs 5-6. PWM outputs +1-3 can be configured to operate either in manual or automatic mode by setting +the appropriate enable attribute accordingly. PWM outputs 5-6 can only operate +in manual mode, their enable attributes are therefore read-only. When set to +manual mode, the fan speed is set by writing the duty-cycle value to the +appropriate PWM attribute. In automatic mode, the PWM attribute returns the +current duty-cycle as set by the fan controller in the chip. All PWM outputs +support the setting of the output frequency via the freq attribute. + +In automatic mode, the chip supports the setting of the PWM ramp rate which +defines how fast the PWM output is adjusting to changes of the associated +temperature input. Associating PWM outputs to temperature inputs is done via +temperature zones. The chip features 3 zones whose assignments to temperature +inputs is static and determined during initialization. These assignments can +be retrieved via the zone[1-3]_auto_channels_temp attributes. Each PWM output +is assigned to one (or hottest of multiple) temperature zone(s) through the +pwm[1-3]_auto_channels_zone attributes. Each PWM output has 3 distinct output +duty-cycles: full, low, and min. Full is internally hard-wired to 255 (100%) +and low and min can be programmed via pwm[1-3]_auto_point1_pwm and +pwm[1-3]_auto_pwm_min, respectively. The thermal thresholds of the zones are +programmed via zone[1-3]_auto_point[1-3]_temp and +zone[1-3]_auto_point1_temp_hyst: + + =============================== ======================================= + pwm[1-3]_auto_point2_pwm full-speed duty-cycle (255, i.e., 100%) + pwm[1-3]_auto_point1_pwm low-speed duty-cycle + pwm[1-3]_auto_pwm_min min-speed duty-cycle + + zone[1-3]_auto_point3_temp full-speed temp (all outputs) + zone[1-3]_auto_point2_temp full-speed temp + zone[1-3]_auto_point1_temp low-speed temp + zone[1-3]_auto_point1_temp_hyst min-speed temp + =============================== ======================================= + +The chip adjusts the output duty-cycle linearly in the range of auto_point1_pwm +to auto_point2_pwm if the temperature of the associated zone is between +auto_point1_temp and auto_point2_temp. If the temperature drops below the +auto_point1_temp_hyst value, the output duty-cycle is set to the auto_pwm_min +value which only supports two values: 0 or auto_point1_pwm. That means that the +fan either turns completely off or keeps spinning with the low-speed +duty-cycle. If any of the temperatures rise above the auto_point3_temp value, +all PWM outputs are set to 100% duty-cycle. + +Following is another representation of how the chip sets the output duty-cycle +based on the temperature of the associated thermal zone: + + =============== =============== ================= + Temperature Duty-Cycle Duty-Cycle + Rising Temp Falling Temp + =============== =============== ================= + full-speed full-speed full-speed + + - < linearly - + adjusted + duty-cycle > + + low-speed low-speed low-speed + - min-speed low-speed + min-speed min-speed min-speed + - min-speed min-speed + =============== =============== ================= + + +Sysfs Attributes +---------------- + +Following is a list of all sysfs attributes that the driver provides, their +permissions and a short description: + +=============================== ======= ======================================= +Name Perm Description +=============================== ======= ======================================= +cpu0_vid RO CPU core reference voltage in + millivolts. +vrm RW Voltage regulator module version + number. + +in[0-7]_input RO Measured voltage in millivolts. +in[0-7]_min RW Low limit for voltage input. +in[0-7]_max RW High limit for voltage input. +in[0-7]_alarm RO Voltage input alarm. Returns 1 if + voltage input is or went outside the + associated min-max range, 0 otherwise. + +temp[1-3]_input RO Measured temperature in millidegree + Celsius. +temp[1-3]_min RW Low limit for temp input. +temp[1-3]_max RW High limit for temp input. +temp[1-3]_offset RW Offset for temp input. This value will + be added by the chip to the measured + temperature. +temp[1-3]_alarm RO Alarm for temp input. Returns 1 if temp + input is or went outside the associated + min-max range, 0 otherwise. +temp[1-3]_fault RO Temp input fault. Returns 1 if the chip + detects a faulty thermal diode or an + unconnected temp input, 0 otherwise. + +zone[1-3]_auto_channels_temp RO Temperature zone to temperature input + mapping. This attribute is a bitfield + and supports the following values: + + - 1: temp1 + - 2: temp2 + - 4: temp3 +zone[1-3]_auto_point1_temp_hyst RW Auto PWM temp point1 hysteresis. The + output of the corresponding PWM is set + to the pwm_auto_min value if the temp + falls below the auto_point1_temp_hyst + value. +zone[1-3]_auto_point[1-3]_temp RW Auto PWM temp points. Auto_point1 is + the low-speed temp, auto_point2 is the + full-speed temp, and auto_point3 is the + temp at which all PWM outputs are set + to full-speed (100% duty-cycle). + +fan[1-6]_input RO Measured fan speed in RPM. +fan[1-6]_min RW Low limit for fan input. +fan[1-6]_alarm RO Alarm for fan input. Returns 1 if fan + input is or went below the associated + min value, 0 otherwise. +fan[1-4]_type RW Type of attached fan. Expressed in + number of pulses per revolution that + the fan generates. Supported values are + 1, 2, and 4. +fan[5-6]_max RW Max attainable RPM at 100% duty-cycle. + Required for chip to adjust the + sampling rate accordingly. + +pmw[1-3,5-6] RO/RW Duty-cycle of PWM output. Supported + values are 0-255 (0%-100%). Only + writeable if the associated PWM is in + manual mode. +pwm[1-3]_enable RW Enable of PWM outputs 1-3. Supported + values are: + + - 0: turned off (output @ 100%) + - 1: manual mode + - 2: automatic mode +pwm[5-6]_enable RO Enable of PWM outputs 5-6. Always + returns 1 since these 2 outputs are + hard-wired to manual mode. +pmw[1-3,5-6]_freq RW Frequency of PWM output. Supported + values are in the range 11Hz-30000Hz + (default is 25000Hz). +pmw[1-3]_ramp_rate RW Ramp rate of PWM output. Determines how + fast the PWM duty-cycle will change + when the PWM is in automatic mode. + Expressed in ms per PWM step. Supported + values are in the range 0ms-206ms + (default is 0, which means the duty- + cycle changes instantly). +pwm[1-3]_auto_channels_zone RW PWM output to temperature zone mapping. + This attribute is a bitfield and + supports the following values: + + - 1: zone1 + - 2: zone2 + - 4: zone3 + - 6: highest of zone[2-3] + - 7: highest of zone[1-3] +pwm[1-3]_auto_pwm_min RW Auto PWM min pwm. Minimum PWM duty- + cycle. Supported values are 0 or + auto_point1_pwm. +pwm[1-3]_auto_point1_pwm RW Auto PWM pwm point. Auto_point1 is the + low-speed duty-cycle. +pwm[1-3]_auto_point2_pwm RO Auto PWM pwm point. Auto_point2 is the + full-speed duty-cycle which is hard- + wired to 255 (100% duty-cycle). +=============================== ======= ======================================= + +Chip Differences +---------------- + +======================= ======= ======= ======= ======= +Feature dme1737 sch311x sch5027 sch5127 +======================= ======= ======= ======= ======= +temp[1-3]_offset yes yes +vid yes +zone3 yes yes yes +zone[1-3]_hyst yes yes +pwm min/off yes yes +fan3 opt yes opt yes +pwm3 opt yes opt yes +fan4 opt opt +fan5 opt opt +pwm5 opt opt +fan6 opt opt +pwm6 opt opt +in7 yes +======================= ======= ======= ======= ======= diff --git a/Documentation/hwmon/dps920ab.rst b/Documentation/hwmon/dps920ab.rst new file mode 100644 index 0000000000..c33b4cdc0a --- /dev/null +++ b/Documentation/hwmon/dps920ab.rst @@ -0,0 +1,73 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver dps920ab +======================== + +Supported chips: + + * Delta DPS920AB + + Prefix: 'dps920ab' + + Addresses scanned: - + +Authors: + Robert Marko <robert.marko@sartura.hr> + + +Description +----------- + +This driver implements support for Delta DPS920AB 920W 54V DC single output +power supply with PMBus support. + +The driver is a client driver to the core PMBus driver. +Please see Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Sysfs entries +------------- + +======================= ====================================================== +curr1_label "iin" +curr1_input Measured input current +curr1_alarm Input current high alarm + +curr2_label "iout1" +curr2_input Measured output current +curr2_max Maximum output current +curr2_rated_max Maximum rated output current + +in1_label "vin" +in1_input Measured input voltage +in1_alarm Input voltage alarm + +in2_label "vout1" +in2_input Measured output voltage +in2_rated_min Minimum rated output voltage +in2_rated_max Maximum rated output voltage +in2_alarm Output voltage alarm + +power1_label "pin" +power1_input Measured input power +power1_alarm Input power high alarm + +power2_label "pout1" +power2_input Measured output power +power2_rated_max Maximum rated output power + +temp[1-3]_input Measured temperature +temp[1-3]_alarm Temperature alarm + +fan1_alarm Fan 1 warning. +fan1_fault Fan 1 fault. +fan1_input Fan 1 speed in RPM. +======================= ====================================================== diff --git a/Documentation/hwmon/drivetemp.rst b/Documentation/hwmon/drivetemp.rst new file mode 100644 index 0000000000..0b1cf2f912 --- /dev/null +++ b/Documentation/hwmon/drivetemp.rst @@ -0,0 +1,70 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver drivetemp +======================= + + +References +---------- + +ANS T13/1699-D +Information technology - AT Attachment 8 - ATA/ATAPI Command Set (ATA8-ACS) + +ANS Project T10/BSR INCITS 513 +Information technology - SCSI Primary Commands - 4 (SPC-4) + +ANS Project INCITS 557 +Information technology - SCSI / ATA Translation - 5 (SAT-5) + + +Description +----------- + +This driver supports reporting the temperature of disk and solid state +drives with temperature sensors. + +If supported, it uses the ATA SCT Command Transport feature to read +the current drive temperature and, if available, temperature limits +as well as historic minimum and maximum temperatures. If SCT Command +Transport is not supported, the driver uses SMART attributes to read +the drive temperature. + + +Usage Note +---------- + +Reading the drive temperature may reset the spin down timer on some drives. +This has been observed with WD120EFAX drives, but may be seen with other +drives as well. The same behavior is observed if the 'hdtemp' or 'smartd' +tools are used to access the drive. +With the WD120EFAX drive, reading the drive temperature using the drivetemp +driver is still possible _after_ it transitioned to standby mode, and +reading the drive temperature in this mode will not cause the drive to +change its mode (meaning the drive will not spin up). It is unknown if other +drives experience similar behavior. + +A known workaround for WD120EFAX drives is to read the drive temperature at +intervals larger than twice the spin-down time. Otherwise affected drives +will never spin down. + + +Sysfs entries +------------- + +Only the temp1_input attribute is always available. Other attributes are +available only if reported by the drive. All temperatures are reported in +milli-degrees Celsius. + +======================= ===================================================== +temp1_input Current drive temperature +temp1_lcrit Minimum temperature limit. Operating the device below + this temperature may cause physical damage to the + device. +temp1_min Minimum recommended continuous operating limit +temp1_max Maximum recommended continuous operating temperature +temp1_crit Maximum temperature limit. Operating the device above + this temperature may cause physical damage to the + device. +temp1_lowest Minimum temperature seen this power cycle +temp1_highest Maximum temperature seen this power cycle +======================= ===================================================== diff --git a/Documentation/hwmon/ds1621.rst b/Documentation/hwmon/ds1621.rst new file mode 100644 index 0000000000..552b37e9dd --- /dev/null +++ b/Documentation/hwmon/ds1621.rst @@ -0,0 +1,217 @@ +Kernel driver ds1621 +==================== + +Supported chips: + + * Dallas Semiconductor / Maxim Integrated DS1621 + + Prefix: 'ds1621' + + Addresses scanned: none + + Datasheet: Publicly available from www.maximintegrated.com + + * Dallas Semiconductor DS1625 + + Prefix: 'ds1625' + + Addresses scanned: none + + Datasheet: Publicly available from www.datasheetarchive.com + + * Maxim Integrated DS1631 + + Prefix: 'ds1631' + + Addresses scanned: none + + Datasheet: Publicly available from www.maximintegrated.com + + * Maxim Integrated DS1721 + + Prefix: 'ds1721' + + Addresses scanned: none + + Datasheet: Publicly available from www.maximintegrated.com + + * Maxim Integrated DS1731 + + Prefix: 'ds1731' + + Addresses scanned: none + + Datasheet: Publicly available from www.maximintegrated.com + +Authors: + - Christian W. Zuckschwerdt <zany@triq.net> + - valuable contributions by Jan M. Sendler <sendler@sendler.de> + - ported to 2.6 by Aurelien Jarno <aurelien@aurel32.net> + with the help of Jean Delvare <jdelvare@suse.de> + +Module Parameters +------------------ + +* polarity int + Output's polarity: + + * 0 = active high, + * 1 = active low + +Description +----------- + +The DS1621 is a (one instance) digital thermometer and thermostat. It has +both high and low temperature limits which can be user defined (i.e. +programmed into non-volatile on-chip registers). Temperature range is -55 +degree Celsius to +125 in 0.5 increments. You may convert this into a +Fahrenheit range of -67 to +257 degrees with 0.9 steps. If polarity +parameter is not provided, original value is used. + +As for the thermostat, behavior can also be programmed using the polarity +toggle. On the one hand ("heater"), the thermostat output of the chip, +Tout, will trigger when the low limit temperature is met or underrun and +stays high until the high limit is met or exceeded. On the other hand +("cooler"), vice versa. That way "heater" equals "active low", whereas +"conditioner" equals "active high". Please note that the DS1621 data sheet +is somewhat misleading in this point since setting the polarity bit does +not simply invert Tout. + +A second thing is that, during extensive testing, Tout showed a tolerance +of up to +/- 0.5 degrees even when compared against precise temperature +readings. Be sure to have a high vs. low temperature limit gap of al least +1.0 degree Celsius to avoid Tout "bouncing", though! + +The alarm bits are set when the high or low limits are met or exceeded and +are reset by the module as soon as the respective temperature ranges are +left. + +The alarm registers are in no way suitable to find out about the actual +status of Tout. They will only tell you about its history, whether or not +any of the limits have ever been met or exceeded since last power-up or +reset. Be aware: When testing, it showed that the status of Tout can change +with neither of the alarms set. + +Since there is no version or vendor identification register, there is +no unique identification for these devices. Therefore, explicit device +instantiation is required for correct device identification and functionality +(one device per address in this address range: 0x48..0x4f). + +The DS1625 is pin compatible and functionally equivalent with the DS1621, +but the DS1621 is meant to replace it. The DS1631, DS1721, and DS1731 are +also pin compatible with the DS1621 and provide multi-resolution support. + +Additionally, the DS1721 data sheet says the temperature flags (THF and TLF) +are used internally, however, these flags do get set and cleared as the actual +temperature crosses the min or max settings (which by default are set to 75 +and 80 degrees respectively). + +Temperature Conversion +---------------------- + +- DS1621 - 750ms (older devices may take up to 1000ms) +- DS1625 - 500ms +- DS1631 - 93ms..750ms for 9..12 bits resolution, respectively. +- DS1721 - 93ms..750ms for 9..12 bits resolution, respectively. +- DS1731 - 93ms..750ms for 9..12 bits resolution, respectively. + +Note: +On the DS1621, internal access to non-volatile registers may last for 10ms +or less (unverified on the other devices). + +Temperature Accuracy +-------------------- + +- DS1621: +/- 0.5 degree Celsius (from 0 to +70 degrees) +- DS1625: +/- 0.5 degree Celsius (from 0 to +70 degrees) +- DS1631: +/- 0.5 degree Celsius (from 0 to +70 degrees) +- DS1721: +/- 1.0 degree Celsius (from -10 to +85 degrees) +- DS1731: +/- 1.0 degree Celsius (from -10 to +85 degrees) + +.. Note:: + + Please refer to the device datasheets for accuracy at other temperatures. + +Temperature Resolution: +----------------------- +As mentioned above, the DS1631, DS1721, and DS1731 provide multi-resolution +support, which is achieved via the R0 and R1 config register bits, where: + +R0..R1 +------ + +== == =============================== +R0 R1 +== == =============================== + 0 0 9 bits, 0.5 degrees Celsius + 1 0 10 bits, 0.25 degrees Celsius + 0 1 11 bits, 0.125 degrees Celsius + 1 1 12 bits, 0.0625 degrees Celsius +== == =============================== + +.. Note:: + + At initial device power-on, the default resolution is set to 12-bits. + +The resolution mode for the DS1631, DS1721, or DS1731 can be changed from +userspace, via the device 'update_interval' sysfs attribute. This attribute +will normalize the range of input values to the device maximum resolution +values defined in the datasheet as follows: + +============= ================== =============== +Resolution Conversion Time Input Range + (C/LSB) (msec) (msec) +============= ================== =============== +0.5 93.75 0....94 +0.25 187.5 95...187 +0.125 375 188..375 +0.0625 750 376..infinity +============= ================== =============== + +The following examples show how the 'update_interval' attribute can be +used to change the conversion time:: + + $ cat update_interval + 750 + $ cat temp1_input + 22062 + $ + $ echo 300 > update_interval + $ cat update_interval + 375 + $ cat temp1_input + 22125 + $ + $ echo 150 > update_interval + $ cat update_interval + 188 + $ cat temp1_input + 22250 + $ + $ echo 1 > update_interval + $ cat update_interval + 94 + $ cat temp1_input + 22000 + $ + $ echo 1000 > update_interval + $ cat update_interval + 750 + $ cat temp1_input + 22062 + $ + +As shown, the ds1621 driver automatically adjusts the 'update_interval' +user input, via a step function. Reading back the 'update_interval' value +after a write operation provides the conversion time used by the device. + +Mathematically, the resolution can be derived from the conversion time +via the following function: + + g(x) = 0.5 * [minimum_conversion_time/x] + +where: + + - 'x' = the output from 'update_interval' + - 'g(x)' = the resolution in degrees C per LSB. + - 93.75ms = minimum conversion time diff --git a/Documentation/hwmon/ds620.rst b/Documentation/hwmon/ds620.rst new file mode 100644 index 0000000000..2d686b17b5 --- /dev/null +++ b/Documentation/hwmon/ds620.rst @@ -0,0 +1,38 @@ +Kernel driver ds620 +=================== + +Supported chips: + + * Dallas Semiconductor DS620 + + Prefix: 'ds620' + + Datasheet: Publicly available at the Dallas Semiconductor website + + http://www.dalsemi.com/ + +Authors: + Roland Stigge <stigge@antcom.de> + based on ds1621.c by + Christian W. Zuckschwerdt <zany@triq.net> + +Description +----------- + +The DS620 is a (one instance) digital thermometer and thermostat. It has both +high and low temperature limits which can be user defined (i.e. programmed +into non-volatile on-chip registers). Temperature range is -55 degree Celsius +to +125. Between 0 and 70 degree Celsius, accuracy is 0.5 Kelvin. The value +returned via sysfs displays post decimal positions. + +The thermostat function works as follows: When configured via platform_data +(struct ds620_platform_data) .pomode == 0 (default), the thermostat output pin +PO is always low. If .pomode == 1, the thermostat is in PO_LOW mode. I.e., the +output pin PO becomes active when the temperature falls below temp1_min and +stays active until the temperature goes above temp1_max. + +Likewise, with .pomode == 2, the thermostat is in PO_HIGH mode. I.e., the PO +output pin becomes active when the temperature goes above temp1_max and stays +active until the temperature falls below temp1_min. + +The PO output pin of the DS620 operates active-low. diff --git a/Documentation/hwmon/emc1403.rst b/Documentation/hwmon/emc1403.rst new file mode 100644 index 0000000000..0de9616b24 --- /dev/null +++ b/Documentation/hwmon/emc1403.rst @@ -0,0 +1,80 @@ +Kernel driver emc1403 +===================== + +Supported chips: + + * SMSC / Microchip EMC1402, EMC1412 + + Addresses scanned: I2C 0x18, 0x1c, 0x29, 0x4c, 0x4d, 0x5c + + Prefix: 'emc1402' + + Datasheets: + + - http://ww1.microchip.com/downloads/en/DeviceDoc/1412.pdf + - https://ww1.microchip.com/downloads/en/DeviceDoc/1402.pdf + + * SMSC / Microchip EMC1403, EMC1404, EMC1413, EMC1414 + + Addresses scanned: I2C 0x18, 0x29, 0x4c, 0x4d + + Prefix: 'emc1403', 'emc1404' + + Datasheets: + + - http://ww1.microchip.com/downloads/en/DeviceDoc/1403_1404.pdf + - http://ww1.microchip.com/downloads/en/DeviceDoc/1413_1414.pdf + + * SMSC / Microchip EMC1422 + + Addresses scanned: I2C 0x4c + + Prefix: 'emc1422' + + Datasheet: + + - https://ww1.microchip.com/downloads/en/DeviceDoc/1422.pdf + + * SMSC / Microchip EMC1423, EMC1424 + + Addresses scanned: I2C 0x4c + + Prefix: 'emc1423', 'emc1424' + + Datasheet: + + - https://ww1.microchip.com/downloads/en/DeviceDoc/1423_1424.pdf + +Author: + Kalhan Trisal <kalhan.trisal@intel.com + + +Description +----------- + +The Standard Microsystems Corporation (SMSC) / Microchip EMC14xx chips +contain up to four temperature sensors. EMC14x2 support two sensors +(one internal, one external). EMC14x3 support three sensors (one internal, +two external), and EMC14x4 support four sensors (one internal, three +external). + +The chips implement three limits for each sensor: low (tempX_min), high +(tempX_max) and critical (tempX_crit.) The chips also implement an +hysteresis mechanism which applies to all limits. The relative difference +is stored in a single register on the chip, which means that the relative +difference between the limit and its hysteresis is always the same for +all three limits. + +This implementation detail implies the following: + +* When setting a limit, its hysteresis will automatically follow, the + difference staying unchanged. For example, if the old critical limit + was 80 degrees C, and the hysteresis was 75 degrees C, and you change + the critical limit to 90 degrees C, then the hysteresis will + automatically change to 85 degrees C. +* The hysteresis values can't be set independently. We decided to make + only temp1_crit_hyst writable, while all other hysteresis attributes + are read-only. Setting temp1_crit_hyst writes the difference between + temp1_crit_hyst and temp1_crit into the chip, and the same relative + hysteresis applies automatically to all other limits. +* The limits should be set before the hysteresis. diff --git a/Documentation/hwmon/emc2103.rst b/Documentation/hwmon/emc2103.rst new file mode 100644 index 0000000000..6a6ca6d1b3 --- /dev/null +++ b/Documentation/hwmon/emc2103.rst @@ -0,0 +1,37 @@ +Kernel driver emc2103 +====================== + +Supported chips: + + * SMSC EMC2103 + + Addresses scanned: I2C 0x2e + + Prefix: 'emc2103' + + Datasheet: Not public + +Authors: + Steve Glendinning <steve.glendinning@smsc.com> + +Description +----------- + +The Standard Microsystems Corporation (SMSC) EMC2103 chips +contain up to 4 temperature sensors and a single fan controller. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4 or 8) to give +the readings more range or accuracy. Not all RPM values can accurately be +represented, so some rounding is done. With a divider of 1, the lowest +representable value is 480 RPM. + +This driver supports RPM based control, to use this a fan target +should be written to fan1_target and pwm1_enable should be set to 3. + +The 2103-2 and 2103-4 variants have a third temperature sensor, which can +be connected to two anti-parallel diodes. These values can be read +as temp3 and temp4. If only one diode is attached to this channel, temp4 +will show as "fault". The module parameter "apd=0" can be used to suppress +this 4th channel when anti-parallel diodes are not fitted. diff --git a/Documentation/hwmon/emc2305.rst b/Documentation/hwmon/emc2305.rst new file mode 100644 index 0000000000..2403dbaf27 --- /dev/null +++ b/Documentation/hwmon/emc2305.rst @@ -0,0 +1,37 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver emc2305 +===================== + +Supported chips: + Microchip EMC2305, EMC2303, EMC2302, EMC2301 + + Addresses scanned: I2C 0x27, 0x2c, 0x2d, 0x2e, 0x2f, 0x4c, 0x4d + Prefixes: 'emc2305' + + Datasheet: Publicly available at the Microchip website : + https://www.microchip.com/en-us/product/EMC2305 + +Description: +------------ +This driver implements support for Microchip EMC2301/2/3/5 RPM-based PWM Fan Controller. +The EMC2305 Fan Controller supports up to 5 independently controlled PWM fan drives. +Fan rotation speeds are reported in RPM. +The driver supports the RPM-based PWM control to keep a fan at the desired speed. +The driver provides the possibility to have one common PWM interface for all FANs +or up to the maximum available or configured independent PWMs. + +The driver provides the following sysfs interfaces in hwmon subsystem: + +================= == =================================================== +fan[1-5]_fault RO files for tachometers TACH1-TACH5 fault indication +fan[1-5]_input RO files for tachometers TACH1-TACH5 input (in RPM) +pwm[1-5] RW file for fan[1-5] target duty cycle (0..255) +================= == =================================================== + +sysfs interfaces in thermal subsystem: + +================= == ======================================================================== +cur_state RW file for the current cooling state of the cooling device (0..max_state) +max_state RO file for the maximum cooling state of the cooling device +================= == ======================================================================== diff --git a/Documentation/hwmon/emc6w201.rst b/Documentation/hwmon/emc6w201.rst new file mode 100644 index 0000000000..a8e1185b9b --- /dev/null +++ b/Documentation/hwmon/emc6w201.rst @@ -0,0 +1,47 @@ +Kernel driver emc6w201 +====================== + +Supported chips: + + * SMSC EMC6W201 + + Prefix: 'emc6w201' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: Not public + +Author: Jean Delvare <jdelvare@suse.de> + + +Description +----------- + +From the datasheet: + +"The EMC6W201 is an environmental monitoring device with automatic fan +control capability and enhanced system acoustics for noise suppression. +This ACPI compliant device provides hardware monitoring for up to six +voltages (including its own VCC) and five external thermal sensors, +measures the speed of up to five fans, and controls the speed of +multiple DC fans using three Pulse Width Modulator (PWM) outputs. Note +that it is possible to control more than three fans by connecting two +fans to one PWM output. The EMC6W201 will be available in a 36-pin +QFN package." + +The device is functionally close to the EMC6D100 series, but is +register-incompatible. + +The driver currently only supports the monitoring of the voltages, +temperatures and fan speeds. Limits can be changed. Alarms are not +supported, and neither is fan speed control. + + +Known Systems With EMC6W201 +--------------------------- + +The EMC6W201 is a rare device, only found on a few systems, made in +2005 and 2006. Known systems with this device: + +* Dell Precision 670 workstation +* Gigabyte 2CEWH mainboard diff --git a/Documentation/hwmon/f71805f.rst b/Documentation/hwmon/f71805f.rst new file mode 100644 index 0000000000..1efe5e5d33 --- /dev/null +++ b/Documentation/hwmon/f71805f.rst @@ -0,0 +1,181 @@ +Kernel driver f71805f +===================== + +Supported chips: + + * Fintek F71805F/FG + + Prefix: 'f71805f' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + + * Fintek F71806F/FG + + Prefix: 'f71872f' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + + * Fintek F71872F/FG + + Prefix: 'f71872f' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + +Author: Jean Delvare <jdelvare@suse.de> + +Thanks to Denis Kieft from Barracuda Networks for the donation of a +test system (custom Jetway K8M8MS motherboard, with CPU and RAM) and +for providing initial documentation. + +Thanks to Kris Chen and Aaron Huang from Fintek for answering technical +questions and providing additional documentation. + +Thanks to Chris Lin from Jetway for providing wiring schematics and +answering technical questions. + + +Description +----------- + +The Fintek F71805F/FG Super I/O chip includes complete hardware monitoring +capabilities. It can monitor up to 9 voltages (counting its own power +source), 3 fans and 3 temperature sensors. + +This chip also has fan controlling features, using either DC or PWM, in +three different modes (one manual, two automatic). + +The Fintek F71872F/FG Super I/O chip is almost the same, with two +additional internal voltages monitored (VSB and battery). It also features +6 VID inputs. The VID inputs are not yet supported by this driver. + +The Fintek F71806F/FG Super-I/O chip is essentially the same as the +F71872F/FG, and is undistinguishable therefrom. + +The driver assumes that no more than one chip is present, which seems +reasonable. + + +Voltage Monitoring +------------------ + +Voltages are sampled by an 8-bit ADC with a LSB of 8 mV. The supported +range is thus from 0 to 2.040 V. Voltage values outside of this range +need external resistors. An exception is in0, which is used to monitor +the chip's own power source (+3.3V), and is divided internally by a +factor 2. For the F71872F/FG, in9 (VSB) and in10 (battery) are also +divided internally by a factor 2. + +The two LSB of the voltage limit registers are not used (always 0), so +you can only set the limits in steps of 32 mV (before scaling). + +The wirings and resistor values suggested by Fintek are as follow: + +======= ======= =========== ==== ======= ============ ============== +in pin expected + name use R1 R2 divider raw val. +======= ======= =========== ==== ======= ============ ============== +in0 VCC VCC3.3V int. int. 2.00 1.65 V +in1 VIN1 VTT1.2V 10K - 1.00 1.20 V +in2 VIN2 VRAM 100K 100K 2.00 ~1.25 V [1]_ +in3 VIN3 VCHIPSET 47K 100K 1.47 2.24 V [2]_ +in4 VIN4 VCC5V 200K 47K 5.25 0.95 V +in5 VIN5 +12V 200K 20K 11.00 1.05 V +in6 VIN6 VCC1.5V 10K - 1.00 1.50 V +in7 VIN7 VCORE 10K - 1.00 ~1.40 V [1]_ +in8 VIN8 VSB5V 200K 47K 1.00 0.95 V +in10 VSB VSB3.3V int. int. 2.00 1.65 V [3]_ +in9 VBAT VBATTERY int. int. 2.00 1.50 V [3]_ +======= ======= =========== ==== ======= ============ ============== + +.. [1] Depends on your hardware setup. +.. [2] Obviously not correct, swapping R1 and R2 would make more sense. +.. [3] F71872F/FG only. + +These values can be used as hints at best, as motherboard manufacturers +are free to use a completely different setup. As a matter of fact, the +Jetway K8M8MS uses a significantly different setup. You will have to +find out documentation about your own motherboard, and edit sensors.conf +accordingly. + +Each voltage measured has associated low and high limits, each of which +triggers an alarm when crossed. + + +Fan Monitoring +-------------- + +Fan rotation speeds are reported as 12-bit values from a gated clock +signal. Speeds down to 366 RPM can be measured. There is no theoretical +high limit, but values over 6000 RPM seem to cause problem. The effective +resolution is much lower than you would expect, the step between different +register values being 10 rather than 1. + +The chip assumes 2 pulse-per-revolution fans. + +An alarm is triggered if the rotation speed drops below a programmable +limit or is too low to be measured. + + +Temperature Monitoring +---------------------- + +Temperatures are reported in degrees Celsius. Each temperature measured +has a high limit, those crossing triggers an alarm. There is an associated +hysteresis value, below which the temperature has to drop before the +alarm is cleared. + +All temperature channels are external, there is no embedded temperature +sensor. Each channel can be used for connecting either a thermal diode +or a thermistor. The driver reports the currently selected mode, but +doesn't allow changing it. In theory, the BIOS should have configured +everything properly. + + +Fan Control +----------- + +Both PWM (pulse-width modulation) and DC fan speed control methods are +supported. The right one to use depends on external circuitry on the +motherboard, so the driver assumes that the BIOS set the method +properly. The driver will report the method, but won't let you change +it. + +When the PWM method is used, you can select the operating frequency, +from 187.5 kHz (default) to 31 Hz. The best frequency depends on the +fan model. As a rule of thumb, lower frequencies seem to give better +control, but may generate annoying high-pitch noise. So a frequency just +above the audible range, such as 25 kHz, may be a good choice; if this +doesn't give you good linear control, try reducing it. Fintek recommends +not going below 1 kHz, as the fan tachometers get confused by lower +frequencies as well. + +When the DC method is used, Fintek recommends not going below 5 V, which +corresponds to a pwm value of 106 for the driver. The driver doesn't +enforce this limit though. + +Three different fan control modes are supported; the mode number is written +to the pwm<n>_enable file. + +* 1: Manual mode + You ask for a specific PWM duty cycle or DC voltage by writing to the + pwm<n> file. + +* 2: Temperature mode + You define 3 temperature/fan speed trip points using the + pwm<n>_auto_point<m>_temp and _fan files. These define a staircase + relationship between temperature and fan speed with two additional points + interpolated between the values that you define. When the temperature + is below auto_point1_temp the fan is switched off. + +* 3: Fan speed mode + You ask for a specific fan speed by writing to the fan<n>_target file. + +Both of the automatic modes require that pwm1 corresponds to fan1, pwm2 to +fan2 and pwm3 to fan3. Temperature mode also requires that temp1 corresponds +to pwm1 and fan1, etc. diff --git a/Documentation/hwmon/f71882fg.rst b/Documentation/hwmon/f71882fg.rst new file mode 100644 index 0000000000..38e30fbd48 --- /dev/null +++ b/Documentation/hwmon/f71882fg.rst @@ -0,0 +1,192 @@ +Kernel driver f71882fg +====================== + +Supported chips: + + * Fintek F71808E + + Prefix: 'f71808e' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Not public + + * Fintek F71808A + + Prefix: 'f71808a' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Not public + + * Fintek F71858FG + + Prefix: 'f71858fg' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + + * Fintek F71862FG and F71863FG + + Prefix: 'f71862fg' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + + * Fintek F71869F and F71869E + + Prefix: 'f71869' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + + * Fintek F71869A + + Prefix: 'f71869a' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Not public + + * Fintek F71882FG and F71883FG + + Prefix: 'f71882fg' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + + * Fintek F71889FG + + Prefix: 'f71889fg' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + + * Fintek F71889ED + + Prefix: 'f71889ed' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Should become available on the Fintek website soon + + * Fintek F71889A + + Prefix: 'f71889a' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Should become available on the Fintek website soon + + * Fintek F8000 + + Prefix: 'f8000' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Not public + + * Fintek F81801U + + Prefix: 'f71889fg' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Not public + + Note: + This is the 64-pin variant of the F71889FG, they have the + same device ID and are fully compatible as far as hardware + monitoring is concerned. + + * Fintek F81865F + + Prefix: 'f81865f' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Available from the Fintek website + +Author: Hans de Goede <hdegoede@redhat.com> + + +Description +----------- + +Fintek F718xx/F8000 Super I/O chips include complete hardware monitoring +capabilities. They can monitor up to 9 voltages, 4 fans and 3 temperature +sensors. + +These chips also have fan controlling features, using either DC or PWM, in +three different modes (one manual, two automatic). + +The driver assumes that no more than one chip is present, which seems +reasonable. + + +Monitoring +---------- + +The Voltage, Fan and Temperature Monitoring uses the standard sysfs +interface as documented in sysfs-interface, without any exceptions. + + +Fan Control +----------- + +Both PWM (pulse-width modulation) and DC fan speed control methods are +supported. The right one to use depends on external circuitry on the +motherboard, so the driver assumes that the BIOS set the method +properly. + +Note that the lowest numbered temperature zone trip point corresponds to +the border between the highest and one but highest temperature zones, and +vica versa. So the temperature zone trip points 1-4 (or 1-2) go from high temp +to low temp! This is how things are implemented in the IC, and the driver +mimics this. + +There are 2 modes to specify the speed of the fan, PWM duty cycle (or DC +voltage) mode, where 0-100% duty cycle (0-100% of 12V) is specified. And RPM +mode where the actual RPM of the fan (as measured) is controlled and the speed +gets specified as 0-100% of the fan#_full_speed file. + +Since both modes work in a 0-100% (mapped to 0-255) scale, there isn't a +whole lot of a difference when modifying fan control settings. The only +important difference is that in RPM mode the 0-100% controls the fan speed +between 0-100% of fan#_full_speed. It is assumed that if the BIOS programs +RPM mode, it will also set fan#_full_speed properly, if it does not then +fan control will not work properly, unless you set a sane fan#_full_speed +value yourself. + +Switching between these modes requires re-initializing a whole bunch of +registers, so the mode which the BIOS has set is kept. The mode is +printed when loading the driver. + +Three different fan control modes are supported; the mode number is written +to the pwm#_enable file. Note that not all modes are supported on all +chips, and some modes may only be available in RPM / PWM mode. +Writing an unsupported mode will result in an invalid parameter error. + +* 1: Manual mode + You ask for a specific PWM duty cycle / DC voltage or a specific % of + fan#_full_speed by writing to the pwm# file. This mode is only + available on the F71858FG / F8000 if the fan channel is in RPM mode. + +* 2: Normal auto mode + You can define a number of temperature/fan speed trip points, which % the + fan should run at at this temp and which temp a fan should follow using the + standard sysfs interface. The number and type of trip points is chip + depended, see which files are available in sysfs. + Fan/PWM channel 3 of the F8000 is always in this mode! + +* 3: Thermostat mode (Only available on the F8000 when in duty cycle mode) + The fan speed is regulated to keep the temp the fan is mapped to between + temp#_auto_point2_temp and temp#_auto_point3_temp. + +All of the automatic modes require that pwm1 corresponds to fan1, pwm2 to +fan2 and pwm3 to fan3. diff --git a/Documentation/hwmon/fam15h_power.rst b/Documentation/hwmon/fam15h_power.rst new file mode 100644 index 0000000000..fdde632c93 --- /dev/null +++ b/Documentation/hwmon/fam15h_power.rst @@ -0,0 +1,131 @@ +Kernel driver fam15h_power +========================== + +Supported chips: + +* AMD Family 15h Processors + +* AMD Family 16h Processors + + Prefix: 'fam15h_power' + + Addresses scanned: PCI space + + Datasheets: + + - BIOS and Kernel Developer's Guide (BKDG) For AMD Family 15h Processors + - BIOS and Kernel Developer's Guide (BKDG) For AMD Family 16h Processors + - AMD64 Architecture Programmer's Manual Volume 2: System Programming + +Author: Andreas Herrmann <herrmann.der.user@googlemail.com> + +Description +----------- + +1) Processor TDP (Thermal design power) + +Given a fixed frequency and voltage, the power consumption of a +processor varies based on the workload being executed. Derated power +is the power consumed when running a specific application. Thermal +design power (TDP) is an example of derated power. + +This driver permits reading of registers providing power information +of AMD Family 15h and 16h processors via TDP algorithm. + +For AMD Family 15h and 16h processors the following power values can +be calculated using different processor northbridge function +registers: + +* BasePwrWatts: + Specifies in watts the maximum amount of power + consumed by the processor for NB and logic external to the core. + +* ProcessorPwrWatts: + Specifies in watts the maximum amount of power + the processor can support. +* CurrPwrWatts: + Specifies in watts the current amount of power being + consumed by the processor. + +This driver provides ProcessorPwrWatts and CurrPwrWatts: + +* power1_crit (ProcessorPwrWatts) +* power1_input (CurrPwrWatts) + +On multi-node processors the calculated value is for the entire +package and not for a single node. Thus the driver creates sysfs +attributes only for internal node0 of a multi-node processor. + +2) Accumulated Power Mechanism + +This driver also introduces an algorithm that should be used to +calculate the average power consumed by a processor during a +measurement interval Tm. The feature of accumulated power mechanism is +indicated by CPUID Fn8000_0007_EDX[12]. + +* Tsample: + compute unit power accumulator sample period + +* Tref: + the PTSC counter period + +* PTSC: + performance timestamp counter + +* N: + the ratio of compute unit power accumulator sample period to the + PTSC period + +* Jmax: + max compute unit accumulated power which is indicated by + MaxCpuSwPwrAcc MSR C001007b + +* Jx/Jy: + compute unit accumulated power which is indicated by + CpuSwPwrAcc MSR C001007a +* Tx/Ty: + the value of performance timestamp counter which is indicated + by CU_PTSC MSR C0010280 + +* PwrCPUave: + CPU average power + +i. Determine the ratio of Tsample to Tref by executing CPUID Fn8000_0007. + + N = value of CPUID Fn8000_0007_ECX[CpuPwrSampleTimeRatio[15:0]]. + +ii. Read the full range of the cumulative energy value from the new + MSR MaxCpuSwPwrAcc. + + Jmax = value returned. + +iii. At time x, SW reads CpuSwPwrAcc MSR and samples the PTSC. + + Jx = value read from CpuSwPwrAcc and Tx = value read from PTSC. + +iv. At time y, SW reads CpuSwPwrAcc MSR and samples the PTSC. + + Jy = value read from CpuSwPwrAcc and Ty = value read from PTSC. + +v. Calculate the average power consumption for a compute unit over + time period (y-x). Unit of result is uWatt:: + + if (Jy < Jx) // Rollover has occurred + Jdelta = (Jy + Jmax) - Jx + else + Jdelta = Jy - Jx + PwrCPUave = N * Jdelta * 1000 / (Ty - Tx) + +This driver provides PwrCPUave and interval(default is 10 millisecond +and maximum is 1 second): + +* power1_average (PwrCPUave) +* power1_average_interval (Interval) + +The power1_average_interval can be updated at /etc/sensors3.conf file +as below: + +chip `fam15h_power-*` + set power1_average_interval 0.01 + +Then save it with "sensors -s". diff --git a/Documentation/hwmon/fsp-3y.rst b/Documentation/hwmon/fsp-3y.rst new file mode 100644 index 0000000000..5693d83a20 --- /dev/null +++ b/Documentation/hwmon/fsp-3y.rst @@ -0,0 +1,28 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver fsp3y +====================== +Supported devices: + * 3Y POWER YH-5151E + * 3Y POWER YM-2151E + +Author: Václav Kubernát <kubernat@cesnet.cz> + +Description +----------- +This driver implements limited support for two 3Y POWER devices. + +Sysfs entries +------------- + * in1_input input voltage + * in2_input 12V output voltage + * in3_input 5V output voltage + * curr1_input input current + * curr2_input 12V output current + * curr3_input 5V output current + * fan1_input fan rpm + * temp1_input temperature 1 + * temp2_input temperature 2 + * temp3_input temperature 3 + * power1_input input power + * power2_input output power diff --git a/Documentation/hwmon/ftsteutates.rst b/Documentation/hwmon/ftsteutates.rst new file mode 100644 index 0000000000..2abd16830c --- /dev/null +++ b/Documentation/hwmon/ftsteutates.rst @@ -0,0 +1,42 @@ +Kernel driver ftsteutates +========================= + +Supported chips: + + * FTS Teutates + + Prefix: 'ftsteutates' + + Addresses scanned: I2C 0x73 (7-Bit) + +Author: Thilo Cestonaro <thilo.cestonaro@ts.fujitsu.com> + + +Description +----------- + +The BMC Teutates is the Eleventh generation of Superior System +monitoring and thermal management solution. It is builds on the basic +functionality of the BMC Theseus and contains several new features and +enhancements. It can monitor up to 4 voltages, 16 temperatures and +8 fans. It also contains an integrated watchdog which is currently +implemented in this driver. + +The ``pwmX_auto_channels_temp`` attributes show which temperature sensor +is currently driving which fan channel. This value might dynamically change +during runtime depending on the temperature sensor selected by +the fan control circuit. + +The 4 voltages require a board-specific multiplier, since the BMC can +only measure voltages up to 3.3V and thus relies on voltage dividers. +Consult your motherboard manual for details. + +To clear a temperature or fan alarm, execute the following command with the +correct path to the alarm file:: + + echo 0 >XXXX_alarm + +Specifications of the chip can be found at the `Kontron FTP Server <http://ftp.kontron.com/>`_ (username = "anonymous", no password required) +under the following path: + + /Services/Software_Tools/Linux_SystemMonitoring_Watchdog_GPIO/BMC-Teutates_Specification_V1.21.pdf diff --git a/Documentation/hwmon/g760a.rst b/Documentation/hwmon/g760a.rst new file mode 100644 index 0000000000..d82952cc83 --- /dev/null +++ b/Documentation/hwmon/g760a.rst @@ -0,0 +1,40 @@ +Kernel driver g760a +=================== + +Supported chips: + + * Global Mixed-mode Technology Inc. G760A + + Prefix: 'g760a' + + Datasheet: Publicly available at the GMT website + + http://www.gmt.com.tw/product/datasheet/EDS-760A.pdf + +Author: Herbert Valerio Riedel <hvr@gnu.org> + +Description +----------- + +The GMT G760A Fan Speed PWM Controller is connected directly to a fan +and performs closed-loop control of the fan speed. + +The fan speed is programmed by setting the period via 'pwm1' of two +consecutive speed pulses. The period is defined in terms of clock +cycle counts of an assumed 32kHz clock source. + +Setting a period of 0 stops the fan; setting the period to 255 sets +fan to maximum speed. + +The measured fan rotation speed returned via 'fan1_input' is derived +from the measured speed pulse period by assuming again a 32kHz clock +source and a 2 pulse-per-revolution fan. + +The 'alarms' file provides access to the two alarm bits provided by +the G760A chip's status register: Bit 0 is set when the actual fan +speed differs more than 20% with respect to the programmed fan speed; +bit 1 is set when fan speed is below 1920 RPM. + +The g760a driver will not update its values more frequently than every +other second; reading them more often will do no harm, but will return +'old' values. diff --git a/Documentation/hwmon/g762.rst b/Documentation/hwmon/g762.rst new file mode 100644 index 0000000000..0371b3365c --- /dev/null +++ b/Documentation/hwmon/g762.rst @@ -0,0 +1,74 @@ +Kernel driver g762 +================== + +The GMT G762 Fan Speed PWM Controller is connected directly to a fan +and performs closed-loop or open-loop control of the fan speed. Two +modes - PWM or DC - are supported by the device. + +For additional information, a detailed datasheet is available at +http://natisbad.org/NAS/ref/GMT_EDS-762_763-080710-0.2.pdf. sysfs +bindings are described in Documentation/hwmon/sysfs-interface.rst. + +The following entries are available to the user in a subdirectory of +/sys/bus/i2c/drivers/g762/ to control the operation of the device. +This can be done manually using the following entries but is usually +done via a userland daemon like fancontrol. + +Note that those entries do not provide ways to setup the specific +hardware characteristics of the system (reference clock, pulses per +fan revolution, ...); Those can be modified via devicetree bindings +documented in Documentation/devicetree/bindings/hwmon/g762.txt or +using a specific platform_data structure in board initialization +file (see include/linux/platform_data/g762.h). + + fan1_target: + set desired fan speed. This only makes sense in closed-loop + fan speed control (i.e. when pwm1_enable is set to 2). + + fan1_input: + provide current fan rotation value in RPM as reported by + the fan to the device. + + fan1_div: + fan clock divisor. Supported value are 1, 2, 4 and 8. + + fan1_pulses: + number of pulses per fan revolution. Supported values + are 2 and 4. + + fan1_fault: + reports fan failure, i.e. no transition on fan gear pin for + about 0.7s (if the fan is not voluntarily set off). + + fan1_alarm: + in closed-loop control mode, if fan RPM value is 25% out + of the programmed value for over 6 seconds 'fan1_alarm' is + set to 1. + + pwm1_enable: + set current fan speed control mode i.e. 1 for manual fan + speed control (open-loop) via pwm1 described below, 2 for + automatic fan speed control (closed-loop) via fan1_target + above. + + pwm1_mode: + set or get fan driving mode: 1 for PWM mode, 0 for DC mode. + + pwm1: + get or set PWM fan control value in open-loop mode. This is an + integer value between 0 and 255. 0 stops the fan, 255 makes + it run at full speed. + +Both in PWM mode ('pwm1_mode' set to 1) and DC mode ('pwm1_mode' set to 0), +when current fan speed control mode is open-loop ('pwm1_enable' set to 1), +the fan speed is programmed by setting a value between 0 and 255 via 'pwm1' +entry (0 stops the fan, 255 makes it run at full speed). In closed-loop mode +('pwm1_enable' set to 2), the expected rotation speed in RPM can be passed to +the chip via 'fan1_target'. In closed-loop mode, the target speed is compared +with current speed (available via 'fan1_input') by the device and a feedback +is performed to match that target value. The fan speed value is computed +based on the parameters associated with the physical characteristics of the +system: a reference clock source frequency, a number of pulses per fan +revolution, etc. + +Note that the driver will update its values at most once per second. diff --git a/Documentation/hwmon/gl518sm.rst b/Documentation/hwmon/gl518sm.rst new file mode 100644 index 0000000000..bf1e0b5e82 --- /dev/null +++ b/Documentation/hwmon/gl518sm.rst @@ -0,0 +1,80 @@ +Kernel driver gl518sm +===================== + +Supported chips: + + * Genesys Logic GL518SM release 0x00 + + Prefix: 'gl518sm' + + Addresses scanned: I2C 0x2c and 0x2d + + * Genesys Logic GL518SM release 0x80 + + Prefix: 'gl518sm' + + Addresses scanned: I2C 0x2c and 0x2d + + Datasheet: http://www.genesyslogic.com/ + +Authors: + - Frodo Looijaard <frodol@dds.nl>, + - Kyösti Mälkki <kmalkki@cc.hut.fi> + - Hong-Gunn Chew <hglinux@gunnet.org> + - Jean Delvare <jdelvare@suse.de> + +Description +----------- + +.. important:: + + For the revision 0x00 chip, the in0, in1, and in2 values (+5V, +3V, + and +12V) CANNOT be read. This is a limitation of the chip, not the driver. + +This driver supports the Genesys Logic GL518SM chip. There are at least +two revision of this chip, which we call revision 0x00 and 0x80. Revision +0x80 chips support the reading of all voltages and revision 0x00 only +for VIN3. + +The GL518SM implements one temperature sensor, two fan rotation speed +sensors, and four voltage sensors. It can report alarms through the +computer speakers. + +Temperatures are measured in degrees Celsius. An alarm goes off while the +temperature is above the over temperature limit, and has not yet dropped +below the hysteresis limit. The alarm always reflects the current +situation. Measurements are guaranteed between -10 degrees and +110 +degrees, with a accuracy of +/-3 degrees. + +Rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. In +case when you have selected to turn fan1 off, no fan1 alarm is triggered. + +Fan readings can be divided by a programmable divider (1, 2, 4 or 8) to +give the readings more range or accuracy. Not all RPM values can +accurately be represented, so some rounding is done. With a divider +of 2, the lowest representable value is around 1900 RPM. + +Voltage sensors (also known as VIN sensors) report their values in volts. +An alarm is triggered if the voltage has crossed a programmable minimum or +maximum limit. Note that minimum in this case always means 'closest to +zero'; this is important for negative voltage measurements. The VDD input +measures voltages between 0.000 and 5.865 volt, with a resolution of 0.023 +volt. The other inputs measure voltages between 0.000 and 4.845 volt, with +a resolution of 0.019 volt. Note that revision 0x00 chips do not support +reading the current voltage of any input except for VIN3; limit setting and +alarms work fine, though. + +When an alarm is triggered, you can be warned by a beeping signal through your +computer speaker. It is possible to enable all beeping globally, or only the +beeping for some alarms. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once (except for temperature alarms). This means that the +cause for the alarm may already have disappeared! Note that in the current +implementation, all hardware registers are read whenever any data is read +(unless it is less than 1.5 seconds since the last update). This means that +you can easily miss once-only alarms. + +The GL518SM only updates its values each 1.5 seconds; reading it more often +will do no harm, but will return 'old' values. diff --git a/Documentation/hwmon/gsc-hwmon.rst b/Documentation/hwmon/gsc-hwmon.rst new file mode 100644 index 0000000000..e9ab27940d --- /dev/null +++ b/Documentation/hwmon/gsc-hwmon.rst @@ -0,0 +1,53 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver gsc-hwmon +======================= + +Supported chips: Gateworks GSC +Datasheet: http://trac.gateworks.com/wiki/gsc +Author: Tim Harvey <tharvey@gateworks.com> + +Description: +------------ + +This driver supports hardware monitoring for the temperature sensor, +various ADC's connected to the GSC, and optional FAN controller available +on some boards. + + +Voltage Monitoring +------------------ + +The voltage inputs are scaled either internally or by the driver depending +on the GSC version and firmware. The values returned by the driver do not need +further scaling. The voltage input labels provide the voltage rail name: + +inX_input Measured voltage (mV). +inX_label Name of voltage rail. + + +Temperature Monitoring +---------------------- + +Temperatures are measured with 12-bit or 10-bit resolution and are scaled +either internally or by the driver depending on the GSC version and firmware. +The values returned by the driver reflect millidegree Celsius: + +tempX_input Measured temperature. +tempX_label Name of temperature input. + + +PWM Output Control +------------------ + +The GSC features 1 PWM output that operates in automatic mode where the +PWM value will be scaled depending on 6 temperature boundaries. +The tempeature boundaries are read-write and in millidegree Celsius and the +read-only PWM values range from 0 (off) to 255 (full speed). +Fan speed will be set to minimum (off) when the temperature sensor reads +less than pwm1_auto_point1_temp and maximum when the temperature sensor +equals or exceeds pwm1_auto_point6_temp. + +pwm1_auto_point[1-6]_pwm PWM value. +pwm1_auto_point[1-6]_temp Temperature boundary. + diff --git a/Documentation/hwmon/gxp-fan-ctrl.rst b/Documentation/hwmon/gxp-fan-ctrl.rst new file mode 100644 index 0000000000..ae3397e81c --- /dev/null +++ b/Documentation/hwmon/gxp-fan-ctrl.rst @@ -0,0 +1,28 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver gxp-fan-ctrl +========================== + +Supported chips: + + * HPE GXP SOC + +Author: Nick Hawkins <nick.hawkins@hpe.com> + + +Description +----------- + +gxp-fan-ctrl is a driver which provides fan control for the hpe gxp soc. +The driver allows the gathering of fan status and the use of fan +PWM control. + + +Sysfs attributes +---------------- + +======================= =========================================================== +pwm[0-7] Fan 0 to 7 respective PWM value (0-255) +fan[0-7]_fault Fan 0 to 7 respective fault status: 1 fail, 0 ok +fan[0-7]_enable Fan 0 to 7 respective enabled status: 1 enabled, 0 disabled +======================= =========================================================== diff --git a/Documentation/hwmon/hih6130.rst b/Documentation/hwmon/hih6130.rst new file mode 100644 index 0000000000..e95d373eb6 --- /dev/null +++ b/Documentation/hwmon/hih6130.rst @@ -0,0 +1,45 @@ +Kernel driver hih6130 +===================== + +Supported chips: + + * Honeywell HIH-6130 / HIH-6131 + + Prefix: 'hih6130' + + Addresses scanned: none + + Datasheet: Publicly available at the Honeywell website + + http://sensing.honeywell.com/index.php?ci_id=3106&la_id=1&defId=44872 + +Author: + Iain Paton <ipaton0@gmail.com> + +Description +----------- + +The HIH-6130 & HIH-6131 are humidity and temperature sensors in a SO8 package. +The difference between the two devices is that the HIH-6131 has a condensation +filter. + +The devices communicate with the I2C protocol. All sensors are set to the same +I2C address 0x27 by default, so an entry with I2C_BOARD_INFO("hih6130", 0x27) +can be used in the board setup code. + +Please see Documentation/i2c/instantiating-devices.rst for details on how to +instantiate I2C devices. + +sysfs-Interface +--------------- + +temp1_input + temperature input + +humidity1_input + humidity input + +Notes +----- + +Command mode and alarms are not currently supported. diff --git a/Documentation/hwmon/hp-wmi-sensors.rst b/Documentation/hwmon/hp-wmi-sensors.rst new file mode 100644 index 0000000000..a6bca9aecd --- /dev/null +++ b/Documentation/hwmon/hp-wmi-sensors.rst @@ -0,0 +1,140 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +.. include:: <isonum.txt> + +=========================== +Linux HP WMI Sensors Driver +=========================== + +:Copyright: |copy| 2023 James Seo <james@equiv.tech> + +Description +=========== + +Hewlett-Packard (and some HP Compaq) business-class computers report hardware +monitoring information via Windows Management Instrumentation (WMI). +This driver exposes that information to the Linux hwmon subsystem, allowing +userspace utilities like ``sensors`` to gather numeric sensor readings. + +sysfs interface +=============== + +When the driver is loaded, it discovers the sensors available on the +system and creates the following sysfs attributes as necessary within +``/sys/class/hwmon/hwmon[X]``: + +(``[X]`` is some number that depends on other system components.) + +======================= ======= =================================== +Name Perm Description +======================= ======= =================================== +``curr[X]_input`` RO Current in milliamperes (mA). +``curr[X]_label`` RO Current sensor label. +``fan[X]_input`` RO Fan speed in RPM. +``fan[X]_label`` RO Fan sensor label. +``fan[X]_fault`` RO Fan sensor fault indicator. +``fan[X]_alarm`` RO Fan sensor alarm indicator. +``in[X]_input`` RO Voltage in millivolts (mV). +``in[X]_label`` RO Voltage sensor label. +``temp[X]_input`` RO Temperature in millidegrees Celsius + (m\ |deg|\ C). +``temp[X]_label`` RO Temperature sensor label. +``temp[X]_fault`` RO Temperature sensor fault indicator. +``temp[X]_alarm`` RO Temperature sensor alarm indicator. +``intrusion[X]_alarm`` RW Chassis intrusion alarm indicator. +======================= ======= =================================== + +``fault`` attributes + Reading ``1`` instead of ``0`` as the ``fault`` attribute for a sensor + indicates that it has encountered some issue during operation such that + measurements from it should not be trusted. If a sensor with the fault + condition recovers later, reading this attribute will return ``0`` again. + +``alarm`` attributes + Reading ``1`` instead of ``0`` as the ``alarm`` attribute for a sensor + indicates that one of the following has occurred, depending on its type: + + - ``fan``: The fan has stalled or has been disconnected while running. + - ``temp``: The sensor reading has reached a critical threshold. + The exact threshold is system-dependent. + - ``intrusion``: The system's chassis has been opened. + + After ``1`` is read from an ``alarm`` attribute, the attribute resets itself + and returns ``0`` on subsequent reads. As an exception, an + ``intrusion[X]_alarm`` can only be manually reset by writing ``0`` to it. + +debugfs interface +================= + +.. warning:: The debugfs interface is subject to change without notice + and is only available when the kernel is compiled with + ``CONFIG_DEBUG_FS`` defined. + +The standard hwmon interface in sysfs exposes sensors of several common types +that are connected as of driver initialization. However, there are usually +other sensors in WMI that do not meet these criteria. In addition, a number of +system-dependent "platform events objects" used for ``alarm`` attributes may +be present. A debugfs interface is therefore provided for read-only access to +all available HP WMI sensors and platform events objects. + +``/sys/kernel/debug/hp-wmi-sensors-[X]/sensor`` +contains one numbered entry per sensor with the following attributes: + +=============================== ======================================= +Name Example +=============================== ======================================= +``name`` ``CPU0 Fan`` +``description`` ``Reports CPU0 fan speed`` +``sensor_type`` ``12`` +``other_sensor_type`` (an empty string) +``operational_status`` ``2`` +``possible_states`` ``Normal,Caution,Critical,Not Present`` +``current_state`` ``Normal`` +``base_units`` ``19`` +``unit_modifier`` ``0`` +``current_reading`` ``1008`` +``rate_units`` ``0`` (only exists on some systems) +=============================== ======================================= + +If platform events objects are available, +``/sys/kernel/debug/hp-wmi-sensors-[X]/platform_events`` +contains one numbered entry per object with the following attributes: + +=============================== ==================== +Name Example +=============================== ==================== +``name`` ``CPU0 Fan Stall`` +``description`` ``CPU0 Fan Speed`` +``source_namespace`` ``root\wmi`` +``source_class`` ``HPBIOS_BIOSEvent`` +``category`` ``3`` +``possible_severity`` ``25`` +``possible_status`` ``5`` +=============================== ==================== + +These represent the properties of the underlying ``HPBIOS_BIOSNumericSensor`` +and ``HPBIOS_PlatformEvents`` WMI objects, which vary between systems. +See [#]_ for more details and Managed Object Format (MOF) definitions. + +Known issues and limitations +============================ + +- If the existing hp-wmi driver for non-business-class HP systems is already + loaded, ``alarm`` attributes will be unavailable even on systems that + support them. This is because the same WMI event GUID used by this driver + for ``alarm`` attributes is used on those systems for e.g. laptop hotkeys. +- Dubious sensor hardware and inconsistent BIOS WMI implementations have been + observed to cause inaccurate readings and peculiar behavior, such as alarms + failing to occur or occurring only once per boot. +- Only temperature, fan speed, and intrusion sensor types have been seen in + the wild so far. Support for voltage and current sensors is therefore + provisional. +- Although HP WMI sensors may claim to be of any type, any oddball sensor + types unknown to hwmon will not be supported. + +References +========== + +.. [#] Hewlett-Packard Development Company, L.P., + "HP Client Management Interface Technical White Paper", 2005. [Online]. + Available: https://h20331.www2.hp.com/hpsub/downloads/cmi_whitepaper.pdf diff --git a/Documentation/hwmon/hs3001.rst b/Documentation/hwmon/hs3001.rst new file mode 100644 index 0000000000..9f59dfc212 --- /dev/null +++ b/Documentation/hwmon/hs3001.rst @@ -0,0 +1,37 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver HS3001 +==================== + +Supported chips: + + * Renesas HS3001, HS3002, HS3003, HS3004 + + Prefix: 'hs3001' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/hs300x-datasheet?r=417401 + +Author: + + - Andre Werner <andre.werner@systec-electronic.com> + +Description +----------- + +This driver implements support for the Renesas HS3001 chips, a humidity +and temperature family. Temperature is measured in degrees celsius, relative +humidity is expressed as a percentage. In the sysfs interface, all values are +scaled by 1000, i.e. the value for 31.5 degrees celsius is 31500. + +The device communicates with the I2C protocol. Sensors have the I2C +address 0x44 by default. + +sysfs-Interface +--------------- + +=================== ================= +temp1_input: temperature input +humidity1_input: humidity input +=================== ================= diff --git a/Documentation/hwmon/hwmon-kernel-api.rst b/Documentation/hwmon/hwmon-kernel-api.rst new file mode 100644 index 0000000000..6cacf7daf2 --- /dev/null +++ b/Documentation/hwmon/hwmon-kernel-api.rst @@ -0,0 +1,374 @@ +The Linux Hardware Monitoring kernel API +======================================== + +Guenter Roeck + +Introduction +------------ + +This document describes the API that can be used by hardware monitoring +drivers that want to use the hardware monitoring framework. + +This document does not describe what a hardware monitoring (hwmon) Driver or +Device is. It also does not describe the API which can be used by user space +to communicate with a hardware monitoring device. If you want to know this +then please read the following file: Documentation/hwmon/sysfs-interface.rst. + +For additional guidelines on how to write and improve hwmon drivers, please +also read Documentation/hwmon/submitting-patches.rst. + +The API +------- +Each hardware monitoring driver must #include <linux/hwmon.h> and, in some +cases, <linux/hwmon-sysfs.h>. linux/hwmon.h declares the following +register/unregister functions:: + + struct device * + hwmon_device_register_with_info(struct device *dev, + const char *name, void *drvdata, + const struct hwmon_chip_info *info, + const struct attribute_group **extra_groups); + + struct device * + devm_hwmon_device_register_with_info(struct device *dev, + const char *name, + void *drvdata, + const struct hwmon_chip_info *info, + const struct attribute_group **extra_groups); + + void hwmon_device_unregister(struct device *dev); + + void devm_hwmon_device_unregister(struct device *dev); + + char *hwmon_sanitize_name(const char *name); + + char *devm_hwmon_sanitize_name(struct device *dev, const char *name); + +hwmon_device_register_with_info registers a hardware monitoring device. +It creates the standard sysfs attributes in the hardware monitoring core, +letting the driver focus on reading from and writing to the chip instead +of having to bother with sysfs attributes. The parent device parameter +as well as the chip parameter must not be NULL. Its parameters are described +in more detail below. + +devm_hwmon_device_register_with_info is similar to +hwmon_device_register_with_info. However, it is device managed, meaning the +hwmon device does not have to be removed explicitly by the removal function. + +All other hardware monitoring device registration functions are deprecated +and must not be used in new drivers. + +hwmon_device_unregister deregisters a registered hardware monitoring device. +The parameter of this function is the pointer to the registered hardware +monitoring device structure. This function must be called from the driver +remove function if the hardware monitoring device was registered with +hwmon_device_register_with_info. + +devm_hwmon_device_unregister does not normally have to be called. It is only +needed for error handling, and only needed if the driver probe fails after +the call to devm_hwmon_device_register_with_info and if the automatic (device +managed) removal would be too late. + +All supported hwmon device registration functions only accept valid device +names. Device names including invalid characters (whitespace, '*', or '-') +will be rejected. The 'name' parameter is mandatory. + +If the driver doesn't use a static device name (for example it uses +dev_name()), and therefore cannot make sure the name only contains valid +characters, hwmon_sanitize_name can be used. This convenience function +will duplicate the string and replace any invalid characters with an +underscore. It will allocate memory for the new string and it is the +responsibility of the caller to release the memory when the device is +removed. + +devm_hwmon_sanitize_name is the resource managed version of +hwmon_sanitize_name; the memory will be freed automatically on device +removal. + +Using devm_hwmon_device_register_with_info() +-------------------------------------------- + +hwmon_device_register_with_info() registers a hardware monitoring device. +The parameters to this function are + +=============================================== =============================================== +`struct device *dev` Pointer to parent device +`const char *name` Device name +`void *drvdata` Driver private data +`const struct hwmon_chip_info *info` Pointer to chip description. +`const struct attribute_group **extra_groups` Null-terminated list of additional non-standard + sysfs attribute groups. +=============================================== =============================================== + +This function returns a pointer to the created hardware monitoring device +on success and a negative error code for failure. + +The hwmon_chip_info structure looks as follows:: + + struct hwmon_chip_info { + const struct hwmon_ops *ops; + const struct hwmon_channel_info * const *info; + }; + +It contains the following fields: + +* ops: + Pointer to device operations. +* info: + NULL-terminated list of device channel descriptors. + +The list of hwmon operations is defined as:: + + struct hwmon_ops { + umode_t (*is_visible)(const void *, enum hwmon_sensor_types type, + u32 attr, int); + int (*read)(struct device *, enum hwmon_sensor_types type, + u32 attr, int, long *); + int (*write)(struct device *, enum hwmon_sensor_types type, + u32 attr, int, long); + }; + +It defines the following operations. + +* is_visible: + Pointer to a function to return the file mode for each supported + attribute. This function is mandatory. + +* read: + Pointer to a function for reading a value from the chip. This function + is optional, but must be provided if any readable attributes exist. + +* write: + Pointer to a function for writing a value to the chip. This function is + optional, but must be provided if any writeable attributes exist. + +Each sensor channel is described with struct hwmon_channel_info, which is +defined as follows:: + + struct hwmon_channel_info { + enum hwmon_sensor_types type; + u32 *config; + }; + +It contains following fields: + +* type: + The hardware monitoring sensor type. + + Supported sensor types are + + ================== ================================================== + hwmon_chip A virtual sensor type, used to describe attributes + which are not bound to a specific input or output + hwmon_temp Temperature sensor + hwmon_in Voltage sensor + hwmon_curr Current sensor + hwmon_power Power sensor + hwmon_energy Energy sensor + hwmon_humidity Humidity sensor + hwmon_fan Fan speed sensor + hwmon_pwm PWM control + ================== ================================================== + +* config: + Pointer to a 0-terminated list of configuration values for each + sensor of the given type. Each value is a combination of bit values + describing the attributes supposed by a single sensor. + +As an example, here is the complete description file for a LM75 compatible +sensor chip. The chip has a single temperature sensor. The driver wants to +register with the thermal subsystem (HWMON_C_REGISTER_TZ), and it supports +the update_interval attribute (HWMON_C_UPDATE_INTERVAL). The chip supports +reading the temperature (HWMON_T_INPUT), it has a maximum temperature +register (HWMON_T_MAX) as well as a maximum temperature hysteresis register +(HWMON_T_MAX_HYST):: + + static const u32 lm75_chip_config[] = { + HWMON_C_REGISTER_TZ | HWMON_C_UPDATE_INTERVAL, + 0 + }; + + static const struct hwmon_channel_info lm75_chip = { + .type = hwmon_chip, + .config = lm75_chip_config, + }; + + static const u32 lm75_temp_config[] = { + HWMON_T_INPUT | HWMON_T_MAX | HWMON_T_MAX_HYST, + 0 + }; + + static const struct hwmon_channel_info lm75_temp = { + .type = hwmon_temp, + .config = lm75_temp_config, + }; + + static const struct hwmon_channel_info * const lm75_info[] = { + &lm75_chip, + &lm75_temp, + NULL + }; + + The HWMON_CHANNEL_INFO() macro can and should be used when possible. + With this macro, the above example can be simplified to + + static const struct hwmon_channel_info * const lm75_info[] = { + HWMON_CHANNEL_INFO(chip, + HWMON_C_REGISTER_TZ | HWMON_C_UPDATE_INTERVAL), + HWMON_CHANNEL_INFO(temp, + HWMON_T_INPUT | HWMON_T_MAX | HWMON_T_MAX_HYST), + NULL + }; + + The remaining declarations are as follows. + + static const struct hwmon_ops lm75_hwmon_ops = { + .is_visible = lm75_is_visible, + .read = lm75_read, + .write = lm75_write, + }; + + static const struct hwmon_chip_info lm75_chip_info = { + .ops = &lm75_hwmon_ops, + .info = lm75_info, + }; + +A complete list of bit values indicating individual attribute support +is defined in include/linux/hwmon.h. Definition prefixes are as follows. + +=============== ================================================= +HWMON_C_xxxx Chip attributes, for use with hwmon_chip. +HWMON_T_xxxx Temperature attributes, for use with hwmon_temp. +HWMON_I_xxxx Voltage attributes, for use with hwmon_in. +HWMON_C_xxxx Current attributes, for use with hwmon_curr. + Notice the prefix overlap with chip attributes. +HWMON_P_xxxx Power attributes, for use with hwmon_power. +HWMON_E_xxxx Energy attributes, for use with hwmon_energy. +HWMON_H_xxxx Humidity attributes, for use with hwmon_humidity. +HWMON_F_xxxx Fan speed attributes, for use with hwmon_fan. +HWMON_PWM_xxxx PWM control attributes, for use with hwmon_pwm. +=============== ================================================= + +Driver callback functions +------------------------- + +Each driver provides is_visible, read, and write functions. Parameters +and return values for those functions are as follows:: + + umode_t is_visible_func(const void *data, enum hwmon_sensor_types type, + u32 attr, int channel) + +Parameters: + data: + Pointer to device private data structure. + type: + The sensor type. + attr: + Attribute identifier associated with a specific attribute. + For example, the attribute value for HWMON_T_INPUT would be + hwmon_temp_input. For complete mappings of bit fields to + attribute values please see include/linux/hwmon.h. + channel: + The sensor channel number. + +Return value: + The file mode for this attribute. Typically, this will be 0 (the + attribute will not be created), 0444, or 0644. + +:: + + int read_func(struct device *dev, enum hwmon_sensor_types type, + u32 attr, int channel, long *val) + +Parameters: + dev: + Pointer to the hardware monitoring device. + type: + The sensor type. + attr: + Attribute identifier associated with a specific attribute. + For example, the attribute value for HWMON_T_INPUT would be + hwmon_temp_input. For complete mappings please see + include/linux/hwmon.h. + channel: + The sensor channel number. + val: + Pointer to attribute value. + +Return value: + 0 on success, a negative error number otherwise. + +:: + + int write_func(struct device *dev, enum hwmon_sensor_types type, + u32 attr, int channel, long val) + +Parameters: + dev: + Pointer to the hardware monitoring device. + type: + The sensor type. + attr: + Attribute identifier associated with a specific attribute. + For example, the attribute value for HWMON_T_INPUT would be + hwmon_temp_input. For complete mappings please see + include/linux/hwmon.h. + channel: + The sensor channel number. + val: + The value to write to the chip. + +Return value: + 0 on success, a negative error number otherwise. + + +Driver-provided sysfs attributes +-------------------------------- + +In most situations it should not be necessary for a driver to provide sysfs +attributes since the hardware monitoring core creates those internally. +Only additional non-standard sysfs attributes need to be provided. + +The header file linux/hwmon-sysfs.h provides a number of useful macros to +declare and use hardware monitoring sysfs attributes. + +In many cases, you can use the existing define DEVICE_ATTR or its variants +DEVICE_ATTR_{RW,RO,WO} to declare such attributes. This is feasible if an +attribute has no additional context. However, in many cases there will be +additional information such as a sensor index which will need to be passed +to the sysfs attribute handling function. + +SENSOR_DEVICE_ATTR and SENSOR_DEVICE_ATTR_2 can be used to define attributes +which need such additional context information. SENSOR_DEVICE_ATTR requires +one additional argument, SENSOR_DEVICE_ATTR_2 requires two. + +Simplified variants of SENSOR_DEVICE_ATTR and SENSOR_DEVICE_ATTR_2 are available +and should be used if standard attribute permissions and function names are +feasible. Standard permissions are 0644 for SENSOR_DEVICE_ATTR[_2]_RW, +0444 for SENSOR_DEVICE_ATTR[_2]_RO, and 0200 for SENSOR_DEVICE_ATTR[_2]_WO. +Standard functions, similar to DEVICE_ATTR_{RW,RO,WO}, have _show and _store +appended to the provided function name. + +SENSOR_DEVICE_ATTR and its variants define a struct sensor_device_attribute +variable. This structure has the following fields:: + + struct sensor_device_attribute { + struct device_attribute dev_attr; + int index; + }; + +You can use to_sensor_dev_attr to get the pointer to this structure from the +attribute read or write function. Its parameter is the device to which the +attribute is attached. + +SENSOR_DEVICE_ATTR_2 and its variants define a struct sensor_device_attribute_2 +variable, which is defined as follows:: + + struct sensor_device_attribute_2 { + struct device_attribute dev_attr; + u8 index; + u8 nr; + }; + +Use to_sensor_dev_attr_2 to get the pointer to this structure. Its parameter +is the device to which the attribute is attached. diff --git a/Documentation/hwmon/ibm-cffps.rst b/Documentation/hwmon/ibm-cffps.rst new file mode 100644 index 0000000000..ef8f3f8069 --- /dev/null +++ b/Documentation/hwmon/ibm-cffps.rst @@ -0,0 +1,57 @@ +Kernel driver ibm-cffps +======================= + +Supported chips: + + * IBM Common Form Factor power supply + +Author: Eddie James <eajames@us.ibm.com> + +Description +----------- + +This driver supports IBM Common Form Factor (CFF) power supplies. This driver +is a client to the core PMBus driver. + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +Sysfs entries +------------- + +The following attributes are supported: + +======================= ====================================================== +curr1_alarm Output current over-current alarm. +curr1_input Measured output current in mA. +curr1_label "iout1" + +fan1_alarm Fan 1 warning. +fan1_fault Fan 1 fault. +fan1_input Fan 1 speed in RPM. +fan2_alarm Fan 2 warning. +fan2_fault Fan 2 fault. +fan2_input Fan 2 speed in RPM. + +in1_alarm Input voltage under-voltage alarm. +in1_input Measured input voltage in mV. +in1_label "vin" +in2_alarm Output voltage over-voltage alarm. +in2_input Measured output voltage in mV. +in2_label "vout1" + +power1_alarm Input fault or alarm. +power1_input Measured input power in uW. +power1_label "pin" + +temp1_alarm PSU inlet ambient temperature over-temperature alarm. +temp1_input Measured PSU inlet ambient temp in millidegrees C. +temp2_alarm Secondary rectifier temp over-temperature alarm. +temp2_input Measured secondary rectifier temp in millidegrees C. +temp3_alarm ORing FET temperature over-temperature alarm. +temp3_input Measured ORing FET temperature in millidegrees C. +======================= ====================================================== diff --git a/Documentation/hwmon/ibmaem.rst b/Documentation/hwmon/ibmaem.rst new file mode 100644 index 0000000000..f07a14a1c2 --- /dev/null +++ b/Documentation/hwmon/ibmaem.rst @@ -0,0 +1,44 @@ +Kernel driver ibmaem +==================== + +This driver talks to the IBM Systems Director Active Energy Manager, known +henceforth as AEM. + +Supported systems: + + * Any recent IBM System X server with AEM support. + + This includes the x3350, x3550, x3650, x3655, x3755, x3850 M2, + x3950 M2, and certain HC10/HS2x/LS2x/QS2x blades. + + The IPMI host interface + driver ("ipmi-si") needs to be loaded for this driver to do anything. + + Prefix: 'ibmaem' + + Datasheet: Not available + +Author: Darrick J. Wong + +Description +----------- + +This driver implements sensor reading support for the energy and power meters +available on various IBM System X hardware through the BMC. All sensor banks +will be exported as platform devices; this driver can talk to both v1 and v2 +interfaces. This driver is completely separate from the older ibmpex driver. + +The v1 AEM interface has a simple set of features to monitor energy use. There +is a register that displays an estimate of raw energy consumption since the +last BMC reset, and a power sensor that returns average power use over a +configurable interval. + +The v2 AEM interface is a bit more sophisticated, being able to present a wider +range of energy and power use registers, the power cap as set by the AEM +software, and temperature sensors. + +Special Features +---------------- + +The "power_cap" value displays the current system power cap, as set by the AEM +software. Setting the power cap from the host is not currently supported. diff --git a/Documentation/hwmon/ibmpowernv.rst b/Documentation/hwmon/ibmpowernv.rst new file mode 100644 index 0000000000..5d642bc3de --- /dev/null +++ b/Documentation/hwmon/ibmpowernv.rst @@ -0,0 +1,87 @@ +Kernel Driver IBMPOWERNV +======================== + +Supported systems: + + * Any recent IBM P servers based on POWERNV platform + +Author: Neelesh Gupta + +Description +----------- + +This driver implements reading the platform sensors data like temperature/fan/ +voltage/power for 'POWERNV' platform. + +The driver uses the platform device infrastructure. It probes the device tree +for sensor devices during the __init phase and registers them with the 'hwmon'. +'hwmon' populates the 'sysfs' tree having attribute files, each for a given +sensor type and its attribute data. + +All the nodes in the DT appear under "/ibm,opal/sensors" and each valid node in +the DT maps to an attribute file in 'sysfs'. The node exports unique 'sensor-id' +which the driver uses to make an OPAL call to the firmware. + +Usage notes +----------- +The driver is built statically with the kernel by enabling the config +CONFIG_SENSORS_IBMPOWERNV. It can also be built as module 'ibmpowernv'. + +Sysfs attributes +---------------- + +======================= ======================================================= +fanX_input Measured RPM value. +fanX_min Threshold RPM for alert generation. +fanX_fault - 0: No fail condition + - 1: Failing fan + +tempX_input Measured ambient temperature. +tempX_max Threshold ambient temperature for alert generation. +tempX_highest Historical maximum temperature +tempX_lowest Historical minimum temperature +tempX_enable Enable/disable all temperature sensors belonging to the + sub-group. In POWER9, this attribute corresponds to + each OCC. Using this attribute each OCC can be asked to + disable/enable all of its temperature sensors. + + - 1: Enable + - 0: Disable + +inX_input Measured power supply voltage (millivolt) +inX_fault - 0: No fail condition. + - 1: Failing power supply. +inX_highest Historical maximum voltage +inX_lowest Historical minimum voltage +inX_enable Enable/disable all voltage sensors belonging to the + sub-group. In POWER9, this attribute corresponds to + each OCC. Using this attribute each OCC can be asked to + disable/enable all of its voltage sensors. + + - 1: Enable + - 0: Disable + +powerX_input Power consumption (microWatt) +powerX_input_highest Historical maximum power +powerX_input_lowest Historical minimum power +powerX_enable Enable/disable all power sensors belonging to the + sub-group. In POWER9, this attribute corresponds to + each OCC. Using this attribute each OCC can be asked to + disable/enable all of its power sensors. + + - 1: Enable + - 0: Disable + +currX_input Measured current (milliampere) +currX_highest Historical maximum current +currX_lowest Historical minimum current +currX_enable Enable/disable all current sensors belonging to the + sub-group. In POWER9, this attribute corresponds to + each OCC. Using this attribute each OCC can be asked to + disable/enable all of its current sensors. + + - 1: Enable + - 0: Disable + +energyX_input Cumulative energy (microJoule) +======================= ======================================================= diff --git a/Documentation/hwmon/ina209.rst b/Documentation/hwmon/ina209.rst new file mode 100644 index 0000000000..1622561315 --- /dev/null +++ b/Documentation/hwmon/ina209.rst @@ -0,0 +1,99 @@ +Kernel driver ina209 +==================== + +Supported chips: + + * Burr-Brown / Texas Instruments INA209 + + Prefix: 'ina209' + + Addresses scanned: - + + Datasheet: + https://www.ti.com/lit/gpn/ina209 + +Author: + - Paul Hays <Paul.Hays@cattail.ca> + - Ira W. Snyder <iws@ovro.caltech.edu> + - Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +The TI / Burr-Brown INA209 monitors voltage, current, and power on the high side +of a D.C. power supply. It can perform measurements and calculations in the +background to supply readings at any time. It includes a programmable +calibration multiplier to scale the displayed current and power values. + + +Sysfs entries +------------- + +The INA209 chip is highly configurable both via hardwiring and via +the I2C bus. See the datasheet for details. + +This tries to expose most monitoring features of the hardware via +sysfs. It does not support every feature of this chip. + +======================= ======================================================= +in0_input shunt voltage (mV) +in0_input_highest shunt voltage historical maximum reading (mV) +in0_input_lowest shunt voltage historical minimum reading (mV) +in0_reset_history reset shunt voltage history +in0_max shunt voltage max alarm limit (mV) +in0_min shunt voltage min alarm limit (mV) +in0_crit_max shunt voltage crit max alarm limit (mV) +in0_crit_min shunt voltage crit min alarm limit (mV) +in0_max_alarm shunt voltage max alarm limit exceeded +in0_min_alarm shunt voltage min alarm limit exceeded +in0_crit_max_alarm shunt voltage crit max alarm limit exceeded +in0_crit_min_alarm shunt voltage crit min alarm limit exceeded + +in1_input bus voltage (mV) +in1_input_highest bus voltage historical maximum reading (mV) +in1_input_lowest bus voltage historical minimum reading (mV) +in1_reset_history reset bus voltage history +in1_max bus voltage max alarm limit (mV) +in1_min bus voltage min alarm limit (mV) +in1_crit_max bus voltage crit max alarm limit (mV) +in1_crit_min bus voltage crit min alarm limit (mV) +in1_max_alarm bus voltage max alarm limit exceeded +in1_min_alarm bus voltage min alarm limit exceeded +in1_crit_max_alarm bus voltage crit max alarm limit exceeded +in1_crit_min_alarm bus voltage crit min alarm limit exceeded + +power1_input power measurement (uW) +power1_input_highest power historical maximum reading (uW) +power1_reset_history reset power history +power1_max power max alarm limit (uW) +power1_crit power crit alarm limit (uW) +power1_max_alarm power max alarm limit exceeded +power1_crit_alarm power crit alarm limit exceeded + +curr1_input current measurement (mA) + +update_interval data conversion time; affects number of samples used + to average results for shunt and bus voltages. +======================= ======================================================= + +General Remarks +--------------- + +The power and current registers in this chip require that the calibration +register is programmed correctly before they are used. Normally this is expected +to be done in the BIOS. In the absence of BIOS programming, the shunt resistor +voltage can be provided using platform data. The driver uses platform data from +the ina2xx driver for this purpose. If calibration register data is not provided +via platform data, the driver checks if the calibration register has been +programmed (ie has a value not equal to zero). If so, this value is retained. +Otherwise, a default value reflecting a shunt resistor value of 10 mOhm is +programmed into the calibration register. + + +Output Pins +----------- + +Output pin programming is a board feature which depends on the BIOS. It is +outside the scope of a hardware monitoring driver to enable or disable output +pins. diff --git a/Documentation/hwmon/ina238.rst b/Documentation/hwmon/ina238.rst new file mode 100644 index 0000000000..d9f4799844 --- /dev/null +++ b/Documentation/hwmon/ina238.rst @@ -0,0 +1,56 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver ina238 +==================== + +Supported chips: + + * Texas Instruments INA238 + + Prefix: 'ina238' + + Addresses: I2C 0x40 - 0x4f + + Datasheet: + https://www.ti.com/lit/gpn/ina238 + +Author: Nathan Rossi <nathan.rossi@digi.com> + +Description +----------- + +The INA238 is a current shunt, power and temperature monitor with an I2C +interface. It includes a number of programmable functions including alerts, +conversion rate, sample averaging and selectable shunt voltage accuracy. + +The shunt value in micro-ohms can be set via platform data or device tree at +compile-time or via the shunt_resistor attribute in sysfs at run-time. Please +refer to the Documentation/devicetree/bindings/hwmon/ti,ina2xx.yaml for bindings +if the device tree is used. + +Sysfs entries +------------- + +======================= ======================================================= +in0_input Shunt voltage (mV) +in0_min Minimum shunt voltage threshold (mV) +in0_min_alarm Minimum shunt voltage alarm +in0_max Maximum shunt voltage threshold (mV) +in0_max_alarm Maximum shunt voltage alarm + +in1_input Bus voltage (mV) +in1_min Minimum bus voltage threshold (mV) +in1_min_alarm Minimum shunt voltage alarm +in1_max Maximum bus voltage threshold (mV) +in1_max_alarm Maximum shunt voltage alarm + +power1_input Power measurement (uW) +power1_max Maximum power threshold (uW) +power1_max_alarm Maximum power alarm + +curr1_input Current measurement (mA) + +temp1_input Die temperature measurement (mC) +temp1_max Maximum die temperature threshold (mC) +temp1_max_alarm Maximum die temperature alarm +======================= ======================================================= diff --git a/Documentation/hwmon/ina2xx.rst b/Documentation/hwmon/ina2xx.rst new file mode 100644 index 0000000000..27d2e39bc8 --- /dev/null +++ b/Documentation/hwmon/ina2xx.rst @@ -0,0 +1,123 @@ +Kernel driver ina2xx +==================== + +Supported chips: + + * Texas Instruments INA219 + + + Prefix: 'ina219' + Addresses: I2C 0x40 - 0x4f + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/ + + * Texas Instruments INA220 + + Prefix: 'ina220' + + Addresses: I2C 0x40 - 0x4f + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/ + + * Texas Instruments INA226 + + Prefix: 'ina226' + + Addresses: I2C 0x40 - 0x4f + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/ + + * Texas Instruments INA230 + + Prefix: 'ina230' + + Addresses: I2C 0x40 - 0x4f + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/ + + * Texas Instruments INA231 + + Prefix: 'ina231' + + Addresses: I2C 0x40 - 0x4f + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/ + +Author: Lothar Felten <lothar.felten@gmail.com> + +Description +----------- + +The INA219 is a high-side current shunt and power monitor with an I2C +interface. The INA219 monitors both shunt drop and supply voltage, with +programmable conversion times and filtering. + +The INA220 is a high or low side current shunt and power monitor with an I2C +interface. The INA220 monitors both shunt drop and supply voltage. + +The INA226 is a current shunt and power monitor with an I2C interface. +The INA226 monitors both a shunt voltage drop and bus supply voltage. + +INA230 and INA231 are high or low side current shunt and power monitors +with an I2C interface. The chips monitor both a shunt voltage drop and +bus supply voltage. + +The shunt value in micro-ohms can be set via platform data or device tree at +compile-time or via the shunt_resistor attribute in sysfs at run-time. Please +refer to the Documentation/devicetree/bindings/hwmon/ti,ina2xx.yaml for bindings +if the device tree is used. + +Additionally ina226 supports update_interval attribute as described in +Documentation/hwmon/sysfs-interface.rst. Internally the interval is the sum of +bus and shunt voltage conversion times multiplied by the averaging rate. We +don't touch the conversion times and only modify the number of averages. The +lower limit of the update_interval is 2 ms, the upper limit is 2253 ms. +The actual programmed interval may vary from the desired value. + +General sysfs entries +--------------------- + +======================= =============================== +in0_input Shunt voltage(mV) channel +in1_input Bus voltage(mV) channel +curr1_input Current(mA) measurement channel +power1_input Power(uW) measurement channel +shunt_resistor Shunt resistance(uOhm) channel +======================= =============================== + +Sysfs entries for ina226, ina230 and ina231 only +------------------------------------------------ + +======================= ==================================================== +in0_lcrit Critical low shunt voltage +in0_crit Critical high shunt voltage +in0_lcrit_alarm Shunt voltage critical low alarm +in0_crit_alarm Shunt voltage critical high alarm +in1_lcrit Critical low bus voltage +in1_crit Critical high bus voltage +in1_lcrit_alarm Bus voltage critical low alarm +in1_crit_alarm Bus voltage critical high alarm +power1_crit Critical high power +power1_crit_alarm Power critical high alarm +update_interval data conversion time; affects number of samples used + to average results for shunt and bus voltages. +======================= ==================================================== + +.. note:: + + - Configure `shunt_resistor` before configure `power1_crit`, because power + value is calculated based on `shunt_resistor` set. + - Because of the underlying register implementation, only one `*crit` setting + and its `alarm` can be active. Writing to one `*crit` setting clears other + `*crit` settings and alarms. Writing 0 to any `*crit` setting clears all + `*crit` settings and alarms. diff --git a/Documentation/hwmon/ina3221.rst b/Documentation/hwmon/ina3221.rst new file mode 100644 index 0000000000..8c12c54d2c --- /dev/null +++ b/Documentation/hwmon/ina3221.rst @@ -0,0 +1,74 @@ +Kernel driver ina3221 +===================== + +Supported chips: + + * Texas Instruments INA3221 + + Prefix: 'ina3221' + + Addresses: I2C 0x40 - 0x43 + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/ + +Author: Andrew F. Davis <afd@ti.com> + +Description +----------- + +The Texas Instruments INA3221 monitors voltage, current, and power on the high +side of up to three D.C. power supplies. The INA3221 monitors both shunt drop +and supply voltage, with programmable conversion times and averaging, current +and power are calculated host-side from these. + +Sysfs entries +------------- + +======================= ======================================================= +in[123]_label Voltage channel labels +in[123]_enable Voltage channel enable controls +in[123]_input Bus voltage(mV) channels +curr[123]_input Current(mA) measurement channels +shunt[123]_resistor Shunt resistance(uOhm) channels +curr[123]_crit Critical alert current(mA) setting, activates the + corresponding alarm when the respective current + is above this value +curr[123]_crit_alarm Critical alert current limit exceeded +curr[123]_max Warning alert current(mA) setting, activates the + corresponding alarm when the respective current + average is above this value. +curr[123]_max_alarm Warning alert current limit exceeded +in[456]_input Shunt voltage(uV) for channels 1, 2, and 3 respectively +in7_input Sum of shunt voltage(uV) channels +in7_label Channel label for sum of shunt voltage +curr4_input Sum of current(mA) measurement channels, + (only available when all channels use the same resistor + value for their shunt resistors) +curr4_crit Critical alert current(mA) setting for sum of current + measurements, activates the corresponding alarm + when the respective current is above this value + (only effective when all channels use the same resistor + value for their shunt resistors) +curr4_crit_alarm Critical alert current limit exceeded for sum of + current measurements. +samples Number of samples using in the averaging mode. + + Supports the list of number of samples: + + 1, 4, 16, 64, 128, 256, 512, 1024 + +update_interval Data conversion time in millisecond, following: + + update_interval = C x S x (BC + SC) + + * C: number of enabled channels + * S: number of samples + * BC: bus-voltage conversion time in millisecond + * SC: shunt-voltage conversion time in millisecond + + Affects both Bus- and Shunt-voltage conversion time. + Note that setting update_interval to 0ms sets both BC + and SC to 140 us (minimum conversion time). +======================= ======================================================= diff --git a/Documentation/hwmon/index.rst b/Documentation/hwmon/index.rst new file mode 100644 index 0000000000..88dadea85c --- /dev/null +++ b/Documentation/hwmon/index.rst @@ -0,0 +1,248 @@ +.. SPDX-License-Identifier: GPL-2.0 + +=================== +Hardware Monitoring +=================== + +.. toctree:: + :maxdepth: 1 + + hwmon-kernel-api + pmbus-core + submitting-patches + sysfs-interface + userspace-tools + +Hardware Monitoring Kernel Drivers +================================== + +.. toctree:: + :maxdepth: 1 + + abituguru + abituguru3 + acbel-fsg032 + acpi_power_meter + ad7314 + adc128d818 + adm1021 + adm1025 + adm1026 + adm1031 + adm1177 + adm1266 + adm1275 + adm9240 + ads7828 + adt7410 + adt7411 + adt7462 + adt7470 + adt7475 + aht10 + amc6821 + aquacomputer_d5next + asb100 + asc7621 + aspeed-pwm-tacho + asus_ec_sensors + asus_wmi_sensors + bcm54140 + bel-pfe + bpa-rs600 + bt1-pvt + coretemp + corsair-cpro + corsair-psu + da9052 + da9055 + dell-smm-hwmon + dme1737 + dps920ab + drivetemp + ds1621 + ds620 + emc1403 + emc2103 + emc2305 + emc6w201 + f71805f + f71882fg + fam15h_power + fsp-3y + ftsteutates + g760a + g762 + gsc-hwmon + gl518sm + gxp-fan-ctrl + hih6130 + hp-wmi-sensors + hs3001 + ibmaem + ibm-cffps + ibmpowernv + ina209 + ina2xx + ina238 + ina3221 + inspur-ipsps1 + intel-m10-bmc-hwmon + ir35221 + ir38064 + ir36021 + isl68137 + it87 + jc42 + k10temp + k8temp + lan966x + lineage-pem + lm25066 + lm63 + lm70 + lm73 + lm75 + lm77 + lm78 + lm80 + lm83 + lm85 + lm87 + lm90 + lm92 + lm93 + lm95234 + lm95245 + lochnagar + lt7182s + ltc2992 + ltc2945 + ltc2947 + ltc2978 + ltc2990 + ltc3815 + ltc4151 + ltc4215 + ltc4245 + ltc4260 + ltc4261 + max127 + max15301 + max16064 + max16065 + max1619 + max16601 + max1668 + max197 + max20730 + max20751 + max31722 + max31730 + max31760 + max31785 + max31790 + max31827 + max34440 + max6620 + max6639 + max6642 + max6650 + max6697 + max8688 + mc13783-adc + mc34vr500 + mcp3021 + menf21bmc + mlxreg-fan + mp2888 + mp2975 + mp5023 + nct6683 + nct6775 + nct7802 + nct7904 + npcm750-pwm-fan + nsa320 + ntc_thermistor + nzxt-kraken2 + nzxt-smart2 + occ + oxp-sensors + pc87360 + pc87427 + pcf8591 + pim4328 + pli1209bc + pm6764tr + peci-cputemp + peci-dimmtemp + pmbus + powr1220 + pxe1610 + pwm-fan + q54sj108a2 + raspberrypi-hwmon + sbrmi + sbtsi_temp + sch5627 + sch5636 + scpi-hwmon + sfctemp + sht15 + sht21 + sht3x + sht4x + shtc1 + sis5595 + sl28cpld + smpro-hwmon + smsc47b397 + smsc47m192 + smsc47m1 + sparx5-temp + stpddc60 + sy7636a-hwmon + tc654 + tc74 + thmc50 + tmp102 + tmp103 + tmp108 + tmp401 + tmp421 + tmp464 + tmp513 + tps23861 + tps40422 + tps53679 + tps546d24 + twl4030-madc-hwmon + ucd9000 + ucd9200 + vexpress + via686a + vt1211 + w83627ehf + w83627hf + w83773g + w83781d + w83791d + w83792d + w83793 + w83795 + w83l785ts + w83l786ng + wm831x + wm8350 + xgene-hwmon + xdpe12284 + xdpe152c4 + zl6100 + +.. only:: subproject and html + + Indices + ======= + + * :ref:`genindex` diff --git a/Documentation/hwmon/inspur-ipsps1.rst b/Documentation/hwmon/inspur-ipsps1.rst new file mode 100644 index 0000000000..4825046ecb --- /dev/null +++ b/Documentation/hwmon/inspur-ipsps1.rst @@ -0,0 +1,79 @@ +Kernel driver inspur-ipsps1 +=========================== + +Supported chips: + + * Inspur Power System power supply unit + +Author: John Wang <wangzqbj@inspur.com> + +Description +----------- + +This driver supports Inspur Power System power supplies. This driver +is a client to the core PMBus driver. + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +Sysfs entries +------------- + +The following attributes are supported: + +======================= ====================================================== +curr1_input Measured input current +curr1_label "iin" +curr1_max Maximum current +curr1_max_alarm Current high alarm +curr2_input Measured output current in mA. +curr2_label "iout1" +curr2_crit Critical maximum current +curr2_crit_alarm Current critical high alarm +curr2_max Maximum current +curr2_max_alarm Current high alarm + +fan1_alarm Fan 1 warning. +fan1_fault Fan 1 fault. +fan1_input Fan 1 speed in RPM. + +in1_alarm Input voltage under-voltage alarm. +in1_input Measured input voltage in mV. +in1_label "vin" +in2_input Measured output voltage in mV. +in2_label "vout1" +in2_lcrit Critical minimum output voltage +in2_lcrit_alarm Output voltage critical low alarm +in2_max Maximum output voltage +in2_max_alarm Output voltage high alarm +in2_min Minimum output voltage +in2_min_alarm Output voltage low alarm + +power1_alarm Input fault or alarm. +power1_input Measured input power in uW. +power1_label "pin" +power1_max Input power limit +power2_max_alarm Output power high alarm +power2_max Output power limit +power2_input Measured output power in uW. +power2_label "pout" + +temp[1-3]_input Measured temperature +temp[1-2]_max Maximum temperature +temp[1-3]_max_alarm Temperature high alarm + +vendor Manufacturer name +model Product model +part_number Product part number +serial_number Product serial number +fw_version Firmware version +hw_version Hardware version +mode Work mode. Can be set to active or + standby, when set to standby, PSU will + automatically switch between standby + and redundancy mode. +======================= ====================================================== diff --git a/Documentation/hwmon/intel-m10-bmc-hwmon.rst b/Documentation/hwmon/intel-m10-bmc-hwmon.rst new file mode 100644 index 0000000000..3d148c6e32 --- /dev/null +++ b/Documentation/hwmon/intel-m10-bmc-hwmon.rst @@ -0,0 +1,78 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver intel-m10-bmc-hwmon +================================= + +Supported chips: + + * Intel MAX 10 BMC for Intel PAC N3000 + + Prefix: 'n3000bmc-hwmon' + +Author: Xu Yilun <yilun.xu@intel.com> + + +Description +----------- + +This driver adds the temperature, voltage, current and power reading +support for the Intel MAX 10 Board Management Controller (BMC) chip. +The BMC chip is integrated in some Intel Programmable Acceleration +Cards (PAC). It connects to a set of sensor chips to monitor the +sensor data of different components on the board. The BMC firmware is +responsible for sensor data sampling and recording in shared +registers. The host driver reads the sensor data from these shared +registers and exposes them to users as hwmon interfaces. + +The BMC chip is implemented using the Intel MAX 10 CPLD. It could be +reprogramed to some variants in order to support different Intel +PACs. The driver is designed to be able to distinguish between the +variants, but now it only supports the BMC for Intel PAC N3000. + + +Sysfs attributes +---------------- + +The following attributes are supported: + +- Intel MAX 10 BMC for Intel PAC N3000: + +======================= ======================================================= +tempX_input Temperature of the component (specified by tempX_label) +tempX_max Temperature maximum setpoint of the component +tempX_crit Temperature critical setpoint of the component +tempX_max_hyst Hysteresis for temperature maximum of the component +tempX_crit_hyst Hysteresis for temperature critical of the component +temp1_label "Board Temperature" +temp2_label "FPGA Die Temperature" +temp3_label "QSFP0 Temperature" +temp4_label "QSFP1 Temperature" +temp5_label "Retimer A Temperature" +temp6_label "Retimer A SerDes Temperature" +temp7_label "Retimer B Temperature" +temp8_label "Retimer B SerDes Temperature" + +inX_input Measured voltage of the component (specified by + inX_label) +in0_label "QSFP0 Supply Voltage" +in1_label "QSFP1 Supply Voltage" +in2_label "FPGA Core Voltage" +in3_label "12V Backplane Voltage" +in4_label "1.2V Voltage" +in5_label "12V AUX Voltage" +in6_label "1.8V Voltage" +in7_label "3.3V Voltage" + +currX_input Measured current of the component (specified by + currX_label) +curr1_label "FPGA Core Current" +curr2_label "12V Backplane Current" +curr3_label "12V AUX Current" + +powerX_input Measured power of the component (specified by + powerX_label) +power1_label "Board Power" + +======================= ======================================================= + +All the attributes are read-only. diff --git a/Documentation/hwmon/ir35221.rst b/Documentation/hwmon/ir35221.rst new file mode 100644 index 0000000000..a83922e5cc --- /dev/null +++ b/Documentation/hwmon/ir35221.rst @@ -0,0 +1,92 @@ +Kernel driver ir35221 +===================== + +Supported chips: + * Infineon IR35221 + + Prefix: 'ir35221' + + Addresses scanned: - + + Datasheet: Datasheet is not publicly available. + +Author: Samuel Mendoza-Jonas <sam@mendozajonas.com> + + +Description +----------- + +IR35221 is a Digital DC-DC Multiphase Converter + + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Example: the following commands will load the driver for an IR35221 +at address 0x70 on I2C bus #4:: + + # modprobe ir35221 + # echo ir35221 0x70 > /sys/bus/i2c/devices/i2c-4/new_device + + +Sysfs attributes +---------------- + +======================= ======================================================= +curr1_label "iin" +curr1_input Measured input current +curr1_max Maximum current +curr1_max_alarm Current high alarm + +curr[2-3]_label "iout[1-2]" +curr[2-3]_input Measured output current +curr[2-3]_crit Critical maximum current +curr[2-3]_crit_alarm Current critical high alarm +curr[2-3]_highest Highest output current +curr[2-3]_lowest Lowest output current +curr[2-3]_max Maximum current +curr[2-3]_max_alarm Current high alarm + +in1_label "vin" +in1_input Measured input voltage +in1_crit Critical maximum input voltage +in1_crit_alarm Input voltage critical high alarm +in1_highest Highest input voltage +in1_lowest Lowest input voltage +in1_min Minimum input voltage +in1_min_alarm Input voltage low alarm + +in[2-3]_label "vout[1-2]" +in[2-3]_input Measured output voltage +in[2-3]_lcrit Critical minimum output voltage +in[2-3]_lcrit_alarm Output voltage critical low alarm +in[2-3]_crit Critical maximum output voltage +in[2-3]_crit_alarm Output voltage critical high alarm +in[2-3]_highest Highest output voltage +in[2-3]_lowest Lowest output voltage +in[2-3]_max Maximum output voltage +in[2-3]_max_alarm Output voltage high alarm +in[2-3]_min Minimum output voltage +in[2-3]_min_alarm Output voltage low alarm + +power1_label "pin" +power1_input Measured input power +power1_alarm Input power high alarm +power1_max Input power limit + +power[2-3]_label "pout[1-2]" +power[2-3]_input Measured output power +power[2-3]_max Output power limit +power[2-3]_max_alarm Output power high alarm + +temp[1-2]_input Measured temperature +temp[1-2]_crit Critical high temperature +temp[1-2]_crit_alarm Chip temperature critical high alarm +temp[1-2]_highest Highest temperature +temp[1-2]_lowest Lowest temperature +temp[1-2]_max Maximum temperature +temp[1-2]_max_alarm Chip temperature high alarm +======================= ======================================================= diff --git a/Documentation/hwmon/ir36021.rst b/Documentation/hwmon/ir36021.rst new file mode 100644 index 0000000000..1faa85c39f --- /dev/null +++ b/Documentation/hwmon/ir36021.rst @@ -0,0 +1,63 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver ir36021 +===================== + +Supported chips: + + * Infineon IR36021 + + Prefix: ir36021 + Addresses scanned: - + + Datasheet: Publicly available at the Infineon website + https://www.infineon.com/dgdl/ir36021.pdf?fileId=5546d462533600a4015355d0aa2d1775 + +Authors: + - Chris Packham <chris.packham@alliedtelesis.co.nz> + +Description +----------- + +The IR36021 is a dual-loop digital multi-phase buck controller designed for +point of load applications. + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Sysfs attributes +---------------- + +======================= =========================== +curr1_label "iin" +curr1_input Measured input current +curr1_alarm Input fault alarm + +curr2_label "iout1" +curr2_input Measured output current +curr2_alarm Output over-current alarm + +in1_label "vin" +in1_input Measured input voltage +in1_alarm Input under-voltage alarm + +in2_label "vout1" +in2_input Measured output voltage +in2_alarm Output over-voltage alarm + +power1_label "pin" +power1_input Measured input power +power1_alarm Input under-voltage alarm + +power2_label "pout1" +power2_input Measured output power + +temp1_input Measured temperature +temp1_alarm Temperature alarm + +temp2_input Measured other loop temperature +temp2_alarm Temperature alarm +======================= =========================== diff --git a/Documentation/hwmon/ir38064.rst b/Documentation/hwmon/ir38064.rst new file mode 100644 index 0000000000..e1148f21ea --- /dev/null +++ b/Documentation/hwmon/ir38064.rst @@ -0,0 +1,90 @@ +Kernel driver ir38064 +===================== + +Supported chips: + + * Infineon IR38060 + + Prefix: 'IR38060' + Addresses scanned: - + + Datasheet: Publicly available at the Infineon website + https://www.infineon.com/dgdl/Infineon-IR38060M-DS-v03_16-EN.pdf?fileId=5546d4625c167129015c3291ea9a4cee + + * Infineon IR38064 + + Prefix: 'ir38064' + Addresses scanned: - + + Datasheet: Publicly available at the Infineon website + https://www.infineon.com/dgdl/Infineon-IR38064MTRPBF-DS-v03_07-EN.pdf?fileId=5546d462584d1d4a0158db0d9efb67ca + + * Infineon IR38164 + + Prefix: 'ir38164' + Addresses scanned: - + + Datasheet: Publicly available at the Infineon website + https://www.infineon.com/dgdl/Infineon-IR38164M-DS-v02_02-EN.pdf?fileId=5546d462636cc8fb01640046efea1248 + + * Infineon ir38263 + + Prefix: 'ir38263' + Addresses scanned: - + + Datasheet: Publicly available at the Infineon website + https://www.infineon.com/dgdl/Infineon-IR38263M-DataSheet-v03_05-EN.pdf?fileId=5546d4625b62cd8a015bcf81f90a6e52 + +Authors: + - Maxim Sloyko <maxims@google.com> + - Patrick Venture <venture@google.com> + +Description +----------- + +IR38x6x are a Single-input Voltage, Synchronous Buck Regulator, DC-DC Converter. + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Sysfs attributes +---------------- + +======================= =========================== +curr1_label "iout1" +curr1_input Measured output current +curr1_crit Critical maximum current +curr1_crit_alarm Current critical high alarm +curr1_max Maximum current +curr1_max_alarm Current high alarm + +in1_label "vin" +in1_input Measured input voltage +in1_crit Critical maximum input voltage +in1_crit_alarm Input voltage critical high alarm +in1_min Minimum input voltage +in1_min_alarm Input voltage low alarm + +in2_label "vout1" +in2_input Measured output voltage +in2_lcrit Critical minimum output voltage +in2_lcrit_alarm Output voltage critical low alarm +in2_crit Critical maximum output voltage +in2_crit_alarm Output voltage critical high alarm +in2_max Maximum output voltage +in2_max_alarm Output voltage high alarm +in2_min Minimum output voltage +in2_min_alarm Output voltage low alarm + +power1_label "pout1" +power1_input Measured output power + +temp1_input Measured temperature +temp1_crit Critical high temperature +temp1_crit_alarm Chip temperature critical high alarm +temp1_max Maximum temperature +temp1_max_alarm Chip temperature high alarm +======================= =========================== diff --git a/Documentation/hwmon/isl68137.rst b/Documentation/hwmon/isl68137.rst new file mode 100644 index 0000000000..0e71b22047 --- /dev/null +++ b/Documentation/hwmon/isl68137.rst @@ -0,0 +1,605 @@ +Kernel driver isl68137 +====================== + +Supported chips: + + * Renesas ISL68137 + + Prefix: 'isl68137' + + Addresses scanned: - + + Datasheet: + + Publicly available at the Renesas website + https://www.renesas.com/us/en/www/doc/datasheet/isl68137.pdf + + * Renesas ISL68220 + + Prefix: 'isl68220' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68221 + + Prefix: 'isl68221' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68222 + + Prefix: 'isl68222' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68223 + + Prefix: 'isl68223' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68224 + + Prefix: 'isl68224' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68225 + + Prefix: 'isl68225' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68226 + + Prefix: 'isl68226' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68227 + + Prefix: 'isl68227' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68229 + + Prefix: 'isl68229' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68233 + + Prefix: 'isl68233' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL68239 + + Prefix: 'isl68239' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69222 + + Prefix: 'isl69222' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69223 + + Prefix: 'isl69223' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69224 + + Prefix: 'isl69224' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69225 + + Prefix: 'isl69225' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69227 + + Prefix: 'isl69227' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69228 + + Prefix: 'isl69228' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69234 + + Prefix: 'isl69234' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69236 + + Prefix: 'isl69236' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69239 + + Prefix: 'isl69239' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69242 + + Prefix: 'isl69242' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69243 + + Prefix: 'isl69243' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69247 + + Prefix: 'isl69247' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69248 + + Prefix: 'isl69248' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69254 + + Prefix: 'isl69254' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69255 + + Prefix: 'isl69255' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69256 + + Prefix: 'isl69256' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69259 + + Prefix: 'isl69259' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69260 + + Prefix: 'isl69260' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69268 + + Prefix: 'isl69268' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69269 + + Prefix: 'isl69269' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas ISL69298 + + Prefix: 'isl69298' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas RAA228000 + + Prefix: 'raa228000' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas RAA228004 + + Prefix: 'raa228004' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas RAA228006 + + Prefix: 'raa228006' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas RAA228228 + + Prefix: 'raa228228' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas RAA229001 + + Prefix: 'raa229001' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + + * Renesas RAA229004 + + Prefix: 'raa229004' + + Addresses scanned: - + + Datasheet: + + Publicly available (after August 2020 launch) at the Renesas website + +Authors: + - Maxim Sloyko <maxims@google.com> + - Robert Lippert <rlippert@google.com> + - Patrick Venture <venture@google.com> + - Grant Peltier <grant.peltier.jg@renesas.com> + +Description +----------- + +This driver supports the Renesas ISL68137 and all 2nd generation Renesas +digital multiphase voltage regulators (raa_dmpvr2). The ISL68137 is a digital +output 7-phase configurable PWM controller with an AVSBus interface. 2nd +generation devices are grouped into 4 distinct configurations: '1rail' for +single-rail devices, '2rail' for dual-rail devices, '3rail' for 3-rail devices, +and 'hv' for high voltage single-rail devices. Consult the individual datasheets +for more information. + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +The ISL68137 AVS operation mode must be enabled/disabled at runtime. + +Beyond the normal sysfs pmbus attributes, the driver exposes a control attribute +for the ISL68137. + +For 2nd generation Renesas digital multiphase voltage regulators, only the +normal sysfs pmbus attributes are supported. + +ISL68137 sysfs attributes +------------------------- + +======================= ==================================== +avs(0|1)_enable Controls the AVS state of each rail. + +curr1_label "iin" +curr1_input Measured input current +curr1_crit Critical maximum current +curr1_crit_alarm Current critical high alarm + +curr[2-3]_label "iout[1-2]" +curr[2-3]_input Measured output current +curr[2-3]_crit Critical maximum current +curr[2-3]_crit_alarm Current critical high alarm + +in1_label "vin" +in1_input Measured input voltage +in1_lcrit Critical minimum input voltage +in1_lcrit_alarm Input voltage critical low alarm +in1_crit Critical maximum input voltage +in1_crit_alarm Input voltage critical high alarm + +in[2-3]_label "vout[1-2]" +in[2-3]_input Measured output voltage +in[2-3]_lcrit Critical minimum output voltage +in[2-3]_lcrit_alarm Output voltage critical low alarm +in[2-3]_crit Critical maximum output voltage +in[2-3]_crit_alarm Output voltage critical high alarm + +power1_label "pin" +power1_input Measured input power +power1_alarm Input power high alarm + +power[2-3]_label "pout[1-2]" +power[2-3]_input Measured output power + +temp[1-3]_input Measured temperature +temp[1-3]_crit Critical high temperature +temp[1-3]_crit_alarm Chip temperature critical high alarm +temp[1-3]_max Maximum temperature +temp[1-3]_max_alarm Chip temperature high alarm +======================= ==================================== + +raa_dmpvr2_1rail/hv sysfs attributes +------------------------------------ + +======================= ========================================== +curr1_label "iin" +curr1_input Measured input current +curr1_crit Critical maximum current +curr1_crit_alarm Current critical high alarm + +curr2_label "iout" +curr2_input Measured output current +curr2_crit Critical maximum current +curr2_crit_alarm Current critical high alarm + +in1_label "vin" +in1_input Measured input voltage +in1_lcrit Critical minimum input voltage +in1_lcrit_alarm Input voltage critical low alarm +in1_crit Critical maximum input voltage +in1_crit_alarm Input voltage critical high alarm + +in2_label "vmon" +in2_input Scaled VMON voltage read from the VMON pin + +in3_label "vout" +in3_input Measured output voltage +in3_lcrit Critical minimum output voltage +in3_lcrit_alarm Output voltage critical low alarm +in3_crit Critical maximum output voltage +in3_crit_alarm Output voltage critical high alarm + +power1_label "pin" +power1_input Measured input power +power1_alarm Input power high alarm + +power2_label "pout" +power2_input Measured output power + +temp[1-3]_input Measured temperature +temp[1-3]_crit Critical high temperature +temp[1-3]_crit_alarm Chip temperature critical high alarm +temp[1-3]_max Maximum temperature +temp[1-3]_max_alarm Chip temperature high alarm +======================= ========================================== + +raa_dmpvr2_2rail sysfs attributes +--------------------------------- + +======================= ========================================== +curr[1-2]_label "iin[1-2]" +curr[1-2]_input Measured input current +curr[1-2]_crit Critical maximum current +curr[1-2]_crit_alarm Current critical high alarm + +curr[3-4]_label "iout[1-2]" +curr[3-4]_input Measured output current +curr[3-4]_crit Critical maximum current +curr[3-4]_crit_alarm Current critical high alarm + +in1_label "vin" +in1_input Measured input voltage +in1_lcrit Critical minimum input voltage +in1_lcrit_alarm Input voltage critical low alarm +in1_crit Critical maximum input voltage +in1_crit_alarm Input voltage critical high alarm + +in2_label "vmon" +in2_input Scaled VMON voltage read from the VMON pin + +in[3-4]_label "vout[1-2]" +in[3-4]_input Measured output voltage +in[3-4]_lcrit Critical minimum output voltage +in[3-4]_lcrit_alarm Output voltage critical low alarm +in[3-4]_crit Critical maximum output voltage +in[3-4]_crit_alarm Output voltage critical high alarm + +power[1-2]_label "pin[1-2]" +power[1-2]_input Measured input power +power[1-2]_alarm Input power high alarm + +power[3-4]_label "pout[1-2]" +power[3-4]_input Measured output power + +temp[1-5]_input Measured temperature +temp[1-5]_crit Critical high temperature +temp[1-5]_crit_alarm Chip temperature critical high alarm +temp[1-5]_max Maximum temperature +temp[1-5]_max_alarm Chip temperature high alarm +======================= ========================================== + +raa_dmpvr2_3rail sysfs attributes +--------------------------------- + +======================= ========================================== +curr[1-3]_label "iin[1-3]" +curr[1-3]_input Measured input current +curr[1-3]_crit Critical maximum current +curr[1-3]_crit_alarm Current critical high alarm + +curr[4-6]_label "iout[1-3]" +curr[4-6]_input Measured output current +curr[4-6]_crit Critical maximum current +curr[4-6]_crit_alarm Current critical high alarm + +in1_label "vin" +in1_input Measured input voltage +in1_lcrit Critical minimum input voltage +in1_lcrit_alarm Input voltage critical low alarm +in1_crit Critical maximum input voltage +in1_crit_alarm Input voltage critical high alarm + +in2_label "vmon" +in2_input Scaled VMON voltage read from the VMON pin + +in[3-5]_label "vout[1-3]" +in[3-5]_input Measured output voltage +in[3-5]_lcrit Critical minimum output voltage +in[3-5]_lcrit_alarm Output voltage critical low alarm +in[3-5]_crit Critical maximum output voltage +in[3-5]_crit_alarm Output voltage critical high alarm + +power[1-3]_label "pin[1-3]" +power[1-3]_input Measured input power +power[1-3]_alarm Input power high alarm + +power[4-6]_label "pout[1-3]" +power[4-6]_input Measured output power + +temp[1-7]_input Measured temperature +temp[1-7]_crit Critical high temperature +temp[1-7]_crit_alarm Chip temperature critical high alarm +temp[1-7]_max Maximum temperature +temp[1-7]_max_alarm Chip temperature high alarm +======================= ========================================== diff --git a/Documentation/hwmon/it87.rst b/Documentation/hwmon/it87.rst new file mode 100644 index 0000000000..5cef4f2650 --- /dev/null +++ b/Documentation/hwmon/it87.rst @@ -0,0 +1,385 @@ +Kernel driver it87 +================== + +Supported chips: + + * IT8603E/IT8623E + + Prefix: 'it8603' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8620E + + Prefix: 'it8620' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + * IT8628E + + Prefix: 'it8628' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8705F + + Prefix: 'it87' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Once publicly available at the ITE website, but no longer + + * IT8712F + + Prefix: 'it8712' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Once publicly available at the ITE website, but no longer + + * IT8716F/IT8726F + + Prefix: 'it8716' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Once publicly available at the ITE website, but no longer + + * IT8718F + + Prefix: 'it8718' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Once publicly available at the ITE website, but no longer + + * IT8720F + + Prefix: 'it8720' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8721F/IT8758E + + Prefix: 'it8721' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8728F + + Prefix: 'it8728' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8732F + + Prefix: 'it8732' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8771E + + Prefix: 'it8771' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8772E + + Prefix: 'it8772' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8781F + + Prefix: 'it8781' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8782F + + Prefix: 'it8782' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8783E/F + + Prefix: 'it8783' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8786E + + Prefix: 'it8786' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8790E + + Prefix: 'it8790' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT8792E/IT8795E + + Prefix: 'it8792' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * IT87952E + + Prefix: 'it87952' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: Not publicly available + + * SiS950 [clone of IT8705F] + + Prefix: 'it87' + + Addresses scanned: from Super I/O config space (8 I/O ports) + + Datasheet: No longer be available + + +Authors: + - Christophe Gauthron + - Jean Delvare <jdelvare@suse.de> + + +Module Parameters +----------------- + +* update_vbat bool + 0 if vbat should report power on value, 1 if vbat should be updated after + each read. Default is 0. On some boards the battery voltage is provided + by either the battery or the onboard power supply. Only the first reading + at power on will be the actual battery voltage (which the chip does + automatically). On other boards the battery voltage is always fed to + the chip so can be read at any time. Excessive reading may decrease + battery life but no information is given in the datasheet. + +* fix_pwm_polarity bool + Force PWM polarity to active high (DANGEROUS). Some chips are + misconfigured by BIOS - PWM values would be inverted. This option tries + to fix this. Please contact your BIOS manufacturer and ask him for fix. + +* force_id short, short + + Force multiple chip ID to specified value, separated by ','. + For example "force_id=0x8689,0x8633". A value of 0 is ignored + for that chip. + Note: A single force_id value (e.g. "force_id=0x8689") is used for + all chips, to only set the first chip use "force_id=0x8689,0". + Should only be used for testing. + +* ignore_resource_conflict bool + + Similar to acpi_enforce_resources=lax, but only affects this driver. + ACPI resource conflicts are ignored if this parameter is provided and + set to 1. + Provided since there are reports that system-wide acpi_enfore_resources=lax + can result in boot failures on some systems. + Note: This is inherently risky since it means that both ACPI and this driver + may access the chip at the same time. This can result in race conditions and, + worst case, result in unexpected system reboots. + + +Hardware Interfaces +------------------- + +All the chips supported by this driver are LPC Super-I/O chips, accessed +through the LPC bus (ISA-like I/O ports). The IT8712F additionally has an +SMBus interface to the hardware monitoring functions. This driver no +longer supports this interface though, as it is slower and less reliable +than the ISA access, and was only available on a small number of +motherboard models. + + +Description +----------- + +This driver implements support for the IT8603E, IT8620E, IT8623E, IT8628E, +IT8705F, IT8712F, IT8716F, IT8718F, IT8720F, IT8721F, IT8726F, IT8728F, IT8732F, +IT8758E, IT8771E, IT8772E, IT8781F, IT8782F, IT8783E/F, IT8786E, IT8790E, +IT8792E/IT8795E, IT87952E and SiS950 chips. + +These chips are 'Super I/O chips', supporting floppy disks, infrared ports, +joysticks and other miscellaneous stuff. For hardware monitoring, they +include an 'environment controller' with 3 temperature sensors, 3 fan +rotation speed sensors, 8 voltage sensors, associated alarms, and chassis +intrusion detection. + +The IT8712F and IT8716F additionally feature VID inputs, used to report +the Vcore voltage of the processor. The early IT8712F have 5 VID pins, +the IT8716F and late IT8712F have 6. They are shared with other functions +though, so the functionality may not be available on a given system. + +The IT8718F and IT8720F also features VID inputs (up to 8 pins) but the value +is stored in the Super-I/O configuration space. Due to technical limitations, +this value can currently only be read once at initialization time, so +the driver won't notice and report changes in the VID value. The two +upper VID bits share their pins with voltage inputs (in5 and in6) so you +can't have both on a given board. + +The IT8716F, IT8718F, IT8720F, IT8721F/IT8758E and later IT8712F revisions +have support for 2 additional fans. The additional fans are supported by the +driver. + +The IT8716F, IT8718F, IT8720F, IT8721F/IT8758E, IT8732F, IT8781F, IT8782F, +IT8783E/F, and late IT8712F and IT8705F also have optional 16-bit tachometer +counters for fans 1 to 3. This is better (no more fan clock divider mess) but +not compatible with the older chips and revisions. The 16-bit tachometer mode +is enabled by the driver when one of the above chips is detected. + +The IT8726F is just bit enhanced IT8716F with additional hardware +for AMD power sequencing. Therefore the chip will appear as IT8716F +to userspace applications. + +The IT8728F, IT8771E, and IT8772E are considered compatible with the IT8721F, +until a datasheet becomes available (hopefully.) + +The IT8603E/IT8623E is a custom design, hardware monitoring part is similar to +IT8728F. It only supports 3 fans, 16-bit fan mode, and the full speed mode +of the fan is not supported (value 0 of pwmX_enable). + +The IT8620E and IT8628E are custom designs, hardware monitoring part is similar +to IT8728F. It only supports 16-bit fan mode. Both chips support up to 6 fans. + +The IT8790E, IT8792E/IT8795E and IT87952E support up to 3 fans. 16-bit fan +mode is always enabled. + +The IT8732F supports a closed-loop mode for fan control, but this is not +currently implemented by the driver. + +Temperatures are measured in degrees Celsius. An alarm is triggered once +when the Overtemperature Shutdown limit is crossed. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. When +16-bit tachometer counters aren't used, fan readings can be divided by +a programmable divider (1, 2, 4 or 8) to give the readings more range or +accuracy. With a divider of 2, the lowest representable value is around +2600 RPM. Not all RPM values can accurately be represented, so some rounding +is done. + +Voltage sensors (also known as IN sensors) report their values in volts. An +alarm is triggered if the voltage has crossed a programmable minimum or +maximum limit. Note that minimum in this case always means 'closest to +zero'; this is important for negative voltage measurements. On most chips, all +voltage inputs can measure voltages between 0 and 4.08 volts, with a resolution +of 0.016 volt. IT8603E, IT8721F/IT8758E and IT8728F can measure between 0 and +3.06 volts, with a resolution of 0.012 volt. IT8732F can measure between 0 and +2.8 volts with a resolution of 0.0109 volt. The battery voltage in8 does not +have limit registers. + +On the IT8603E, IT8620E, IT8628E, IT8721F/IT8758E, IT8732F, IT8781F, IT8782F, +and IT8783E/F, some voltage inputs are internal and scaled inside the chip: +* in3 (optional) +* in7 (optional for IT8781F, IT8782F, and IT8783E/F) +* in8 (always) +* in9 (relevant for IT8603E only) +The driver handles this transparently so user-space doesn't have to care. + +The VID lines (IT8712F/IT8716F/IT8718F/IT8720F) encode the core voltage value: +the voltage level your processor should work with. This is hardcoded by +the mainboard and/or processor itself. It is a value in volts. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may already +have disappeared! Note that in the current implementation, all hardware +registers are read whenever any data is read (unless it is less than 1.5 +seconds since the last update). This means that you can easily miss +once-only alarms. + +Out-of-limit readings can also result in beeping, if the chip is properly +wired and configured. Beeping can be enabled or disabled per sensor type +(temperatures, voltages and fans.) + +The IT87xx only updates its values each 1.5 seconds; reading it more often +will do no harm, but will return 'old' values. + +To change sensor N to a thermistor, 'echo 4 > tempN_type' where N is 1, 2, +or 3. To change sensor N to a thermal diode, 'echo 3 > tempN_type'. +Give 0 for unused sensor. Any other value is invalid. To configure this at +startup, consult lm_sensors's /etc/sensors.conf. (4 = thermistor; +3 = thermal diode) + + +Fan speed control +----------------- + +The fan speed control features are limited to manual PWM mode. Automatic +"Smart Guardian" mode control handling is only implemented for older chips +(see below.) However if you want to go for "manual mode" just write 1 to +pwmN_enable. + +If you are only able to control the fan speed with very small PWM values, +try lowering the PWM base frequency (pwm1_freq). Depending on the fan, +it may give you a somewhat greater control range. The same frequency is +used to drive all fan outputs, which is why pwm2_freq and pwm3_freq are +read-only. + + +Automatic fan speed control (old interface) +------------------------------------------- + +The driver supports the old interface to automatic fan speed control +which is implemented by IT8705F chips up to revision F and IT8712F +chips up to revision G. + +This interface implements 4 temperature vs. PWM output trip points. +The PWM output of trip point 4 is always the maximum value (fan running +at full speed) while the PWM output of the other 3 trip points can be +freely chosen. The temperature of all 4 trip points can be freely chosen. +Additionally, trip point 1 has an hysteresis temperature attached, to +prevent fast switching between fan on and off. + +The chip automatically computes the PWM output value based on the input +temperature, based on this simple rule: if the temperature value is +between trip point N and trip point N+1 then the PWM output value is +the one of trip point N. The automatic control mode is less flexible +than the manual control mode, but it reacts faster, is more robust and +doesn't use CPU cycles. + +Trip points must be set properly before switching to automatic fan speed +control mode. The driver will perform basic integrity checks before +actually switching to automatic control mode. + + +Temperature offset attributes +----------------------------- + +The driver supports temp[1-3]_offset sysfs attributes to adjust the reported +temperature for thermal diodes or diode-connected thermal transistors. +If a temperature sensor is configured for thermistors, the attribute values +are ignored. If the thermal sensor type is Intel PECI, the temperature offset +must be programmed to the critical CPU temperature. diff --git a/Documentation/hwmon/jc42.rst b/Documentation/hwmon/jc42.rst new file mode 100644 index 0000000000..19d10512f6 --- /dev/null +++ b/Documentation/hwmon/jc42.rst @@ -0,0 +1,152 @@ +Kernel driver jc42 +================== + +Supported chips: + + * Analog Devices ADT7408 + + Datasheets: + + https://www.analog.com/static/imported-files/data_sheets/ADT7408.pdf + + * Atmel AT30TS00, AT30TS002A/B, AT30TSE004A + + Datasheets: + + http://www.atmel.com/Images/doc8585.pdf + + http://www.atmel.com/Images/doc8711.pdf + + http://www.atmel.com/Images/Atmel-8852-SEEPROM-AT30TSE002A-Datasheet.pdf + + http://www.atmel.com/Images/Atmel-8868-DTS-AT30TSE004A-Datasheet.pdf + + * IDT TSE2002B3, TSE2002GB2, TSE2004GB2, TS3000B3, TS3000GB0, TS3000GB2, + + TS3001GB2 + + Datasheets: + + Available from IDT web site + + * Maxim MAX6604 + + Datasheets: + + http://datasheets.maxim-ic.com/en/ds/MAX6604.pdf + + * Microchip MCP9804, MCP9805, MCP9808, MCP98242, MCP98243, MCP98244, MCP9843 + + Datasheets: + + https://ww1.microchip.com/downloads/en/DeviceDoc/22203C.pdf + + https://ww1.microchip.com/downloads/en/DeviceDoc/21977b.pdf + + https://ww1.microchip.com/downloads/en/DeviceDoc/25095A.pdf + + https://ww1.microchip.com/downloads/en/DeviceDoc/21996a.pdf + + https://ww1.microchip.com/downloads/en/DeviceDoc/22153c.pdf + + https://ww1.microchip.com/downloads/en/DeviceDoc/22327A.pdf + + * NXP Semiconductors SE97, SE97B, SE98, SE98A + + Datasheets: + + https://www.nxp.com/documents/data_sheet/SE97.pdf + + https://www.nxp.com/documents/data_sheet/SE97B.pdf + + https://www.nxp.com/documents/data_sheet/SE98.pdf + + https://www.nxp.com/documents/data_sheet/SE98A.pdf + + * ON Semiconductor CAT34TS02, CAT6095 + + Datasheet: + + https://www.onsemi.com/pub_link/Collateral/CAT34TS02-D.PDF + + https://www.onsemi.com/pub/Collateral/CAT6095-D.PDF + + * ST Microelectronics STTS424, STTS424E02, STTS2002, STTS2004, STTS3000 + + Datasheets: + + http://www.st.com/web/en/resource/technical/document/datasheet/CD00157556.pdf + + http://www.st.com/web/en/resource/technical/document/datasheet/CD00157558.pdf + + http://www.st.com/web/en/resource/technical/document/datasheet/CD00266638.pdf + + http://www.st.com/web/en/resource/technical/document/datasheet/CD00225278.pdf + + http://www.st.com/web/en/resource/technical/document/datasheet/DM00076709.pdf + + * JEDEC JC 42.4 compliant temperature sensor chips + + Datasheet: + + http://www.jedec.org/sites/default/files/docs/4_01_04R19.pdf + + + Common for all chips: + + Prefix: 'jc42' + + Addresses scanned: I2C 0x18 - 0x1f + +Author: + Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver implements support for JEDEC JC 42.4 compliant temperature sensors, +which are used on many DDR3 memory modules for mobile devices and servers. Some +systems use the sensor to prevent memory overheating by automatically throttling +the memory controller. + +The driver auto-detects the chips listed above, but can be manually instantiated +to support other JC 42.4 compliant chips. + +Example: the following will load the driver for a generic JC 42.4 compliant +temperature sensor at address 0x18 on I2C bus #1:: + + # modprobe jc42 + # echo jc42 0x18 > /sys/bus/i2c/devices/i2c-1/new_device + +A JC 42.4 compliant chip supports a single temperature sensor. Minimum, maximum, +and critical temperature can be configured. There are alarms for high, low, +and critical thresholds. + +There is also an hysteresis to control the thresholds for resetting alarms. +Per JC 42.4 specification, the hysteresis threshold can be configured to 0, 1.5, +3.0, and 6.0 degrees C. Configured hysteresis values will be rounded to those +limits. The chip supports only a single register to configure the hysteresis, +which applies to all limits. This register can be written by writing into +temp1_crit_hyst. Other hysteresis attributes are read-only. + +If the BIOS has configured the sensor for automatic temperature management, it +is likely that it has locked the registers, i.e., that the temperature limits +cannot be changed. + +Sysfs entries +------------- + +======================= =========================================== +temp1_input Temperature (RO) +temp1_min Minimum temperature (RO or RW) +temp1_max Maximum temperature (RO or RW) +temp1_crit Critical high temperature (RO or RW) + +temp1_crit_hyst Critical hysteresis temperature (RO or RW) +temp1_max_hyst Maximum hysteresis temperature (RO) + +temp1_min_alarm Temperature low alarm +temp1_max_alarm Temperature high alarm +temp1_crit_alarm Temperature critical alarm +======================= =========================================== diff --git a/Documentation/hwmon/k10temp.rst b/Documentation/hwmon/k10temp.rst new file mode 100644 index 0000000000..91b99adc6c --- /dev/null +++ b/Documentation/hwmon/k10temp.rst @@ -0,0 +1,134 @@ +Kernel driver k10temp +===================== + +Supported chips: + +* AMD Family 10h processors: + + Socket F: Quad-Core/Six-Core/Embedded Opteron (but see below) + + Socket AM2+: Quad-Core Opteron, Phenom (II) X3/X4, Athlon X2 (but see below) + + Socket AM3: Quad-Core Opteron, Athlon/Phenom II X2/X3/X4, Sempron II + + Socket S1G3: Athlon II, Sempron, Turion II + +* AMD Family 11h processors: + + Socket S1G2: Athlon (X2), Sempron (X2), Turion X2 (Ultra) + +* AMD Family 12h processors: "Llano" (E2/A4/A6/A8-Series) + +* AMD Family 14h processors: "Brazos" (C/E/G/Z-Series) + +* AMD Family 15h processors: "Bulldozer" (FX-Series), "Trinity", "Kaveri", + "Carrizo", "Stoney Ridge", "Bristol Ridge" + +* AMD Family 16h processors: "Kabini", "Mullins" + +* AMD Family 17h processors: "Zen", "Zen 2" + +* AMD Family 18h processors: "Hygon Dhyana" + +* AMD Family 19h processors: "Zen 3" + + Prefix: 'k10temp' + + Addresses scanned: PCI space + + Datasheets: + + BIOS and Kernel Developer's Guide (BKDG) For AMD Family 10h Processors: + + http://support.amd.com/us/Processor_TechDocs/31116.pdf + + BIOS and Kernel Developer's Guide (BKDG) for AMD Family 11h Processors: + + http://support.amd.com/us/Processor_TechDocs/41256.pdf + + BIOS and Kernel Developer's Guide (BKDG) for AMD Family 12h Processors: + + http://support.amd.com/us/Processor_TechDocs/41131.pdf + + BIOS and Kernel Developer's Guide (BKDG) for AMD Family 14h Models 00h-0Fh Processors: + + http://support.amd.com/us/Processor_TechDocs/43170.pdf + + Revision Guide for AMD Family 10h Processors: + + http://support.amd.com/us/Processor_TechDocs/41322.pdf + + Revision Guide for AMD Family 11h Processors: + + http://support.amd.com/us/Processor_TechDocs/41788.pdf + + Revision Guide for AMD Family 12h Processors: + + http://support.amd.com/us/Processor_TechDocs/44739.pdf + + Revision Guide for AMD Family 14h Models 00h-0Fh Processors: + + http://support.amd.com/us/Processor_TechDocs/47534.pdf + + AMD Family 11h Processor Power and Thermal Data Sheet for Notebooks: + + http://support.amd.com/us/Processor_TechDocs/43373.pdf + + AMD Family 10h Server and Workstation Processor Power and Thermal Data Sheet: + + http://support.amd.com/us/Processor_TechDocs/43374.pdf + + AMD Family 10h Desktop Processor Power and Thermal Data Sheet: + + http://support.amd.com/us/Processor_TechDocs/43375.pdf + +Author: Clemens Ladisch <clemens@ladisch.de> + +Description +----------- + +This driver permits reading of the internal temperature sensor of AMD +Family 10h/11h/12h/14h/15h/16h processors. + +All these processors have a sensor, but on those for Socket F or AM2+, +the sensor may return inconsistent values (erratum 319). The driver +will refuse to load on these revisions unless you specify the "force=1" +module parameter. + +Due to technical reasons, the driver can detect only the mainboard's +socket type, not the processor's actual capabilities. Therefore, if you +are using an AM3 processor on an AM2+ mainboard, you can safely use the +"force=1" parameter. + +For CPUs older than Family 17h, there is one temperature measurement value, +available as temp1_input in sysfs. It is measured in degrees Celsius with a +resolution of 1/8th degree. Please note that it is defined as a relative +value; to quote the AMD manual:: + + Tctl is the processor temperature control value, used by the platform to + control cooling systems. Tctl is a non-physical temperature on an + arbitrary scale measured in degrees. It does _not_ represent an actual + physical temperature like die or case temperature. Instead, it specifies + the processor temperature relative to the point at which the system must + supply the maximum cooling for the processor's specified maximum case + temperature and maximum thermal power dissipation. + +The maximum value for Tctl is available in the file temp1_max. + +If the BIOS has enabled hardware temperature control, the threshold at +which the processor will throttle itself to avoid damage is available in +temp1_crit and temp1_crit_hyst. + +On some AMD CPUs, there is a difference between the die temperature (Tdie) and +the reported temperature (Tctl). Tdie is the real measured temperature, and +Tctl is used for fan control. While Tctl is always available as temp1_input, +the driver exports Tdie temperature as temp2_input for those CPUs which support +it. + +Models from 17h family report relative temperature, the driver aims to +compensate and report the real temperature. + +On Family 17h and Family 18h CPUs, additional temperature sensors may report +Core Complex Die (CCD) temperatures. Up to 8 such temperatures are reported +as temp{3..10}_input, labeled Tccd{1..8}. Actual support depends on the CPU +variant. diff --git a/Documentation/hwmon/k8temp.rst b/Documentation/hwmon/k8temp.rst new file mode 100644 index 0000000000..ab25a73e77 --- /dev/null +++ b/Documentation/hwmon/k8temp.rst @@ -0,0 +1,62 @@ +Kernel driver k8temp +==================== + +Supported chips: + + * AMD Athlon64/FX or Opteron CPUs + + Prefix: 'k8temp' + + Addresses scanned: PCI space + + Datasheet: https://www.amd.com/system/files/TechDocs/32559.pdf + +Author: Rudolf Marek + +Contact: Rudolf Marek <r.marek@assembler.cz> + +Description +----------- + +This driver permits reading temperature sensor(s) embedded inside AMD K8 +family CPUs (Athlon64/FX, Opteron). Official documentation says that it works +from revision F of K8 core, but in fact it seems to be implemented for all +revisions of K8 except the first two revisions (SH-B0 and SH-B3). + +Please note that you will need at least lm-sensors 2.10.1 for proper userspace +support. + +There can be up to four temperature sensors inside single CPU. The driver +will auto-detect the sensors and will display only temperatures from +implemented sensors. + +Mapping of /sys files is as follows: + +============= =================================== +temp1_input temperature of Core 0 and "place" 0 +temp2_input temperature of Core 0 and "place" 1 +temp3_input temperature of Core 1 and "place" 0 +temp4_input temperature of Core 1 and "place" 1 +============= =================================== + +Temperatures are measured in degrees Celsius and measurement resolution is +1 degree C. It is expected that future CPU will have better resolution. The +temperature is updated once a second. Valid temperatures are from -49 to +206 degrees C. + +Temperature known as TCaseMax was specified for processors up to revision E. +This temperature is defined as temperature between heat-spreader and CPU +case, so the internal CPU temperature supplied by this driver can be higher. +There is no easy way how to measure the temperature which will correlate +with TCaseMax temperature. + +For newer revisions of CPU (rev F, socket AM2) there is a mathematically +computed temperature called TControl, which must be lower than TControlMax. + +The relationship is following: + + temp1_input - TjOffset*2 < TControlMax, + +TjOffset is not yet exported by the driver, TControlMax is usually +70 degrees C. The rule of the thumb -> CPU temperature should not cross +60 degrees C too much. diff --git a/Documentation/hwmon/lan966x.rst b/Documentation/hwmon/lan966x.rst new file mode 100644 index 0000000000..1d1724afa5 --- /dev/null +++ b/Documentation/hwmon/lan966x.rst @@ -0,0 +1,40 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver lan966x-hwmon +=========================== + +Supported chips: + + * Microchip LAN9668 (sensor in SoC) + + Prefix: 'lan9668-hwmon' + + Datasheet: https://microchip-ung.github.io/lan9668_reginfo + +Authors: + + Michael Walle <michael@walle.cc> + +Description +----------- + +This driver implements support for the Microchip LAN9668 on-chip +temperature sensor as well as its fan controller. It provides one +temperature sensor and one fan controller. The temperature range +of the sensor is specified from -40 to +125 degrees Celsius and +its accuracy is +/- 5 degrees Celsius. The fan controller has a +tacho input and a PWM output with a customizable PWM output +frequency ranging from ~20Hz to ~650kHz. + +No alarms are supported by the SoC. + +The driver exports temperature values, fan tacho input and PWM +settings via the following sysfs files: + +**temp1_input** + +**fan1_input** + +**pwm1** + +**pwm1_freq** diff --git a/Documentation/hwmon/lineage-pem.rst b/Documentation/hwmon/lineage-pem.rst new file mode 100644 index 0000000000..10c271dc20 --- /dev/null +++ b/Documentation/hwmon/lineage-pem.rst @@ -0,0 +1,85 @@ +Kernel driver lineage-pem +========================= + +Supported devices: + + * Lineage Compact Power Line Power Entry Modules + + Prefix: 'lineage-pem' + + Addresses scanned: - + + Documentation: + + http://www.lineagepower.com/oem/pdf/CPLI2C.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports various Lineage Compact Power Line DC/DC and AC/DC +converters such as CP1800, CP2000AC, CP2000DC, CP2100DC, and others. + +Lineage CPL power entry modules are nominally PMBus compliant. However, most +standard PMBus commands are not supported. Specifically, all hardware monitoring +and status reporting commands are non-standard. For this reason, a standard +PMBus driver can not be used. + + +Usage Notes +----------- + +This driver does not probe for Lineage CPL devices, since there is no register +which can be safely used to identify the chip. You will have to instantiate +the devices explicitly. + +Example: the following will load the driver for a Lineage PEM at address 0x40 +on I2C bus #1:: + + $ modprobe lineage-pem + $ echo lineage-pem 0x40 > /sys/bus/i2c/devices/i2c-1/new_device + +All Lineage CPL power entry modules have a built-in I2C bus master selector +(PCA9541). To ensure device access, this driver should only be used as client +driver to the pca9541 I2C master selector driver. + + +Sysfs entries +------------- + +All Lineage CPL devices report output voltage and device temperature as well as +alarms for output voltage, temperature, input voltage, input current, input power, +and fan status. + +Input voltage, input current, input power, and fan speed measurement is only +supported on newer devices. The driver detects if those attributes are supported, +and only creates respective sysfs entries if they are. + +======================= =============================== +in1_input Output voltage (mV) +in1_min_alarm Output undervoltage alarm +in1_max_alarm Output overvoltage alarm +in1_crit Output voltage critical alarm + +in2_input Input voltage (mV, optional) +in2_alarm Input voltage alarm + +curr1_input Input current (mA, optional) +curr1_alarm Input overcurrent alarm + +power1_input Input power (uW, optional) +power1_alarm Input power alarm + +fan1_input Fan 1 speed (rpm, optional) +fan2_input Fan 2 speed (rpm, optional) +fan3_input Fan 3 speed (rpm, optional) + +temp1_input +temp1_max +temp1_crit +temp1_alarm +temp1_crit_alarm +temp1_fault +======================= =============================== diff --git a/Documentation/hwmon/lm25066.rst b/Documentation/hwmon/lm25066.rst new file mode 100644 index 0000000000..a2098eb240 --- /dev/null +++ b/Documentation/hwmon/lm25066.rst @@ -0,0 +1,139 @@ +Kernel driver lm25066 +===================== + +Supported chips: + + * TI LM25056 + + Prefix: 'lm25056' + + Addresses scanned: - + + Datasheets: + + https://www.ti.com/lit/gpn/lm25056 + + https://www.ti.com/lit/gpn/lm25056a + + * National Semiconductor LM25066 + + Prefix: 'lm25066' + + Addresses scanned: - + + Datasheets: + + http://www.national.com/pf/LM/LM25066.html + + http://www.national.com/pf/LM/LM25066A.html + + * National Semiconductor LM5064 + + Prefix: 'lm5064' + + Addresses scanned: - + + Datasheet: + + http://www.national.com/pf/LM/LM5064.html + + * National Semiconductor LM5066 + + Prefix: 'lm5066' + + Addresses scanned: - + + Datasheet: + + http://www.national.com/pf/LM/LM5066.html + + * Texas Instruments LM5066I + + Prefix: 'lm5066i' + + Addresses scanned: - + + Datasheet: + + https://www.ti.com/product/LM5066I + + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports hardware monitoring for National Semiconductor / TI LM25056, +LM25066, LM5064, and LM5066/LM5066I Power Management, Monitoring, +Control, and Protection ICs. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +The shunt (sense) resistor value can be configured by a device tree property; +see Documentation/devicetree/bindings/hwmon/pmbus/ti,lm25066.yaml for details. + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +======================= ======================================================= +in1_label "vin" +in1_input Measured input voltage. +in1_average Average measured input voltage. +in1_min Minimum input voltage. +in1_max Maximum input voltage. +in1_min_alarm Input voltage low alarm. +in1_max_alarm Input voltage high alarm. + +in2_label "vmon" +in2_input Measured voltage on VAUX pin +in2_min Minimum VAUX voltage (LM25056 only). +in2_max Maximum VAUX voltage (LM25056 only). +in2_min_alarm VAUX voltage low alarm (LM25056 only). +in2_max_alarm VAUX voltage high alarm (LM25056 only). + +in3_label "vout1" + Not supported on LM25056. +in3_input Measured output voltage. +in3_average Average measured output voltage. +in3_min Minimum output voltage. +in3_min_alarm Output voltage low alarm. + +curr1_label "iin" +curr1_input Measured input current. +curr1_average Average measured input current. +curr1_max Maximum input current. +curr1_max_alarm Input current high alarm. + +power1_label "pin" +power1_input Measured input power. +power1_average Average measured input power. +power1_max Maximum input power limit. +power1_alarm Input power alarm +power1_input_highest Historical maximum power. +power1_reset_history Write any value to reset maximum power history. + +temp1_input Measured temperature. +temp1_max Maximum temperature. +temp1_crit Critical high temperature. +temp1_max_alarm Chip temperature high alarm. +temp1_crit_alarm Chip temperature critical high alarm. +======================= ======================================================= diff --git a/Documentation/hwmon/lm63.rst b/Documentation/hwmon/lm63.rst new file mode 100644 index 0000000000..9e27367d74 --- /dev/null +++ b/Documentation/hwmon/lm63.rst @@ -0,0 +1,95 @@ +Kernel driver lm63 +================== + +Supported chips: + + * National Semiconductor LM63 + + Prefix: 'lm63' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/pf/LM/LM63.html + + * National Semiconductor LM64 + + Prefix: 'lm64' + + Addresses scanned: I2C 0x18 and 0x4e + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/pf/LM/LM64.html + + * National Semiconductor LM96163 + + Prefix: 'lm96163' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/pf/LM/LM96163.html + + +Author: Jean Delvare <jdelvare@suse.de> + +Thanks go to Tyan and especially Alex Buckingham for setting up a remote +access to their S4882 test platform for this driver. + + https://www.tyan.com/ + +Description +----------- + +The LM63 is a digital temperature sensor with integrated fan monitoring +and control. + +The LM63 is basically an LM86 with fan speed monitoring and control +capabilities added. It misses some of the LM86 features though: + + - No low limit for local temperature. + - No critical limit for local temperature. + - Critical limit for remote temperature can be changed only once. We + will consider that the critical limit is read-only. + +The datasheet isn't very clear about what the tachometer reading is. + +An explanation from National Semiconductor: The two lower bits of the read +value have to be masked out. The value is still 16 bit in width. + +All temperature values are given in degrees Celsius. Resolution is 1.0 +degree for the local temperature, 0.125 degree for the remote temperature. + +The fan speed is measured using a tachometer. Contrary to most chips which +store the value in an 8-bit register and have a selectable clock divider +to make sure that the result will fit in the register, the LM63 uses 16-bit +value for measuring the speed of the fan. It can measure fan speeds down to +83 RPM, at least in theory. + +Note that the pin used for fan monitoring is shared with an alert out +function. Depending on how the board designer wanted to use the chip, fan +speed monitoring will or will not be possible. The proper chip configuration +is left to the BIOS, and the driver will blindly trust it. Only the original +LM63 suffers from this limitation, the LM64 and LM96163 have separate pins +for fan monitoring and alert out. On the LM64, monitoring is always enabled; +on the LM96163 it can be disabled. + +A PWM output can be used to control the speed of the fan. The LM63 has two +PWM modes: manual and automatic. Automatic mode is not fully implemented yet +(you cannot define your custom PWM/temperature curve), and mode change isn't +supported either. + +The lm63 driver will not update its values more frequently than configured with +the update_interval sysfs attribute; reading them more often will do no harm, +but will return 'old' values. Values in the automatic fan control lookup table +(attributes pwm1_auto_*) have their own independent lifetime of 5 seconds. + +The LM64 is effectively an LM63 with GPIO lines. The driver does not +support these GPIO lines at present. + +The LM96163 is an enhanced version of LM63 with improved temperature accuracy +and better PWM resolution. For LM96163, the external temperature sensor type is +configurable as CPU embedded diode(1) or 3904 transistor(2). diff --git a/Documentation/hwmon/lm70.rst b/Documentation/hwmon/lm70.rst new file mode 100644 index 0000000000..11303a7e16 --- /dev/null +++ b/Documentation/hwmon/lm70.rst @@ -0,0 +1,69 @@ +Kernel driver lm70 +================== + +Supported chips: + + * National Semiconductor LM70 + + Datasheet: http://www.national.com/pf/LM/LM70.html + + * Texas Instruments TMP121/TMP123 + + Information: http://focus.ti.com/docs/prod/folders/print/tmp121.html + + * Texas Instruments TMP122/TMP124 + + Information: https://www.ti.com/product/tmp122 + + * Texas Instruments TMP125 + + Information: https://www.ti.com/product/tmp125 + + * National Semiconductor LM71 + + Datasheet: https://www.ti.com/product/LM71 + + * National Semiconductor LM74 + + Datasheet: https://www.ti.com/product/LM74 + + +Author: + Kaiwan N Billimoria <kaiwan@designergraphix.com> + +Description +----------- + +This driver implements support for the National Semiconductor LM70 +temperature sensor. + +The LM70 temperature sensor chip supports a single temperature sensor. +It communicates with a host processor (or microcontroller) via an +SPI/Microwire Bus interface. + +Communication with the LM70 is simple: when the temperature is to be sensed, +the driver accesses the LM70 using SPI communication: 16 SCLK cycles +comprise the MOSI/MISO loop. At the end of the transfer, the 11-bit 2's +complement digital temperature (sent via the SIO line), is available in the +driver for interpretation. This driver makes use of the kernel's in-core +SPI support. + +As a real (in-tree) example of this "SPI protocol driver" interfacing +with a "SPI master controller driver", see drivers/spi/spi_lm70llp.c +and its associated documentation. + +The LM74 and TMP121/TMP122/TMP123/TMP124 are very similar; main difference is +13-bit temperature data (0.0625 degrees celsius resolution). + +The TMP122/TMP124 also feature configurable temperature thresholds. + +The TMP125 is less accurate and provides 10-bit temperature data +with 0.25 degrees Celsius resolution. + +The LM71 is also very similar; main difference is 14-bit temperature +data (0.03125 degrees celsius resolution). + +Thanks to +--------- +Jean Delvare <jdelvare@suse.de> for mentoring the hwmon-side driver +development. diff --git a/Documentation/hwmon/lm73.rst b/Documentation/hwmon/lm73.rst new file mode 100644 index 0000000000..74e909be6e --- /dev/null +++ b/Documentation/hwmon/lm73.rst @@ -0,0 +1,98 @@ +Kernel driver lm73 +================== + +Supported chips: + + * Texas Instruments LM73 + + Prefix: 'lm73' + + Addresses scanned: I2C 0x48, 0x49, 0x4a, 0x4c, 0x4d, and 0x4e + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/product/lm73 + + +Author: Guillaume Ligneul <guillaume.ligneul@gmail.com> + +Documentation: Chris Verges <kg4ysn@gmail.com> + + +Description +----------- + +The LM73 is a digital temperature sensor. All temperature values are +given in degrees Celsius. + +Measurement Resolution Support +------------------------------ + +The LM73 supports four resolutions, defined in terms of degrees C per +LSB: 0.25, 0.125, 0.0625, and 0.3125. Changing the resolution mode +affects the conversion time of the LM73's analog-to-digital converter. +From userspace, the desired resolution can be specified as a function of +conversion time via the 'update_interval' sysfs attribute for the +device. This attribute will normalize ranges of input values to the +maximum times defined for the resolution in the datasheet. + + ============= ============= ============ + Resolution Conv. Time Input Range + (C/LSB) (msec) (msec) + ============= ============= ============ + 0.25 14 0..14 + 0.125 28 15..28 + 0.0625 56 29..56 + 0.03125 112 57..infinity + ============= ============= ============ + +The following examples show how the 'update_interval' attribute can be +used to change the conversion time:: + + $ echo 0 > update_interval + $ cat update_interval + 14 + $ cat temp1_input + 24250 + + $ echo 22 > update_interval + $ cat update_interval + 28 + $ cat temp1_input + 24125 + + $ echo 56 > update_interval + $ cat update_interval + 56 + $ cat temp1_input + 24062 + + $ echo 85 > update_interval + $ cat update_interval + 112 + $ cat temp1_input + 24031 + +As shown here, the lm73 driver automatically adjusts any user input for +'update_interval' via a step function. Reading back the +'update_interval' value after a write operation will confirm the +conversion time actively in use. + +Mathematically, the resolution can be derived from the conversion time +via the following function: + + g(x) = 0.250 * [log(x/14) / log(2)] + +where 'x' is the output from 'update_interval' and 'g(x)' is the +resolution in degrees C per LSB. + +Alarm Support +------------- + +The LM73 features a simple over-temperature alarm mechanism. This +feature is exposed via the sysfs attributes. + +The attributes 'temp1_max_alarm' and 'temp1_min_alarm' are flags +provided by the LM73 that indicate whether the measured temperature has +passed the 'temp1_max' and 'temp1_min' thresholds, respectively. These +values _must_ be read to clear the registers on the LM73. diff --git a/Documentation/hwmon/lm75.rst b/Documentation/hwmon/lm75.rst new file mode 100644 index 0000000000..8d0ab4ad5f --- /dev/null +++ b/Documentation/hwmon/lm75.rst @@ -0,0 +1,166 @@ +Kernel driver lm75 +================== + +Supported chips: + + * National Semiconductor LM75 + + Prefix: 'lm75' + + Addresses scanned: I2C 0x48 - 0x4f + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/ + + * National Semiconductor LM75A + + Prefix: 'lm75a' + + Addresses scanned: I2C 0x48 - 0x4f + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/ + + * Dallas Semiconductor (now Maxim) DS75, DS1775, DS7505 + + Prefixes: 'ds75', 'ds1775', 'ds7505' + + Addresses scanned: none + + Datasheet: Publicly available at the Maxim website + + https://www.maximintegrated.com/ + + * Maxim MAX6625, MAX6626, MAX31725, MAX31726 + + Prefixes: 'max6625', 'max6626', 'max31725', 'max31726' + + Addresses scanned: none + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/ + + * Microchip (TelCom) TCN75 + + Prefix: 'tcn75' + + Addresses scanned: none + + Datasheet: Publicly available at the Microchip website + + http://www.microchip.com/ + + * Microchip MCP9800, MCP9801, MCP9802, MCP9803 + + Prefix: 'mcp980x' + + Addresses scanned: none + + Datasheet: Publicly available at the Microchip website + + http://www.microchip.com/ + + * Analog Devices ADT75 + + Prefix: 'adt75' + + Addresses scanned: none + + Datasheet: Publicly available at the Analog Devices website + + https://www.analog.com/adt75 + + * ST Microelectronics STDS75 + + Prefix: 'stds75' + + Addresses scanned: none + + Datasheet: Publicly available at the ST website + + http://www.st.com/internet/analog/product/121769.jsp + + * ST Microelectronics STLM75 + + Prefix: 'stlm75' + + Addresses scanned: none + + Datasheet: Publicly available at the ST website + + https://www.st.com/resource/en/datasheet/stlm75.pdf + + * Texas Instruments TMP100, TMP101, TMP105, TMP112, TMP75, TMP75B, TMP75C, TMP175, TMP275, TMP1075 + + Prefixes: 'tmp100', 'tmp101', 'tmp105', 'tmp112', 'tmp175', 'tmp75', 'tmp75b', 'tmp75c', 'tmp275', 'tmp1075' + + Addresses scanned: none + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/product/tmp100 + + https://www.ti.com/product/tmp101 + + https://www.ti.com/product/tmp105 + + https://www.ti.com/product/tmp112 + + https://www.ti.com/product/tmp75 + + https://www.ti.com/product/tmp75b + + https://www.ti.com/product/tmp75c + + https://www.ti.com/product/tmp175 + + https://www.ti.com/product/tmp275 + + https://www.ti.com/product/TMP1075 + + * NXP LM75B, PCT2075 + + Prefix: 'lm75b', 'pct2075' + + Addresses scanned: none + + Datasheet: Publicly available at the NXP website + + https://www.nxp.com/documents/data_sheet/LM75B.pdf + + https://www.nxp.com/docs/en/data-sheet/PCT2075.pdf + +Author: Frodo Looijaard <frodol@dds.nl> + +Description +----------- + +The LM75 implements one temperature sensor. Limits can be set through the +Overtemperature Shutdown register and Hysteresis register. Each value can be +set and read to half-degree accuracy. +An alarm is issued (usually to a connected LM78) when the temperature +gets higher then the Overtemperature Shutdown value; it stays on until +the temperature falls below the Hysteresis value. +All temperatures are in degrees Celsius, and are guaranteed within a +range of -55 to +125 degrees. + +The driver caches the values for a period varying between 1 second for the +slowest chips and 125 ms for the fastest chips; reading it more often +will do no harm, but will return 'old' values. + +The original LM75 was typically used in combination with LM78-like chips +on PC motherboards, to measure the temperature of the processor(s). Clones +are now used in various embedded designs. + +The LM75 is essentially an industry standard; there may be other +LM75 clones not listed here, with or without various enhancements, +that are supported. The clones are not detected by the driver, unless +they reproduce the exact register tricks of the original LM75, and must +therefore be instantiated explicitly. Higher resolution up to 16-bit +is supported by this driver, other specific enhancements are not. + +The LM77 is not supported, contrary to what we pretended for a long time. +Both chips are simply not compatible, value encoding differs. diff --git a/Documentation/hwmon/lm77.rst b/Documentation/hwmon/lm77.rst new file mode 100644 index 0000000000..4ed3fe6b99 --- /dev/null +++ b/Documentation/hwmon/lm77.rst @@ -0,0 +1,45 @@ +Kernel driver lm77 +================== + +Supported chips: + + * National Semiconductor LM77 + + Prefix: 'lm77' + + Addresses scanned: I2C 0x48 - 0x4b + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/ + + +Author: Andras BALI <drewie@freemail.hu> + +Description +----------- + +The LM77 implements one temperature sensor. The temperature +sensor incorporates a band-gap type temperature sensor, +10-bit ADC, and a digital comparator with user-programmable upper +and lower limit values. + +The LM77 implements 3 limits: low (temp1_min), high (temp1_max) and +critical (temp1_crit.) It also implements an hysteresis mechanism which +applies to all 3 limits. The relative difference is stored in a single +register on the chip, which means that the relative difference between +the limit and its hysteresis is always the same for all 3 limits. + +This implementation detail implies the following: + +* When setting a limit, its hysteresis will automatically follow, the + difference staying unchanged. For example, if the old critical limit + was 80 degrees C, and the hysteresis was 75 degrees C, and you change + the critical limit to 90 degrees C, then the hysteresis will + automatically change to 85 degrees C. +* All 3 hysteresis can't be set independently. We decided to make + temp1_crit_hyst writable, while temp1_min_hyst and temp1_max_hyst are + read-only. Setting temp1_crit_hyst writes the difference between + temp1_crit_hyst and temp1_crit into the chip, and the same relative + hysteresis applies automatically to the low and high limits. +* The limits should be set before the hysteresis. diff --git a/Documentation/hwmon/lm78.rst b/Documentation/hwmon/lm78.rst new file mode 100644 index 0000000000..cb7a4832f3 --- /dev/null +++ b/Documentation/hwmon/lm78.rst @@ -0,0 +1,80 @@ +Kernel driver lm78 +================== + +Supported chips: + + * National Semiconductor LM78 / LM78-J + + Prefix: 'lm78' + + Addresses scanned: I2C 0x28 - 0x2f, ISA 0x290 (8 I/O ports) + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/ + + * National Semiconductor LM79 + + Prefix: 'lm79' + + Addresses scanned: I2C 0x28 - 0x2f, ISA 0x290 (8 I/O ports) + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/ + + +Authors: + - Frodo Looijaard <frodol@dds.nl> + - Jean Delvare <jdelvare@suse.de> + +Description +----------- + +This driver implements support for the National Semiconductor LM78, LM78-J +and LM79. They are described as 'Microprocessor System Hardware Monitors'. + +There is almost no difference between the three supported chips. Functionally, +the LM78 and LM78-J are exactly identical. The LM79 has one more VID line, +which is used to report the lower voltages newer Pentium processors use. +From here on, LM7* means either of these three types. + +The LM7* implements one temperature sensor, three fan rotation speed sensors, +seven voltage sensors, VID lines, alarms, and some miscellaneous stuff. + +Temperatures are measured in degrees Celsius. An alarm is triggered once +when the Overtemperature Shutdown limit is crossed; it is triggered again +as soon as it drops below the Hysteresis value. A more useful behavior +can be found by setting the Hysteresis value to +127 degrees Celsius; in +this case, alarms are issued during all the time when the actual temperature +is above the Overtemperature Shutdown value. Measurements are guaranteed +between -55 and +125 degrees, with a resolution of 1 degree. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4 or 8) to give +the readings more range or accuracy. Not all RPM values can accurately be +represented, so some rounding is done. With a divider of 2, the lowest +representable value is around 2600 RPM. + +Voltage sensors (also known as IN sensors) report their values in volts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. Note that minimum in this case always means 'closest to +zero'; this is important for negative voltage measurements. All voltage +inputs can measure voltages between 0 and 4.08 volts, with a resolution +of 0.016 volt. + +The VID lines encode the core voltage value: the voltage level your processor +should work with. This is hardcoded by the mainboard and/or processor itself. +It is a value in volts. When it is unconnected, you will often find the +value 3.50 V here. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may +already have disappeared! Note that in the current implementation, all +hardware registers are read whenever any data is read (unless it is less +than 1.5 seconds since the last update). This means that you can easily +miss once-only alarms. + +The LM7* only updates its values each 1.5 seconds; reading it more often +will do no harm, but will return 'old' values. diff --git a/Documentation/hwmon/lm80.rst b/Documentation/hwmon/lm80.rst new file mode 100644 index 0000000000..c53186abd8 --- /dev/null +++ b/Documentation/hwmon/lm80.rst @@ -0,0 +1,74 @@ +Kernel driver lm80 +================== + +Supported chips: + + * National Semiconductor LM80 + + Prefix: 'lm80' + + Addresses scanned: I2C 0x28 - 0x2f + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/ + + * National Semiconductor LM96080 + + Prefix: 'lm96080' + + Addresses scanned: I2C 0x28 - 0x2f + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/ + + +Authors: + - Frodo Looijaard <frodol@dds.nl>, + - Philip Edelbrock <phil@netroedge.com> + +Description +----------- + +This driver implements support for the National Semiconductor LM80. +It is described as a 'Serial Interface ACPI-Compatible Microprocessor +System Hardware Monitor'. The LM96080 is a more recent incarnation, +it is pin and register compatible, with a few additional features not +yet supported by the driver. + +The LM80 implements one temperature sensor, two fan rotation speed sensors, +seven voltage sensors, alarms, and some miscellaneous stuff. + +Temperatures are measured in degrees Celsius. There are two sets of limits +which operate independently. When the HOT Temperature Limit is crossed, +this will cause an alarm that will be reasserted until the temperature +drops below the HOT Hysteresis. The Overtemperature Shutdown (OS) limits +should work in the same way (but this must be checked; the datasheet +is unclear about this). Measurements are guaranteed between -55 and ++125 degrees. The current temperature measurement has a resolution of +0.0625 degrees; the limits have a resolution of 1 degree. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4 or 8) to give +the readings more range or accuracy. Not all RPM values can accurately be +represented, so some rounding is done. With a divider of 2, the lowest +representable value is around 2600 RPM. + +Voltage sensors (also known as IN sensors) report their values in volts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. Note that minimum in this case always means 'closest to +zero'; this is important for negative voltage measurements. All voltage +inputs can measure voltages between 0 and 2.55 volts, with a resolution +of 0.01 volt. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may +already have disappeared! Note that in the current implementation, all +hardware registers are read whenever any data is read (unless it is less +than 2.0 seconds since the last update). This means that you can easily +miss once-only alarms. + +The LM80 only updates its values each 1.5 seconds; reading it more often +will do no harm, but will return 'old' values. diff --git a/Documentation/hwmon/lm83.rst b/Documentation/hwmon/lm83.rst new file mode 100644 index 0000000000..ecf8381996 --- /dev/null +++ b/Documentation/hwmon/lm83.rst @@ -0,0 +1,97 @@ +Kernel driver lm83 +================== + +Supported chips: + + * National Semiconductor LM83 + + Prefix: 'lm83' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/pf/LM/LM83.html + + * National Semiconductor LM82 + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/pf/LM/LM82.html + +Author: Jean Delvare <jdelvare@suse.de> + +Description +----------- + +The LM83 is a digital temperature sensor. It senses its own temperature as +well as the temperature of up to three external diodes. The LM82 is +a stripped down version of the LM83 that only supports one external diode. +Both are compatible with many other devices such as the LM84 and all +other ADM1021 clones. The main difference between the LM83 and the LM84 +in that the later can only sense the temperature of one external diode. + +Using the adm1021 driver for a LM83 should work, but only two temperatures +will be reported instead of four. + +The LM83 is only found on a handful of motherboards. Both a confirmed +list and an unconfirmed list follow. If you can confirm or infirm the +fact that any of these motherboards do actually have an LM83, please +contact us. Note that the LM90 can easily be misdetected as a LM83. + +Confirmed motherboards: + === ===== + SBS P014 + SBS PSL09 + === ===== + +Unconfirmed motherboards: + =========== ========== + Gigabyte GA-8IK1100 + Iwill MPX2 + Soltek SL-75DRV5 + =========== ========== + +The LM82 is confirmed to have been found on most AMD Geode reference +designs and test platforms. + +The driver has been successfully tested by Magnus Forsström, who I'd +like to thank here. More testers will be of course welcome. + +The fact that the LM83 is only scarcely used can be easily explained. +Most motherboards come with more than just temperature sensors for +health monitoring. They also have voltage and fan rotation speed +sensors. This means that temperature-only chips are usually used as +secondary chips coupled with another chip such as an IT8705F or similar +chip, which provides more features. Since systems usually need three +temperature sensors (motherboard, processor, power supply) and primary +chips provide some temperature sensors, the secondary chip, if needed, +won't have to handle more than two temperatures. Thus, ADM1021 clones +are sufficient, and there is no need for a four temperatures sensor +chip such as the LM83. The only case where using an LM83 would make +sense is on SMP systems, such as the above-mentioned Iwill MPX2, +because you want an additional temperature sensor for each additional +CPU. + +On the SBS P014, this is different, since the LM83 is the only hardware +monitoring chipset. One temperature sensor is used for the motherboard +(actually measuring the LM83's own temperature), one is used for the +CPU. The two other sensors must be used to measure the temperature of +two other points of the motherboard. We suspect these points to be the +north and south bridges, but this couldn't be confirmed. + +All temperature values are given in degrees Celsius. Local temperature +is given within a range of 0 to +85 degrees. Remote temperatures are +given within a range of 0 to +125 degrees. Resolution is 1.0 degree, +accuracy is guaranteed to 3.0 degrees (see the datasheet for more +details). + +Each sensor has its own high limit, but the critical limit is common to +all four sensors. There is no hysteresis mechanism as found on most +recent temperature sensors. + +The lm83 driver will not update its values more frequently than every +other second; reading them more often will do no harm, but will return +'old' values. diff --git a/Documentation/hwmon/lm85.rst b/Documentation/hwmon/lm85.rst new file mode 100644 index 0000000000..55e1d9cdaa --- /dev/null +++ b/Documentation/hwmon/lm85.rst @@ -0,0 +1,286 @@ +Kernel driver lm85 +================== + +Supported chips: + + * National Semiconductor LM85 (B and C versions) + + Prefix: 'lm85b' or 'lm85c' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: http://www.national.com/pf/LM/LM85.html + + * Texas Instruments LM96000 + + Prefix: 'lm9600' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: https://www.ti.com/lit/ds/symlink/lm96000.pdf + + * Analog Devices ADM1027 + + Prefix: 'adm1027' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: https://www.onsemi.com/PowerSolutions/product.do?id=ADM1027 + + * Analog Devices ADT7463 + + Prefix: 'adt7463' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: https://www.onsemi.com/PowerSolutions/product.do?id=ADT7463 + + * Analog Devices ADT7468 + + Prefix: 'adt7468' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: https://www.onsemi.com/PowerSolutions/product.do?id=ADT7468 + + * SMSC EMC6D100, SMSC EMC6D101 + + Prefix: 'emc6d100' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: http://www.smsc.com/media/Downloads_Public/discontinued/6d100.pdf + + * SMSC EMC6D102 + + Prefix: 'emc6d102' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: http://www.smsc.com/main/catalog/emc6d102.html + + * SMSC EMC6D103 + + Prefix: 'emc6d103' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: http://www.smsc.com/main/catalog/emc6d103.html + + * SMSC EMC6D103S + + Prefix: 'emc6d103s' + + Addresses scanned: I2C 0x2c, 0x2d, 0x2e + + Datasheet: http://www.smsc.com/main/catalog/emc6d103s.html + +Authors: + - Philip Pokorny <ppokorny@penguincomputing.com>, + - Frodo Looijaard <frodol@dds.nl>, + - Richard Barrington <rich_b_nz@clear.net.nz>, + - Margit Schubert-While <margitsw@t-online.de>, + - Justin Thiessen <jthiessen@penguincomputing.com> + +Description +----------- + +This driver implements support for the National Semiconductor LM85 and +compatible chips including the Analog Devices ADM1027, ADT7463, ADT7468 and +SMSC EMC6D10x chips family. + +The LM85 uses the 2-wire interface compatible with the SMBUS 2.0 +specification. Using an analog to digital converter it measures three (3) +temperatures and five (5) voltages. It has four (4) 16-bit counters for +measuring fan speed. Five (5) digital inputs are provided for sampling the +VID signals from the processor to the VRM. Lastly, there are three (3) PWM +outputs that can be used to control fan speed. + +The voltage inputs have internal scaling resistors so that the following +voltage can be measured without external resistors: + + 2.5V, 3.3V, 5V, 12V, and CPU core voltage (2.25V) + +The temperatures measured are one internal diode, and two remote diodes. +Remote 1 is generally the CPU temperature. These inputs are designed to +measure a thermal diode like the one in a Pentium 4 processor in a socket +423 or socket 478 package. They can also measure temperature using a +transistor like the 2N3904. + +A sophisticated control system for the PWM outputs is designed into the +LM85 that allows fan speed to be adjusted automatically based on any of the +three temperature sensors. Each PWM output is individually adjustable and +programmable. Once configured, the LM85 will adjust the PWM outputs in +response to the measured temperatures without further host intervention. +This feature can also be disabled for manual control of the PWM's. + +Each of the measured inputs (voltage, temperature, fan speed) has +corresponding high/low limit values. The LM85 will signal an ALARM if any +measured value exceeds either limit. + +The LM85 samples all inputs continuously. The lm85 driver will not read +the registers more often than once a second. Further, configuration data is +only read once each 5 minutes. There is twice as much config data as +measurements, so this would seem to be a worthwhile optimization. + +Special Features +---------------- + +The LM85 has four fan speed monitoring modes. The ADM1027 has only two. +Both have special circuitry to compensate for PWM interactions with the +TACH signal from the fans. The ADM1027 can be configured to measure the +speed of a two wire fan, but the input conditioning circuitry is different +for 3-wire and 2-wire mode. For this reason, the 2-wire fan modes are not +exposed to user control. The BIOS should initialize them to the correct +mode. If you've designed your own ADM1027, you'll have to modify the +init_client function and add an insmod parameter to set this up. + +To smooth the response of fans to changes in temperature, the LM85 has an +optional filter for smoothing temperatures. The ADM1027 has the same +config option but uses it to rate limit the changes to fan speed instead. + +The ADM1027, ADT7463 and ADT7468 have a 10-bit ADC and can therefore +measure temperatures with 0.25 degC resolution. They also provide an offset +to the temperature readings that is automatically applied during +measurement. This offset can be used to zero out any errors due to traces +and placement. The documentation says that the offset is in 0.25 degC +steps, but in initial testing of the ADM1027 it was 1.00 degC steps. Analog +Devices has confirmed this "bug". The ADT7463 is reported to work as +described in the documentation. The current lm85 driver does not show the +offset register. + +The ADT7468 has a high-frequency PWM mode, where all PWM outputs are +driven by a 22.5 kHz clock. This is a global mode, not per-PWM output, +which means that setting any PWM frequency above 11.3 kHz will switch +all 3 PWM outputs to a 22.5 kHz frequency. Conversely, setting any PWM +frequency below 11.3 kHz will switch all 3 PWM outputs to a frequency +between 10 and 100 Hz, which can then be tuned separately. + +See the vendor datasheets for more information. There is application note +from National (AN-1260) with some additional information about the LM85. +The Analog Devices datasheet is very detailed and describes a procedure for +determining an optimal configuration for the automatic PWM control. + +The SMSC EMC6D100 & EMC6D101 monitor external voltages, temperatures, and +fan speeds. They use this monitoring capability to alert the system to out +of limit conditions and can automatically control the speeds of multiple +fans in a PC or embedded system. The EMC6D101, available in a 24-pin SSOP +package, and the EMC6D100, available in a 28-pin SSOP package, are designed +to be register compatible. The EMC6D100 offers all the features of the +EMC6D101 plus additional voltage monitoring and system control features. +Unfortunately it is not possible to distinguish between the package +versions on register level so these additional voltage inputs may read +zero. EMC6D102 and EMC6D103 feature additional ADC bits thus extending precision +of voltage and temperature channels. + +SMSC EMC6D103S is similar to EMC6D103, but does not support pwm#_auto_pwm_minctl +and temp#_auto_temp_off. + +The LM96000 supports additional high frequency PWM modes (22.5 kHz, 24 kHz, +25.7 kHz, 27.7 kHz and 30 kHz), which can be configured on a per-PWM basis. + +Hardware Configurations +----------------------- + +The LM85 can be jumpered for 3 different SMBus addresses. There are +no other hardware configuration options for the LM85. + +The lm85 driver detects both LM85B and LM85C revisions of the chip. See the +datasheet for a complete description of the differences. Other than +identifying the chip, the driver behaves no differently with regard to +these two chips. The LM85B is recommended for new designs. + +The ADM1027, ADT7463 and ADT7468 chips have an optional SMBALERT output +that can be used to signal the chipset in case a limit is exceeded or the +temperature sensors fail. Individual sensor interrupts can be masked so +they won't trigger SMBALERT. The SMBALERT output if configured replaces one +of the other functions (PWM2 or IN0). This functionality is not implemented +in current driver. + +The ADT7463 and ADT7468 also have an optional THERM output/input which can +be connected to the processor PROC_HOT output. If available, the autofan +control dynamic Tmin feature can be enabled to keep the system temperature +within spec (just?!) with the least possible fan noise. + +Configuration Notes +------------------- + +Besides standard interfaces driver adds following: + +* Temperatures and Zones + +Each temperature sensor is associated with a Zone. There are three +sensors and therefore three zones (# 1, 2 and 3). Each zone has the following +temperature configuration points: + +* temp#_auto_temp_off + - temperature below which fans should be off or spinning very low. +* temp#_auto_temp_min + - temperature over which fans start to spin. +* temp#_auto_temp_max + - temperature when fans spin at full speed. +* temp#_auto_temp_crit + - temperature when all fans will run full speed. + +PWM Control +^^^^^^^^^^^ + +There are three PWM outputs. The LM85 datasheet suggests that the +pwm3 output control both fan3 and fan4. Each PWM can be individually +configured and assigned to a zone for its control value. Each PWM can be +configured individually according to the following options. + +* pwm#_auto_pwm_min + - this specifies the PWM value for temp#_auto_temp_off + temperature. (PWM value from 0 to 255) + +* pwm#_auto_pwm_minctl + - this flags selects for temp#_auto_temp_off temperature + the behaviour of fans. Write 1 to let fans spinning at + pwm#_auto_pwm_min or write 0 to let them off. + +.. note:: + + It has been reported that there is a bug in the LM85 that causes + the flag to be associated with the zones not the PWMs. This + contradicts all the published documentation. Setting pwm#_min_ctl + in this case actually affects all PWMs controlled by zone '#'. + +PWM Controlling Zone selection +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +* pwm#_auto_channels + - controls zone that is associated with PWM + +Configuration choices: + +========== ============================================= +Value Meaning +========== ============================================= + 1 Controlled by Zone 1 + 2 Controlled by Zone 2 + 3 Controlled by Zone 3 + 23 Controlled by higher temp of Zone 2 or 3 + 123 Controlled by highest temp of Zone 1, 2 or 3 + 0 PWM always 0% (off) + -1 PWM always 100% (full on) + -2 Manual control (write to 'pwm#' to set) +========== ============================================= + +The National LM85's have two vendor specific configuration +features. Tach. mode and Spinup Control. For more details on these, +see the LM85 datasheet or Application Note AN-1260. These features +are not currently supported by the lm85 driver. + +The Analog Devices ADM1027 has several vendor specific enhancements. +The number of pulses-per-rev of the fans can be set, Tach monitoring +can be optimized for PWM operation, and an offset can be applied to +the temperatures to compensate for systemic errors in the +measurements. These features are not currently supported by the lm85 +driver. + +In addition to the ADM1027 features, the ADT7463 and ADT7468 also have +Tmin control and THERM asserted counts. Automatic Tmin control acts to +adjust the Tmin value to maintain the measured temperature sensor at a +specified temperature. There isn't much documentation on this feature in +the ADT7463 data sheet. This is not supported by current driver. diff --git a/Documentation/hwmon/lm87.rst b/Documentation/hwmon/lm87.rst new file mode 100644 index 0000000000..b8fec56896 --- /dev/null +++ b/Documentation/hwmon/lm87.rst @@ -0,0 +1,86 @@ +Kernel driver lm87 +================== + +Supported chips: + + * National Semiconductor LM87 + + Prefix: 'lm87' + + Addresses scanned: I2C 0x2c - 0x2e + + Datasheet: http://www.national.com/pf/LM/LM87.html + + * Analog Devices ADM1024 + + Prefix: 'adm1024' + + Addresses scanned: I2C 0x2c - 0x2e + + Datasheet: https://www.analog.com/en/prod/0,2877,ADM1024,00.html + + +Authors: + - Frodo Looijaard <frodol@dds.nl>, + - Philip Edelbrock <phil@netroedge.com>, + - Mark Studebaker <mdsxyz123@yahoo.com>, + - Stephen Rousset <stephen.rousset@rocketlogix.com>, + - Dan Eaton <dan.eaton@rocketlogix.com>, + - Jean Delvare <jdelvare@suse.de>, + - Original 2.6 port Jeff Oliver + +Description +----------- + +This driver implements support for the National Semiconductor LM87 +and the Analog Devices ADM1024. + +The LM87 implements up to three temperature sensors, up to two fan +rotation speed sensors, up to seven voltage sensors, alarms, and some +miscellaneous stuff. The ADM1024 is fully compatible. + +Temperatures are measured in degrees Celsius. Each input has a high +and low alarm settings. A high limit produces an alarm when the value +goes above it, and an alarm is also produced when the value goes below +the low limit. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4 or 8) to give +the readings more range or accuracy. Not all RPM values can accurately be +represented, so some rounding is done. With a divider of 2, the lowest +representable value is around 2600 RPM. + +Voltage sensors (also known as IN sensors) report their values in +volts. An alarm is triggered if the voltage has crossed a programmable +minimum or maximum limit. Note that minimum in this case always means +'closest to zero'; this is important for negative voltage measurements. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may +already have disappeared! Note that in the current implementation, all +hardware registers are read whenever any data is read (unless it is less +than 1.0 seconds since the last update). This means that you can easily +miss once-only alarms. + +The lm87 driver only updates its values each 1.0 seconds; reading it more +often will do no harm, but will return 'old' values. + + +Hardware Configurations +----------------------- + +The LM87 has four pins which can serve one of two possible functions, +depending on the hardware configuration. + +Some functions share pins, so not all functions are available at the same +time. Which are depends on the hardware setup. This driver normally +assumes that firmware configured the chip correctly. Where this is not +the case, platform code must set the I2C client's platform_data to point +to a u8 value to be written to the channel register. + +For reference, here is the list of exclusive functions: + - in0+in5 (default) or temp3 + - fan1 (default) or in6 + - fan2 (default) or in7 + - VID lines (default) or IRQ lines (not handled by this driver) diff --git a/Documentation/hwmon/lm90.rst b/Documentation/hwmon/lm90.rst new file mode 100644 index 0000000000..23af17a0ab --- /dev/null +++ b/Documentation/hwmon/lm90.rst @@ -0,0 +1,641 @@ +Kernel driver lm90 +================== + +Supported chips: + + * National Semiconductor LM84 + + Prefix: 'lm84' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the National Semiconductor website + + * National Semiconductor LM90 + + Prefix: 'lm90' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/pf/LM/LM90.html + + * National Semiconductor LM89 + + Prefix: 'lm89' (no auto-detection) + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/mpf/LM/LM89.html + + * National Semiconductor LM99 + + Prefix: 'lm99' + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/pf/LM/LM99.html + + * National Semiconductor LM86 + + Prefix: 'lm86' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the National Semiconductor website + + http://www.national.com/mpf/LM/LM86.html + + * Analog Devices ADM1020 + + Prefix: 'adm1020' + + Addresses scanned: I2C 0x4c - 0x4e + + Datasheet: Publicly available at the Analog Devices website + + * Analog Devices ADM1021 + + Prefix: 'adm1021' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Analog Devices website + + * Analog Devices ADM1021A/ADM1023 + + Prefix: 'adm1023' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Analog Devices website + + * Analog Devices ADM1032 + + Prefix: 'adm1032' + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=ADM1032 + + * Analog Devices ADT7461 + + Prefix: 'adt7461' + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=ADT7461 + + * Analog Devices ADT7461A + + Prefix: 'adt7461a' + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=ADT7461A + + * Analog Devices ADT7481 + + Prefix: 'adt7481' + + Addresses scanned: I2C 0x4b and 0x4c + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=ADT7481 + + * Analog Devices ADT7482 + + Prefix: 'adt7482' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=ADT7482 + + * Analog Devices ADT7483A + + Prefix: 'adt7483a' + + Addresses scanned: I2C 0x18, 0x19, 0x1a, 0x29, 0x2a, 0x2b, 0x4c, 0x4d, 0x4e + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=ADT7483A + + * ON Semiconductor NCT1008 + + Prefix: 'nct1008' + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=NCT1008 + + * ON Semiconductor NCT210 + + Prefix: 'adm1021' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=NCT210 + + * ON Semiconductor NCT214 + + Prefix: 'nct214' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=NCT214 + + * ON Semiconductor NCT218 + + Prefix: 'nct218' + + Addresses scanned: I2C 0x4c - 0x4d + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=NCT218 + + * ON Semiconductor NCT72 + + Prefix: 'nct72' + + Addresses scanned: I2C 0x4c - 0x4d + + Datasheet: Publicly available at the ON Semiconductor website + + https://www.onsemi.com/PowerSolutions/product.do?id=NCT72 + + * Maxim MAX1617 + + Prefix: 'max1617' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Maxim website + + * Maxim MAX1617A + + Prefix: 'max1617a' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Maxim website + + * Maxim MAX6642 + + Prefix: 'max6642' + + Addresses scanned: I2C 0x48-0x4f + + Datasheet: Publicly available at the Maxim website + + http://datasheets.maxim-ic.com/en/ds/MAX6642.pdf + + * Maxim MAX6646 + + Prefix: 'max6646' + + Addresses scanned: I2C 0x4d + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/3497 + + * Maxim MAX6647 + + Prefix: 'max6646' + + Addresses scanned: I2C 0x4e + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/3497 + + * Maxim MAX6648 + + Prefix: 'max6648' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/3500 + + * Maxim MAX6649 + + Prefix: 'max6646' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/3497 + + * Maxim MAX6654 + + Prefix: 'max6654' + + Addresses scanned: I2C 0x18, 0x19, 0x1a, 0x29, 0x2a, 0x2b, + + 0x4c, 0x4d and 0x4e + + Datasheet: Publicly available at the Maxim website + + https://www.maximintegrated.com/en/products/sensors/MAX6654.html + + * Maxim MAX6657 + + Prefix: 'max6657' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/2578 + + * Maxim MAX6658 + + Prefix: 'max6657' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/2578 + + * Maxim MAX6659 + + Prefix: 'max6659' + + Addresses scanned: I2C 0x4c, 0x4d, 0x4e + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/2578 + + * Maxim MAX6680 + + Prefix: 'max6680' + + Addresses scanned: I2C 0x18, 0x19, 0x1a, 0x29, 0x2a, 0x2b, + + 0x4c, 0x4d and 0x4e + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/3370 + + * Maxim MAX6681 + + Prefix: 'max6680' + + Addresses scanned: I2C 0x18, 0x19, 0x1a, 0x29, 0x2a, 0x2b, + + 0x4c, 0x4d and 0x4e + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/3370 + + * Maxim MAX6692 + + Prefix: 'max6648' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/quick_view2.cfm/qv_pk/3500 + + * Maxim MAX6695 + + Prefix: 'max6695' + + Addresses scanned: I2C 0x18 + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/datasheet/index.mvp/id/4199 + + * Maxim MAX6696 + + Prefix: 'max6695' + + Addresses scanned: I2C 0x18, 0x19, 0x1a, 0x29, 0x2a, 0x2b, + + 0x4c, 0x4d and 0x4e + + Datasheet: Publicly available at the Maxim website + + http://www.maxim-ic.com/datasheet/index.mvp/id/4199 + + * Winbond/Nuvoton W83L771W/G + + Prefix: 'w83l771' + + Addresses scanned: I2C 0x4c + + Datasheet: No longer available + + * Winbond/Nuvoton W83L771AWG/ASG + + Prefix: 'w83l771' + + Addresses scanned: I2C 0x4c + + Datasheet: Not publicly available, can be requested from Nuvoton + + * Philips/NXP SA56004X + + Prefix: 'sa56004' + + Addresses scanned: I2C 0x48 through 0x4F + + Datasheet: Publicly available at NXP website + + http://ics.nxp.com/products/interface/datasheet/sa56004x.pdf + + * GMT G781 + + Prefix: 'g781' + + Addresses scanned: I2C 0x4c, 0x4d + + Datasheet: Not publicly available from GMT + + * Texas Instruments TMP451 + + Prefix: 'tmp451' + + Addresses scanned: I2C 0x4c + + Datasheet: Publicly available at TI website + + https://www.ti.com/litv/pdf/sbos686 + + * Texas Instruments TMP461 + + Prefix: 'tmp461' + + Addresses scanned: I2C 0x48 through 0x4F + + Datasheet: Publicly available at TI website + + https://www.ti.com/lit/gpn/tmp461 + + * Philips NE1617, NE1617A + + Prefix: 'max1617' (probably detected as a max1617) + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheets: Publicly available at the Philips website + + * Philips NE1618 + + Prefix: 'ne1618' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheets: Publicly available at the Philips website + + * Genesys Logic GL523SM + + Prefix: 'gl523sm' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: + + * TI THMC10 + + Prefix: 'thmc10' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the TI website + + * Onsemi MC1066 + + Prefix: 'mc1066' + + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + + Datasheet: Publicly available at the Onsemi website + +Author: Jean Delvare <jdelvare@suse.de> + + +Description +----------- + +The LM90 is a digital temperature sensor. It senses its own temperature as +well as the temperature of up to one external diode. It is compatible +with many other devices, many of which are supported by this driver. + +The family of chips supported by this driver is derived from MAX1617. +This chip as well as various compatible chips support a local and a remote +temperature sensor with 8 bit accuracy. Later chips provide improved accuracy +and other additional features such as hysteresis and temperature offset +registers. + +Note that there is no easy way to differentiate between the MAX6657, +MAX6658 and MAX6659 variants. The extra features of the MAX6659 are only +supported by this driver if the chip is located at address 0x4d or 0x4e, +or if the chip type is explicitly selected as max6659. +The MAX6680 and MAX6681 only differ in their pinout, therefore they obviously +can't (and don't need to) be distinguished. + +The different chipsets of the family are not strictly identical, although +very similar. For reference, here comes a non-exhaustive list of specific +features: + +LM84: + * 8 bit sensor resolution + +ADM1020, ADM1021, GL523SM, MAX1617, NE1617, NE1617A, THMC10: + * 8 bit sensor resolution + * Low temperature limits + +NCT210, NE1618: + * 11 bit sensor resolution for remote temperature sensor + * Low temperature limits + +ADM1021A, ADM1023: + * Temperature offset register for remote temperature sensor + * 11 bit resolution for remote temperature sensor + * Low temperature limits + +LM90: + * 11 bit resolution for remote temperature sensor + * Temperature offset register for remote temperature sensor + * Low and critical temperature limits + * Configurable conversion rate + * Filter and alert configuration register at 0xBF. + * ALERT is triggered by temperatures over critical limits. + +LM86 and LM89: + * Same as LM90 + * Better external channel accuracy + +LM99: + * Same as LM89 + * External temperature shifted by 16 degrees down + +ADM1032: + * Consecutive alert register at 0x22. + * Conversion averaging. + * Up to 64 conversions/s. + * ALERT is triggered by open remote sensor. + * SMBus PEC support for Write Byte and Receive Byte transactions. + +ADT7461, ADT7461A, NCT1008: + * Extended temperature range (breaks compatibility) + * Lower resolution for remote temperature + * SMBus PEC support for Write Byte and Receive Byte transactions. + * 10 bit temperature resolution + +ADT7481, ADT7482, ADT7483: + * Temperature offset register + * SMBus PEC support + * 10 bit temperature resolution for external sensors + * Two remote sensors + * Selectable address (ADT7483) + +MAX6642: + * No critical limit register + * Conversion rate not configurable + * Better local resolution (10 bit) + * 10 bit external sensor resolution + +MAX6646, MAX6647, MAX6649: + * Better local resolution + * Extended range unsigned external temperature + +MAX6648, MAX6692: + * Better local resolution + * Unsigned temperature + +MAX6654, MAX6690: + * Better local resolution + * Selectable address + * Remote sensor type selection + * Extended temperature range + * Extended resolution only available when conversion rate <= 1 Hz + +MAX6657 and MAX6658: + * Better local resolution + * Remote sensor type selection + +MAX6659: + * Better local resolution + * Selectable address + * Second critical temperature limit + * Remote sensor type selection + +MAX6680 and MAX6681: + * Selectable address + * Remote sensor type selection + +MAX6695 and MAX6696: + * Better local resolution + * Selectable address (max6696) + * Second critical temperature limit + * Two remote sensors + +W83L771W/G + * The G variant is lead-free, otherwise similar to the W. + * Filter and alert configuration register at 0xBF + * Moving average (depending on conversion rate) + +W83L771AWG/ASG + * Successor of the W83L771W/G, same features. + * The AWG and ASG variants only differ in package format. + * Diode ideality factor configuration (remote sensor) at 0xE3 + +SA56004X: + * Better local resolution + +All temperature values are given in degrees Celsius. Resolution +is 1.0 degree for the local temperature, 0.125 degree for the remote +temperature, except for the MAX6654, MAX6657, MAX6658 and MAX6659 which have +a resolution of 0.125 degree for both temperatures. + +Each sensor has its own high and low limits, plus a critical limit. +Additionally, there is a relative hysteresis value common to both critical +values. To make life easier to user-space applications, two absolute values +are exported, one for each channel, but these values are of course linked. +Only the local hysteresis can be set from user-space, and the same delta +applies to the remote hysteresis. + +The lm90 driver will not update its values more frequently than configured with +the update_interval attribute; reading them more often will do no harm, but will +return 'old' values. + +SMBus Alert Support +------------------- + +This driver has basic support for SMBus alert. When an alert is received, +the status register is read and the faulty temperature channel is logged. + +The Analog Devices chips (ADM1032, ADT7461 and ADT7461A) and ON +Semiconductor chips (NCT1008) do not implement the SMBus alert protocol +properly so additional care is needed: the ALERT output is disabled when +an alert is received, and is re-enabled only when the alarm is gone. +Otherwise the chip would block alerts from other chips in the bus as long +as the alarm is active. + +PEC Support +----------- + +The ADM1032 is the only chip of the family which supports PEC. It does +not support PEC on all transactions though, so some care must be taken. + +When reading a register value, the PEC byte is computed and sent by the +ADM1032 chip. However, in the case of a combined transaction (SMBus Read +Byte), the ADM1032 computes the CRC value over only the second half of +the message rather than its entirety, because it thinks the first half +of the message belongs to a different transaction. As a result, the CRC +value differs from what the SMBus master expects, and all reads fail. + +For this reason, the lm90 driver will enable PEC for the ADM1032 only if +the bus supports the SMBus Send Byte and Receive Byte transaction types. +These transactions will be used to read register values, instead of +SMBus Read Byte, and PEC will work properly. + +Additionally, the ADM1032 doesn't support SMBus Send Byte with PEC. +Instead, it will try to write the PEC value to the register (because the +SMBus Send Byte transaction with PEC is similar to a Write Byte transaction +without PEC), which is not what we want. Thus, PEC is explicitly disabled +on SMBus Send Byte transactions in the lm90 driver. + +PEC on byte data transactions represents a significant increase in bandwidth +usage (+33% for writes, +25% for reads) in normal conditions. With the need +to use two SMBus transaction for reads, this overhead jumps to +50%. Worse, +two transactions will typically mean twice as much delay waiting for +transaction completion, effectively doubling the register cache refresh time. +I guess reliability comes at a price, but it's quite expensive this time. + +So, as not everyone might enjoy the slowdown, PEC is disabled by default and +can be enabled through sysfs. Just write 1 to the "pec" file and PEC will be +enabled. Write 0 to that file to disable PEC again. diff --git a/Documentation/hwmon/lm92.rst b/Documentation/hwmon/lm92.rst new file mode 100644 index 0000000000..c131b923ed --- /dev/null +++ b/Documentation/hwmon/lm92.rst @@ -0,0 +1,48 @@ +Kernel driver lm92 +================== + +Supported chips: + + * National Semiconductor LM92 + + Prefix: 'lm92' + + Addresses scanned: I2C 0x48 - 0x4b + + Datasheet: http://www.national.com/pf/LM/LM92.html + + * National Semiconductor LM76 + + Prefix: 'lm92' + + Addresses scanned: none, force parameter needed + + Datasheet: http://www.national.com/pf/LM/LM76.html + + * Maxim MAX6633/MAX6634/MAX6635 + + Prefix: 'max6635' + + Addresses scanned: none, force parameter needed + + Datasheet: http://www.maxim-ic.com/quick_view2.cfm/qv_pk/3074 + + +Authors: + - Abraham van der Merwe <abraham@2d3d.co.za> + - Jean Delvare <jdelvare@suse.de> + + +Description +----------- + +This driver implements support for the National Semiconductor LM92 +temperature sensor. + +Each LM92 temperature sensor supports a single temperature sensor. There are +alarms for high, low, and critical thresholds. There's also an hysteresis to +control the thresholds for resetting alarms. + +Support was added later for the LM76 and Maxim MAX6633/MAX6634/MAX6635, +which are mostly compatible. They have not all been tested, so you +may need to use the force parameter. diff --git a/Documentation/hwmon/lm93.rst b/Documentation/hwmon/lm93.rst new file mode 100644 index 0000000000..369e15898a --- /dev/null +++ b/Documentation/hwmon/lm93.rst @@ -0,0 +1,312 @@ +Kernel driver lm93 +================== + +Supported chips: + + * National Semiconductor LM93 + + Prefix 'lm93' + + Addresses scanned: I2C 0x2c-0x2e + + Datasheet: http://www.national.com/ds.cgi/LM/LM93.pdf + + * National Semiconductor LM94 + + Prefix 'lm94' + + Addresses scanned: I2C 0x2c-0x2e + + Datasheet: http://www.national.com/ds.cgi/LM/LM94.pdf + + +Authors: + - Mark M. Hoffman <mhoffman@lightlink.com> + - Ported to 2.6 by Eric J. Bowersox <ericb@aspsys.com> + - Adapted to 2.6.20 by Carsten Emde <ce@osadl.org> + - Modified for mainline integration by Hans J. Koch <hjk@hansjkoch.de> + +Module Parameters +----------------- + +* init: integer + Set to non-zero to force some initializations (default is 0). +* disable_block: integer + A "0" allows SMBus block data transactions if the host supports them. A "1" + disables SMBus block data transactions. The default is 0. +* vccp_limit_type: integer array (2) + Configures in7 and in8 limit type, where 0 means absolute and non-zero + means relative. "Relative" here refers to "Dynamic Vccp Monitoring using + VID" from the datasheet. It greatly simplifies the interface to allow + only one set of limits (absolute or relative) to be in operation at a + time (even though the hardware is capable of enabling both). There's + not a compelling use case for enabling both at once, anyway. The default + is "0,0". +* vid_agtl: integer + A "0" configures the VID pins for V(ih) = 2.1V min, V(il) = 0.8V max. + A "1" configures the VID pins for V(ih) = 0.8V min, V(il) = 0.4V max. + (The latter setting is referred to as AGTL+ Compatible in the datasheet.) + I.e. this parameter controls the VID pin input thresholds; if your VID + inputs are not working, try changing this. The default value is "0". + + +Hardware Description +-------------------- + +(from the datasheet) + +The LM93 hardware monitor has a two wire digital interface compatible with +SMBus 2.0. Using an 8-bit ADC, the LM93 measures the temperature of two remote +diode connected transistors as well as its own die and 16 power supply +voltages. To set fan speed, the LM93 has two PWM outputs that are each +controlled by up to four temperature zones. The fancontrol algorithm is lookup +table based. The LM93 includes a digital filter that can be invoked to smooth +temperature readings for better control of fan speed. The LM93 has four +tachometer inputs to measure fan speed. Limit and status registers for all +measured values are included. The LM93 builds upon the functionality of +previous motherboard management ASICs and uses some of the LM85's features +(i.e. smart tachometer mode). It also adds measurement and control support +for dynamic Vccp monitoring and PROCHOT. It is designed to monitor a dual +processor Xeon class motherboard with a minimum of external components. + +LM94 is also supported in LM93 compatible mode. Extra sensors and features of +LM94 are not supported. + + +User Interface +-------------- + +#PROCHOT +^^^^^^^^ + +The LM93 can monitor two #PROCHOT signals. The results are found in the +sysfs files prochot1, prochot2, prochot1_avg, prochot2_avg, prochot1_max, +and prochot2_max. prochot1_max and prochot2_max contain the user limits +for #PROCHOT1 and #PROCHOT2, respectively. prochot1 and prochot2 contain +the current readings for the most recent complete time interval. The +value of prochot1_avg and prochot2_avg is something like a 2 period +exponential moving average (but not quite - check the datasheet). Note +that this third value is calculated by the chip itself. All values range +from 0-255 where 0 indicates no throttling, and 255 indicates > 99.6%. + +The monitoring intervals for the two #PROCHOT signals is also configurable. +These intervals can be found in the sysfs files prochot1_interval and +prochot2_interval. The values in these files specify the intervals for +#P1_PROCHOT and #P2_PROCHOT, respectively. Selecting a value not in this +list will cause the driver to use the next largest interval. The available +intervals are (in seconds): + +#PROCHOT intervals: + 0.73, 1.46, 2.9, 5.8, 11.7, 23.3, 46.6, 93.2, 186, 372 + +It is possible to configure the LM93 to logically short the two #PROCHOT +signals. I.e. when #P1_PROCHOT is asserted, the LM93 will automatically +assert #P2_PROCHOT, and vice-versa. This mode is enabled by writing a +non-zero integer to the sysfs file prochot_short. + +The LM93 can also override the #PROCHOT pins by driving a PWM signal onto +one or both of them. When overridden, the signal has a period of 3.56 ms, +a minimum pulse width of 5 clocks (at 22.5kHz => 6.25% duty cycle), and +a maximum pulse width of 80 clocks (at 22.5kHz => 99.88% duty cycle). + +The sysfs files prochot1_override and prochot2_override contain boolean +integers which enable or disable the override function for #P1_PROCHOT and +#P2_PROCHOT, respectively. The sysfs file prochot_override_duty_cycle +contains a value controlling the duty cycle for the PWM signal used when +the override function is enabled. This value ranges from 0 to 15, with 0 +indicating minimum duty cycle and 15 indicating maximum. + +#VRD_HOT +^^^^^^^^ + +The LM93 can monitor two #VRD_HOT signals. The results are found in the +sysfs files vrdhot1 and vrdhot2. There is one value per file: a boolean for +which 1 indicates #VRD_HOT is asserted and 0 indicates it is negated. These +files are read-only. + +Smart Tach Mode (from the datasheet):: + + If a fan is driven using a low-side drive PWM, the tachometer + output of the fan is corrupted. The LM93 includes smart tachometer + circuitry that allows an accurate tachometer reading to be + achieved despite the signal corruption. In smart tach mode all + four signals are measured within 4 seconds. + +Smart tach mode is enabled by the driver by writing 1 or 2 (associating the +fan tachometer with a pwm) to the sysfs file fan<n>_smart_tach. A zero +will disable the function for that fan. Note that Smart tach mode cannot be +enabled if the PWM output frequency is 22500 Hz (see below). + +Manual PWM +^^^^^^^^^^ + +The LM93 has a fixed or override mode for the two PWM outputs (although, there +are still some conditions that will override even this mode - see section +15.10.6 of the datasheet for details.) The sysfs files pwm1_override +and pwm2_override are used to enable this mode; each is a boolean integer +where 0 disables and 1 enables the manual control mode. The sysfs files pwm1 +and pwm2 are used to set the manual duty cycle; each is an integer (0-255) +where 0 is 0% duty cycle, and 255 is 100%. Note that the duty cycle values +are constrained by the hardware. Selecting a value which is not available +will cause the driver to use the next largest value. Also note: when manual +PWM mode is disabled, the value of pwm1 and pwm2 indicates the current duty +cycle chosen by the h/w. + +PWM Output Frequency +^^^^^^^^^^^^^^^^^^^^ + +The LM93 supports several different frequencies for the PWM output channels. +The sysfs files pwm1_freq and pwm2_freq are used to select the frequency. The +frequency values are constrained by the hardware. Selecting a value which is +not available will cause the driver to use the next largest value. Also note +that this parameter has implications for the Smart Tach Mode (see above). + +PWM Output Frequencies (in Hz): + 12, 36, 48, 60, 72, 84, 96, 22500 (default) + +Automatic PWM +^^^^^^^^^^^^^ + +The LM93 is capable of complex automatic fan control, with many different +points of configuration. To start, each PWM output can be bound to any +combination of eight control sources. The final PWM is the largest of all +individual control sources to which the PWM output is bound. + +The eight control sources are: temp1-temp4 (aka "zones" in the datasheet), +#PROCHOT 1 & 2, and #VRDHOT 1 & 2. The bindings are expressed as a bitmask +in the sysfs files pwm<n>_auto_channels, where a "1" enables the binding, and +a "0" disables it. The h/w default is 0x0f (all temperatures bound). + + ====== =========== + 0x01 Temp 1 + 0x02 Temp 2 + 0x04 Temp 3 + 0x08 Temp 4 + 0x10 #PROCHOT 1 + 0x20 #PROCHOT 2 + 0x40 #VRDHOT 1 + 0x80 #VRDHOT 2 + ====== =========== + +The function y = f(x) takes a source temperature x to a PWM output y. This +function of the LM93 is derived from a base temperature and a table of 12 +temperature offsets. The base temperature is expressed in degrees C in the +sysfs files temp<n>_auto_base. The offsets are expressed in cumulative +degrees C, with the value of offset <i> for temperature value <n> being +contained in the file temp<n>_auto_offset<i>. E.g. if the base temperature +is 40C: + + ========== ======================= =============== ======= + offset # temp<n>_auto_offset<i> range pwm + ========== ======================= =============== ======= + 1 0 - 25.00% + 2 0 - 28.57% + 3 1 40C - 41C 32.14% + 4 1 41C - 42C 35.71% + 5 2 42C - 44C 39.29% + 6 2 44C - 46C 42.86% + 7 2 48C - 50C 46.43% + 8 2 50C - 52C 50.00% + 9 2 52C - 54C 53.57% + 10 2 54C - 56C 57.14% + 11 2 56C - 58C 71.43% + 12 2 58C - 60C 85.71% + - - > 60C 100.00% + ========== ======================= =============== ======= + +Valid offsets are in the range 0C <= x <= 7.5C in 0.5C increments. + +There is an independent base temperature for each temperature channel. Note, +however, there are only two tables of offsets: one each for temp[12] and +temp[34]. Therefore, any change to e.g. temp1_auto_offset<i> will also +affect temp2_auto_offset<i>. + +The LM93 can also apply hysteresis to the offset table, to prevent unwanted +oscillation between two steps in the offsets table. These values are found in +the sysfs files temp<n>_auto_offset_hyst. The value in this file has the +same representation as in temp<n>_auto_offset<i>. + +If a temperature reading falls below the base value for that channel, the LM93 +will use the minimum PWM value. These values are found in the sysfs files +temp<n>_auto_pwm_min. Note, there are only two minimums: one each for temp[12] +and temp[34]. Therefore, any change to e.g. temp1_auto_pwm_min will also +affect temp2_auto_pwm_min. + +PWM Spin-Up Cycle +^^^^^^^^^^^^^^^^^ + +A spin-up cycle occurs when a PWM output is commanded from 0% duty cycle to +some value > 0%. The LM93 supports a minimum duty cycle during spin-up. These +values are found in the sysfs files pwm<n>_auto_spinup_min. The value in this +file has the same representation as other PWM duty cycle values. The +duration of the spin-up cycle is also configurable. These values are found in +the sysfs files pwm<n>_auto_spinup_time. The value in this file is +the spin-up time in seconds. The available spin-up times are constrained by +the hardware. Selecting a value which is not available will cause the driver +to use the next largest value. + +Spin-up Durations: + 0 (disabled, h/w default), 0.1, 0.25, 0.4, 0.7, 1.0, 2.0, 4.0 + +#PROCHOT and #VRDHOT PWM Ramping +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +If the #PROCHOT or #VRDHOT signals are asserted while bound to a PWM output +channel, the LM93 will ramp the PWM output up to 100% duty cycle in discrete +steps. The duration of each step is configurable. There are two files, with +one value each in seconds: pwm_auto_prochot_ramp and pwm_auto_vrdhot_ramp. +The available ramp times are constrained by the hardware. Selecting a value +which is not available will cause the driver to use the next largest value. + +Ramp Times: + 0 (disabled, h/w default) to 0.75 in 0.05 second intervals + +Fan Boost +^^^^^^^^^ + +For each temperature channel, there is a boost temperature: if the channel +exceeds this limit, the LM93 will immediately drive both PWM outputs to 100%. +This limit is expressed in degrees C in the sysfs files temp<n>_auto_boost. +There is also a hysteresis temperature for this function: after the boost +limit is reached, the temperature channel must drop below this value before +the boost function is disabled. This temperature is also expressed in degrees +C in the sysfs files temp<n>_auto_boost_hyst. + +GPIO Pins +^^^^^^^^^ + +The LM93 can monitor the logic level of four dedicated GPIO pins as well as the +four tach input pins. GPIO0-GPIO3 correspond to (fan) tach 1-4, respectively. +All eight GPIOs are read by reading the bitmask in the sysfs file gpio. The +LSB is GPIO0, and the MSB is GPIO7. + + +LM93 Unique sysfs Files +----------------------- + +=========================== =============================================== +file description +=========================== =============================================== +prochot<n> current #PROCHOT % +prochot<n>_avg moving average #PROCHOT % +prochot<n>_max limit #PROCHOT % +prochot_short enable or disable logical #PROCHOT pin short +prochot<n>_override force #PROCHOT assertion as PWM +prochot_override_duty_cycle duty cycle for the PWM signal used when + #PROCHOT is overridden +prochot<n>_interval #PROCHOT PWM sampling interval +vrdhot<n> 0 means negated, 1 means asserted +fan<n>_smart_tach enable or disable smart tach mode +pwm<n>_auto_channels select control sources for PWM outputs +pwm<n>_auto_spinup_min minimum duty cycle during spin-up +pwm<n>_auto_spinup_time duration of spin-up +pwm_auto_prochot_ramp ramp time per step when #PROCHOT asserted +pwm_auto_vrdhot_ramp ramp time per step when #VRDHOT asserted +temp<n>_auto_base temperature channel base +temp<n>_auto_offset[1-12] temperature channel offsets +temp<n>_auto_offset_hyst temperature channel offset hysteresis +temp<n>_auto_boost temperature channel boost (PWMs to 100%) + limit +temp<n>_auto_boost_hyst temperature channel boost hysteresis +gpio input state of 8 GPIO pins; read-only +=========================== =============================================== diff --git a/Documentation/hwmon/lm95234.rst b/Documentation/hwmon/lm95234.rst new file mode 100644 index 0000000000..a44e8f5298 --- /dev/null +++ b/Documentation/hwmon/lm95234.rst @@ -0,0 +1,48 @@ +Kernel driver lm95234 +===================== + +Supported chips: + + * National Semiconductor / Texas Instruments LM95233 + + Addresses scanned: I2C 0x18, 0x2a, 0x2b + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/product/lm95233 + + * National Semiconductor / Texas Instruments LM95234 + + Addresses scanned: I2C 0x18, 0x4d, 0x4e + + Datasheet: Publicly available at the Texas Instruments website + + https://www.ti.com/product/lm95234 + +Author: Guenter Roeck <linux@roeck-us.net> + +Description +----------- + +LM95233 and LM95234 are 11-bit digital temperature sensors with a 2-wire +System Management Bus (SMBus) interface and TrueTherm technology +that can very accurately monitor the temperature of two (LM95233) +or four (LM95234) remote diodes as well as its own temperature. +The remote diodes can be external devices such as microprocessors, +graphics processors or diode-connected 2N3904s. The chip's TruTherm +beta compensation technology allows sensing of 90 nm or 65 nm process +thermal diodes accurately. + +All temperature values are given in millidegrees Celsius. Temperature +is provided within a range of -127 to +255 degrees (+127.875 degrees for +the internal sensor). Resolution depends on temperature input and range. + +Each sensor has its own maximum limit, but the hysteresis is common to all +channels. The hysteresis is configurable with the tem1_max_hyst attribute and +affects the hysteresis on all channels. The first two external sensors also +have a critical limit. + +The lm95234 driver can change its update interval to a fixed set of values. +It will round up to the next selectable interval. See the datasheet for exact +values. Reading sensor values more often will do no harm, but will return +'old' values. diff --git a/Documentation/hwmon/lm95245.rst b/Documentation/hwmon/lm95245.rst new file mode 100644 index 0000000000..836d9a3f53 --- /dev/null +++ b/Documentation/hwmon/lm95245.rst @@ -0,0 +1,48 @@ +Kernel driver lm95245 +===================== + +Supported chips: + + * TI LM95235 + + Addresses scanned: I2C 0x18, 0x29, 0x4c + + Datasheet: Publicly available at the TI website + + https://www.ti.com/lit/ds/symlink/lm95235.pdf + + * TI / National Semiconductor LM95245 + + Addresses scanned: I2C 0x18, 0x19, 0x29, 0x4c, 0x4d + + Datasheet: Publicly available at the TI website + + https://www.ti.com/lit/ds/symlink/lm95245.pdf + +Author: Alexander Stein <alexander.stein@systec-electronic.com> + +Description +----------- + +LM95235 and LM95245 are 11-bit digital temperature sensors with a 2-wire System +Management Bus (SMBus) interface and TruTherm technology that can monitor +the temperature of a remote diode as well as its own temperature. +The chips can be used to very accurately monitor the temperature of +external devices such as microprocessors. + +All temperature values are given in millidegrees Celsius. Local temperature +is given within a range of -127 to +127.875 degrees. Remote temperatures are +given within a range of -127 to +255 degrees. Resolution depends on +temperature input and range. + +Each sensor has its own critical limit. Additionally, there is a relative +hysteresis value common to both critical limits. To make life easier to +user-space applications, two absolute values are exported, one for each +channel, but these values are of course linked. Only the local hysteresis +can be set from user-space, and the same delta applies to the remote +hysteresis. + +The lm95245 driver can change its update interval to a fixed set of values. +It will round up to the next selectable interval. See the datasheet for exact +values. Reading sensor values more often will do no harm, but will return +'old' values. diff --git a/Documentation/hwmon/lochnagar.rst b/Documentation/hwmon/lochnagar.rst new file mode 100644 index 0000000000..1d609c4d18 --- /dev/null +++ b/Documentation/hwmon/lochnagar.rst @@ -0,0 +1,83 @@ +Kernel Driver Lochnagar +======================= + +Supported systems: + * Cirrus Logic : Lochnagar 2 + +Author: Lucas A. Tanure Alves + +Description +----------- + +Lochnagar 2 features built-in Current Monitor circuitry that allows for the +measurement of both voltage and current on up to eight of the supply voltage +rails provided to the minicards. The Current Monitor does not require any +hardware modifications or external circuitry to operate. + +The current and voltage measurements are obtained through the standard register +map interface to the Lochnagar board controller, and can therefore be monitored +by software. + +Sysfs attributes +---------------- + +======================= ======================================================= +temp1_input The Lochnagar board temperature (milliCelsius) +in0_input Measured voltage for DBVDD1 (milliVolts) +in0_label "DBVDD1" +curr1_input Measured current for DBVDD1 (milliAmps) +curr1_label "DBVDD1" +power1_average Measured average power for DBVDD1 (microWatts) +power1_average_interval Power averaging time input valid from 1 to 1708mS +power1_label "DBVDD1" +in1_input Measured voltage for 1V8 DSP (milliVolts) +in1_label "1V8 DSP" +curr2_input Measured current for 1V8 DSP (milliAmps) +curr2_label "1V8 DSP" +power2_average Measured average power for 1V8 DSP (microWatts) +power2_average_interval Power averaging time input valid from 1 to 1708mS +power2_label "1V8 DSP" +in2_input Measured voltage for 1V8 CDC (milliVolts) +in2_label "1V8 CDC" +curr3_input Measured current for 1V8 CDC (milliAmps) +curr3_label "1V8 CDC" +power3_average Measured average power for 1V8 CDC (microWatts) +power3_average_interval Power averaging time input valid from 1 to 1708mS +power3_label "1V8 CDC" +in3_input Measured voltage for VDDCORE DSP (milliVolts) +in3_label "VDDCORE DSP" +curr4_input Measured current for VDDCORE DSP (milliAmps) +curr4_label "VDDCORE DSP" +power4_average Measured average power for VDDCORE DSP (microWatts) +power4_average_interval Power averaging time input valid from 1 to 1708mS +power4_label "VDDCORE DSP" +in4_input Measured voltage for AVDD 1V8 (milliVolts) +in4_label "AVDD 1V8" +curr5_input Measured current for AVDD 1V8 (milliAmps) +curr5_label "AVDD 1V8" +power5_average Measured average power for AVDD 1V8 (microWatts) +power5_average_interval Power averaging time input valid from 1 to 1708mS +power5_label "AVDD 1V8" +curr6_input Measured current for SYSVDD (milliAmps) +curr6_label "SYSVDD" +power6_average Measured average power for SYSVDD (microWatts) +power6_average_interval Power averaging time input valid from 1 to 1708mS +power6_label "SYSVDD" +in6_input Measured voltage for VDDCORE CDC (milliVolts) +in6_label "VDDCORE CDC" +curr7_input Measured current for VDDCORE CDC (milliAmps) +curr7_label "VDDCORE CDC" +power7_average Measured average power for VDDCORE CDC (microWatts) +power7_average_interval Power averaging time input valid from 1 to 1708mS +power7_label "VDDCORE CDC" +in7_input Measured voltage for MICVDD (milliVolts) +in7_label "MICVDD" +curr8_input Measured current for MICVDD (milliAmps) +curr8_label "MICVDD" +power8_average Measured average power for MICVDD (microWatts) +power8_average_interval Power averaging time input valid from 1 to 1708mS +power8_label "MICVDD" +======================= ======================================================= + +Note: + It is not possible to measure voltage on the SYSVDD rail. diff --git a/Documentation/hwmon/lt7182s.rst b/Documentation/hwmon/lt7182s.rst new file mode 100644 index 0000000000..f7268311b1 --- /dev/null +++ b/Documentation/hwmon/lt7182s.rst @@ -0,0 +1,92 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver lt7182s +===================== + +Supported chips: + + * ADI LT7182S + + Prefix: 'lt7182s' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/lt7182s.html + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +LT7182S is a Dual Channel 6A, 20V PolyPhase Step-Down Silent Switcher with +Digital Power System Management support. + + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Example: the following commands will load the driver for a LT7182S +at address 0x4f on I2C bus #4:: + + # modprobe lt7182s + # echo lt7182s 0x4f > /sys/bus/i2c/devices/i2c-4/new_device + +It can also be instantiated by declaring an entry in device tree. + + +Sysfs attributes +---------------- + +======================= ==================================== +curr[1-2]_label "iin[12]" +curr[1-2]_input Measured input current +curr[1-2]_max Maximum input current +curr[1-2]_max_alarm Current high alarm + +curr[3-4]_label "iout[1-2]" +curr[3-4]_input Measured output current +curr[3-4]_highest Highest measured output current +curr[3-4]_max Maximum output current +curr[3-4]_max_alarm Output current high alarm + +in[1-2]_label "vin[12]" +in[1-2]_input Measured input voltage +in[1-2]_highest Highest measured input voltage +in[1-2]_crit Critical maximum input voltage +in[1-2]_crit_alarm Input voltage critical high alarm +in[1-2]_min Minimum input voltage +in[1-2]_min_alarm Input voltage low alarm +in[1-2]_rated_min Rated minimum input voltage +in[1-2]_rated_max Rated maximum input voltage +in1_reset_history Write to reset history for all attributes + +in[3-5]_label "vmon[1-3]" +in[3-5]_input Measured voltage on ITH1/ITH2/EXTVCC pins + Only available if enabled with MFR_ADC_CONTROL_LT7182S + command. + +in[3-4|6-7]_label "vout[1-2]" +in[3-4|6-7]_input Measured output voltage +in[3-4|6-7]_highest Highest measured output voltage +in[3-4|6-7]_lcrit Critical minimum output voltage +in[3-4|6-7]_lcrit_alarm Output voltage critical low alarm +in[3-4|6-7]_min Minimum output voltage +in[3-4|6-7]_max_alarm Output voltage low alarm +in[3-4|6-7]_max Maximum output voltage +in[3-4|6-7]_max_alarm Output voltage high alarm +in[3-4|6-7]_crit Critical maximum output voltage +in[3-4|6-7]_crit_alarm Output voltage critical high alarm + +power[1-2]_label "pout[1-2]" +power[1-2]_input Measured output power + +temp1_input Measured temperature +temp1_crit Critical high temperature +temp1_crit_alarm Chip temperature critical high alarm +temp1_max Maximum temperature +temp1_max_alarm Chip temperature high alarm +======================= ==================================== diff --git a/Documentation/hwmon/ltc2945.rst b/Documentation/hwmon/ltc2945.rst new file mode 100644 index 0000000000..8d65c141ce --- /dev/null +++ b/Documentation/hwmon/ltc2945.rst @@ -0,0 +1,92 @@ +Kernel driver ltc2945 +===================== + +Supported chips: + + * Linear Technology LTC2945 + + Prefix: 'ltc2945' + + Addresses scanned: - + + Datasheet: + + https://www.analog.com/media/en/technical-documentation/data-sheets/2945fb.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +The LTC2945 is a rail-to-rail system monitor that measures current, voltage, +and power consumption. + + +Usage Notes +----------- + +This driver does not probe for LTC2945 devices, since there is no register +which can be safely used to identify the chip. You will have to instantiate +the devices explicitly. + +Example: the following will load the driver for an LTC2945 at address 0x10 +on I2C bus #1:: + + $ modprobe ltc2945 + $ echo ltc2945 0x10 > /sys/bus/i2c/devices/i2c-1/new_device + + +Sysfs entries +------------- + +Voltage readings provided by this driver are reported as obtained from the ADC +registers. If a set of voltage divider resistors is installed, calculate the +real voltage by multiplying the reported value with (R1+R2)/R2, where R1 is the +value of the divider resistor against the measured voltage and R2 is the value +of the divider resistor against Ground. + +Current reading provided by this driver is reported as obtained from the ADC +Current Sense register. The reported value assumes that a 1 mOhm sense resistor +is installed. If a different sense resistor is installed, calculate the real +current by dividing the reported value by the sense resistor value in mOhm. + +======================= ======================================================== +in1_input VIN voltage (mV). Voltage is measured either at + SENSE+ or VDD pin depending on chip configuration. +in1_min Undervoltage threshold +in1_max Overvoltage threshold +in1_lowest Lowest measured voltage +in1_highest Highest measured voltage +in1_reset_history Write 1 to reset in1 history +in1_min_alarm Undervoltage alarm +in1_max_alarm Overvoltage alarm + +in2_input ADIN voltage (mV) +in2_min Undervoltage threshold +in2_max Overvoltage threshold +in2_lowest Lowest measured voltage +in2_highest Highest measured voltage +in2_reset_history Write 1 to reset in2 history +in2_min_alarm Undervoltage alarm +in2_max_alarm Overvoltage alarm + +curr1_input SENSE current (mA) +curr1_min Undercurrent threshold +curr1_max Overcurrent threshold +curr1_lowest Lowest measured current +curr1_highest Highest measured current +curr1_reset_history Write 1 to reset curr1 history +curr1_min_alarm Undercurrent alarm +curr1_max_alarm Overcurrent alarm + +power1_input Power (in uW). Power is calculated based on SENSE+/VDD + voltage or ADIN voltage depending on chip configuration. +power1_min Low lower threshold +power1_max High power threshold +power1_input_lowest Historical minimum power use +power1_input_highest Historical maximum power use +power1_reset_history Write 1 to reset power1 history +power1_min_alarm Low power alarm +power1_max_alarm High power alarm +======================= ======================================================== diff --git a/Documentation/hwmon/ltc2947.rst b/Documentation/hwmon/ltc2947.rst new file mode 100644 index 0000000000..419fc84fe9 --- /dev/null +++ b/Documentation/hwmon/ltc2947.rst @@ -0,0 +1,100 @@ +Kernel drivers ltc2947-i2c and ltc2947-spi +========================================== + +Supported chips: + + * Analog Devices LTC2947 + + Prefix: 'ltc2947' + + Addresses scanned: - + + Datasheet: + + https://www.analog.com/media/en/technical-documentation/data-sheets/LTC2947.pdf + +Author: Nuno Sá <nuno.sa@analog.com> + +Description +___________ + +The LTC2947 is a high precision power and energy monitor that measures current, +voltage, power, temperature, charge and energy. The device supports both SPI +and I2C depending on the chip configuration. +The device also measures accumulated quantities as energy. It has two banks of +register's to read/set energy related values. These banks can be configured +independently to have setups like: energy1 accumulates always and enrgy2 only +accumulates if current is positive (to check battery charging efficiency for +example). The device also supports a GPIO pin that can be configured as output +to control a fan as a function of measured temperature. Then, the GPIO becomes +active as soon as a temperature reading is higher than a defined threshold. The +temp2 channel is used to control this thresholds and to read the respective +alarms. + +Sysfs entries +_____________ + +The following attributes are supported. Limits are read-write, reset_history +is write-only and all the other attributes are read-only. + +======================= ========================================== +in0_input VP-VM voltage (mV). +in0_min Undervoltage threshold +in0_max Overvoltage threshold +in0_lowest Lowest measured voltage +in0_highest Highest measured voltage +in0_reset_history Write 1 to reset in1 history +in0_min_alarm Undervoltage alarm +in0_max_alarm Overvoltage alarm +in0_label Channel label (VP-VM) + +in1_input DVCC voltage (mV) +in1_min Undervoltage threshold +in1_max Overvoltage threshold +in1_lowest Lowest measured voltage +in1_highest Highest measured voltage +in1_reset_history Write 1 to reset in2 history +in1_min_alarm Undervoltage alarm +in1_max_alarm Overvoltage alarm +in1_label Channel label (DVCC) + +curr1_input IP-IM Sense current (mA) +curr1_min Undercurrent threshold +curr1_max Overcurrent threshold +curr1_lowest Lowest measured current +curr1_highest Highest measured current +curr1_reset_history Write 1 to reset curr1 history +curr1_min_alarm Undercurrent alarm +curr1_max_alarm Overcurrent alarm +curr1_label Channel label (IP-IM) + +power1_input Power (in uW) +power1_min Low power threshold +power1_max High power threshold +power1_input_lowest Historical minimum power use +power1_input_highest Historical maximum power use +power1_reset_history Write 1 to reset power1 history +power1_min_alarm Low power alarm +power1_max_alarm High power alarm +power1_label Channel label (Power) + +temp1_input Chip Temperature (in milliC) +temp1_min Low temperature threshold +temp1_max High temperature threshold +temp1_input_lowest Historical minimum temperature use +temp1_input_highest Historical maximum temperature use +temp1_reset_history Write 1 to reset temp1 history +temp1_min_alarm Low temperature alarm +temp1_max_alarm High temperature alarm +temp1_label Channel label (Ambient) + +temp2_min Low temperature threshold for fan control +temp2_max High temperature threshold for fan control +temp2_min_alarm Low temperature fan control alarm +temp2_max_alarm High temperature fan control alarm +temp2_label Channel label (TEMPFAN) + +energy1_input Measured energy over time (in microJoule) + +energy2_input Measured energy over time (in microJoule) +======================= ========================================== diff --git a/Documentation/hwmon/ltc2978.rst b/Documentation/hwmon/ltc2978.rst new file mode 100644 index 0000000000..edf24e5e1e --- /dev/null +++ b/Documentation/hwmon/ltc2978.rst @@ -0,0 +1,449 @@ +Kernel driver ltc2978 +===================== + +Supported chips: + + * Linear Technology LTC2972 + + Prefix: 'ltc2972' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc2972.html + + * Linear Technology LTC2974 + + Prefix: 'ltc2974' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc2974 + + * Linear Technology LTC2975 + + Prefix: 'ltc2975' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc2975 + + * Linear Technology LTC2977 + + Prefix: 'ltc2977' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc2977 + + * Linear Technology LTC2978, LTC2978A + + Prefix: 'ltc2978' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc2978 + + https://www.analog.com/en/products/ltc2978a + + * Linear Technology LTC2979 + + Prefix: 'ltc2979' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc2979 + + * Linear Technology LTC2980 + + Prefix: 'ltc2980' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc2980 + + * Linear Technology LTC3880 + + Prefix: 'ltc3880' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc3880 + + * Linear Technology LTC3882 + + Prefix: 'ltc3882' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc3882 + + * Linear Technology LTC3883 + + Prefix: 'ltc3883' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc3883 + + * Linear Technology LTC3884 + + Prefix: 'ltc3884' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc3884 + + * Linear Technology LTC3886 + + Prefix: 'ltc3886' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc3886 + + * Linear Technology LTC3887 + + Prefix: 'ltc3887' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc3887 + + * Linear Technology LTC3889 + + Prefix: 'ltc3889' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc3889 + + * Linear Technology LTC7880 + + Prefix: 'ltc7880' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltc7880 + + * Linear Technology LTM2987 + + Prefix: 'ltm2987' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltm2987 + + * Linear Technology LTM4644 + + Prefix: 'ltm4644' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltm4644 + + * Linear Technology LTM4675 + + Prefix: 'ltm4675' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltm4675 + + * Linear Technology LTM4676 + + Prefix: 'ltm4676' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltm4676 + + * Linear Technology LTM4677 + + Prefix: 'ltm4677' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltm4677 + + * Linear Technology LTM4678 + + Prefix: 'ltm4678' + + Addresses scanned: - + + Datasheet: https://www.analog.com/en/products/ltm4678 + + * Analog Devices LTM4680 + + Prefix: 'ltm4680' + + Addresses scanned: - + + Datasheet: https://www.analog.com/ltm4680 + + * Analog Devices LTM4686 + + Prefix: 'ltm4686' + + Addresses scanned: - + + Datasheet: https://www.analog.com/ltm4686 + + * Analog Devices LTM4700 + + Prefix: 'ltm4700' + + Addresses scanned: - + + Datasheet: https://www.analog.com/ltm4700 + + + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +- LTC2974 and LTC2975 are quad digital power supply managers. +- LTC2978 is an octal power supply monitor. +- LTC2977 is a pin compatible replacement for LTC2978. +- LTC2980 is a 16-channel Power System Manager, consisting of two LTC2977 +- in a single die. The chip is instantiated and reported as two separate chips +- on two different I2C bus addresses. +- LTC3880, LTC3882, LTC3886, and LTC3887 are dual output poly-phase step-down +- DC/DC controllers. +- LTC3883 is a single phase step-down DC/DC controller. +- LTM2987 is a 16-channel Power System Manager with two LTC2977 plus +- additional components on a single die. The chip is instantiated and reported +- as two separate chips on two different I2C bus addresses. +- LTM4675 is a dual 9A or single 18A μModule regulator +- LTM4676 is a dual 13A or single 26A uModule regulator. +- LTM4686 is a dual 10A or single 20A uModule regulator. + + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Example: the following commands will load the driver for an LTC2978 at address +0x60 on I2C bus #1:: + + # modprobe ltc2978 + # echo ltc2978 0x60 > /sys/bus/i2c/devices/i2c-1/new_device + + +Sysfs attributes +---------------- + +======================= ======================================================== +in1_label "vin" + +in1_input Measured input voltage. + +in1_min Minimum input voltage. + +in1_max Maximum input voltage. + + LTC2974, LTC2975, LTC2977, LTC2980, LTC2978, + LTC2979 and LTM2987 only. + +in1_lcrit Critical minimum input voltage. + + LTC2972, LTC2974, LTC2975, LTC2977, LTC2980, LTC2978, + LTC2979 and LTM2987 only. + +in1_crit Critical maximum input voltage. + +in1_min_alarm Input voltage low alarm. + +in1_max_alarm Input voltage high alarm. + + LTC2972, LTC2974, LTC2975, LTC2977, LTC2980, LTC2978, + LTC2979 and LTM2987 only. + +in1_lcrit_alarm Input voltage critical low alarm. + + LTC2972, LTC2974, LTC2975, LTC2977, LTC2980, LTC2978, + LTC2979 and LTM2987 only. + +in1_crit_alarm Input voltage critical high alarm. + +in1_lowest Lowest input voltage. + + LTC2972, LTC2974, LTC2975, LTC2977, LTC2980, LTC2978, + and LTM2987 only. + +in1_highest Highest input voltage. + +in1_reset_history Reset input voltage history. + +in[N]_label "vout[1-8]". + + - LTC2972: N=2-3 + - LTC2974, LTC2975: N=2-5 + - LTC2977, LTC2979, LTC2980, LTM2987: N=2-9 + - LTC2978: N=2-9 + - LTC3880, LTC3882, LTC3884, LTC23886 LTC3887, LTC3889, + LTC7880, LTM4644, LTM4675, LTM4676, LTM4677, LTM4678, + LTM4680, LTM4700: N=2-3 + - LTC3883: N=2 + +in[N]_input Measured output voltage. + +in[N]_min Minimum output voltage. + +in[N]_max Maximum output voltage. + +in[N]_lcrit Critical minimum output voltage. + +in[N]_crit Critical maximum output voltage. + +in[N]_min_alarm Output voltage low alarm. + +in[N]_max_alarm Output voltage high alarm. + +in[N]_lcrit_alarm Output voltage critical low alarm. + +in[N]_crit_alarm Output voltage critical high alarm. + +in[N]_lowest Lowest output voltage. + + LTC2972, LTC2974, LTC2975,and LTC2978 only. + +in[N]_highest Highest output voltage. + +in[N]_reset_history Reset output voltage history. + +temp[N]_input Measured temperature. + + - On LTC2972, temp[1-2] report external temperatures, + and temp 3 reports the chip temperature. + - On LTC2974 and LTC2975, temp[1-4] report external + temperatures, and temp5 reports the chip temperature. + - On LTC2977, LTC2979, LTC2980, LTC2978, and LTM2987, + only one temperature measurement is supported and + reports the chip temperature. + - On LTC3880, LTC3882, LTC3886, LTC3887, LTC3889, + LTM4664, LTM4675, LTM4676, LTM4677, LTM4678, LTM4680, + and LTM4700, temp1 and temp2 report external + temperatures, and temp3 reports the chip temperature. + - On LTC3883, temp1 reports an external temperature, + and temp2 reports the chip temperature. + +temp[N]_min Minimum temperature. + + LTC2972, LTC2974, LCT2977, LTM2980, LTC2978, + LTC2979, and LTM2987 only. + +temp[N]_max Maximum temperature. + +temp[N]_lcrit Critical low temperature. + +temp[N]_crit Critical high temperature. + +temp[N]_min_alarm Temperature low alarm. + + LTC2972, LTC2974, LTC2975, LTC2977, LTM2980, LTC2978, + LTC2979, and LTM2987 only. + +temp[N]_max_alarm Temperature high alarm. + + +temp[N]_lcrit_alarm Temperature critical low alarm. + +temp[N]_crit_alarm Temperature critical high alarm. + +temp[N]_lowest Lowest measured temperature. + + - LTC2972, LTC2974, LTC2975, LTC2977, LTM2980, LTC2978, + LTC2979, and LTM2987 only. + - Not supported for chip temperature sensor on LTC2974 + and LTC2975. + +temp[N]_highest Highest measured temperature. + + Not supported for chip temperature sensor on + LTC2974 and LTC2975. + +temp[N]_reset_history Reset temperature history. + + Not supported for chip temperature sensor on + LTC2974 and LTC2975. + +power1_label "pin". LTC3883 and LTC3886 only. + +power1_input Measured input power. + +power[N]_label "pout[1-4]". + + - LTC2972: N=1-2 + - LTC2974, LTC2975: N=1-4 + - LTC2977, LTC2979, LTC2980, LTM2987: Not supported + - LTC2978: Not supported + - LTC3880, LTC3882, LTC3884, LTC3886, LTC3887, LTC3889, + LTM4664, LTM4675, LTM4676, LTM4677, LTM4678, LTM4680, + LTM4700: N=1-2 + - LTC3883: N=2 + +power[N]_input Measured output power. + +curr1_label "iin". + + LTC3880, LTC3883, LTC3884, LTC3886, LTC3887, LTC3889, + LTM4644, LTM4675, LTM4676, LTM4677, LTM4678, LTM4680, + and LTM4700 only. + +curr1_input Measured input current. + +curr1_max Maximum input current. + +curr1_max_alarm Input current high alarm. + +curr1_highest Highest input current. + + LTC3883 and LTC3886 only. + +curr1_reset_history Reset input current history. + + LTC3883 and LTC3886 only. + +curr[N]_label "iout[1-4]". + + - LTC2972: N-1-2 + - LTC2974, LTC2975: N=1-4 + - LTC2977, LTC2979, LTC2980, LTM2987: not supported + - LTC2978: not supported + - LTC3880, LTC3882, LTC3884, LTC3886, LTC3887, LTC3889, + LTM4664, LTM4675, LTM4676, LTM4677, LTM4678, LTM4680, + LTM4700: N=2-3 + - LTC3883: N=2 + +curr[N]_input Measured output current. + +curr[N]_max Maximum output current. + +curr[N]_crit Critical high output current. + +curr[N]_lcrit Critical low output current. + + LTC2972, LTC2974 and LTC2975 only. + +curr[N]_max_alarm Output current high alarm. + +curr[N]_crit_alarm Output current critical high alarm. + +curr[N]_lcrit_alarm Output current critical low alarm. + + LTC2972, LTC2974 and LTC2975 only. + +curr[N]_lowest Lowest output current. + + LTC2972, LTC2974 and LTC2975 only. + +curr[N]_highest Highest output current. + +curr[N]_reset_history Reset output current history. +======================= ======================================================== diff --git a/Documentation/hwmon/ltc2990.rst b/Documentation/hwmon/ltc2990.rst new file mode 100644 index 0000000000..e0a369e679 --- /dev/null +++ b/Documentation/hwmon/ltc2990.rst @@ -0,0 +1,62 @@ +Kernel driver ltc2990 +===================== + + +Supported chips: + + * Linear Technology LTC2990 + + Prefix: 'ltc2990' + + Addresses scanned: - + + Datasheet: http://www.linear.com/product/ltc2990 + + + +Author: + + - Mike Looijmans <mike.looijmans@topic.nl> + - Tom Levens <tom.levens@cern.ch> + + +Description +----------- + +LTC2990 is a Quad I2C Voltage, Current and Temperature Monitor. +The chip's inputs can measure 4 voltages, or two inputs together (1+2 and 3+4) +can be combined to measure a differential voltage, which is typically used to +measure current through a series resistor, or a temperature with an external +diode. + + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + + +Sysfs attributes +---------------- + +============= ================================================== +in0_input Voltage at Vcc pin in millivolt (range 2.5V to 5V) +temp1_input Internal chip temperature in millidegrees Celsius +============= ================================================== + +A subset of the following attributes are visible, depending on the measurement +mode of the chip. + +============= ========================================================== +in[1-4]_input Voltage at V[1-4] pin in millivolt +temp2_input External temperature sensor TR1 in millidegrees Celsius +temp3_input External temperature sensor TR2 in millidegrees Celsius +curr1_input Current in mA across V1-V2 assuming a 1mOhm sense resistor +curr2_input Current in mA across V3-V4 assuming a 1mOhm sense resistor +============= ========================================================== + +The "curr*_input" measurements actually report the voltage drop across the +input pins in microvolts. This is equivalent to the current through a 1mOhm +sense resistor. Divide the reported value by the actual sense resistor value +in mOhm to get the actual value. diff --git a/Documentation/hwmon/ltc2992.rst b/Documentation/hwmon/ltc2992.rst new file mode 100644 index 0000000000..a0bcd867a0 --- /dev/null +++ b/Documentation/hwmon/ltc2992.rst @@ -0,0 +1,56 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver ltc2992 +===================== + +Supported chips: + * Linear Technology LTC2992 + Prefix: 'ltc2992' + Datasheet: https://www.analog.com/media/en/technical-documentation/data-sheets/ltc2992.pdf + +Author: Alexandru Tachici <alexandru.tachici@analog.com> + + +Description +----------- + +This driver supports hardware monitoring for Linear Technology LTC2992 power monitor. + +LTC2992 is a rail-to-rail system monitor that measures current, +voltage, and power of two supplies. + +Two ADCs simultaneously measure each supply's current. A third ADC monitors +the input voltages and four auxiliary external voltages. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write, +all other attributes are read-only. + +in_reset_history Reset all highest/lowest values. + +inX_input Measured voltage. +inX_lowest Minimum measured voltage. +inX_highest Maximum measured voltage. +inX_min Minimum voltage allowed. +inX_max Maximum voltage allowed. +inX_min_alarm An undervoltage occurred. Cleared on read. +inX_max_alarm An overvoltage occurred. Cleared on read. + +currX_input Measured current. +currX_lowest Minimum measured current. +currX_highest Maximum measured current. +currX_min Minimum current allowed. +currX_max Maximum current allowed. +currX_min_alarm An undercurrent occurred. Cleared on read. +currX_max_alarm An overcurrent occurred. Cleared on read. + +powerX_input Measured power. +powerX_input_lowest Minimum measured voltage. +powerX_input_highest Maximum measured voltage. +powerX_min Minimum power. +powerX_max Maximum power. +powerX_min_alarm An underpower occurred. Cleared on read. +powerX_max_alarm An overpower occurred. Cleared on read. diff --git a/Documentation/hwmon/ltc3815.rst b/Documentation/hwmon/ltc3815.rst new file mode 100644 index 0000000000..fb0135fc19 --- /dev/null +++ b/Documentation/hwmon/ltc3815.rst @@ -0,0 +1,67 @@ +Kernel driver ltc3815 +===================== + +Supported chips: + + * Linear Technology LTC3815 + + Prefix: 'ltc3815' + + Addresses scanned: - + + Datasheet: http://www.linear.com/product/ltc3815 + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +LTC3815 is a Monolithic Synchronous DC/DC Step-Down Converter. + + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Example: the following commands will load the driver for an LTC3815 +at address 0x20 on I2C bus #1:: + + # modprobe ltc3815 + # echo ltc3815 0x20 > /sys/bus/i2c/devices/i2c-1/new_device + + +Sysfs attributes +---------------- + +======================= ======================================================= +in1_label "vin" +in1_input Measured input voltage. +in1_alarm Input voltage alarm. +in1_highest Highest input voltage. +in1_reset_history Reset input voltage history. + +in2_label "vout1". +in2_input Measured output voltage. +in2_alarm Output voltage alarm. +in2_highest Highest output voltage. +in2_reset_history Reset output voltage history. + +temp1_input Measured chip temperature. +temp1_alarm Temperature alarm. +temp1_highest Highest measured temperature. +temp1_reset_history Reset temperature history. + +curr1_label "iin". +curr1_input Measured input current. +curr1_highest Highest input current. +curr1_reset_history Reset input current history. + +curr2_label "iout1". +curr2_input Measured output current. +curr2_alarm Output current alarm. +curr2_highest Highest output current. +curr2_reset_history Reset output current history. +======================= ======================================================= diff --git a/Documentation/hwmon/ltc4151.rst b/Documentation/hwmon/ltc4151.rst new file mode 100644 index 0000000000..c39229b196 --- /dev/null +++ b/Documentation/hwmon/ltc4151.rst @@ -0,0 +1,55 @@ +Kernel driver ltc4151 +===================== + +Supported chips: + + * Linear Technology LTC4151 + + Prefix: 'ltc4151' + + Addresses scanned: - + + Datasheet: + + http://www.linear.com/docs/Datasheet/4151fc.pdf + +Author: Per Dalen <per.dalen@appeartv.com> + + +Description +----------- + +The LTC4151 is a High Voltage I2C Current and Voltage Monitor. + + +Usage Notes +----------- + +This driver does not probe for LTC4151 devices, since there is no register +which can be safely used to identify the chip. You will have to instantiate +the devices explicitly. + +Example: the following will load the driver for an LTC4151 at address 0x6f +on I2C bus #0:: + + # modprobe ltc4151 + # echo ltc4151 0x6f > /sys/bus/i2c/devices/i2c-0/new_device + + +Sysfs entries +------------- + +Voltage readings provided by this driver are reported as obtained from the ADIN +and VIN registers. + +Current reading provided by this driver is reported as obtained from the Current +Sense register. The reported value assumes that a 1 mOhm sense resistor is +installed. + +======================= ================== +in1_input VDIN voltage (mV) + +in2_input ADIN voltage (mV) + +curr1_input SENSE current (mA) +======================= ================== diff --git a/Documentation/hwmon/ltc4215.rst b/Documentation/hwmon/ltc4215.rst new file mode 100644 index 0000000000..8d5044d99b --- /dev/null +++ b/Documentation/hwmon/ltc4215.rst @@ -0,0 +1,59 @@ +Kernel driver ltc4215 +===================== + +Supported chips: + + * Linear Technology LTC4215 + + Prefix: 'ltc4215' + + Addresses scanned: 0x44 + + Datasheet: + + http://www.linear.com/pc/downloadDocument.do?navId=H0,C1,C1003,C1006,C1163,P17572,D12697 + +Author: Ira W. Snyder <iws@ovro.caltech.edu> + + +Description +----------- + +The LTC4215 controller allows a board to be safely inserted and removed +from a live backplane. + + +Usage Notes +----------- + +This driver does not probe for LTC4215 devices, due to the fact that some +of the possible addresses are unfriendly to probing. You will have to +instantiate the devices explicitly. + +Example: the following will load the driver for an LTC4215 at address 0x44 +on I2C bus #0:: + + $ modprobe ltc4215 + $ echo ltc4215 0x44 > /sys/bus/i2c/devices/i2c-0/new_device + + +Sysfs entries +------------- + +The LTC4215 has built-in limits for overvoltage, undervoltage, and +undercurrent warnings. This makes it very likely that the reference +circuit will be used. + +======================= ========================= +in1_input input voltage +in2_input output voltage + +in1_min_alarm input undervoltage alarm +in1_max_alarm input overvoltage alarm + +curr1_input current +curr1_max_alarm overcurrent alarm + +power1_input power usage +power1_alarm power bad alarm +======================= ========================= diff --git a/Documentation/hwmon/ltc4245.rst b/Documentation/hwmon/ltc4245.rst new file mode 100644 index 0000000000..3dafd08a4e --- /dev/null +++ b/Documentation/hwmon/ltc4245.rst @@ -0,0 +1,111 @@ +Kernel driver ltc4245 +===================== + +Supported chips: + + * Linear Technology LTC4245 + + Prefix: 'ltc4245' + + Addresses scanned: 0x20-0x3f + + Datasheet: + + http://www.linear.com/pc/downloadDocument.do?navId=H0,C1,C1003,C1006,C1140,P19392,D13517 + +Author: Ira W. Snyder <iws@ovro.caltech.edu> + + +Description +----------- + +The LTC4245 controller allows a board to be safely inserted and removed +from a live backplane in multiple supply systems such as CompactPCI and +PCI Express. + + +Usage Notes +----------- + +This driver does not probe for LTC4245 devices, due to the fact that some +of the possible addresses are unfriendly to probing. You will have to +instantiate the devices explicitly. + +Example: the following will load the driver for an LTC4245 at address 0x23 +on I2C bus #1:: + + $ modprobe ltc4245 + $ echo ltc4245 0x23 > /sys/bus/i2c/devices/i2c-1/new_device + + +Sysfs entries +------------- + +The LTC4245 has built-in limits for over and under current warnings. This +makes it very likely that the reference circuit will be used. + +This driver uses the values in the datasheet to change the register values +into the values specified in the sysfs-interface document. The current readings +rely on the sense resistors listed in Table 2: "Sense Resistor Values". + +======================= ======================================================= +in1_input 12v input voltage (mV) +in2_input 5v input voltage (mV) +in3_input 3v input voltage (mV) +in4_input Vee (-12v) input voltage (mV) + +in1_min_alarm 12v input undervoltage alarm +in2_min_alarm 5v input undervoltage alarm +in3_min_alarm 3v input undervoltage alarm +in4_min_alarm Vee (-12v) input undervoltage alarm + +curr1_input 12v current (mA) +curr2_input 5v current (mA) +curr3_input 3v current (mA) +curr4_input Vee (-12v) current (mA) + +curr1_max_alarm 12v overcurrent alarm +curr2_max_alarm 5v overcurrent alarm +curr3_max_alarm 3v overcurrent alarm +curr4_max_alarm Vee (-12v) overcurrent alarm + +in5_input 12v output voltage (mV) +in6_input 5v output voltage (mV) +in7_input 3v output voltage (mV) +in8_input Vee (-12v) output voltage (mV) + +in5_min_alarm 12v output undervoltage alarm +in6_min_alarm 5v output undervoltage alarm +in7_min_alarm 3v output undervoltage alarm +in8_min_alarm Vee (-12v) output undervoltage alarm + +in9_input GPIO voltage data (see note 1) +in10_input GPIO voltage data (see note 1) +in11_input GPIO voltage data (see note 1) + +power1_input 12v power usage (mW) +power2_input 5v power usage (mW) +power3_input 3v power usage (mW) +power4_input Vee (-12v) power usage (mW) +======================= ======================================================= + + +Note 1 +------ + +If you have NOT configured the driver to sample all GPIO pins as analog +voltages, then the in10_input and in11_input sysfs attributes will not be +created. The driver will sample the GPIO pin that is currently connected to the +ADC as an analog voltage, and report the value in in9_input. + +If you have configured the driver to sample all GPIO pins as analog voltages, +then they will be sampled in round-robin fashion. If userspace reads too +slowly, -EAGAIN will be returned when you read the sysfs attribute containing +the sensor reading. + +The LTC4245 chip can be configured to sample all GPIO pins with two methods: + +1) platform data -- see include/linux/platform_data/ltc4245.h +2) OF device tree -- add the "ltc4245,use-extra-gpios" property to each chip + +The default mode of operation is to sample a single GPIO pin. diff --git a/Documentation/hwmon/ltc4260.rst b/Documentation/hwmon/ltc4260.rst new file mode 100644 index 0000000000..4c335b6a51 --- /dev/null +++ b/Documentation/hwmon/ltc4260.rst @@ -0,0 +1,64 @@ +Kernel driver ltc4260 +===================== + +Supported chips: + + * Linear Technology LTC4260 + + Prefix: 'ltc4260' + + Addresses scanned: - + + Datasheet: + + http://cds.linear.com/docs/en/datasheet/4260fc.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +The LTC4260 Hot Swap controller allows a board to be safely inserted +and removed from a live backplane. + + +Usage Notes +----------- + +This driver does not probe for LTC4260 devices, since there is no register +which can be safely used to identify the chip. You will have to instantiate +the devices explicitly. + +Example: the following will load the driver for an LTC4260 at address 0x10 +on I2C bus #1:: + + $ modprobe ltc4260 + $ echo ltc4260 0x10 > /sys/bus/i2c/devices/i2c-1/new_device + + +Sysfs entries +------------- + +Voltage readings provided by this driver are reported as obtained from the ADC +registers. If a set of voltage divider resistors is installed, calculate the +real voltage by multiplying the reported value with (R1+R2)/R2, where R1 is the +value of the divider resistor against the measured voltage and R2 is the value +of the divider resistor against Ground. + +Current reading provided by this driver is reported as obtained from the ADC +Current Sense register. The reported value assumes that a 1 mOhm sense resistor +is installed. If a different sense resistor is installed, calculate the real +current by dividing the reported value by the sense resistor value in mOhm. + +======================= ======================= +in1_input SOURCE voltage (mV) +in1_min_alarm Undervoltage alarm +in1_max_alarm Overvoltage alarm + +in2_input ADIN voltage (mV) +in2_alarm Power bad alarm + +curr1_input SENSE current (mA) +curr1_alarm SENSE overcurrent alarm +======================= ======================= diff --git a/Documentation/hwmon/ltc4261.rst b/Documentation/hwmon/ltc4261.rst new file mode 100644 index 0000000000..c80233f808 --- /dev/null +++ b/Documentation/hwmon/ltc4261.rst @@ -0,0 +1,71 @@ +Kernel driver ltc4261 +===================== + +Supported chips: + + * Linear Technology LTC4261 + + Prefix: 'ltc4261' + + Addresses scanned: - + + Datasheet: + + http://cds.linear.com/docs/Datasheet/42612fb.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +The LTC4261/LTC4261-2 negative voltage Hot Swap controllers allow a board +to be safely inserted and removed from a live backplane. + + +Usage Notes +----------- + +This driver does not probe for LTC4261 devices, since there is no register +which can be safely used to identify the chip. You will have to instantiate +the devices explicitly. + +Example: the following will load the driver for an LTC4261 at address 0x10 +on I2C bus #1:: + + $ modprobe ltc4261 + $ echo ltc4261 0x10 > /sys/bus/i2c/devices/i2c-1/new_device + + +Sysfs entries +------------- + +Voltage readings provided by this driver are reported as obtained from the ADC +registers. If a set of voltage divider resistors is installed, calculate the +real voltage by multiplying the reported value with (R1+R2)/R2, where R1 is the +value of the divider resistor against the measured voltage and R2 is the value +of the divider resistor against Ground. + +Current reading provided by this driver is reported as obtained from the ADC +Current Sense register. The reported value assumes that a 1 mOhm sense resistor +is installed. If a different sense resistor is installed, calculate the real +current by dividing the reported value by the sense resistor value in mOhm. + +The chip has two voltage sensors, but only one set of voltage alarm status bits. +In many many designs, those alarms are associated with the ADIN2 sensor, due to +the proximity of the ADIN2 pin to the OV pin. ADIN2 is, however, not available +on all chip variants. To ensure that the alarm condition is reported to the user, +report it with both voltage sensors. + +======================= ============================= +in1_input ADIN2 voltage (mV) +in1_min_alarm ADIN/ADIN2 Undervoltage alarm +in1_max_alarm ADIN/ADIN2 Overvoltage alarm + +in2_input ADIN voltage (mV) +in2_min_alarm ADIN/ADIN2 Undervoltage alarm +in2_max_alarm ADIN/ADIN2 Overvoltage alarm + +curr1_input SENSE current (mA) +curr1_alarm SENSE overcurrent alarm +======================= ============================= diff --git a/Documentation/hwmon/max127.rst b/Documentation/hwmon/max127.rst new file mode 100644 index 0000000000..dc192dd9c3 --- /dev/null +++ b/Documentation/hwmon/max127.rst @@ -0,0 +1,45 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver max127 +==================== + +Author: + + * Tao Ren <rentao.bupt@gmail.com> + +Supported chips: + + * Maxim MAX127 + + Prefix: 'max127' + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX127-MAX128.pdf + +Description +----------- + +The MAX127 is a multirange, 12-bit data acquisition system (DAS) providing +8 analog input channels that are independently software programmable for +a variety of ranges. The available ranges are {0,5V}, {0,10V}, {-5,5V} +and {-10,10V}. + +The MAX127 features a 2-wire, I2C-compatible serial interface that allows +communication among multiple devices using SDA and SCL lines. + +Sysfs interface +--------------- + + ============== ============================================================== + in[0-7]_input The input voltage (in mV) of the corresponding channel. + RO + + in[0-7]_min The lower input limit (in mV) for the corresponding channel. + ADC range and LSB will be updated when the limit is changed. + For the MAX127, it will be adjusted to -10000, -5000, or 0. + RW + + in[0-7]_max The higher input limit (in mV) for the corresponding channel. + ADC range and LSB will be updated when the limit is changed. + For the MAX127, it will be adjusted to 0, 5000, or 10000. + RW + ============== ============================================================== diff --git a/Documentation/hwmon/max15301.rst b/Documentation/hwmon/max15301.rst new file mode 100644 index 0000000000..e3dc22fe1c --- /dev/null +++ b/Documentation/hwmon/max15301.rst @@ -0,0 +1,87 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver max15301 +====================== + +Supported chips: + + * Maxim MAX15301 + + Prefix: 'max15301', 'bmr461' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX15301.pdf + +Author: Erik Rosen <erik.rosen@metormote.com> + + +Description +----------- + +This driver supports hardware monitoring for Maxim MAX15301 controller chip and +compatible modules. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst and Documentation.hwmon/pmbus-core for details +on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Module parameters +----------------- + +delay +----- + +The controller requires a minimum interval between I2C bus accesses. +The default interval is set to 100 us. For manual override, the driver +provides a writeable module parameter, 'delay', which can be used to +set the interval to a value between 0 and 65,535 microseconds. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +======================= ======================================================== +in1_label "vin" +in1_input Measured input voltage. +in1_lcrit Critical minimum input voltage. +in1_crit Critical maximum input voltage. +in1_lcrit_alarm Input voltage critical low alarm. +in1_crit_alarm Input voltage critical high alarm. + +in2_label "vout1" +in2_input Measured output voltage. +in2_lcrit Critical minimum output Voltage. +in2_crit Critical maximum output voltage. +in2_lcrit_alarm Critical output voltage critical low alarm. +in2_crit_alarm Critical output voltage critical high alarm. + +curr1_label "iout1" +curr1_input Measured output current. +curr1_crit Critical maximum output current. +curr1_crit_alarm Output current critical high alarm. + +temp1_input Measured maximum temperature of all phases. +temp1_max Maximum temperature limit. +temp1_max_alarm High temperature alarm. +temp1_crit Critical maximum temperature limit. +temp1_crit_alarm Critical maximum temperature alarm. +======================= ======================================================== diff --git a/Documentation/hwmon/max16064.rst b/Documentation/hwmon/max16064.rst new file mode 100644 index 0000000000..c062492925 --- /dev/null +++ b/Documentation/hwmon/max16064.rst @@ -0,0 +1,75 @@ +Kernel driver max16064 +====================== + +Supported chips: + + * Maxim MAX16064 + + Prefix: 'max16064' + + Addresses scanned: - + + Datasheet: http://datasheets.maxim-ic.com/en/ds/MAX16064.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports hardware monitoring for Maxim MAX16064 Quad Power-Supply +Controller with Active-Voltage Output Control and PMBus Interface. + +The driver is a client driver to the core PMBus driver. +Please see Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +======================= ======================================================== +in[1-4]_label "vout[1-4]" +in[1-4]_input Measured voltage. From READ_VOUT register. +in[1-4]_min Minimum Voltage. From VOUT_UV_WARN_LIMIT register. +in[1-4]_max Maximum voltage. From VOUT_OV_WARN_LIMIT register. +in[1-4]_lcrit Critical minimum Voltage. VOUT_UV_FAULT_LIMIT register. +in[1-4]_crit Critical maximum voltage. From VOUT_OV_FAULT_LIMIT + register. +in[1-4]_min_alarm Voltage low alarm. From VOLTAGE_UV_WARNING status. +in[1-4]_max_alarm Voltage high alarm. From VOLTAGE_OV_WARNING status. +in[1-4]_lcrit_alarm Voltage critical low alarm. From VOLTAGE_UV_FAULT + status. +in[1-4]_crit_alarm Voltage critical high alarm. From VOLTAGE_OV_FAULT + status. +in[1-4]_highest Historical maximum voltage. +in[1-4]_reset_history Write any value to reset history. + +temp1_input Measured temperature. From READ_TEMPERATURE_1 register. +temp1_max Maximum temperature. From OT_WARN_LIMIT register. +temp1_crit Critical high temperature. From OT_FAULT_LIMIT register. +temp1_max_alarm Chip temperature high alarm. Set by comparing + READ_TEMPERATURE_1 with OT_WARN_LIMIT if TEMP_OT_WARNING + status is set. +temp1_crit_alarm Chip temperature critical high alarm. Set by comparing + READ_TEMPERATURE_1 with OT_FAULT_LIMIT if TEMP_OT_FAULT + status is set. +temp1_highest Historical maximum temperature. +temp1_reset_history Write any value to reset history. +======================= ======================================================== diff --git a/Documentation/hwmon/max16065.rst b/Documentation/hwmon/max16065.rst new file mode 100644 index 0000000000..45f69f334f --- /dev/null +++ b/Documentation/hwmon/max16065.rst @@ -0,0 +1,127 @@ +Kernel driver max16065 +====================== + + +Supported chips: + + * Maxim MAX16065, MAX16066 + + Prefixes: 'max16065', 'max16066' + + Addresses scanned: - + + Datasheet: + + http://datasheets.maxim-ic.com/en/ds/MAX16065-MAX16066.pdf + + * Maxim MAX16067 + + Prefix: 'max16067' + + Addresses scanned: - + + Datasheet: + + http://datasheets.maxim-ic.com/en/ds/MAX16067.pdf + + * Maxim MAX16068 + + Prefix: 'max16068' + + Addresses scanned: - + + Datasheet: + + http://datasheets.maxim-ic.com/en/ds/MAX16068.pdf + + * Maxim MAX16070/MAX16071 + + Prefixes: 'max16070', 'max16071' + + Addresses scanned: - + + Datasheet: + + http://datasheets.maxim-ic.com/en/ds/MAX16070-MAX16071.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +[From datasheets] The MAX16065/MAX16066 flash-configurable system managers +monitor and sequence multiple system voltages. The MAX16065/MAX16066 can also +accurately monitor (+/-2.5%) one current channel using a dedicated high-side +current-sense amplifier. The MAX16065 manages up to twelve system voltages +simultaneously, and the MAX16066 manages up to eight supply voltages. + +The MAX16067 flash-configurable system manager monitors and sequences multiple +system voltages. The MAX16067 manages up to six system voltages simultaneously. + +The MAX16068 flash-configurable system manager monitors and manages up to six +system voltages simultaneously. + +The MAX16070/MAX16071 flash-configurable system monitors supervise multiple +system voltages. The MAX16070/MAX16071 can also accurately monitor (+/-2.5%) +one current channel using a dedicated high-side current-sense amplifier. The +MAX16070 monitors up to twelve system voltages simultaneously, and the MAX16071 +monitors up to eight supply voltages. + +Each monitored channel has its own low and high critical limits. MAX16065, +MAX16066, MAX16070, and MAX16071 support an additional limit which is +configurable as either low or high secondary limit. MAX16065, MAX16066, +MAX16070, and MAX16071 also support supply current monitoring. + + +Usage Notes +----------- + +This driver does not probe for devices, since there is no register which +can be safely used to identify the chip. You will have to instantiate +the devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +WARNING: Do not access chip registers using the i2cdump command, and do not use +any of the i2ctools commands on a command register (0xa5 to 0xac). The chips +supported by this driver interpret any access to a command register (including +read commands) as request to execute the command in question. This may result in +power loss, board resets, and/or Flash corruption. Worst case, your board may +turn into a brick. + + +Sysfs entries +------------- + +======================= ======================================================== +in[0-11]_input Input voltage measurements. + +in12_input Voltage on CSP (Current Sense Positive) pin. + Only if the chip supports current sensing and if + current sensing is enabled. + +in[0-11]_min Low warning limit. + Supported on MAX16065, MAX16066, MAX16070, and MAX16071 + only. + +in[0-11]_max High warning limit. + Supported on MAX16065, MAX16066, MAX16070, and MAX16071 + only. + + Either low or high warning limits are supported + (depending on chip configuration), but not both. + +in[0-11]_lcrit Low critical limit. + +in[0-11]_crit High critical limit. + +in[0-11]_alarm Input voltage alarm. + +curr1_input Current sense input; only if the chip supports current + sensing and if current sensing is enabled. + Displayed current assumes 0.001 Ohm current sense + resistor. + +curr1_alarm Overcurrent alarm; only if the chip supports current + sensing and if current sensing is enabled. +======================= ======================================================== diff --git a/Documentation/hwmon/max1619.rst b/Documentation/hwmon/max1619.rst new file mode 100644 index 0000000000..e25956e70f --- /dev/null +++ b/Documentation/hwmon/max1619.rst @@ -0,0 +1,33 @@ +Kernel driver max1619 +===================== + +Supported chips: + + * Maxim MAX1619 + + Prefix: 'max1619' + + Addresses scanned: I2C 0x18-0x1a, 0x29-0x2b, 0x4c-0x4e + + Datasheet: Publicly available at the Maxim website + + http://pdfserv.maxim-ic.com/en/ds/MAX1619.pdf + +Authors: + - Oleksij Rempel <bug-track@fisher-privat.net>, + - Jean Delvare <jdelvare@suse.de> + +Description +----------- + +The MAX1619 is a digital temperature sensor. It senses its own temperature as +well as the temperature of up to one external diode. + +All temperature values are given in degrees Celsius. Resolution +is 1.0 degree for the local temperature and for the remote temperature. + +Only the external sensor has high and low limits. + +The max1619 driver will not update its values more frequently than every +other second; reading them more often will do no harm, but will return +'old' values. diff --git a/Documentation/hwmon/max16601.rst b/Documentation/hwmon/max16601.rst new file mode 100644 index 0000000000..c8c63a053e --- /dev/null +++ b/Documentation/hwmon/max16601.rst @@ -0,0 +1,145 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver max16601 +====================== + +Supported chips: + + * Maxim MAX16508 + + Prefix: 'max16508' + + Addresses scanned: - + + Datasheet: Not published + + * Maxim MAX16600 + + Prefix: 'max16600' + + Addresses scanned: - + + Datasheet: Not published + + * Maxim MAX16601 + + Prefix: 'max16601' + + Addresses scanned: - + + Datasheet: Not published + + * Maxim MAX16602 + + Prefix: 'max16602' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX16602.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports the MAX16508 VR13 Dual-Output Voltage Regulator +as well as the MAX16600, MAX16601, and MAX16602 VR13.HC Dual-Output +Voltage Regulator chipsets. + +The driver is a client driver to the core PMBus driver. +Please see Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. + +=============================== =============================================== +in1_label "vin1" +in1_input VCORE input voltage. +in1_alarm Input voltage alarm. + +in2_label "vout1" +in2_input VCORE output voltage. +in2_alarm Output voltage alarm. + +curr1_label "iin1" +curr1_input VCORE input current, derived from duty cycle + and output current. +curr1_max Maximum input current. +curr1_max_alarm Current high alarm. + +curr[P+2]_label "iin1.P" +curr[P+2]_input VCORE phase P input current. + +curr[N+2]_label "iin2" +curr[N+2]_input VCORE input current, derived from sensor + element. + 'N' is the number of enabled/populated phases. + +curr[N+3]_label "iin3" +curr[N+3]_input VSA input current. + +curr[N+4]_label "iout1" +curr[N+4]_input VCORE output current. +curr[N+4]_crit Critical output current. +curr[N+4]_crit_alarm Output current critical alarm. +curr[N+4]_max Maximum output current. +curr[N+4]_max_alarm Output current high alarm. + +curr[N+P+5]_label "iout1.P" +curr[N+P+5]_input VCORE phase P output current. + +curr[2*N+5]_label "iout3" +curr[2*N+5]_input VSA output current. +curr[2*N+5]_highest Historical maximum VSA output current. +curr[2*N+5]_reset_history Write any value to reset curr21_highest. +curr[2*N+5]_crit Critical output current. +curr[2*N+5]_crit_alarm Output current critical alarm. +curr[2*N+5]_max Maximum output current. +curr[2*N+5]_max_alarm Output current high alarm. + +power1_label "pin1" +power1_input Input power, derived from duty cycle and output + current. +power1_alarm Input power alarm. + +power2_label "pin2" +power2_input Input power, derived from input current sensor. + +power3_label "pout" +power3_input Output power. + +temp1_input VCORE temperature. +temp1_crit Critical high temperature. +temp1_crit_alarm Chip temperature critical high alarm. +temp1_max Maximum temperature. +temp1_max_alarm Chip temperature high alarm. + +temp2_input TSENSE_0 temperature +temp3_input TSENSE_1 temperature +temp4_input TSENSE_2 temperature +temp5_input TSENSE_3 temperature + +temp6_input VSA temperature. +temp6_crit Critical high temperature. +temp6_crit_alarm Chip temperature critical high alarm. +temp6_max Maximum temperature. +temp6_max_alarm Chip temperature high alarm. +=============================== =============================================== diff --git a/Documentation/hwmon/max1668.rst b/Documentation/hwmon/max1668.rst new file mode 100644 index 0000000000..417f17d750 --- /dev/null +++ b/Documentation/hwmon/max1668.rst @@ -0,0 +1,70 @@ +Kernel driver max1668 +===================== + +Supported chips: + + * Maxim MAX1668, MAX1805 and MAX1989 + + Prefix: 'max1668' + + Addresses scanned: I2C 0x18, 0x19, 0x1a, 0x29, 0x2a, 0x2b, 0x4c, 0x4d, 0x4e + + Datasheet: http://datasheets.maxim-ic.com/en/ds/MAX1668-MAX1989.pdf + +Author: + + David George <david.george@ska.ac.za> + +Description +----------- + +This driver implements support for the Maxim MAX1668, MAX1805 and MAX1989 +chips. + +The three devices are very similar, but the MAX1805 has a reduced feature +set; only two remote temperature inputs vs the four available on the other +two ICs. + +The driver is able to distinguish between the devices and creates sysfs +entries as follows: + +- MAX1805, MAX1668 and MAX1989: + +=============== == ============================================================ +temp1_input ro local (ambient) temperature +temp1_max rw local temperature maximum threshold for alarm +temp1_max_alarm ro local temperature maximum threshold alarm +temp1_min rw local temperature minimum threshold for alarm +temp1_min_alarm ro local temperature minimum threshold alarm +temp2_input ro remote temperature 1 +temp2_max rw remote temperature 1 maximum threshold for alarm +temp2_max_alarm ro remote temperature 1 maximum threshold alarm +temp2_min rw remote temperature 1 minimum threshold for alarm +temp2_min_alarm ro remote temperature 1 minimum threshold alarm +temp3_input ro remote temperature 2 +temp3_max rw remote temperature 2 maximum threshold for alarm +temp3_max_alarm ro remote temperature 2 maximum threshold alarm +temp3_min rw remote temperature 2 minimum threshold for alarm +temp3_min_alarm ro remote temperature 2 minimum threshold alarm +=============== == ============================================================ + +- MAX1668 and MAX1989 only: + +=============== == ============================================================ +temp4_input ro remote temperature 3 +temp4_max rw remote temperature 3 maximum threshold for alarm +temp4_max_alarm ro remote temperature 3 maximum threshold alarm +temp4_min rw remote temperature 3 minimum threshold for alarm +temp4_min_alarm ro remote temperature 3 minimum threshold alarm +temp5_input ro remote temperature 4 +temp5_max rw remote temperature 4 maximum threshold for alarm +temp5_max_alarm ro remote temperature 4 maximum threshold alarm +temp5_min rw remote temperature 4 minimum threshold for alarm +temp5_min_alarm ro remote temperature 4 minimum threshold alarm +=============== == ============================================================ + +Module Parameters +----------------- + +* read_only: int + Set to non-zero if you wish to prevent write access to alarm thresholds. diff --git a/Documentation/hwmon/max197.rst b/Documentation/hwmon/max197.rst new file mode 100644 index 0000000000..02fe19bc34 --- /dev/null +++ b/Documentation/hwmon/max197.rst @@ -0,0 +1,70 @@ +Kernel driver max197 +==================== + +Author: + + * Vivien Didelot <vivien.didelot@savoirfairelinux.com> + +Supported chips: + + * Maxim MAX197 + + Prefix: 'max197' + + Datasheet: http://datasheets.maxim-ic.com/en/ds/MAX197.pdf + + * Maxim MAX199 + + Prefix: 'max199' + + Datasheet: http://datasheets.maxim-ic.com/en/ds/MAX199.pdf + +Description +----------- + +The A/D converters MAX197, and MAX199 are both 8-Channel, Multi-Range, 5V, +12-Bit DAS with 8+4 Bus Interface and Fault Protection. + +The available ranges for the MAX197 are {0,-5V} to 5V, and {0,-10V} to 10V, +while they are {0,-2V} to 2V, and {0,-4V} to 4V on the MAX199. + +Platform data +------------- + +The MAX197 platform data (defined in linux/platform_data/max197.h) should be +filled with a pointer to a conversion function, defined like:: + + int convert(u8 ctrl); + +ctrl is the control byte to write to start a new conversion. +On success, the function must return the 12-bit raw value read from the chip, +or a negative error code otherwise. + +Control byte format: + +======= ========== ============================================ +Bit Name Description +7,6 PD1,PD0 Clock and Power-Down modes +5 ACQMOD Internal or External Controlled Acquisition +4 RNG Full-scale voltage magnitude at the input +3 BIP Unipolar or Bipolar conversion mode +2,1,0 A2,A1,A0 Channel +======= ========== ============================================ + +Sysfs interface +--------------- + + ============== ============================================================== + in[0-7]_input The conversion value for the corresponding channel. + RO + + in[0-7]_min The lower limit (in mV) for the corresponding channel. + For the MAX197, it will be adjusted to -10000, -5000, or 0. + For the MAX199, it will be adjusted to -4000, -2000, or 0. + RW + + in[0-7]_max The higher limit (in mV) for the corresponding channel. + For the MAX197, it will be adjusted to 0, 5000, or 10000. + For the MAX199, it will be adjusted to 0, 2000, or 4000. + RW + ============== ============================================================== diff --git a/Documentation/hwmon/max20730.rst b/Documentation/hwmon/max20730.rst new file mode 100644 index 0000000000..cb0c95b2b1 --- /dev/null +++ b/Documentation/hwmon/max20730.rst @@ -0,0 +1,82 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver max20730 +====================== + +Supported chips: + + * Maxim MAX20710 + + Prefix: 'max20710' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX20710.pdf + + * Maxim MAX20730 + + Prefix: 'max20730' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX20730.pdf + + * Maxim MAX20734 + + Prefix: 'max20734' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX20734.pdf + + * Maxim MAX20743 + + Prefix: 'max20743' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX20743.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver implements support for Maxim MAX20710, MAX20730, MAX20734, and MAX20743 +Integrated, Step-Down Switching Regulators with PMBus support. + +The driver is a client driver to the core PMBus driver. +Please see Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Sysfs entries +------------- + +=================== ===== ======================================================= +curr1_crit RW/RO Critical output current. Please see datasheet for + supported limits. Read-only if the chip is + write protected; read-write otherwise. +curr1_crit_alarm RO Output current critical alarm +curr1_input RO Output current +curr1_label RO 'iout1' +in1_alarm RO Input voltage alarm +in1_input RO Input voltage +in1_label RO 'vin' +in2_alarm RO Output voltage alarm +in2_input RO Output voltage +in2_label RO 'vout1' +temp1_crit RW/RO Critical temeperature. Supported values are 130 or 150 + degrees C. Read-only if the chip is write protected; + read-write otherwise. +temp1_crit_alarm RO Temperature critical alarm +temp1_input RO Chip temperature +=================== ===== ======================================================= diff --git a/Documentation/hwmon/max20751.rst b/Documentation/hwmon/max20751.rst new file mode 100644 index 0000000000..f9febefce0 --- /dev/null +++ b/Documentation/hwmon/max20751.rst @@ -0,0 +1,84 @@ +Kernel driver max20751 +====================== + +Supported chips: + + * maxim MAX20751 + + Prefix: 'max20751' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX20751.pdf + + Application note: https://pdfserv.maximintegrated.com/en/an/AN5941.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports MAX20751 Multiphase Master with PMBus Interface +and Internal Buck Converter. + +The driver is a client driver to the core PMBus driver. +Please see Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. + +======================= ======================================================= +in1_label "vin1" +in1_input Measured voltage. +in1_min Minimum input voltage. +in1_max Maximum input voltage. +in1_lcrit Critical minimum input voltage. +in1_crit Critical maximum input voltage. +in1_min_alarm Input voltage low alarm. +in1_lcrit_alarm Input voltage critical low alarm. +in1_min_alarm Input voltage low alarm. +in1_max_alarm Input voltage high alarm. + +in2_label "vout1" +in2_input Measured voltage. +in2_min Minimum output voltage. +in2_max Maximum output voltage. +in2_lcrit Critical minimum output voltage. +in2_crit Critical maximum output voltage. +in2_min_alarm Output voltage low alarm. +in2_lcrit_alarm Output voltage critical low alarm. +in2_min_alarm Output voltage low alarm. +in2_max_alarm Output voltage high alarm. + +curr1_input Measured output current. +curr1_label "iout1" +curr1_max Maximum output current. +curr1_alarm Current high alarm. + +temp1_input Measured temperature. +temp1_max Maximum temperature. +temp1_crit Critical high temperature. +temp1_max_alarm Chip temperature high alarm. +temp1_crit_alarm Chip temperature critical high alarm. + +power1_input Output power. +power1_label "pout1" +======================= ======================================================= diff --git a/Documentation/hwmon/max31722.rst b/Documentation/hwmon/max31722.rst new file mode 100644 index 0000000000..0ab15c00b2 --- /dev/null +++ b/Documentation/hwmon/max31722.rst @@ -0,0 +1,46 @@ +Kernel driver max31722 +====================== + +Supported chips: + + * Maxim Integrated MAX31722 + + Prefix: 'max31722' + + ACPI ID: MAX31722 + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX31722-MAX31723.pdf + + * Maxim Integrated MAX31723 + + Prefix: 'max31723' + + ACPI ID: MAX31723 + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX31722-MAX31723.pdf + +Author: Tiberiu Breana <tiberiu.a.breana@intel.com> + +Description +----------- + +This driver adds support for the Maxim Integrated MAX31722/MAX31723 thermometers +and thermostats running over an SPI interface. + +Usage Notes +----------- + +This driver uses ACPI to auto-detect devices. See ACPI IDs in the above section. + +Sysfs entries +------------- + +The following attribute is supported: + +======================= ======================================================= +temp1_input Measured temperature. Read-only. +======================= ======================================================= diff --git a/Documentation/hwmon/max31730.rst b/Documentation/hwmon/max31730.rst new file mode 100644 index 0000000000..def0de19db --- /dev/null +++ b/Documentation/hwmon/max31730.rst @@ -0,0 +1,44 @@ +Kernel driver max31790 +====================== + +Supported chips: + + * Maxim MAX31730 + + Prefix: 'max31730' + + Addresses scanned: 0x1c, 0x1d, 0x1e, 0x1f, 0x4c, 0x4d, 0x4e, 0x4f + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX31730.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver implements support for Maxim MAX31730. + +The MAX31730 temperature sensor monitors its own temperature and the +temperatures of three external diode-connected transistors. The operating +supply voltage is from 3.0V to 3.6V. Resistance cancellation compensates +for high series resistance in circuit-board traces and the external thermal +diode, while beta compensation corrects for temperature-measurement +errors due to low-beta sensing transistors. + + +Sysfs entries +------------- + +=================== == ======================================================= +temp[1-4]_enable RW Temperature enable/disable + Set to 0 to enable channel, 0 to disable +temp[1-4]_input RO Temperature input +temp[2-4]_fault RO Fault indicator for remote channels +temp[1-4]_max RW Maximum temperature +temp[1-4]_max_alarm RW Maximum temperature alarm +temp[1-4]_min RW Minimum temperature. Common for all channels. + Only temp1_min is writeable. +temp[1-4]_min_alarm RO Minimum temperature alarm +temp[2-4]_offset RW Temperature offset for remote channels +=================== == ======================================================= diff --git a/Documentation/hwmon/max31760.rst b/Documentation/hwmon/max31760.rst new file mode 100644 index 0000000000..b1b55fb843 --- /dev/null +++ b/Documentation/hwmon/max31760.rst @@ -0,0 +1,77 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver max31760 +====================== + +Supported chips: + * Analog Devices MAX31760 + + Prefix: 'max31760' + + Addresses scanned: none + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX31760.pdf + + +Author: Ibrahim Tilki <Ibrahim.Tilki@analog.com> + +Description +----------- + +The MAX31760 integrates temperature sensing along with precision PWM fan +control. It accurately measures its local die temperature and the remote +temperature of a discrete diode-connected transistor, such as a 2N3906, +or a thermal diode commonly found on CPUs, graphics processor units (GPUs), +and other ASICs. Multiple temperature thresholds, such as local +high/overtemperature (OT) and remote high/overtemperature, can be set by an +I2C-compatible interface. Fan speed is controlled based on the temperature +reading as an index to a 48-byte lookup table (LUT) containing +user-programmed PWM values. The flexible LUT-based architecture enables +the user to program a smooth nonlinear fan speed vs. temperature transfer +function to minimize acoustic fan noise. Two tachometer inputs allow +measuring the speeds of two fans independently. When the local or remote +OT threshold is exceeded, the SHDN pin is asserted low and can be used to +shut down the system. A dedicated ALERT pin reports that either a local or +remote high-temperature threshold has been exceeded. + +Temperature measurement range: from -55°C to 125°C + +Temperature Resolution: 11 Bits, ±0.125°C + +Please refer how to instantiate this driver: Documentation/i2c/instantiating-devices.rst + +Lookup table for auto fan control +--------------------------------- + +========= ================================= +LUT Index Name +========= ================================= +1 PWM value for T < +18°C +2 PWM value for +18°C ≤ T < +20°C +3 PWM value for +20°C ≤ T < +22°C +... ... +47 PWM value for +108°C ≤ T < +110°C +48 PWM value for T ≥ +110°C +========= ================================= + +Sysfs entries +------------- + +=============================== ================================================================================= +fan[1-2]_input Fan speed (in RPM) +fan[1-2]_enable Enable fan readings and fan fault alarms +fan[1-2]_fault Fan fault status +temp[1-2]_label "Remote" and "Local" temperature channel labels +temp[1-2]_input Temperature sensor readings (in millidegrees Celsius) +temp1_fault Remote temperature sensor fault status +temp[1-2]_max Temperature max value. Asserts "ALERT" pin when exceeded +temp[1-2]_max_alarm Temperature max alarm status +temp[1-2]_crit Temperature critical value. Asserts "SHDN" pin when exceeded +temp[1-2]_crit_alarm Temperature critical alarm status +pwm1 PWM value for direct fan control +pwm1_enable 1: direct fan control, 2: temperature based auto fan control +pwm1_freq PWM frequency in hertz +pwm1_auto_channels_temp Temperature source for auto fan control. 1: temp1, 2: temp2, 3: max(temp1, temp2) +pwm1_auto_point[1-48]_pwm PWM value for LUT point +pwm1_auto_point_temp_hyst Temperature hysteresis for auto fan control. Can be either 2000mC or 4000mC +=============================== ================================================================================= diff --git a/Documentation/hwmon/max31785.rst b/Documentation/hwmon/max31785.rst new file mode 100644 index 0000000000..c8c6756d0e --- /dev/null +++ b/Documentation/hwmon/max31785.rst @@ -0,0 +1,66 @@ +Kernel driver max31785 +====================== + +Supported chips: + + * Maxim MAX31785, MAX31785A + + Prefix: 'max31785' or 'max31785a' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX31785.pdf + +Author: Andrew Jeffery <andrew@aj.id.au> + +Description +----------- + +The Maxim MAX31785 is a PMBus device providing closed-loop, multi-channel fan +management with temperature and remote voltage sensing. Various fan control +features are provided, including PWM frequency control, temperature hysteresis, +dual tachometer measurements, and fan health monitoring. + +For dual-rotor configurations the MAX31785A exposes the second rotor tachometer +readings in attributes fan[5-8]_input. By contrast the MAX31785 only exposes +the slowest rotor measurement, and does so in the fan[1-4]_input attributes. + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Sysfs attributes +---------------- + +======================= ======================================================= +fan[1-4]_alarm Fan alarm. +fan[1-4]_fault Fan fault. +fan[1-8]_input Fan RPM. On the MAX31785A, inputs 5-8 correspond to the + second rotor of fans 1-4 +fan[1-4]_target Fan input target + +in[1-6]_crit Critical maximum output voltage +in[1-6]_crit_alarm Output voltage critical high alarm +in[1-6]_input Measured output voltage +in[1-6]_label "vout[18-23]" +in[1-6]_lcrit Critical minimum output voltage +in[1-6]_lcrit_alarm Output voltage critical low alarm +in[1-6]_max Maximum output voltage +in[1-6]_max_alarm Output voltage high alarm +in[1-6]_min Minimum output voltage +in[1-6]_min_alarm Output voltage low alarm + +pwm[1-4] Fan target duty cycle (0..255) +pwm[1-4]_enable 0: Full-speed + 1: Manual PWM control + 2: Automatic PWM (tach-feedback RPM fan-control) + 3: Automatic closed-loop (temp-feedback fan-control) + +temp[1-11]_crit Critical high temperature +temp[1-11]_crit_alarm Chip temperature critical high alarm +temp[1-11]_input Measured temperature +temp[1-11]_max Maximum temperature +temp[1-11]_max_alarm Chip temperature high alarm +======================= ======================================================= diff --git a/Documentation/hwmon/max31790.rst b/Documentation/hwmon/max31790.rst new file mode 100644 index 0000000000..33c5c7330e --- /dev/null +++ b/Documentation/hwmon/max31790.rst @@ -0,0 +1,45 @@ +Kernel driver max31790 +====================== + +Supported chips: + + * Maxim MAX31790 + + Prefix: 'max31790' + + Addresses scanned: - + + Datasheet: https://pdfserv.maximintegrated.com/en/ds/MAX31790.pdf + +Author: Il Han <corone.il.han@gmail.com> + + +Description +----------- + +This driver implements support for the Maxim MAX31790 chip. + +The MAX31790 controls the speeds of up to six fans using six independent +PWM outputs. The desired fan speeds (or PWM duty cycles) are written +through the I2C interface. The outputs drive "4-wire" fans directly, +or can be used to modulate the fan's power terminals using an external +pass transistor. + +Tachometer inputs monitor fan tachometer logic outputs for precise (+/-1%) +monitoring and control of fan RPM as well as detection of fan failure. +Six pins are dedicated tachometer inputs. Any of the six PWM outputs can +also be configured to serve as tachometer inputs. + + +Sysfs entries +------------- + +================== === ======================================================= +fan[1-12]_input RO fan tachometer speed in RPM +fan[1-12]_fault RO fan experienced fault +fan[1-6]_target RW desired fan speed in RPM +fan[1-6]_enable RW enable or disable the tachometer input +pwm[1-6]_enable RW regulator mode, 0=disabled (duty cycle=0%), 1=manual mode, 2=rpm mode +pwm[1-6] RW read: current pwm duty cycle, + write: target pwm duty cycle (0-255) +================== === ======================================================= diff --git a/Documentation/hwmon/max31827.rst b/Documentation/hwmon/max31827.rst new file mode 100644 index 0000000000..b0971d05b8 --- /dev/null +++ b/Documentation/hwmon/max31827.rst @@ -0,0 +1,90 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver max31827 +====================== + +Supported chips: + + * Maxim MAX31827 + + Prefix: 'max31827' + + Addresses scanned: I2C 0x40 - 0x5f + + Datasheet: Publicly available at the Analog Devices website + + * Maxim MAX31828 + + Prefix: 'max31828' + + Addresses scanned: I2C 0x40 - 0x5f + + Datasheet: Publicly available at the Analog Devices website + + * Maxim MAX31829 + + Prefix: 'max31829' + + Addresses scanned: I2C 0x40 - 0x5f + + Datasheet: Publicly available at the Analog Devices website + + +Authors: + - Daniel Matyas <daniel.matyas@analog.com> + +Description +----------- + +The chips supported by this driver are quite similar. The only difference +between them is found in the default power-on behaviour of the chips. While the +MAX31827's fault queue is set to 1, the other two chip's fault queue is set to +4. Besides this, the MAX31829's alarm active state is high, while the other two +chip's alarms are active on low. It is important to note that the chips can be +configured to operate in the same manner with 1 write operation to the +configuration register. From here on, we will refer to all these chips as +MAX31827. + +MAX31827 implements a temperature sensor with a 6 WLP packaging scheme. This +sensor measures the temperature of the chip itself. + +MAX31827 has low and over temperature alarms with an effective value and a +hysteresis value: -40 and -30 degrees for under temperature alarm and +100 and ++90 degrees for over temperature alarm. + +The alarm can be configured in comparator and interrupt mode. Currently only +comparator mode is implemented. In Comparator mode, the OT/UT status bits have a +value of 1 when the temperature rises above the TH value or falls below TL, +which is also subject to the Fault Queue selection. OT status returns to 0 when +the temperature drops below the TH_HYST value or when shutdown mode is entered. +Similarly, UT status returns to 0 when the temperature rises above TL_HYST value +or when shutdown mode is entered. + +Putting the MAX31827 into shutdown mode also resets the OT/UT status bits. Note +that if the mode is changed while OT/UT status bits are set, an OT/UT status +reset may be required before it begins to behave normally. To prevent this, +it is recommended to perform a read of the configuration/status register to +clear the status bits before changing the operating mode. + +The conversions can be manual with the one-shot functionality and automatic with +a set frequency. When powered on, the chip measures temperatures with 1 conv/s. +Enabling the device when it is already enabled has the side effect of setting +the conversion frequency to 1 conv/s. The conversion time varies depending on +the resolution. The conversion time doubles with every bit of increased +resolution. For 10 bit resolution 35ms are needed, while for 12 bit resolution +(default) 140ms. When chip is in shutdown mode and a read operation is +requested, one-shot is triggered, the device waits for 140 (conversion time) + 1 +(error) ms, and only after that is the temperature value register read. + +The LSB of the temperature values is 0.0625 degrees Celsius, but the values of +the temperatures are displayed in milli-degrees. This means, that some data is +lost. The step between 2 consecutive values is 62 or 63. This effect can be seen +in the writing of alarm values too. For positive numbers the user-input value +will always be rounded down to the nearest possible value, for negative numbers +the user-input will always be rounded up to the nearest possible value. + +Notes +----- + +Currently fault queue, alarm polarity and resolution cannot be modified. +PEC is not implemented either. diff --git a/Documentation/hwmon/max34440.rst b/Documentation/hwmon/max34440.rst new file mode 100644 index 0000000000..162d289f08 --- /dev/null +++ b/Documentation/hwmon/max34440.rst @@ -0,0 +1,195 @@ +Kernel driver max34440 +====================== + +Supported chips: + + * Maxim MAX34440 + + Prefixes: 'max34440' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX34440.pdf + + * Maxim MAX34441 + + PMBus 5-Channel Power-Supply Manager and Intelligent Fan Controller + + Prefixes: 'max34441' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX34441.pdf + + * Maxim MAX34446 + + PMBus Power-Supply Data Logger + + Prefixes: 'max34446' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX34446.pdf + + * Maxim MAX34451 + + PMBus 16-Channel V/I Monitor and 12-Channel Sequencer/Marginer + + Prefixes: 'max34451' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX34451.pdf + + * Maxim MAX34460 + + PMBus 12-Channel Voltage Monitor & Sequencer + + Prefix: 'max34460' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX34460.pdf + + * Maxim MAX34461 + + PMBus 16-Channel Voltage Monitor & Sequencer + + Prefix: 'max34461' + + Addresses scanned: - + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX34461.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports hardware monitoring for Maxim MAX34440 PMBus 6-Channel +Power-Supply Manager, MAX34441 PMBus 5-Channel Power-Supply Manager +and Intelligent Fan Controller, and MAX34446 PMBus Power-Supply Data Logger. +It also supports the MAX34451, MAX34460, and MAX34461 PMBus Voltage Monitor & +Sequencers. The MAX34451 supports monitoring voltage or current of 12 channels +based on GIN pins. The MAX34460 supports 12 voltage channels, and the MAX34461 +supports 16 voltage channels. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +For MAX34446, the value of the currX_crit attribute determines if current or +voltage measurement is enabled for a given channel. Voltage measurement is +enabled if currX_crit is set to 0; current measurement is enabled if the +attribute is set to a positive value. Power measurement is only enabled if +channel 1 (3) is configured for voltage measurement, and channel 2 (4) is +configured for current measurement. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +In +~~ + +======================= ======================================================= +in[1-6]_label "vout[1-6]". +in[1-6]_input Measured voltage. From READ_VOUT register. +in[1-6]_min Minimum Voltage. From VOUT_UV_WARN_LIMIT register. +in[1-6]_max Maximum voltage. From VOUT_OV_WARN_LIMIT register. +in[1-6]_lcrit Critical minimum Voltage. VOUT_UV_FAULT_LIMIT register. +in[1-6]_crit Critical maximum voltage. From VOUT_OV_FAULT_LIMIT + register. +in[1-6]_min_alarm Voltage low alarm. From VOLTAGE_UV_WARNING status. +in[1-6]_max_alarm Voltage high alarm. From VOLTAGE_OV_WARNING status. +in[1-6]_lcrit_alarm Voltage critical low alarm. From VOLTAGE_UV_FAULT + status. +in[1-6]_crit_alarm Voltage critical high alarm. From VOLTAGE_OV_FAULT + status. +in[1-6]_lowest Historical minimum voltage. +in[1-6]_highest Historical maximum voltage. +in[1-6]_reset_history Write any value to reset history. +======================= ======================================================= + +.. note:: MAX34446 only supports in[1-4]. + +Curr +~~~~ + +======================= ======================================================== +curr[1-6]_label "iout[1-6]". +curr[1-6]_input Measured current. From READ_IOUT register. +curr[1-6]_max Maximum current. From IOUT_OC_WARN_LIMIT register. +curr[1-6]_crit Critical maximum current. From IOUT_OC_FAULT_LIMIT + register. +curr[1-6]_max_alarm Current high alarm. From IOUT_OC_WARNING status. +curr[1-6]_crit_alarm Current critical high alarm. From IOUT_OC_FAULT status. +curr[1-4]_average Historical average current (MAX34446/34451 only). +curr[1-6]_highest Historical maximum current. +curr[1-6]_reset_history Write any value to reset history. +======================= ======================================================== + +.. note:: + + - in6 and curr6 attributes only exist for MAX34440. + - MAX34446 only supports curr[1-4]. + +Power +~~~~~ + +======================= ======================================================== +power[1,3]_label "pout[1,3]" +power[1,3]_input Measured power. +power[1,3]_average Historical average power. +power[1,3]_highest Historical maximum power. +======================= ======================================================== + +.. note:: Power attributes only exist for MAX34446. + +Temp +~~~~ + +======================= ======================================================== +temp[1-8]_input Measured temperatures. From READ_TEMPERATURE_1 register. + temp1 is the chip's internal temperature. temp2..temp5 + are remote I2C temperature sensors. For MAX34441, temp6 + is a remote thermal-diode sensor. For MAX34440, temp6..8 + are remote I2C temperature sensors. +temp[1-8]_max Maximum temperature. From OT_WARN_LIMIT register. +temp[1-8]_crit Critical high temperature. From OT_FAULT_LIMIT register. +temp[1-8]_max_alarm Temperature high alarm. +temp[1-8]_crit_alarm Temperature critical high alarm. +temp[1-8]_average Historical average temperature (MAX34446 only). +temp[1-8]_highest Historical maximum temperature. +temp[1-8]_reset_history Write any value to reset history. +======================= ======================================================== + + +.. note:: + - temp7 and temp8 attributes only exist for MAX34440. + - MAX34446 only supports temp[1-3]. + + +.. note:: + + - MAX34451 supports attribute groups in[1-16] (or curr[1-16] based on + input pins) and temp[1-5]. + - MAX34460 supports attribute groups in[1-12] and temp[1-5]. + - MAX34461 supports attribute groups in[1-16] and temp[1-5]. diff --git a/Documentation/hwmon/max6620.rst b/Documentation/hwmon/max6620.rst new file mode 100644 index 0000000000..84c1c44d3d --- /dev/null +++ b/Documentation/hwmon/max6620.rst @@ -0,0 +1,46 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver max6620 +===================== + +Supported chips: + + Maxim MAX6620 + + Prefix: 'max6620' + + Addresses scanned: none + + Datasheet: http://pdfserv.maxim-ic.com/en/ds/MAX6620.pdf + +Authors: + - L\. Grunenberg <contact@lgrunenberg.de> + - Cumulus Networks <support@cumulusnetworks.com> + - Shuotian Cheng <shuche@microsoft.com> + - Arun Saravanan Balachandran <Arun_Saravanan_Balac@dell.com> + +Description +----------- + +This driver implements support for Maxim MAX6620 fan controller. + +The driver configures the fan controller in RPM mode. To give the readings more +range or accuracy, the desired value can be set by a programmable register +(1, 2, 4, 8, 16 or 32). Set higher values for larger speeds. + +The driver provides the following sensor access in sysfs: + +================ ======= ===================================================== +fan[1-4]_alarm ro Fan alarm. +fan[1-4]_div rw Sets the nominal RPM range of the fan. Valid values + are 1, 2, 4, 8, 16 and 32. +fan[1-4]_input ro Fan speed in RPM. +fan[1-4]_target rw Desired fan speed in RPM. +================ ======= ===================================================== + +Usage notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. diff --git a/Documentation/hwmon/max6639.rst b/Documentation/hwmon/max6639.rst new file mode 100644 index 0000000000..c85d285a34 --- /dev/null +++ b/Documentation/hwmon/max6639.rst @@ -0,0 +1,55 @@ +Kernel driver max6639 +===================== + +Supported chips: + + * Maxim MAX6639 + + Prefix: 'max6639' + + Addresses scanned: I2C 0x2c, 0x2e, 0x2f + + Datasheet: https://datasheets.maximintegrated.com/en/ds/MAX6639-MAX6639F.pdf + +Authors: + - He Changqing <hechangqing@semptian.com> + - Roland Stigge <stigge@antcom.de> + +Description +----------- + +This driver implements support for the Maxim MAX6639. This chip is a 2-channel +temperature monitor with dual PWM fan speed controller. It can monitor its own +temperature and one external diode-connected transistor or two external +diode-connected transistors. + +The following device attributes are implemented via sysfs: + +====================== ==== =================================================== +Attribute R/W Contents +====================== ==== =================================================== +temp1_input R Temperature channel 1 input (0..150 C) +temp2_input R Temperature channel 2 input (0..150 C) +temp1_fault R Temperature channel 1 diode fault +temp2_fault R Temperature channel 2 diode fault +temp1_max RW Set THERM temperature for input 1 + (in C, see datasheet) +temp2_max RW Set THERM temperature for input 2 +temp1_crit RW Set ALERT temperature for input 1 +temp2_crit RW Set ALERT temperature for input 2 +temp1_emergency RW Set OT temperature for input 1 + (in C, see datasheet) +temp2_emergency RW Set OT temperature for input 2 +pwm1 RW Fan 1 target duty cycle (0..255) +pwm2 RW Fan 2 target duty cycle (0..255) +fan1_input R TACH1 fan tachometer input (in RPM) +fan2_input R TACH2 fan tachometer input (in RPM) +fan1_fault R Fan 1 fault +fan2_fault R Fan 2 fault +temp1_max_alarm R Alarm on THERM temperature on channel 1 +temp2_max_alarm R Alarm on THERM temperature on channel 2 +temp1_crit_alarm R Alarm on ALERT temperature on channel 1 +temp2_crit_alarm R Alarm on ALERT temperature on channel 2 +temp1_emergency_alarm R Alarm on OT temperature on channel 1 +temp2_emergency_alarm R Alarm on OT temperature on channel 2 +====================== ==== =================================================== diff --git a/Documentation/hwmon/max6642.rst b/Documentation/hwmon/max6642.rst new file mode 100644 index 0000000000..7e5b7d4f94 --- /dev/null +++ b/Documentation/hwmon/max6642.rst @@ -0,0 +1,27 @@ +Kernel driver max6642 +===================== + +Supported chips: + + * Maxim MAX6642 + + Prefix: 'max6642' + + Addresses scanned: I2C 0x48-0x4f + + Datasheet: Publicly available at the Maxim website + + http://datasheets.maxim-ic.com/en/ds/MAX6642.pdf + +Authors: + + Per Dalen <per.dalen@appeartv.com> + +Description +----------- + +The MAX6642 is a digital temperature sensor. It senses its own temperature as +well as the temperature on one external diode. + +All temperature values are given in degrees Celsius. Resolution +is 0.25 degree for the local temperature and for the remote temperature. diff --git a/Documentation/hwmon/max6650.rst b/Documentation/hwmon/max6650.rst new file mode 100644 index 0000000000..7952b6ecaa --- /dev/null +++ b/Documentation/hwmon/max6650.rst @@ -0,0 +1,74 @@ +Kernel driver max6650 +===================== + +Supported chips: + + * Maxim MAX6650 + + Prefix: 'max6650' + + Addresses scanned: none + + Datasheet: http://pdfserv.maxim-ic.com/en/ds/MAX6650-MAX6651.pdf + + * Maxim MAX6651 + + Prefix: 'max6651' + + Addresses scanned: none + + Datasheet: http://pdfserv.maxim-ic.com/en/ds/MAX6650-MAX6651.pdf + +Authors: + - Hans J. Koch <hjk@hansjkoch.de> + - John Morris <john.morris@spirentcom.com> + - Claus Gindhart <claus.gindhart@kontron.com> + +Description +----------- + +This driver implements support for the Maxim MAX6650 and MAX6651. + +The 2 devices are very similar, but the MAX6550 has a reduced feature +set, e.g. only one fan-input, instead of 4 for the MAX6651. + +The driver is not able to distinguish between the 2 devices. + +The driver provides the following sensor accesses in sysfs: + +=============== ======= ======================================================= +fan1_input ro fan tachometer speed in RPM +fan2_input ro " +fan3_input ro " +fan4_input ro " +fan1_target rw desired fan speed in RPM (closed loop mode only) +pwm1_enable rw regulator mode, 0=full on, 1=open loop, 2=closed loop + 3=off +pwm1 rw relative speed (0-255), 255=max. speed. + Used in open loop mode only. +fan1_div rw sets the speed range the inputs can handle. Legal + values are 1, 2, 4, and 8. Use lower values for + faster fans. +=============== ======= ======================================================= + +Usage notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +Module parameters +----------------- + +If your board has a BIOS that initializes the MAX6650/6651 correctly, you can +simply load your module without parameters. It won't touch the configuration +registers then. If your board BIOS doesn't initialize the chip, or you want +different settings, you can set the following parameters: + +voltage_12V: 5=5V fan, 12=12V fan, 0=don't change +prescaler: Possible values are 1,2,4,8,16, or 0 for don't change +clock: The clock frequency in Hz of the chip the driver should assume [254000] + +Please have a look at the MAX6650/6651 data sheet and make sure that you fully +understand the meaning of these parameters before you attempt to change them. diff --git a/Documentation/hwmon/max6697.rst b/Documentation/hwmon/max6697.rst new file mode 100644 index 0000000000..90ca224c44 --- /dev/null +++ b/Documentation/hwmon/max6697.rst @@ -0,0 +1,91 @@ +Kernel driver max6697 +===================== + +Supported chips: + + * Maxim MAX6581 + + Prefix: 'max6581' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6581.pdf + + * Maxim MAX6602 + + Prefix: 'max6602' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6602.pdf + + * Maxim MAX6622 + + Prefix: 'max6622' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6622.pdf + + * Maxim MAX6636 + + Prefix: 'max6636' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6636.pdf + + * Maxim MAX6689 + + Prefix: 'max6689' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6689.pdf + + * Maxim MAX6693 + + Prefix: 'max6693' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6693.pdf + + * Maxim MAX6694 + + Prefix: 'max6694' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6694.pdf + + * Maxim MAX6697 + + Prefix: 'max6697' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6697.pdf + + * Maxim MAX6698 + + Prefix: 'max6698' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6698.pdf + + * Maxim MAX6699 + + Prefix: 'max6699' + + Datasheet: http://datasheets.maximintegrated.com/en/ds/MAX6699.pdf + +Author: + + Guenter Roeck <linux@roeck-us.net> + +Description +----------- + +This driver implements support for several MAX6697 compatible temperature sensor +chips. The chips support one local temperature sensor plus four, six, or seven +remote temperature sensors. Remote temperature sensors are diode-connected +thermal transistors, except for MAX6698 which supports three diode-connected +thermal transistors plus three thermistors in addition to the local temperature +sensor. + +The driver provides the following sysfs attributes. temp1 is the local (chip) +temperature, temp[2..n] are remote temperatures. The actually supported +per-channel attributes are chip type and channel dependent. + +================ == ========================================================== +tempX_input RO temperature +tempX_max RW temperature maximum threshold +tempX_max_alarm RO temperature maximum threshold alarm +tempX_crit RW temperature critical threshold +tempX_crit_alarm RO temperature critical threshold alarm +tempX_fault RO temperature diode fault (remote sensors only) +================ == ========================================================== diff --git a/Documentation/hwmon/max8688.rst b/Documentation/hwmon/max8688.rst new file mode 100644 index 0000000000..71e7f2cbe2 --- /dev/null +++ b/Documentation/hwmon/max8688.rst @@ -0,0 +1,85 @@ +Kernel driver max8688 +===================== + +Supported chips: + + * Maxim MAX8688 + + Prefix: 'max8688' + + Addresses scanned: - + + Datasheet: http://datasheets.maxim-ic.com/en/ds/MAX8688.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports hardware monitoring for Maxim MAX8688 Digital Power-Supply +Controller/Monitor with PMBus Interface. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +======================= ======================================================== +in1_label "vout1" +in1_input Measured voltage. From READ_VOUT register. +in1_min Minimum Voltage. From VOUT_UV_WARN_LIMIT register. +in1_max Maximum voltage. From VOUT_OV_WARN_LIMIT register. +in1_lcrit Critical minimum Voltage. VOUT_UV_FAULT_LIMIT register. +in1_crit Critical maximum voltage. From VOUT_OV_FAULT_LIMIT + register. +in1_min_alarm Voltage low alarm. From VOLTAGE_UV_WARNING status. +in1_max_alarm Voltage high alarm. From VOLTAGE_OV_WARNING status. +in1_lcrit_alarm Voltage critical low alarm. From VOLTAGE_UV_FAULT + status. +in1_crit_alarm Voltage critical high alarm. From VOLTAGE_OV_FAULT + status. +in1_highest Historical maximum voltage. +in1_reset_history Write any value to reset history. + +curr1_label "iout1" +curr1_input Measured current. From READ_IOUT register. +curr1_max Maximum current. From IOUT_OC_WARN_LIMIT register. +curr1_crit Critical maximum current. From IOUT_OC_FAULT_LIMIT + register. +curr1_max_alarm Current high alarm. From IOUT_OC_WARN_LIMIT register. +curr1_crit_alarm Current critical high alarm. From IOUT_OC_FAULT status. +curr1_highest Historical maximum current. +curr1_reset_history Write any value to reset history. + +temp1_input Measured temperature. From READ_TEMPERATURE_1 register. +temp1_max Maximum temperature. From OT_WARN_LIMIT register. +temp1_crit Critical high temperature. From OT_FAULT_LIMIT register. +temp1_max_alarm Chip temperature high alarm. Set by comparing + READ_TEMPERATURE_1 with OT_WARN_LIMIT if TEMP_OT_WARNING + status is set. +temp1_crit_alarm Chip temperature critical high alarm. Set by comparing + READ_TEMPERATURE_1 with OT_FAULT_LIMIT if TEMP_OT_FAULT + status is set. +temp1_highest Historical maximum temperature. +temp1_reset_history Write any value to reset history. +======================= ======================================================== diff --git a/Documentation/hwmon/mc13783-adc.rst b/Documentation/hwmon/mc13783-adc.rst new file mode 100644 index 0000000000..cae70350ba --- /dev/null +++ b/Documentation/hwmon/mc13783-adc.rst @@ -0,0 +1,89 @@ +Kernel driver mc13783-adc +========================= + +Supported chips: + + * Freescale MC13783 + + Prefix: 'mc13783' + + Datasheet: https://www.nxp.com/docs/en/data-sheet/MC13783.pdf + + * Freescale MC13892 + + Prefix: 'mc13892' + + Datasheet: https://www.nxp.com/docs/en/data-sheet/MC13892.pdf + + + +Authors: + + - Sascha Hauer <s.hauer@pengutronix.de> + - Luotao Fu <l.fu@pengutronix.de> + +Description +----------- + +The Freescale MC13783 and MC13892 are Power Management and Audio Circuits. +Among other things they contain a 10-bit A/D converter. The converter has 16 +(MC13783) resp. 12 (MC13892) channels which can be used in different modes. The +A/D converter has a resolution of 2.25mV. + +Some channels can be used as General Purpose inputs or in a dedicated mode with +a chip internal scaling applied . + +Currently the driver only supports the Application Supply channel (BP / BPSNS), +the General Purpose inputs and touchscreen. + +See the following tables for the meaning of the different channels and their +chip internal scaling: + +- MC13783: + +======= =============================================== =============== ======= +Channel Signal Input Range Scaling +======= =============================================== =============== ======= +0 Battery Voltage (BATT) 2.50 - 4.65V -2.40V +1 Battery Current (BATT - BATTISNS) -50 - 50 mV x20 +2 Application Supply (BP) 2.50 - 4.65V -2.40V +3 Charger Voltage (CHRGRAW) 0 - 10V / /5 + 0 - 20V /10 +4 Charger Current (CHRGISNSP-CHRGISNSN) -0.25 - 0.25V x4 +5 General Purpose ADIN5 / Battery Pack Thermistor 0 - 2.30V No +6 General Purpose ADIN6 / Backup Voltage (LICELL) 0 - 2.30V / No / + 1.50 - 3.50V -1.20V +7 General Purpose ADIN7 / UID / Die Temperature 0 - 2.30V / No / + 0 - 2.55V / x0.9 / No +8 General Purpose ADIN8 0 - 2.30V No +9 General Purpose ADIN9 0 - 2.30V No +10 General Purpose ADIN10 0 - 2.30V No +11 General Purpose ADIN11 0 - 2.30V No +12 General Purpose TSX1 / Touchscreen X-plate 1 0 - 2.30V No +13 General Purpose TSX2 / Touchscreen X-plate 2 0 - 2.30V No +14 General Purpose TSY1 / Touchscreen Y-plate 1 0 - 2.30V No +15 General Purpose TSY2 / Touchscreen Y-plate 2 0 - 2.30V No +======= =============================================== =============== ======= + +- MC13892: + +======= =============================================== =============== ======= +Channel Signal Input Range Scaling +======= =============================================== =============== ======= +0 Battery Voltage (BATT) 0 - 4.8V /2 +1 Battery Current (BATT - BATTISNSCC) -60 - 60 mV x20 +2 Application Supply (BPSNS) 0 - 4.8V /2 +3 Charger Voltage (CHRGRAW) 0 - 12V / /5 + 0 - 20V /10 +4 Charger Current (CHRGISNS-BPSNS) / -0.3 - 0.3V / x4 / + Touchscreen X-plate 1 0 - 2.4V No +5 General Purpose ADIN5 / Battery Pack Thermistor 0 - 2.4V No +6 General Purpose ADIN6 / Backup Voltage (LICELL) 0 - 2.4V / No + Backup Voltage (LICELL) 0 - 3.6V x2/3 +7 General Purpose ADIN7 / UID / Die Temperature 0 - 2.4V / No / + 0 - 4.8V /2 +12 General Purpose TSX1 / Touchscreen X-plate 1 0 - 2.4V No +13 General Purpose TSX2 / Touchscreen X-plate 2 0 - 2.4V No +14 General Purpose TSY1 / Touchscreen Y-plate 1 0 - 2.4V No +15 General Purpose TSY2 / Touchscreen Y-plate 2 0 - 2.4V No +======= =============================================== =============== ======= diff --git a/Documentation/hwmon/mc34vr500.rst b/Documentation/hwmon/mc34vr500.rst new file mode 100644 index 0000000000..f82d872477 --- /dev/null +++ b/Documentation/hwmon/mc34vr500.rst @@ -0,0 +1,32 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver mc34vr500 +======================= + +Supported Chips: + + * NXP MC34VR500 + + Prefix: 'mc34vr500' + + Datasheet: https://www.nxp.com/docs/en/data-sheet/MC34VR500.pdf + +Author: Mario Kicherer <dev@kicherer.org> + +Description +----------- + +This driver implements initial support for the NXP MC34VR500 PMIC. The MC34VR500 +monitors the temperature, input voltage and output currents and provides +corresponding alarms. For the temperature, the chip can send interrupts if +the temperature rises above one of the following values: 110°, 120°, 125° and +130° Celsius. For the input voltage, an interrupt is sent when the voltage +drops below 2.8V. + +Currently, this driver only implements the input voltage and temperature +alarms. The interrupts are mapped as follows: + +<= 2.8V -> in0_min_alarm +>110°c -> temp1_max_alarm +>120°c -> temp1_crit_alarm +>130°c -> temp1_emergency_alarm diff --git a/Documentation/hwmon/mcp3021.rst b/Documentation/hwmon/mcp3021.rst new file mode 100644 index 0000000000..83f4bda2f2 --- /dev/null +++ b/Documentation/hwmon/mcp3021.rst @@ -0,0 +1,38 @@ +Kernel driver MCP3021 +===================== + +Supported chips: + + * Microchip Technology MCP3021 + + Prefix: 'mcp3021' + + Datasheet: http://ww1.microchip.com/downloads/en/DeviceDoc/21805a.pdf + + * Microchip Technology MCP3221 + + Prefix: 'mcp3221' + + Datasheet: http://ww1.microchip.com/downloads/en/DeviceDoc/21732c.pdf + + + +Authors: + + - Mingkai Hu + - Sven Schuchmann <schuchmann@schleissheimer.de> + +Description +----------- + +This driver implements support for the Microchip Technology MCP3021 and +MCP3221 chip. + +The Microchip Technology Inc. MCP3021 is a successive approximation A/D +converter (ADC) with 10-bit resolution. The MCP3221 has 12-bit resolution. + +These devices provide one single-ended input with very low power consumption. +Communication to the MCP3021/MCP3221 is performed using a 2-wire I2C +compatible interface. Standard (100 kHz) and Fast (400 kHz) I2C modes are +available. The default I2C device address is 0x4d (contact the Microchip +factory for additional address options). diff --git a/Documentation/hwmon/menf21bmc.rst b/Documentation/hwmon/menf21bmc.rst new file mode 100644 index 0000000000..e7f3f67b38 --- /dev/null +++ b/Documentation/hwmon/menf21bmc.rst @@ -0,0 +1,55 @@ +Kernel driver menf21bmc_hwmon +============================= + +Supported chips: + + * MEN 14F021P00 + + Prefix: 'menf21bmc_hwmon' + + Addresses scanned: - + +Author: Andreas Werner <andreas.werner@men.de> + +Description +----------- + +The menf21bmc is a Board Management Controller (BMC) which provides an I2C +interface to the host to access the features implemented in the BMC. + +This driver gives access to the voltage monitoring feature of the main +voltages of the board. +The voltage sensors are connected to the ADC inputs of the BMC which is +a PIC16F917 Mikrocontroller. + +Usage Notes +----------- + +This driver is part of the MFD driver named "menf21bmc" and does +not auto-detect devices. +You will have to instantiate the MFD driver explicitly. +Please see Documentation/i2c/instantiating-devices.rst for +details. + +Sysfs entries +------------- + +The following attributes are supported. All attributes are read only +The Limits are read once by the driver. + +=============== ========================== +in0_input +3.3V input voltage +in1_input +5.0V input voltage +in2_input +12.0V input voltage +in3_input +5V Standby input voltage +in4_input VBAT (on board battery) + +in[0-4]_min Minimum voltage limit +in[0-4]_max Maximum voltage limit + +in0_label "MON_3_3V" +in1_label "MON_5V" +in2_label "MON_12V" +in3_label "5V_STANDBY" +in4_label "VBAT" +=============== ========================== diff --git a/Documentation/hwmon/mlxreg-fan.rst b/Documentation/hwmon/mlxreg-fan.rst new file mode 100644 index 0000000000..c92b8e885f --- /dev/null +++ b/Documentation/hwmon/mlxreg-fan.rst @@ -0,0 +1,70 @@ +Kernel driver mlxreg-fan +======================== + +Provides FAN control for the next Mellanox systems: + +- QMB700, equipped with 40x200GbE InfiniBand ports; +- MSN3700, equipped with 32x200GbE or 16x400GbE Ethernet ports; +- MSN3410, equipped with 6x400GbE plus 48x50GbE Ethernet ports; +- MSN3800, equipped with 64x1000GbE Ethernet ports; + +Author: Vadim Pasternak <vadimp@mellanox.com> + +These are the Top of the Rack systems, equipped with Mellanox switch +board with Mellanox Quantum or Spectrume-2 devices. +FAN controller is implemented by the programmable device logic. + +The default registers offsets set within the programmable device is as +following: + +======================= ==== +pwm1 0xe3 +fan1 (tacho1) 0xe4 +fan2 (tacho2) 0xe5 +fan3 (tacho3) 0xe6 +fan4 (tacho4) 0xe7 +fan5 (tacho5) 0xe8 +fan6 (tacho6) 0xe9 +fan7 (tacho7) 0xea +fan8 (tacho8) 0xeb +fan9 (tacho9) 0xec +fan10 (tacho10) 0xed +fan11 (tacho11) 0xee +fan12 (tacho12) 0xef +======================= ==== + +This setup can be re-programmed with other registers. + +Description +----------- + +The driver implements a simple interface for driving a fan connected to +a PWM output and tachometer inputs. +This driver obtains PWM and tachometers registers location according to +the system configuration and creates FAN/PWM hwmon objects and a cooling +device. PWM and tachometers are sensed through the on-board programmable +device, which exports its register map. This device could be attached to +any bus type, for which register mapping is supported. +Single instance is created with one PWM control, up to 12 tachometers and +one cooling device. It could be as many instances as programmable device +supports. +The driver exposes the fan to the user space through the hwmon's and +thermal's sysfs interfaces. + +/sys files in hwmon subsystem +----------------------------- + +================= == =================================================== +fan[1-12]_fault RO files for tachometers TACH1-TACH12 fault indication +fan[1-12]_input RO files for tachometers TACH1-TACH12 input (in RPM) +pwm1 RW file for fan[1-12] target duty cycle (0..255) +================= == =================================================== + +/sys files in thermal subsystem +------------------------------- + +================= == ==================================================== +cur_state RW file for current cooling state of the cooling device + (0..max_state) +max_state RO file for maximum cooling state of the cooling device +================= == ==================================================== diff --git a/Documentation/hwmon/mp2888.rst b/Documentation/hwmon/mp2888.rst new file mode 100644 index 0000000000..5e578fd7b1 --- /dev/null +++ b/Documentation/hwmon/mp2888.rst @@ -0,0 +1,113 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver mp2888 +==================== + +Supported chips: + + * MPS MP12254 + + Prefix: 'mp2888' + +Author: + + Vadim Pasternak <vadimp@nvidia.com> + +Description +----------- + +This driver implements support for Monolithic Power Systems, Inc. (MPS) +vendor dual-loop, digital, multi-phase controller MP2888. + +This device: supports: + +- One power rail. +- Programmable Multi-Phase up to 10 Phases. +- PWM-VID Interface +- One pages 0 for telemetry. +- Programmable pins for PMBus Address. +- Built-In EEPROM to Store Custom Configurations. + +Device complaint with: + +- PMBus rev 1.3 interface. + +Device supports direct format for reading output current, output voltage, +input and output power and temperature. +Device supports linear format for reading input voltage and input power. + +The driver provides the next attributes for the current: + +- for current out input and maximum alarm; +- for phase current: input and label. + +The driver exports the following attributes via the 'sysfs' files, where: + +- 'n' is number of configured phases (from 1 to 10); +- index 1 for "iout"; +- indexes 2 ... 1 + n for phases. + +**curr[1-{1+n}]_input** + +**curr[1-{1+n}]_label** + +**curr1_max** + +**curr1_max_alarm** + +The driver provides the next attributes for the voltage: + +- for voltage in: input, low and high critical thresholds, low and high + critical alarms; +- for voltage out: input and high alarm; + +The driver exports the following attributes via the 'sysfs' files, where + +**in1_crit** + +**in1_crit_alarm** + +**in1_input** + +**in1_label** + +**in1_min** + +**in1_min_alarm** + +**in2_alarm** + +**in2_input** + +**in2_label** + +The driver provides the next attributes for the power: + +- for power in alarm and input. +- for power out: cap, cap alarm an input. + +The driver exports the following attributes via the 'sysfs' files, where +- indexes 1 for "pin"; +- indexes 2 for "pout"; + +**power1_alarm** + +**power1_input** + +**power1_label** + +**power2_input** + +**power2_label** + +**power2_max** + +**power2_max_alarm** + +The driver provides the next attributes for the temperature: + +**temp1_input** + +**temp1_max** + +**temp1_max_alarm** diff --git a/Documentation/hwmon/mp2975.rst b/Documentation/hwmon/mp2975.rst new file mode 100644 index 0000000000..81d816b714 --- /dev/null +++ b/Documentation/hwmon/mp2975.rst @@ -0,0 +1,128 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver mp2975 +==================== + +Supported chips: + + * MPS MP12254 + + Prefix: 'mp2975' + +Author: + + Vadim Pasternak <vadimp@nvidia.com> + +Description +----------- + +This driver implements support for Monolithic Power Systems, Inc. (MPS) +vendor dual-loop, digital, multi-phase controller MP2975. + +This device: + +- Supports up to two power rail. +- Provides 8 pulse-width modulations (PWMs), and can be configured up + to 8-phase operation for rail 1 and up to 4-phase operation for rail + 2. +- Supports two pages 0 and 1 for telemetry and also pages 2 and 3 for + configuration. +- Can configured VOUT readout in direct or VID format and allows + setting of different formats on rails 1 and 2. For VID the following + protocols are available: VR13 mode with 5-mV DAC; VR13 mode with + 10-mV DAC, IMVP9 mode with 5-mV DAC. + +Device supports: + +- SVID interface. +- AVSBus interface. + +Device complaint with: + +- PMBus rev 1.3 interface. + +Device supports direct format for reading output current, output voltage, +input and output power and temperature. +Device supports linear format for reading input voltage and input power. +Device supports VID and direct formats for reading output voltage. +The below VID modes are supported: VR12, VR13, IMVP9. + +The driver provides the next attributes for the current: + +- for current in: input, maximum alarm; +- for current out input, maximum alarm and highest values; +- for phase current: input and label. + attributes. + +The driver exports the following attributes via the 'sysfs' files, where + +- 'n' is number of telemetry pages (from 1 to 2); +- 'k' is number of configured phases (from 1 to 8); +- indexes 1, 1*n for "iin"; +- indexes n+1, n+2 for "iout"; +- indexes 2*n+1 ... 2*n + k for phases. + +**curr[1-{2n}]_alarm** + +**curr[{n+1}-{n+2}]_highest** + +**curr[1-{2n+k}]_input** + +**curr[1-{2n+k}]_label** + +The driver provides the next attributes for the voltage: + +- for voltage in: input, high critical threshold, high critical alarm, all only + from page 0; +- for voltage out: input, low and high critical thresholds, low and high + critical alarms, from pages 0 and 1; + +The driver exports the following attributes via the 'sysfs' files, where + +- 'n' is number of telemetry pages (from 1 to 2); +- indexes 1 for "iin"; +- indexes n+1, n+2 for "vout"; + +**in[1-{2n+1}]_crit** + +**in[1-{2n+1}]_crit_alarm** + +**in[1-{2n+1}]_input** + +**in[1-{2n+1}]_label** + +**in[2-{n+1}]_lcrit** + +**in[2-{n+1}1_lcrit_alarm** + +The driver provides the next attributes for the power: + +- for power in alarm and input. +- for power out: highest and input. + +The driver exports the following attributes via the 'sysfs' files, where + +- 'n' is number of telemetry pages (from 1 to 2); +- indexes 1 for "pin"; +- indexes n+1, n+2 for "pout"; + +**power1_alarm** + +**power[2-{n+1}]_highest** + +**power[1-{2n+1}]_input** + +**power[1-{2n+1}]_label** + +The driver provides the next attributes for the temperature (only from page 0): + + +**temp1_crit** + +**temp1_crit_alarm** + +**temp1_input** + +**temp1_max** + +**temp1_max_alarm** diff --git a/Documentation/hwmon/mp5023.rst b/Documentation/hwmon/mp5023.rst new file mode 100644 index 0000000000..af5ab1345a --- /dev/null +++ b/Documentation/hwmon/mp5023.rst @@ -0,0 +1,84 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver mp5023 +==================== + +Supported chips: + + * MPS MP5023 + + Prefix: 'mp5023' + + * Datasheet + + Publicly available at the MPS website : https://www.monolithicpower.com/en/mp5023.html + +Author: + + Howard Chiu <howard.chiu@quantatw.com> + +Description +----------- + +This driver implements support for Monolithic Power Systems, Inc. (MPS) +MP5023 Hot-Swap Controller. + +Device complaint with: + +- PMBus rev 1.3 interface. + +Device supports direct format for reading input voltage, output voltage, +output current, input power and temperature. + +The driver exports the following attributes via the 'sysfs' files +for input voltage: + +**in1_input** + +**in1_label** + +**in1_max** + +**in1_max_alarm** + +**in1_min** + +**in1_min_alarm** + +The driver provides the following attributes for output voltage: + +**in2_input** + +**in2_label** + +**in2_alarm** + +The driver provides the following attributes for output current: + +**curr1_input** + +**curr1_label** + +**curr1_alarm** + +**curr1_max** + +The driver provides the following attributes for input power: + +**power1_input** + +**power1_label** + +**power1_alarm** + +The driver provides the following attributes for temperature: + +**temp1_input** + +**temp1_max** + +**temp1_max_alarm** + +**temp1_crit** + +**temp1_crit_alarm** diff --git a/Documentation/hwmon/nct6683.rst b/Documentation/hwmon/nct6683.rst new file mode 100644 index 0000000000..2e1408d174 --- /dev/null +++ b/Documentation/hwmon/nct6683.rst @@ -0,0 +1,66 @@ +Kernel driver nct6683 +===================== + +Supported chips: + + * Nuvoton NCT6683D/NCT6687D + + Prefix: 'nct6683' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + +Authors: + + Guenter Roeck <linux@roeck-us.net> + +Description +----------- + +This driver implements support for the Nuvoton NCT6683D eSIO chip. + +The chips implement up to shared 32 temperature and voltage sensors. +It supports up to 16 fan rotation sensors and up to 8 fan control engines. + +Temperatures are measured in degrees Celsius. Measurement resolution is +0.5 degrees C. + +Voltage sensors (also known as IN sensors) report their values in millivolts. + +Fan rotation speeds are reported in RPM (rotations per minute). + +Usage Note +---------- + +Limit register locations on Intel boards with EC firmware version 1.0 +build date 04/03/13 do not match the register locations in the Nuvoton +datasheet. Nuvoton confirms that Intel uses a special firmware version +with different register addresses. The specification describing the Intel +firmware is held under NDA by Nuvoton and Intel and not available +to the public. + +Some of the register locations can be reverse engineered; others are too +well hidden. Given this, writing any values from the operating system is +considered too risky with this firmware and has been disabled. All limits +must all be written from the BIOS. + +The driver has only been tested with the Intel firmware, and by default +only instantiates on Intel boards. To enable it on non-Intel boards, +set the 'force' module parameter to 1. + +Tested Boards and Firmware Versions +----------------------------------- + +The driver has been reported to work with the following boards and +firmware versions. + +=============== =============================================== +Board Firmware version +=============== =============================================== +Intel DH87RL NCT6683D EC firmware version 1.0 build 04/03/13 +Intel DH87MC NCT6683D EC firmware version 1.0 build 04/03/13 +Intel DB85FL NCT6683D EC firmware version 1.0 build 04/03/13 +ASRock X570 NCT6683D EC firmware version 1.0 build 06/28/19 +MSI B550 NCT6687D EC firmware version 1.0 build 05/07/20 +=============== =============================================== diff --git a/Documentation/hwmon/nct6775.rst b/Documentation/hwmon/nct6775.rst new file mode 100644 index 0000000000..9d7a10de61 --- /dev/null +++ b/Documentation/hwmon/nct6775.rst @@ -0,0 +1,289 @@ +Kernel driver NCT6775 +===================== + +.. note:: + + This driver supersedes the NCT6775F and NCT6776F support in the W83627EHF + driver. + +Supported chips: + + * Nuvoton NCT6102D/NCT6104D/NCT6106D + + Prefix: 'nct6106' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from the Nuvoton web site + + * Nuvoton NCT5572D/NCT6771F/NCT6772F/NCT6775F/W83677HG-I + + Prefix: 'nct6775' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT5573D/NCT5577D/NCT6776D/NCT6776F + + Prefix: 'nct6776' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT5532D/NCT6779D + + Prefix: 'nct6779' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT6791D + + Prefix: 'nct6791' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT6792D + + Prefix: 'nct6792' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT6793D + + Prefix: 'nct6793' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT6795D + + Prefix: 'nct6795' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT6796D + + Prefix: 'nct6796' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT6796D-S/NCT6799D-R + + Prefix: 'nct6799' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + +Authors: + + Guenter Roeck <linux@roeck-us.net> + +Description +----------- + +This driver implements support for the Nuvoton NCT6775F, NCT6776F, and NCT6779D +and compatible super I/O chips. + +The chips support up to 25 temperature monitoring sources. Up to 6 of those are +direct temperature sensor inputs, the others are special sources such as PECI, +PCH, and SMBUS. Depending on the chip type, 2 to 6 of the temperature sources +can be monitored and compared against minimum, maximum, and critical +temperatures. The driver reports up to 10 of the temperatures to the user. +There are 4 to 5 fan rotation speed sensors, 8 to 15 analog voltage sensors, +one VID, alarms with beep warnings (control unimplemented), and some automatic +fan regulation strategies (plus manual fan control mode). + +The temperature sensor sources on all chips are configurable. The configured +source for each of the temperature sensors is provided in tempX_label. + +Temperatures are measured in degrees Celsius and measurement resolution is +either 1 degC or 0.5 degC, depending on the temperature source and +configuration. An alarm is triggered when the temperature gets higher than +the high limit; it stays on until the temperature falls below the hysteresis +value. Alarms are only supported for temp1 to temp6, depending on the chip type. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. On +NCT6775F, fan readings can be divided by a programmable divider (1, 2, 4, 8, +16, 32, 64 or 128) to give the readings more range or accuracy; the other chips +do not have a fan speed divider. The driver sets the most suitable fan divisor +itself; specifically, it increases the divider value each time a fan speed +reading returns an invalid value, and it reduces it if the fan speed reading +is lower than optimal. Some fans might not be present because they share pins +with other functions. + +Voltage sensors (also known as IN sensors) report their values in millivolts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. + +The driver supports automatic fan control mode known as Thermal Cruise. +In this mode, the chip attempts to keep the measured temperature in a +predefined temperature range. If the temperature goes out of range, fan +is driven slower/faster to reach the predefined range again. + +The mode works for fan1-fan5. + +sysfs attributes +---------------- + +pwm[1-7] + - this file stores PWM duty cycle or DC value (fan speed) in range: + + 0 (lowest speed) to 255 (full) + +pwm[1-7]_enable + - this file controls mode of fan/temperature control: + + * 0 Fan control disabled (fans set to maximum speed) + * 1 Manual mode, write to pwm[0-5] any value 0-255 + * 2 "Thermal Cruise" mode + * 3 "Fan Speed Cruise" mode + * 4 "Smart Fan III" mode (NCT6775F only) + * 5 "Smart Fan IV" mode + +pwm[1-7]_mode + - controls if output is PWM or DC level + + * 0 DC output + * 1 PWM output + +Common fan control attributes +----------------------------- + +pwm[1-7]_temp_sel + Temperature source. Value is temperature sensor index. + For example, select '1' for temp1_input. + +pwm[1-7]_weight_temp_sel + Secondary temperature source. Value is temperature + sensor index. For example, select '1' for temp1_input. + Set to 0 to disable secondary temperature control. + +If secondary temperature functionality is enabled, it is controlled with the +following attributes. + +pwm[1-7]_weight_duty_step + Duty step size. + +pwm[1-7]_weight_temp_step + Temperature step size. With each step over + temp_step_base, the value of weight_duty_step is added + to the current pwm value. + +pwm[1-7]_weight_temp_step_base + Temperature at which secondary temperature control kicks + in. + +pwm[1-7]_weight_temp_step_tol + Temperature step tolerance. + +Thermal Cruise mode (2) +----------------------- + +If the temperature is in the range defined by: + +pwm[1-7]_target_temp + Target temperature, unit millidegree Celsius + (range 0 - 127000) + +pwm[1-7]_temp_tolerance + Target temperature tolerance, unit millidegree Celsius + +There are no changes to fan speed. Once the temperature leaves the interval, fan +speed increases (if temperature is higher that desired) or decreases (if +temperature is lower than desired), using the following limits and time +intervals. + +pwm[1-7]_start + fan pwm start value (range 1 - 255), to start fan + when the temperature is above defined range. + +pwm[1-7]_floor + lowest fan pwm (range 0 - 255) if temperature is below + the defined range. If set to 0, the fan is expected to + stop if the temperature is below the defined range. + +pwm[1-7]_step_up_time + milliseconds before fan speed is increased + +pwm[1-7]_step_down_time + milliseconds before fan speed is decreased + +pwm[1-7]_stop_time + how many milliseconds must elapse to switch + corresponding fan off (when the temperature was below + defined range). + +Speed Cruise mode (3) +--------------------- + +This modes tries to keep the fan speed constant. + +fan[1-7]_target + Target fan speed + +fan[1-7]_tolerance + Target speed tolerance + + +Untested; use at your own risk. + +Smart Fan IV mode (5) +--------------------- + +This mode offers multiple slopes to control the fan speed. The slopes can be +controlled by setting the pwm and temperature attributes. When the temperature +rises, the chip will calculate the DC/PWM output based on the current slope. +There are up to seven data points depending on the chip type. Subsequent data +points should be set to higher temperatures and higher pwm values to achieve +higher fan speeds with increasing temperature. The last data point reflects +critical temperature mode, in which the fans should run at full speed. + +pwm[1-7]_auto_point[1-7]_pwm + pwm value to be set if temperature reaches matching + temperature range. + +pwm[1-7]_auto_point[1-7]_temp + Temperature over which the matching pwm is enabled. + +pwm[1-7]_temp_tolerance + Temperature tolerance, unit millidegree Celsius + +pwm[1-7]_crit_temp_tolerance + Temperature tolerance for critical temperature, + unit millidegree Celsius + +pwm[1-7]_step_up_time + milliseconds before fan speed is increased + +pwm[1-7]_step_down_time + milliseconds before fan speed is decreased + +Usage Notes +----------- + +On various ASUS boards with NCT6776F, it appears that CPUTIN is not really +connected to anything and floats, or that it is connected to some non-standard +temperature measurement device. As a result, the temperature reported on CPUTIN +will not reflect a usable value. It often reports unreasonably high +temperatures, and in some cases the reported temperature declines if the actual +temperature increases (similar to the raw PECI temperature value - see PECI +specification for details). CPUTIN should therefore be ignored on ASUS +boards. The CPU temperature on ASUS boards is reported from PECI 0 or TSI 0. + +NCT6796D-S and NCT6799D-R chips are very similar and their chip_id indicates +they are different versions. This driver treats them the same way. diff --git a/Documentation/hwmon/nct7802.rst b/Documentation/hwmon/nct7802.rst new file mode 100644 index 0000000000..8b7365a7cb --- /dev/null +++ b/Documentation/hwmon/nct7802.rst @@ -0,0 +1,38 @@ +Kernel driver nct7802 +===================== + +Supported chips: + + * Nuvoton NCT7802Y + + Prefix: 'nct7802' + + Addresses scanned: I2C 0x28..0x2f + + Datasheet: Available from Nuvoton web site + +Authors: + + Guenter Roeck <linux@roeck-us.net> + +Description +----------- + +This driver implements support for the Nuvoton NCT7802Y hardware monitoring +chip. NCT7802Y supports 6 temperature sensors, 5 voltage sensors, and 3 fan +speed sensors. + +Smart Fanâ„¢ speed control is available via pwmX_auto_point attributes. + +Tested Boards and BIOS Versions +------------------------------- + +The driver has been reported to work with the following boards and +BIOS versions. + +======================= =============================================== +Board BIOS version +======================= =============================================== +Kontron COMe-bSC2 CHR2E934.001.GGO +Kontron COMe-bIP2 CCR2E212 +======================= =============================================== diff --git a/Documentation/hwmon/nct7904.rst b/Documentation/hwmon/nct7904.rst new file mode 100644 index 0000000000..5b2f111582 --- /dev/null +++ b/Documentation/hwmon/nct7904.rst @@ -0,0 +1,67 @@ +Kernel driver nct7904 +===================== + +Supported chip: + + * Nuvoton NCT7904D + + Prefix: nct7904 + + Addresses: I2C 0x2d, 0x2e + + Datasheet: Publicly available at Nuvoton website + + http://www.nuvoton.com/ + +Author: Vadim V. Vlasov <vvlasov@dev.rtsoft.ru> + + +Description +----------- + +The NCT7904D is a hardware monitor supporting up to 20 voltage sensors, +internal temperature sensor, Intel PECI and AMD SB-TSI CPU temperature +interface, up to 12 fan tachometer inputs, up to 4 fan control channels +with SmartFan. + + +Sysfs entries +------------- + +Currently, the driver supports only the following features: + +======================= ======================================================= +in[1-20]_input Input voltage measurements (mV) + +fan[1-12]_input Fan tachometer measurements (rpm) + +temp1_input Local temperature (1/1000 degree, + 0.125 degree resolution) + +temp[2-9]_input CPU temperatures (1/1000 degree, + 0.125 degree resolution) + +pwm[1-4]_enable R/W, 1/2 for manual or SmartFan mode + Setting SmartFan mode is supported only if it has been + previously configured by BIOS (or configuration EEPROM) + +pwm[1-4] R/O in SmartFan mode, R/W in manual control mode +======================= ======================================================= + +The driver checks sensor control registers and does not export the sensors +that are not enabled. Anyway, a sensor that is enabled may actually be not +connected and thus provide zero readings. + + +Limitations +----------- + +The following features are not supported in current version: + + - SmartFan control + - Watchdog + - GPIO + - external temperature sensors + - SMI + - min/max values + - many other... diff --git a/Documentation/hwmon/npcm750-pwm-fan.rst b/Documentation/hwmon/npcm750-pwm-fan.rst new file mode 100644 index 0000000000..c67af08b67 --- /dev/null +++ b/Documentation/hwmon/npcm750-pwm-fan.rst @@ -0,0 +1,26 @@ +Kernel driver npcm750-pwm-fan +============================= + +Supported chips: + + NUVOTON NPCM750/730/715/705 + +Authors: + + <tomer.maimon@nuvoton.com> + +Description: +------------ +This driver implements support for NUVOTON NPCM7XX PWM and Fan Tacho +controller. The PWM controller supports up to 8 PWM outputs. The Fan tacho +controller supports up to 16 tachometer inputs. + +The driver provides the following sensor accesses in sysfs: + +=============== ======= ===================================================== +fanX_input ro provide current fan rotation value in RPM as reported + by the fan to the device. + +pwmX rw get or set PWM fan control value. This is an integer + value between 0(off) and 255(full speed). +=============== ======= ===================================================== diff --git a/Documentation/hwmon/nsa320.rst b/Documentation/hwmon/nsa320.rst new file mode 100644 index 0000000000..4fe75fd2f9 --- /dev/null +++ b/Documentation/hwmon/nsa320.rst @@ -0,0 +1,64 @@ +Kernel driver nsa320_hwmon +========================== + +Supported chips: + + * Holtek HT46R065 microcontroller with onboard firmware that configures + + it to act as a hardware monitor. + + Prefix: 'nsa320' + + Addresses scanned: none + + Datasheet: Not available, driver was reverse engineered based upon the + + Zyxel kernel source + + + +Author: + + Adam Baker <linux@baker-net.org.uk> + +Description +----------- + +This chip is known to be used in the Zyxel NSA320 and NSA325 NAS Units and +also in some variants of the NSA310 but the driver has only been tested +on the NSA320. In all of these devices it is connected to the same 3 GPIO +lines which are used to provide chip select, clock and data lines. The +interface behaves similarly to SPI but at much lower speeds than are normally +used for SPI. + +Following each chip select pulse the chip will generate a single 32 bit word +that contains 0x55 as a marker to indicate that data is being read correctly, +followed by an 8 bit fan speed in 100s of RPM and a 16 bit temperature in +tenths of a degree. + + +sysfs-Interface +--------------- + +============= ================= +temp1_input temperature input +fan1_input fan speed +============= ================= + +Notes +----- + +The access timings used in the driver are the same as used in the Zyxel +provided kernel. Testing has shown that if the delay between chip select and +the first clock pulse is reduced from 100 ms to just under 10ms then the chip +will not produce any output. If the duration of either phase of the clock +is reduced from 100 us to less than 15 us then data pulses are likely to be +read twice corrupting the output. The above analysis is based upon a sample +of one unit but suggests that the Zyxel provided delay values include a +reasonable tolerance. + +The driver incorporates a limit that it will not check for updated values +faster than once a second. This is because the hardware takes a relatively long +time to read the data from the device and when it does it reads both temp and +fan speed. As the most likely case for two accesses in quick succession is +to read both of these values avoiding a second read delay is desirable. diff --git a/Documentation/hwmon/ntc_thermistor.rst b/Documentation/hwmon/ntc_thermistor.rst new file mode 100644 index 0000000000..d0e7f91726 --- /dev/null +++ b/Documentation/hwmon/ntc_thermistor.rst @@ -0,0 +1,111 @@ +Kernel driver ntc_thermistor +============================ + +Supported thermistors from Murata: + +* Murata NTC Thermistors NCP15WB473, NCP18WB473, NCP21WB473, NCP03WB473, + NCP15WL333, NCP03WF104, NCP15XH103 + + Prefixes: 'ncp15wb473', 'ncp18wb473', 'ncp21wb473', 'ncp03wb473', + 'ncp15wl333', 'ncp03wf104', 'ncp15xh103' + + Datasheet: Publicly available at Murata + +Supported thermistors from EPCOS: + +* EPCOS NTC Thermistors B57330V2103 + + Prefixes: b57330v2103 + + Datasheet: Publicly available at EPCOS + +Other NTC thermistors can be supported simply by adding compensation +tables; e.g., NCP15WL333 support is added by the table ncpXXwl333. + +Authors: + + MyungJoo Ham <myungjoo.ham@samsung.com> + +Description +----------- + +The NTC (Negative Temperature Coefficient) thermistor is a simple thermistor +that requires users to provide the resistance and lookup the corresponding +compensation table to get the temperature input. + +The NTC driver provides lookup tables with a linear approximation function +and four circuit models with an option not to use any of the four models. + +Using the following convention:: + + $ resistor + [TH] the thermistor + +The four circuit models provided are: + +1. connect = NTC_CONNECTED_POSITIVE, pullup_ohm > 0:: + + [pullup_uV] + | | + [TH] $ (pullup_ohm) + | | + +----+-----------------------[read_uV] + | + $ (pulldown_ohm) + | + -+- (ground) + +2. connect = NTC_CONNECTED_POSITIVE, pullup_ohm = 0 (not-connected):: + + [pullup_uV] + | + [TH] + | + +----------------------------[read_uV] + | + $ (pulldown_ohm) + | + -+- (ground) + +3. connect = NTC_CONNECTED_GROUND, pulldown_ohm > 0:: + + [pullup_uV] + | + $ (pullup_ohm) + | + +----+-----------------------[read_uV] + | | + [TH] $ (pulldown_ohm) + | | + -+----+- (ground) + +4. connect = NTC_CONNECTED_GROUND, pulldown_ohm = 0 (not-connected):: + + [pullup_uV] + | + $ (pullup_ohm) + | + +----------------------------[read_uV] + | + [TH] + | + -+- (ground) + +When one of the four circuit models is used, read_uV, pullup_uV, pullup_ohm, +pulldown_ohm, and connect should be provided. When none of the four models +are suitable or the user can get the resistance directly, the user should +provide read_ohm and _not_ provide the others. + +Sysfs Interface +--------------- + +=============== == ============================================================= +name the mandatory global attribute, the thermistor name. +=============== == ============================================================= +temp1_type RO always 4 (thermistor) + +temp1_input RO measure the temperature and provide the measured value. + (reading this file initiates the reading procedure.) +=============== == ============================================================= + +Note that each NTC thermistor has only _one_ thermistor; thus, only temp1 exists. diff --git a/Documentation/hwmon/nzxt-kraken2.rst b/Documentation/hwmon/nzxt-kraken2.rst new file mode 100644 index 0000000000..94025de65a --- /dev/null +++ b/Documentation/hwmon/nzxt-kraken2.rst @@ -0,0 +1,42 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver nzxt-kraken2 +========================== + +Supported devices: + +* NZXT Kraken X42 +* NZXT Kraken X52 +* NZXT Kraken X62 +* NZXT Kraken X72 + +Author: Jonas Malaco + +Description +----------- + +This driver enables hardware monitoring support for NZXT Kraken X42/X52/X62/X72 +all-in-one CPU liquid coolers. Three sensors are available: fan speed, pump +speed and coolant temperature. + +Fan and pump control, while supported by the firmware, are not currently +exposed. The addressable RGB LEDs, present in the integrated CPU water block +and pump head, are not supported either. But both features can be found in +existing user-space tools (e.g. `liquidctl`_). + +.. _liquidctl: https://github.com/liquidctl/liquidctl + +Usage Notes +----------- + +As these are USB HIDs, the driver can be loaded automatically by the kernel and +supports hot swapping. + +Sysfs entries +------------- + +======================= ======================================================== +fan1_input Fan speed (in rpm) +fan2_input Pump speed (in rpm) +temp1_input Coolant temperature (in millidegrees Celsius) +======================= ======================================================== diff --git a/Documentation/hwmon/nzxt-smart2.rst b/Documentation/hwmon/nzxt-smart2.rst new file mode 100644 index 0000000000..d9d1b27426 --- /dev/null +++ b/Documentation/hwmon/nzxt-smart2.rst @@ -0,0 +1,62 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver nzxt-smart2 +========================= + +Supported devices: + +- NZXT RGB & Fan controller +- NZXT Smart Device v2 + +Description +----------- + +This driver implements monitoring and control of fans plugged into the device. +Besides typical speed monitoring and PWM duty cycle control, voltage and current +is reported for every fan. + +The device also has two connectors for RGB LEDs; support for them isn't +implemented (mainly because there is no standardized sysfs interface). + +Also, the device has a noise sensor, but the sensor seems to be completely +useless (and very imprecise), so support for it isn't implemented too. + +Usage Notes +----------- + +The device should be autodetected, and the driver should load automatically. + +If fans are plugged in/unplugged while the system is powered on, the driver +must be reloaded to detect configuration changes; otherwise, new fans can't +be controlled (`pwm*` changes will be ignored). It is necessary because the +device has a dedicated "detect fans" command, and currently, it is executed only +during initialization. Speed, voltage, current monitoring will work even without +reload. As an alternative to reloading the module, a userspace tool (like +`liquidctl`_) can be used to run "detect fans" command through hidraw interface. + +The driver coexists with userspace tools that access the device through hidraw +interface with no known issues. + +.. _liquidctl: https://github.com/liquidctl/liquidctl + +Sysfs entries +------------- + +======================= ======================================================== +fan[1-3]_input Fan speed monitoring (in rpm). +curr[1-3]_input Current supplied to the fan (in milliamperes). +in[0-2]_input Voltage supplied to the fan (in millivolts). +pwm[1-3] Controls fan speed: PWM duty cycle for PWM-controlled + fans, voltage for other fans. Voltage can be changed in + 9-12 V range, but the value of the sysfs attribute is + always in 0-255 range (1 = 9V, 255 = 12V). Setting the + attribute to 0 turns off the fan completely. +pwm[1-3]_enable 1 if the fan can be controlled by writing to the + corresponding pwm* attribute, 0 otherwise. The device + can control only the fans it detected itself, so the + attribute is read-only. +pwm[1-3]_mode Read-only, 1 for PWM-controlled fans, 0 for other fans + (or if no fan connected). +update_interval The interval at which all inputs are updated (in + milliseconds). The default is 1000ms. Minimum is 250ms. +======================= ======================================================== diff --git a/Documentation/hwmon/occ.rst b/Documentation/hwmon/occ.rst new file mode 100644 index 0000000000..bf41c162d7 --- /dev/null +++ b/Documentation/hwmon/occ.rst @@ -0,0 +1,153 @@ +Kernel driver occ-hwmon +======================= + +Supported chips: + + * POWER8 + * POWER9 + +Author: Eddie James <eajames@linux.ibm.com> + +Description +----------- + +This driver supports hardware monitoring for the On-Chip Controller (OCC) +embedded on POWER processors. The OCC is a device that collects and aggregates +sensor data from the processor and the system. The OCC can provide the raw +sensor data as well as perform thermal and power management on the system. + +The P8 version of this driver is a client driver of I2C. It may be probed +manually if an "ibm,p8-occ-hwmon" compatible device is found under the +appropriate I2C bus node in the device-tree. + +The P9 version of this driver is a client driver of the FSI-based OCC driver. +It will be probed automatically by the FSI-based OCC driver. + +Sysfs entries +------------- + +The following attributes are supported. All attributes are read-only unless +specified. + +The OCC sensor ID is an integer that represents the unique identifier of the +sensor with respect to the OCC. For example, a temperature sensor for the third +DIMM slot in the system may have a sensor ID of 7. This mapping is unavailable +to the device driver, which must therefore export the sensor ID as-is. + +Some entries are only present with certain OCC sensor versions or only on +certain OCCs in the system. The version number is not exported to the user +but can be inferred. + +temp[1-n]_label + OCC sensor ID. + +[with temperature sensor version 1] + + temp[1-n]_input + Measured temperature of the component in millidegrees + Celsius. + +[with temperature sensor version >= 2] + + temp[1-n]_type + The FRU (Field Replaceable Unit) type + (represented by an integer) for the component + that this sensor measures. + temp[1-n]_fault + Temperature sensor fault boolean; 1 to indicate + that a fault is present or 0 to indicate that + no fault is present. + + [with type == 3 (FRU type is VRM)] + + temp[1-n]_alarm + VRM temperature alarm boolean; 1 to indicate + alarm, 0 to indicate no alarm + + [else] + + temp[1-n]_input + Measured temperature of the component in + millidegrees Celsius. + +freq[1-n]_label + OCC sensor ID. +freq[1-n]_input + Measured frequency of the component in MHz. +power[1-n]_input + Latest measured power reading of the component in + microwatts. +power[1-n]_average + Average power of the component in microwatts. +power[1-n]_average_interval + The amount of time over which the power average + was taken in microseconds. + +[with power sensor version < 2] + + power[1-n]_label + OCC sensor ID. + +[with power sensor version >= 2] + + power[1-n]_label + OCC sensor ID + function ID + channel in the form + of a string, delimited by underscores, i.e. "0_15_1". + Both the function ID and channel are integers that + further identify the power sensor. + +[with power sensor version 0xa0] + + power[1-n]_label + OCC sensor ID + sensor type in the form of a string, + delimited by an underscore, i.e. "0_system". Sensor + type will be one of "system", "proc", "vdd" or "vdn". + For this sensor version, OCC sensor ID will be the same + for all power sensors. + +[present only on "master" OCC; represents the whole system power; only one of +this type of power sensor will be present] + + power[1-n]_label + "system" + power[1-n]_input + Latest system output power in microwatts. + power[1-n]_cap + Current system power cap in microwatts. + power[1-n]_cap_not_redundant + System power cap in microwatts when + there is not redundant power. + power[1-n]_cap_max + Maximum power cap that the OCC can enforce in + microwatts. + power[1-n]_cap_min Minimum power cap that the OCC can enforce in + microwatts. + power[1-n]_cap_user The power cap set by the user, in microwatts. + This attribute will return 0 if no user power + cap has been set. This attribute is read-write, + but writing any precision below watts will be + ignored, i.e. requesting a power cap of + 500900000 microwatts will result in a power cap + request of 500 watts. + + [with caps sensor version > 1] + + power[1-n]_cap_user_source + Indicates how the user power cap was + set. This is an integer that maps to + system or firmware components that can + set the user power cap. + +The following "extn" sensors are exported as a way for the OCC to provide data +that doesn't fit anywhere else. The meaning of these sensors is entirely +dependent on their data, and cannot be statically defined. + +extn[1-n]_label + ASCII ID or OCC sensor ID. +extn[1-n]_flags + This is one byte hexadecimal value. Bit 7 indicates the + type of the label attribute; 1 for sensor ID, 0 for + ASCII ID. Other bits are reserved. +extn[1-n]_input + 6 bytes of hexadecimal data, with a meaning defined by + the sensor ID. diff --git a/Documentation/hwmon/oxp-sensors.rst b/Documentation/hwmon/oxp-sensors.rst new file mode 100644 index 0000000000..3adeb74062 --- /dev/null +++ b/Documentation/hwmon/oxp-sensors.rst @@ -0,0 +1,70 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver oxp-sensors +========================= + +Authors: + - Derek John Clark <derekjohn.clark@gmail.com> + - JoaquÃn Ignacio AramendÃa <samsagax@gmail.com> + +Description: +------------ + +Handheld devices from One Netbook and Aya Neo provide fan readings and fan +control through their embedded controllers. + +Currently only supports AMD boards from One X Player, AOK ZOE, and some Aya +Neo devices. One X Player Intel boards could be supported if we could figure +out the EC registers and values to write to since the EC layout and model is +different. Aya Neo devices preceding the AIR may not be supportable as the EC +model is different and do not appear to have manual control capabilities. + +Some models have a toggle for changing the behaviour of the "Turbo/Silent" +button of the device. It will change the key event that it triggers with +a flip of the `tt_toggle` attribute. See below for boards that support this +function. + +Supported devices +----------------- + +Currently the driver supports the following handhelds: + + - AOK ZOE A1 + - AOK ZOE A1 PRO + - Aya Neo 2 + - Aya Neo AIR + - Aya Neo AIR Pro + - Aya Neo Geek + - OneXPlayer AMD + - OneXPlayer mini AMD + - OneXPlayer mini AMD PRO + +"Turbo/Silent" button behaviour toggle is only supported on: + - AOK ZOE A1 + - AOK ZOE A1 PRO + - OneXPlayer mini AMD (only with updated alpha BIOS) + - OneXPlayer mini AMD PRO + +Sysfs entries +------------- + +The following attributes are supported: + +fan1_input + Read Only. Reads current fan RMP. + +pwm1_enable + Read Write. Enable manual fan control. Write "1" to set to manual, write "0" + to let the EC control de fan speed. Read this attribute to see current status. + +pwm1 + Read Write. Read this attribute to see current duty cycle in the range [0-255]. + When pwm1_enable is set to "1" (manual) write any value in the range [0-255] + to set fan speed. + +tt_toggle + Read Write. Read this attribute to check the status of the turbo/silent + button behaviour function. Write "1" to activate the switch and "0" to + deactivate it. The specific keycodes and behaviour is specific to the device + both with this function on and off. This attribute is attached to the platform + driver and not to the hwmon driver (/sys/devices/platform/oxp-platform/tt_toggle) diff --git a/Documentation/hwmon/pc87360.rst b/Documentation/hwmon/pc87360.rst new file mode 100644 index 0000000000..4bad07bce5 --- /dev/null +++ b/Documentation/hwmon/pc87360.rst @@ -0,0 +1,198 @@ +Kernel driver pc87360 +===================== + +Supported chips: + + * National Semiconductor PC87360, PC87363, PC87364, PC87365 and PC87366 + + Prefixes: 'pc87360', 'pc87363', 'pc87364', 'pc87365', 'pc87366' + + Addresses scanned: none, address read from Super I/O config space + + Datasheets: No longer available + +Authors: Jean Delvare <jdelvare@suse.de> + +Thanks to Sandeep Mehta, Tonko de Rooy and Daniel Ceregatti for testing. + +Thanks to Rudolf Marek for helping me investigate conversion issues. + + +Module Parameters +----------------- + +* init int + Chip initialization level: + + - 0: None + - **1**: Forcibly enable internal voltage and temperature channels, + except in9 + - 2: Forcibly enable all voltage and temperature channels, except in9 + - 3: Forcibly enable all voltage and temperature channels, including in9 + +Note that this parameter has no effect for the PC87360, PC87363 and PC87364 +chips. + +Also note that for the PC87366, initialization levels 2 and 3 don't enable +all temperature channels, because some of them share pins with each other, +so they can't be used at the same time. + + +Description +----------- + +The National Semiconductor PC87360 Super I/O chip contains monitoring and +PWM control circuitry for two fans. The PC87363 chip is similar, and the +PC87364 chip has monitoring and PWM control for a third fan. + +The National Semiconductor PC87365 and PC87366 Super I/O chips are complete +hardware monitoring chipsets, not only controlling and monitoring three fans, +but also monitoring eleven voltage inputs and two (PC87365) or up to four +(PC87366) temperatures. + + =========== ======= ======= ======= ======= ===== + Chip #vin #fan #pwm #temp devid + =========== ======= ======= ======= ======= ===== + PC87360 - 2 2 - 0xE1 + PC87363 - 2 2 - 0xE8 + PC87364 - 3 3 - 0xE4 + PC87365 11 3 3 2 0xE5 + PC87366 11 3 3 3-4 0xE9 + =========== ======= ======= ======= ======= ===== + +The driver assumes that no more than one chip is present, and one of the +standard Super I/O addresses is used (0x2E/0x2F or 0x4E/0x4F) + +Fan Monitoring +-------------- + +Fan rotation speeds are reported in RPM (revolutions per minute). An alarm +is triggered if the rotation speed has dropped below a programmable limit. +A different alarm is triggered if the fan speed is too low to be measured. + +Fan readings are affected by a programmable clock divider, giving the +readings more range or accuracy. Usually, users have to learn how it works, +but this driver implements dynamic clock divider selection, so you don't +have to care no more. + +For reference, here are a few values about clock dividers: + + =========== =============== =============== =========== + slowest accuracy highest + measurable around 3000 accurate + divider speed (RPM) RPM (RPM) speed (RPM) + =========== =============== =============== =========== + 1 1882 18 6928 + 2 941 37 4898 + 4 470 74 3464 + 8 235 150 2449 + =========== =============== =============== =========== + +For the curious, here is how the values above were computed: + + * slowest measurable speed: clock/(255*divider) + * accuracy around 3000 RPM: 3000^2/clock + * highest accurate speed: sqrt(clock*100) + +The clock speed for the PC87360 family is 480 kHz. I arbitrarily chose 100 +RPM as the lowest acceptable accuracy. + +As mentioned above, you don't have to care about this no more. + +Note that not all RPM values can be represented, even when the best clock +divider is selected. This is not only true for the measured speeds, but +also for the programmable low limits, so don't be surprised if you try to +set, say, fan1_min to 2900 and it finally reads 2909. + + +Fan Control +----------- + +PWM (pulse width modulation) values range from 0 to 255, with 0 meaning +that the fan is stopped, and 255 meaning that the fan goes at full speed. + +Be extremely careful when changing PWM values. Low PWM values, even +non-zero, can stop the fan, which may cause irreversible damage to your +hardware if temperature increases too much. When changing PWM values, go +step by step and keep an eye on temperatures. + +One user reported problems with PWM. Changing PWM values would break fan +speed readings. No explanation nor fix could be found. + + +Temperature Monitoring +---------------------- + +Temperatures are reported in degrees Celsius. Each temperature measured has +associated low, high and overtemperature limits, each of which triggers an +alarm when crossed. + +The first two temperature channels are external. The third one (PC87366 +only) is internal. + +The PC87366 has three additional temperature channels, based on +thermistors (as opposed to thermal diodes for the first three temperature +channels). For technical reasons, these channels are held by the VLM +(voltage level monitor) logical device, not the TMS (temperature +measurement) one. As a consequence, these temperatures are exported as +voltages, and converted into temperatures in user-space. + +Note that these three additional channels share their pins with the +external thermal diode channels, so you (physically) can't use them all at +the same time. Although it should be possible to mix the two sensor types, +the documents from National Semiconductor suggest that motherboard +manufacturers should choose one type and stick to it. So you will more +likely have either channels 1 to 3 (thermal diodes) or 3 to 6 (internal +thermal diode, and thermistors). + + +Voltage Monitoring +------------------ + +Voltages are reported relatively to a reference voltage, either internal or +external. Some of them (in7:Vsb, in8:Vdd and in10:AVdd) are divided by two +internally, you will have to compensate in sensors.conf. Others (in0 to in6) +are likely to be divided externally. The meaning of each of these inputs as +well as the values of the resistors used for division is left to the +motherboard manufacturers, so you will have to document yourself and edit +sensors.conf accordingly. National Semiconductor has a document with +recommended resistor values for some voltages, but this still leaves much +room for per motherboard specificities, unfortunately. Even worse, +motherboard manufacturers don't seem to care about National Semiconductor's +recommendations. + +Each voltage measured has associated low and high limits, each of which +triggers an alarm when crossed. + +When available, VID inputs are used to provide the nominal CPU Core voltage. +The driver will default to VRM 9.0, but this can be changed from user-space. +The chipsets can handle two sets of VID inputs (on dual-CPU systems), but +the driver will only export one for now. This may change later if there is +a need. + + +General Remarks +--------------- + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may already +have disappeared! Note that all hardware registers are read whenever any +data is read (unless it is less than 2 seconds since the last update, in +which case cached values are returned instead). As a consequence, when +a once-only alarm triggers, it may take 2 seconds for it to show, and 2 +more seconds for it to disappear. + +Monitoring of in9 isn't enabled at lower init levels (<3) because that +channel measures the battery voltage (Vbat). It is a known fact that +repeatedly sampling the battery voltage reduces its lifetime. National +Semiconductor smartly designed their chipset so that in9 is sampled only +once every 1024 sampling cycles (that is every 34 minutes at the default +sampling rate), so the effect is attenuated, but still present. + + +Limitations +----------- + +The datasheets suggests that some values (fan mins, fan dividers) +shouldn't be changed once the monitoring has started, but we ignore that +recommendation. We'll reconsider if it actually causes trouble. diff --git a/Documentation/hwmon/pc87427.rst b/Documentation/hwmon/pc87427.rst new file mode 100644 index 0000000000..22d8f62d85 --- /dev/null +++ b/Documentation/hwmon/pc87427.rst @@ -0,0 +1,63 @@ +Kernel driver pc87427 +===================== + +Supported chips: + + * National Semiconductor PC87427 + + Prefix: 'pc87427' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: No longer available + +Author: Jean Delvare <jdelvare@suse.de> + +Thanks to Amir Habibi at Candelis for setting up a test system, and to +Michael Kress for testing several iterations of this driver. + + +Description +----------- + +The National Semiconductor Super I/O chip includes complete hardware +monitoring capabilities. It can monitor up to 18 voltages, 8 fans and +6 temperature sensors. Only the fans and temperatures are supported at +the moment, voltages aren't. + +This chip also has fan controlling features (up to 4 PWM outputs), +which are partly supported by this driver. + +The driver assumes that no more than one chip is present, which seems +reasonable. + + +Fan Monitoring +-------------- + +Fan rotation speeds are reported as 14-bit values from a gated clock +signal. Speeds down to 83 RPM can be measured. + +An alarm is triggered if the rotation speed drops below a programmable +limit. Another alarm is triggered if the speed is too low to be measured +(including stalled or missing fan). + + +Fan Speed Control +----------------- + +Fan speed can be controlled by PWM outputs. There are 4 possible modes: +always off, always on, manual and automatic. The latter isn't supported +by the driver: you can only return to that mode if it was the original +setting, and the configuration interface is missing. + + +Temperature Monitoring +---------------------- + +The PC87427 relies on external sensors (following the SensorPath +standard), so the resolution and range depend on the type of sensor +connected. The integer part can be 8-bit or 9-bit, and can be signed or +not. I couldn't find a way to figure out the external sensor data +temperature format, so user-space adjustment (typically by a factor 2) +may be required. diff --git a/Documentation/hwmon/pcf8591.rst b/Documentation/hwmon/pcf8591.rst new file mode 100644 index 0000000000..5c4e85f531 --- /dev/null +++ b/Documentation/hwmon/pcf8591.rst @@ -0,0 +1,98 @@ +Kernel driver pcf8591 +===================== + +Supported chips: + + * Philips/NXP PCF8591 + + Prefix: 'pcf8591' + + Addresses scanned: none + + Datasheet: Publicly available at the NXP website + + http://www.nxp.com/pip/PCF8591_6.html + +Authors: + - Aurelien Jarno <aurelien@aurel32.net> + - valuable contributions by Jan M. Sendler <sendler@sendler.de>, + - Jean Delvare <jdelvare@suse.de> + + +Description +----------- + +The PCF8591 is an 8-bit A/D and D/A converter (4 analog inputs and one +analog output) for the I2C bus produced by Philips Semiconductors (now NXP). +It is designed to provide a byte I2C interface to up to 4 separate devices. + +The PCF8591 has 4 analog inputs programmable as single-ended or +differential inputs: + +- mode 0 : four single ended inputs + Pins AIN0 to AIN3 are single ended inputs for channels 0 to 3 + +- mode 1 : three differential inputs + Pins AIN3 is the common negative differential input + Pins AIN0 to AIN2 are positive differential inputs for channels 0 to 2 + +- mode 2 : single ended and differential mixed + Pins AIN0 and AIN1 are single ended inputs for channels 0 and 1 + Pins AIN2 is the positive differential input for channel 3 + Pins AIN3 is the negative differential input for channel 3 + +- mode 3 : two differential inputs + Pins AIN0 is the positive differential input for channel 0 + Pins AIN1 is the negative differential input for channel 0 + Pins AIN2 is the positive differential input for channel 1 + Pins AIN3 is the negative differential input for channel 1 + +See the datasheet for details. + +Module parameters +----------------- + +* input_mode int + + Analog input mode: + + - 0 = four single ended inputs + - 1 = three differential inputs + - 2 = single ended and differential mixed + - 3 = two differential inputs + + +Accessing PCF8591 via /sys interface +------------------------------------- + +The PCF8591 is plainly impossible to detect! Thus the driver won't even +try. You have to explicitly instantiate the device at the relevant +address (in the interval [0x48..0x4f]) either through platform data, or +using the sysfs interface. See Documentation/i2c/instantiating-devices.rst +for details. + +Directories are being created for each instantiated PCF8591: + +/sys/bus/i2c/devices/<0>-<1>/ + where <0> is the bus the chip is connected to (e. g. i2c-0) + and <1> the chip address ([48..4f]) + +Inside these directories, there are such files: + + in0_input, in1_input, in2_input, in3_input, out0_enable, out0_output, name + +Name contains chip name. + +The in0_input, in1_input, in2_input and in3_input files are RO. Reading gives +the value of the corresponding channel. Depending on the current analog inputs +configuration, files in2_input and in3_input may not exist. Values range +from 0 to 255 for single ended inputs and -128 to +127 for differential inputs +(8-bit ADC). + +The out0_enable file is RW. Reading gives "1" for analog output enabled and +"0" for analog output disabled. Writing accepts "0" and "1" accordingly. + +The out0_output file is RW. Writing a number between 0 and 255 (8-bit DAC), send +the value to the digital-to-analog converter. Note that a voltage will +only appears on AOUT pin if aout0_enable equals 1. Reading returns the last +value written. diff --git a/Documentation/hwmon/peci-cputemp.rst b/Documentation/hwmon/peci-cputemp.rst new file mode 100644 index 0000000000..fe0422248d --- /dev/null +++ b/Documentation/hwmon/peci-cputemp.rst @@ -0,0 +1,90 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver peci-cputemp +========================== + +Supported chips: + One of Intel server CPUs listed below which is connected to a PECI bus. + * Intel Xeon E5/E7 v3 server processors + Intel Xeon E5-14xx v3 family + Intel Xeon E5-24xx v3 family + Intel Xeon E5-16xx v3 family + Intel Xeon E5-26xx v3 family + Intel Xeon E5-46xx v3 family + Intel Xeon E7-48xx v3 family + Intel Xeon E7-88xx v3 family + * Intel Xeon E5/E7 v4 server processors + Intel Xeon E5-16xx v4 family + Intel Xeon E5-26xx v4 family + Intel Xeon E5-46xx v4 family + Intel Xeon E7-48xx v4 family + Intel Xeon E7-88xx v4 family + * Intel Xeon Scalable server processors + Intel Xeon D family + Intel Xeon Bronze family + Intel Xeon Silver family + Intel Xeon Gold family + Intel Xeon Platinum family + + Datasheet: Available from http://www.intel.com/design/literature.htm + +Author: Jae Hyun Yoo <jae.hyun.yoo@linux.intel.com> + +Description +----------- + +This driver implements a generic PECI hwmon feature which provides Digital +Thermal Sensor (DTS) thermal readings of the CPU package and CPU cores that are +accessible via the processor PECI interface. + +All temperature values are given in millidegree Celsius and will be measurable +only when the target CPU is powered on. + +Sysfs interface +------------------- + +======================= ======================================================= +temp1_label "Die" +temp1_input Provides current die temperature of the CPU package. +temp1_max Provides thermal control temperature of the CPU package + which is also known as Tcontrol. +temp1_crit Provides shutdown temperature of the CPU package which + is also known as the maximum processor junction + temperature, Tjmax or Tprochot. +temp1_crit_hyst Provides the hysteresis value from Tcontrol to Tjmax of + the CPU package. + +temp2_label "DTS" +temp2_input Provides current temperature of the CPU package scaled + to match DTS thermal profile. +temp2_max Provides thermal control temperature of the CPU package + which is also known as Tcontrol. +temp2_crit Provides shutdown temperature of the CPU package which + is also known as the maximum processor junction + temperature, Tjmax or Tprochot. +temp2_crit_hyst Provides the hysteresis value from Tcontrol to Tjmax of + the CPU package. + +temp3_label "Tcontrol" +temp3_input Provides current Tcontrol temperature of the CPU + package which is also known as Fan Temperature target. + Indicates the relative value from thermal monitor trip + temperature at which fans should be engaged. +temp3_crit Provides Tcontrol critical value of the CPU package + which is same to Tjmax. + +temp4_label "Tthrottle" +temp4_input Provides current Tthrottle temperature of the CPU + package. Used for throttling temperature. If this value + is allowed and lower than Tjmax - the throttle will + occur and reported at lower than Tjmax. + +temp5_label "Tjmax" +temp5_input Provides the maximum junction temperature, Tjmax of the + CPU package. + +temp[6-N]_label Provides string "Core X", where X is resolved core + number. +temp[6-N]_input Provides current temperature of each core. + +======================= ======================================================= diff --git a/Documentation/hwmon/peci-dimmtemp.rst b/Documentation/hwmon/peci-dimmtemp.rst new file mode 100644 index 0000000000..e562aed620 --- /dev/null +++ b/Documentation/hwmon/peci-dimmtemp.rst @@ -0,0 +1,57 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver peci-dimmtemp +=========================== + +Supported chips: + One of Intel server CPUs listed below which is connected to a PECI bus. + * Intel Xeon E5/E7 v3 server processors + Intel Xeon E5-14xx v3 family + Intel Xeon E5-24xx v3 family + Intel Xeon E5-16xx v3 family + Intel Xeon E5-26xx v3 family + Intel Xeon E5-46xx v3 family + Intel Xeon E7-48xx v3 family + Intel Xeon E7-88xx v3 family + * Intel Xeon E5/E7 v4 server processors + Intel Xeon E5-16xx v4 family + Intel Xeon E5-26xx v4 family + Intel Xeon E5-46xx v4 family + Intel Xeon E7-48xx v4 family + Intel Xeon E7-88xx v4 family + * Intel Xeon Scalable server processors + Intel Xeon D family + Intel Xeon Bronze family + Intel Xeon Silver family + Intel Xeon Gold family + Intel Xeon Platinum family + + Datasheet: Available from http://www.intel.com/design/literature.htm + +Author: Jae Hyun Yoo <jae.hyun.yoo@linux.intel.com> + +Description +----------- + +This driver implements a generic PECI hwmon feature which provides +Temperature sensor on DIMM readings that are accessible via the processor PECI interface. + +All temperature values are given in millidegree Celsius and will be measurable +only when the target CPU is powered on. + +Sysfs interface +------------------- + +======================= ======================================================= + +temp[N]_label Provides string "DIMM CI", where C is DIMM channel and + I is DIMM index of the populated DIMM. +temp[N]_input Provides current temperature of the populated DIMM. +temp[N]_max Provides thermal control temperature of the DIMM. +temp[N]_crit Provides shutdown temperature of the DIMM. + +======================= ======================================================= + +Note: + DIMM temperature attributes will appear when the client CPU's BIOS + completes memory training and testing. diff --git a/Documentation/hwmon/pim4328.rst b/Documentation/hwmon/pim4328.rst new file mode 100644 index 0000000000..70c9e7a688 --- /dev/null +++ b/Documentation/hwmon/pim4328.rst @@ -0,0 +1,105 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver pim4328 +===================== + +Supported chips: + + * Flex PIM4328 + + Prefix: 'pim4328', 'bmr455' + + Addresses scanned: - + + Datasheet: + +https://flexpowermodules.com/resources/fpm-techspec-pim4328 + + * Flex PIM4820 + + Prefixes: 'pim4820' + + Addresses scanned: - + + Datasheet: https://flexpowermodules.com/resources/fpm-techspec-pim4820 + + * Flex PIM4006, PIM4106, PIM4206, PIM4306, PIM4406 + + Prefixes: 'pim4006', 'pim4106', 'pim4206', 'pim4306', 'pim4406' + + Addresses scanned: - + + Datasheet: https://flexpowermodules.com/resources/fpm-techspec-pim4006 + +Author: Erik Rosen <erik.rosen@metormote.com> + + +Description +----------- + +This driver supports hardware monitoring for Flex PIM4328 and +compatible digital power interface modules. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst and Documentation.hwmon/pmbus-core for details +on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. All attributes are read-only. + +======================= ======================================================== +in1_label "vin" +in1_input Measured input voltage. +in1_alarm Input voltage alarm. + +in2_label "vin.0" +in2_input Measured input voltage on input A. + + PIM4328 and PIM4X06 + +in3_label "vin.1" +in3_input Measured input voltage on input B. + + PIM4328 and PIM4X06 + +in4_label "vcap" +in4_input Measured voltage on holdup capacitor. + + PIM4328 + +curr1_label "iin.0" +curr1_input Measured input current on input A. + + PIM4X06 + +curr2_label "iin.1" +curr2_input Measured input current on input B. + + PIM4X06 + +currX_label "iout1" +currX_input Measured output current. +currX_alarm Output current alarm. + + X is 1 for PIM4820, 3 otherwise. + +temp1_input Measured temperature. +temp1_alarm High temperature alarm. +======================= ======================================================== diff --git a/Documentation/hwmon/pli1209bc.rst b/Documentation/hwmon/pli1209bc.rst new file mode 100644 index 0000000000..ea5b3f68a5 --- /dev/null +++ b/Documentation/hwmon/pli1209bc.rst @@ -0,0 +1,75 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver pli1209bc +======================= + +Supported chips: + + * Digital Supervisor PLI1209BC + + Prefix: 'pli1209bc' + + Addresses scanned: 0x50 - 0x5F + + Datasheet: https://www.vicorpower.com/documents/datasheets/ds-PLI1209BCxyzz-VICOR.pdf + +Authors: + - Marcello Sylvester Bauer <sylv@sylv.io> + +Description +----------- + +The Vicor PLI1209BC is an isolated digital power system supervisor that provides +a communication interface between a host processor and one Bus Converter Module +(BCM). The PLI communicates with a system controller via a PMBus compatible +interface over an isolated UART interface. Through the PLI, the host processor +can configure, set protection limits, and monitor the BCM. + +Sysfs entries +------------- + +======================= ======================================================== +in1_label "vin2" +in1_input Input voltage. +in1_rated_min Minimum rated input voltage. +in1_rated_max Maximum rated input voltage. +in1_max Maximum input voltage. +in1_max_alarm Input voltage high alarm. +in1_crit Critical input voltage. +in1_crit_alarm Input voltage critical alarm. + +in2_label "vout2" +in2_input Output voltage. +in2_rated_min Minimum rated output voltage. +in2_rated_max Maximum rated output voltage. +in2_alarm Output voltage alarm + +curr1_label "iin2" +curr1_input Input current. +curr1_max Maximum input current. +curr1_max_alarm Maximum input current high alarm. +curr1_crit Critical input current. +curr1_crit_alarm Input current critical alarm. + +curr2_label "iout2" +curr2_input Output current. +curr2_crit Critical output current. +curr2_crit_alarm Output current critical alarm. +curr2_max Maximum output current. +curr2_max_alarm Output current high alarm. + +power1_label "pin2" +power1_input Input power. +power1_alarm Input power alarm. + +power2_label "pout2" +power2_input Output power. +power2_rated_max Maximum rated output power. + +temp1_input Die temperature. +temp1_alarm Die temperature alarm. +temp1_max Maximum die temperature. +temp1_max_alarm Die temperature high alarm. +temp1_crit Critical die temperature. +temp1_crit_alarm Die temperature critical alarm. +======================= ======================================================== diff --git a/Documentation/hwmon/pm6764tr.rst b/Documentation/hwmon/pm6764tr.rst new file mode 100644 index 0000000000..294a8ffc8b --- /dev/null +++ b/Documentation/hwmon/pm6764tr.rst @@ -0,0 +1,32 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver pm6764tr +====================== + +Supported chips: + + * ST PM6764TR + + Prefix: 'pm6764tr' + + Addresses scanned: - + + Datasheet: http://www.st.com/resource/en/data_brief/pm6764.pdf + +Authors: + <hsu.yungteng@gmail.com> + +Description: +------------ + +This driver supports the STMicroelectronics PM6764TR chip. The PM6764TR is a high +performance digital controller designed to power Intel's VR12.5 processors and memories. + +The device utilizes digital technology to implement all control and power management +functions to provide maximum flexibility and performance. The NVM is embedded to store +custom configurations. The PM6764TR device features up to 4-phase programmable operation. + +The PM6764TR supports power state transitions featuring VFDE, and programmable DPM +maintaining the best efficiency over all loading conditions without compromising transient +response. The device assures fast and independent protection against load overcurrent, +under/overvoltage and feedback disconnections. diff --git a/Documentation/hwmon/pmbus-core.rst b/Documentation/hwmon/pmbus-core.rst new file mode 100644 index 0000000000..1eaf2b0158 --- /dev/null +++ b/Documentation/hwmon/pmbus-core.rst @@ -0,0 +1,360 @@ +================================== +PMBus core driver and internal API +================================== + +Introduction +============ + +[from pmbus.org] The Power Management Bus (PMBus) is an open standard +power-management protocol with a fully defined command language that facilitates +communication with power converters and other devices in a power system. The +protocol is implemented over the industry-standard SMBus serial interface and +enables programming, control, and real-time monitoring of compliant power +conversion products. This flexible and highly versatile standard allows for +communication between devices based on both analog and digital technologies, and +provides true interoperability which will reduce design complexity and shorten +time to market for power system designers. Pioneered by leading power supply and +semiconductor companies, this open power system standard is maintained and +promoted by the PMBus Implementers Forum (PMBus-IF), comprising 30+ adopters +with the objective to provide support to, and facilitate adoption among, users. + +Unfortunately, while PMBus commands are standardized, there are no mandatory +commands, and manufacturers can add as many non-standard commands as they like. +Also, different PMBUs devices act differently if non-supported commands are +executed. Some devices return an error, some devices return 0xff or 0xffff and +set a status error flag, and some devices may simply hang up. + +Despite all those difficulties, a generic PMBus device driver is still useful +and supported since kernel version 2.6.39. However, it was necessary to support +device specific extensions in addition to the core PMBus driver, since it is +simply unknown what new device specific functionality PMBus device developers +come up with next. + +To make device specific extensions as scalable as possible, and to avoid having +to modify the core PMBus driver repeatedly for new devices, the PMBus driver was +split into core, generic, and device specific code. The core code (in +pmbus_core.c) provides generic functionality. The generic code (in pmbus.c) +provides support for generic PMBus devices. Device specific code is responsible +for device specific initialization and, if needed, maps device specific +functionality into generic functionality. This is to some degree comparable +to PCI code, where generic code is augmented as needed with quirks for all kinds +of devices. + +PMBus device capabilities auto-detection +======================================== + +For generic PMBus devices, code in pmbus.c attempts to auto-detect all supported +PMBus commands. Auto-detection is somewhat limited, since there are simply too +many variables to consider. For example, it is almost impossible to autodetect +which PMBus commands are paged and which commands are replicated across all +pages (see the PMBus specification for details on multi-page PMBus devices). + +For this reason, it often makes sense to provide a device specific driver if not +all commands can be auto-detected. The data structures in this driver can be +used to inform the core driver about functionality supported by individual +chips. + +Some commands are always auto-detected. This applies to all limit commands +(lcrit, min, max, and crit attributes) as well as associated alarm attributes. +Limits and alarm attributes are auto-detected because there are simply too many +possible combinations to provide a manual configuration interface. + +PMBus internal API +================== + +The API between core and device specific PMBus code is defined in +drivers/hwmon/pmbus/pmbus.h. In addition to the internal API, pmbus.h defines +standard PMBus commands and virtual PMBus commands. + +Standard PMBus commands +----------------------- + +Standard PMBus commands (commands values 0x00 to 0xff) are defined in the PMBUs +specification. + +Virtual PMBus commands +---------------------- + +Virtual PMBus commands are provided to enable support for non-standard +functionality which has been implemented by several chip vendors and is thus +desirable to support. + +Virtual PMBus commands start with command value 0x100 and can thus easily be +distinguished from standard PMBus commands (which can not have values larger +than 0xff). Support for virtual PMBus commands is device specific and thus has +to be implemented in device specific code. + +Virtual commands are named PMBUS_VIRT_xxx and start with PMBUS_VIRT_BASE. All +virtual commands are word sized. + +There are currently two types of virtual commands. + +- READ commands are read-only; writes are either ignored or return an error. +- RESET commands are read/write. Reading reset registers returns zero + (used for detection), writing any value causes the associated history to be + reset. + +Virtual commands have to be handled in device specific driver code. Chip driver +code returns non-negative values if a virtual command is supported, or a +negative error code if not. The chip driver may return -ENODATA or any other +Linux error code in this case, though an error code other than -ENODATA is +handled more efficiently and thus preferred. Either case, the calling PMBus +core code will abort if the chip driver returns an error code when reading +or writing virtual registers (in other words, the PMBus core code will never +send a virtual command to a chip). + +PMBus driver information +------------------------ + +PMBus driver information, defined in struct pmbus_driver_info, is the main means +for device specific drivers to pass information to the core PMBus driver. +Specifically, it provides the following information. + +- For devices supporting its data in Direct Data Format, it provides coefficients + for converting register values into normalized data. This data is usually + provided by chip manufacturers in device datasheets. +- Supported chip functionality can be provided to the core driver. This may be + necessary for chips which react badly if non-supported commands are executed, + and/or to speed up device detection and initialization. +- Several function entry points are provided to support overriding and/or + augmenting generic command execution. This functionality can be used to map + non-standard PMBus commands to standard commands, or to augment standard + command return values with device specific information. + +PEC Support +=========== + +Many PMBus devices support SMBus PEC (Packet Error Checking). If supported +by both the I2C adapter and by the PMBus chip, it is by default enabled. +If PEC is supported, the PMBus core driver adds an attribute named 'pec' to +the I2C device. This attribute can be used to control PEC support in the +communication with the PMBus chip. + +API functions +============= + +Functions provided by chip driver +--------------------------------- + +All functions return the command return value (read) or zero (write) if +successful. A return value of -ENODATA indicates that there is no manufacturer +specific command, but that a standard PMBus command may exist. Any other +negative return value indicates that the commands does not exist for this +chip, and that no attempt should be made to read or write the standard +command. + +As mentioned above, an exception to this rule applies to virtual commands, +which *must* be handled in driver specific code. See "Virtual PMBus Commands" +above for more details. + +Command execution in the core PMBus driver code is as follows:: + + if (chip_access_function) { + status = chip_access_function(); + if (status != -ENODATA) + return status; + } + if (command >= PMBUS_VIRT_BASE) /* For word commands/registers only */ + return -EINVAL; + return generic_access(); + +Chip drivers may provide pointers to the following functions in struct +pmbus_driver_info. All functions are optional. + +:: + + int (*read_byte_data)(struct i2c_client *client, int page, int reg); + +Read byte from page <page>, register <reg>. +<page> may be -1, which means "current page". + + +:: + + int (*read_word_data)(struct i2c_client *client, int page, int phase, + int reg); + +Read word from page <page>, phase <phase>, register <reg>. If the chip does not +support multiple phases, the phase parameter can be ignored. If the chip +supports multiple phases, a phase value of 0xff indicates all phases. + +:: + + int (*write_word_data)(struct i2c_client *client, int page, int reg, + u16 word); + +Write word to page <page>, register <reg>. + +:: + + int (*write_byte)(struct i2c_client *client, int page, u8 value); + +Write byte to page <page>, register <reg>. +<page> may be -1, which means "current page". + +:: + + int (*identify)(struct i2c_client *client, struct pmbus_driver_info *info); + +Determine supported PMBus functionality. This function is only necessary +if a chip driver supports multiple chips, and the chip functionality is not +pre-determined. It is currently only used by the generic pmbus driver +(pmbus.c). + +Functions exported by core driver +--------------------------------- + +Chip drivers are expected to use the following functions to read or write +PMBus registers. Chip drivers may also use direct I2C commands. If direct I2C +commands are used, the chip driver code must not directly modify the current +page, since the selected page is cached in the core driver and the core driver +will assume that it is selected. Using pmbus_set_page() to select a new page +is mandatory. + +:: + + int pmbus_set_page(struct i2c_client *client, u8 page, u8 phase); + +Set PMBus page register to <page> and <phase> for subsequent commands. +If the chip does not support multiple phases, the phase parameter is +ignored. Otherwise, a phase value of 0xff selects all phases. + +:: + + int pmbus_read_word_data(struct i2c_client *client, u8 page, u8 phase, + u8 reg); + +Read word data from <page>, <phase>, <reg>. Similar to +i2c_smbus_read_word_data(), but selects page and phase first. If the chip does +not support multiple phases, the phase parameter is ignored. Otherwise, a phase +value of 0xff selects all phases. + +:: + + int pmbus_write_word_data(struct i2c_client *client, u8 page, u8 reg, + u16 word); + +Write word data to <page>, <reg>. Similar to i2c_smbus_write_word_data(), but +selects page first. + +:: + + int pmbus_read_byte_data(struct i2c_client *client, int page, u8 reg); + +Read byte data from <page>, <reg>. Similar to i2c_smbus_read_byte_data(), but +selects page first. <page> may be -1, which means "current page". + +:: + + int pmbus_write_byte(struct i2c_client *client, int page, u8 value); + +Write byte data to <page>, <reg>. Similar to i2c_smbus_write_byte(), but +selects page first. <page> may be -1, which means "current page". + +:: + + void pmbus_clear_faults(struct i2c_client *client); + +Execute PMBus "Clear Fault" command on all chip pages. +This function calls the device specific write_byte function if defined. +Therefore, it must _not_ be called from that function. + +:: + + bool pmbus_check_byte_register(struct i2c_client *client, int page, int reg); + +Check if byte register exists. Return true if the register exists, false +otherwise. +This function calls the device specific write_byte function if defined to +obtain the chip status. Therefore, it must _not_ be called from that function. + +:: + + bool pmbus_check_word_register(struct i2c_client *client, int page, int reg); + +Check if word register exists. Return true if the register exists, false +otherwise. +This function calls the device specific write_byte function if defined to +obtain the chip status. Therefore, it must _not_ be called from that function. + +:: + + int pmbus_do_probe(struct i2c_client *client, struct pmbus_driver_info *info); + +Execute probe function. Similar to standard probe function for other drivers, +with the pointer to struct pmbus_driver_info as additional argument. Calls +identify function if supported. Must only be called from device probe +function. + +:: + + const struct pmbus_driver_info + *pmbus_get_driver_info(struct i2c_client *client); + +Return pointer to struct pmbus_driver_info as passed to pmbus_do_probe(). + + +PMBus driver platform data +========================== + +PMBus platform data is defined in include/linux/pmbus.h. Platform data +currently provides a flags field with four bits used:: + + #define PMBUS_SKIP_STATUS_CHECK BIT(0) + + #define PMBUS_WRITE_PROTECTED BIT(1) + + #define PMBUS_NO_CAPABILITY BIT(2) + + #define PMBUS_READ_STATUS_AFTER_FAILED_CHECK BIT(3) + + struct pmbus_platform_data { + u32 flags; /* Device specific flags */ + + /* regulator support */ + int num_regulators; + struct regulator_init_data *reg_init_data; + }; + + +Flags +----- + +PMBUS_SKIP_STATUS_CHECK + +During register detection, skip checking the status register for +communication or command errors. + +Some PMBus chips respond with valid data when trying to read an unsupported +register. For such chips, checking the status register is mandatory when +trying to determine if a chip register exists or not. +Other PMBus chips don't support the STATUS_CML register, or report +communication errors for no explicable reason. For such chips, checking the +status register must be disabled. + +Some i2c controllers do not support single-byte commands (write commands with +no data, i2c_smbus_write_byte()). With such controllers, clearing the status +register is impossible, and the PMBUS_SKIP_STATUS_CHECK flag must be set. + +PMBUS_WRITE_PROTECTED + +Set if the chip is write protected and write protection is not determined +by the standard WRITE_PROTECT command. + +PMBUS_NO_CAPABILITY + +Some PMBus chips don't respond with valid data when reading the CAPABILITY +register. For such chips, this flag should be set so that the PMBus core +driver doesn't use CAPABILITY to determine its behavior. + +PMBUS_READ_STATUS_AFTER_FAILED_CHECK + +Read the STATUS register after each failed register check. + +Some PMBus chips end up in an undefined state when trying to read an +unsupported register. For such chips, it is necessary to reset the +chip pmbus controller to a known state after a failed register check. +This can be done by reading a known register. By setting this flag the +driver will try to read the STATUS register after each failed +register check. This read may fail, but it will put the chip into a +known state. diff --git a/Documentation/hwmon/pmbus.rst b/Documentation/hwmon/pmbus.rst new file mode 100644 index 0000000000..eb1569bfa6 --- /dev/null +++ b/Documentation/hwmon/pmbus.rst @@ -0,0 +1,277 @@ +Kernel driver pmbus +=================== + +Supported chips: + + * Flex BMR310, BMR453, BMR454, BMR456, BMR457, BMR458, BMR480, + BMR490, BMR491, BMR492 + + Prefixes: 'bmr310', 'bmr453', 'bmr454', 'bmr456', 'bmr457', 'bmr458', 'bmr480', + 'bmr490', 'bmr491', 'bmr492' + + Addresses scanned: - + + Datasheets: + + https://flexpowermodules.com/products + + + * ON Semiconductor ADP4000, NCP4200, NCP4208 + + Prefixes: 'adp4000', 'ncp4200', 'ncp4208' + + Addresses scanned: - + + Datasheets: + + https://www.onsemi.com/pub_link/Collateral/ADP4000-D.PDF + + https://www.onsemi.com/pub_link/Collateral/NCP4200-D.PDF + + https://www.onsemi.com/pub_link/Collateral/JUNE%202009-%20REV.%200.PDF + + * Lineage Power + + Prefixes: 'mdt040', 'pdt003', 'pdt006', 'pdt012', 'udt020' + + Addresses scanned: - + + Datasheets: + + http://www.lineagepower.com/oem/pdf/PDT003A0X.pdf + + http://www.lineagepower.com/oem/pdf/PDT006A0X.pdf + + http://www.lineagepower.com/oem/pdf/PDT012A0X.pdf + + http://www.lineagepower.com/oem/pdf/UDT020A0X.pdf + + http://www.lineagepower.com/oem/pdf/MDT040A0X.pdf + + * Texas Instruments TPS40400, TPS544B20, TPS544B25, TPS544C20, TPS544C25 + + Prefixes: 'tps40400', 'tps544b20', 'tps544b25', 'tps544c20', 'tps544c25' + + Addresses scanned: - + + Datasheets: + + https://www.ti.com/lit/gpn/tps40400 + + https://www.ti.com/lit/gpn/tps544b20 + + https://www.ti.com/lit/gpn/tps544b25 + + https://www.ti.com/lit/gpn/tps544c20 + + https://www.ti.com/lit/gpn/tps544c25 + + * Maxim MAX20796 + + Prefix: 'max20796' + + Addresses scanned: - + + Datasheet: + + Not published + + * Generic PMBus devices + + Prefix: 'pmbus' + + Addresses scanned: - + + Datasheet: n.a. + + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports hardware monitoring for various PMBus compliant devices. +It supports voltage, current, power, and temperature sensors as supported +by the device. + +Each monitored channel has its own high and low limits, plus a critical +limit. + +Fan support will be added in a later version of this driver. + + +Usage Notes +----------- + +This driver does not probe for PMBus devices, since there is no register +which can be safely used to identify the chip (The MFG_ID register is not +supported by all chips), and since there is no well defined address range for +PMBus devices. You will have to instantiate the devices explicitly. + +Example: the following will load the driver for an LTC2978 at address 0x60 +on I2C bus #1:: + + $ modprobe pmbus + $ echo ltc2978 0x60 > /sys/bus/i2c/devices/i2c-1/new_device + + +Platform data support +--------------------- + +Support for additional PMBus chips can be added by defining chip parameters in +a new chip specific driver file. For example, (untested) code to add support for +Emerson DS1200 power modules might look as follows:: + + static struct pmbus_driver_info ds1200_info = { + .pages = 1, + /* Note: All other sensors are in linear mode */ + .direct[PSC_VOLTAGE_OUT] = true, + .direct[PSC_TEMPERATURE] = true, + .direct[PSC_CURRENT_OUT] = true, + .m[PSC_VOLTAGE_IN] = 1, + .b[PSC_VOLTAGE_IN] = 0, + .R[PSC_VOLTAGE_IN] = 3, + .m[PSC_VOLTAGE_OUT] = 1, + .b[PSC_VOLTAGE_OUT] = 0, + .R[PSC_VOLTAGE_OUT] = 3, + .m[PSC_TEMPERATURE] = 1, + .b[PSC_TEMPERATURE] = 0, + .R[PSC_TEMPERATURE] = 3, + .func[0] = PMBUS_HAVE_VIN | PMBUS_HAVE_IIN | PMBUS_HAVE_STATUS_INPUT + | PMBUS_HAVE_VOUT | PMBUS_HAVE_STATUS_VOUT + | PMBUS_HAVE_IOUT | PMBUS_HAVE_STATUS_IOUT + | PMBUS_HAVE_PIN | PMBUS_HAVE_POUT + | PMBUS_HAVE_TEMP | PMBUS_HAVE_STATUS_TEMP + | PMBUS_HAVE_FAN12 | PMBUS_HAVE_STATUS_FAN12, + }; + + static int ds1200_probe(struct i2c_client *client) + { + return pmbus_do_probe(client, &ds1200_info); + } + + static const struct i2c_device_id ds1200_id[] = { + {"ds1200", 0}, + {} + }; + + MODULE_DEVICE_TABLE(i2c, ds1200_id); + + /* This is the driver that will be inserted */ + static struct i2c_driver ds1200_driver = { + .driver = { + .name = "ds1200", + }, + .probe = ds1200_probe, + .id_table = ds1200_id, + }; + + static int __init ds1200_init(void) + { + return i2c_add_driver(&ds1200_driver); + } + + static void __exit ds1200_exit(void) + { + i2c_del_driver(&ds1200_driver); + } + + +Sysfs entries +------------- + +When probing the chip, the driver identifies which PMBus registers are +supported, and determines available sensors from this information. +Attribute files only exist if respective sensors are supported by the chip. +Labels are provided to inform the user about the sensor associated with +a given sysfs entry. + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +======================= ======================================================== +inX_input Measured voltage. From READ_VIN or READ_VOUT register. +inX_min Minimum Voltage. + From VIN_UV_WARN_LIMIT or VOUT_UV_WARN_LIMIT register. +inX_max Maximum voltage. + From VIN_OV_WARN_LIMIT or VOUT_OV_WARN_LIMIT register. +inX_lcrit Critical minimum Voltage. + From VIN_UV_FAULT_LIMIT or VOUT_UV_FAULT_LIMIT register. +inX_crit Critical maximum voltage. + From VIN_OV_FAULT_LIMIT or VOUT_OV_FAULT_LIMIT register. +inX_min_alarm Voltage low alarm. From VOLTAGE_UV_WARNING status. +inX_max_alarm Voltage high alarm. From VOLTAGE_OV_WARNING status. +inX_lcrit_alarm Voltage critical low alarm. + From VOLTAGE_UV_FAULT status. +inX_crit_alarm Voltage critical high alarm. + From VOLTAGE_OV_FAULT status. +inX_label "vin", "vcap", or "voutY" +inX_rated_min Minimum rated voltage. + From MFR_VIN_MIN or MFR_VOUT_MIN register. +inX_rated_max Maximum rated voltage. + From MFR_VIN_MAX or MFR_VOUT_MAX register. + +currX_input Measured current. From READ_IIN or READ_IOUT register. +currX_max Maximum current. + From IIN_OC_WARN_LIMIT or IOUT_OC_WARN_LIMIT register. +currX_lcrit Critical minimum output current. + From IOUT_UC_FAULT_LIMIT register. +currX_crit Critical maximum current. + From IIN_OC_FAULT_LIMIT or IOUT_OC_FAULT_LIMIT register. +currX_alarm Current high alarm. + From IIN_OC_WARNING or IOUT_OC_WARNING status. +currX_max_alarm Current high alarm. + From IIN_OC_WARN_LIMIT or IOUT_OC_WARN_LIMIT status. +currX_lcrit_alarm Output current critical low alarm. + From IOUT_UC_FAULT status. +currX_crit_alarm Current critical high alarm. + From IIN_OC_FAULT or IOUT_OC_FAULT status. +currX_label "iin", "iinY", "iinY.Z", "ioutY", or "ioutY.Z", + where Y reflects the page number and Z reflects the + phase. +currX_rated_max Maximum rated current. + From MFR_IIN_MAX or MFR_IOUT_MAX register. + +powerX_input Measured power. From READ_PIN or READ_POUT register. +powerX_cap Output power cap. From POUT_MAX register. +powerX_max Power limit. From PIN_OP_WARN_LIMIT or + POUT_OP_WARN_LIMIT register. +powerX_crit Critical output power limit. + From POUT_OP_FAULT_LIMIT register. +powerX_alarm Power high alarm. + From PIN_OP_WARNING or POUT_OP_WARNING status. +powerX_crit_alarm Output power critical high alarm. + From POUT_OP_FAULT status. +powerX_label "pin", "pinY", "pinY.Z", "poutY", or "poutY.Z", + where Y reflects the page number and Z reflects the + phase. +powerX_rated_max Maximum rated power. + From MFR_PIN_MAX or MFR_POUT_MAX register. + +tempX_input Measured temperature. + From READ_TEMPERATURE_X register. +tempX_min Minimum temperature. From UT_WARN_LIMIT register. +tempX_max Maximum temperature. From OT_WARN_LIMIT register. +tempX_lcrit Critical low temperature. + From UT_FAULT_LIMIT register. +tempX_crit Critical high temperature. + From OT_FAULT_LIMIT register. +tempX_min_alarm Chip temperature low alarm. Set by comparing + READ_TEMPERATURE_X with UT_WARN_LIMIT if + TEMP_UT_WARNING status is set. +tempX_max_alarm Chip temperature high alarm. Set by comparing + READ_TEMPERATURE_X with OT_WARN_LIMIT if + TEMP_OT_WARNING status is set. +tempX_lcrit_alarm Chip temperature critical low alarm. Set by comparing + READ_TEMPERATURE_X with UT_FAULT_LIMIT if + TEMP_UT_FAULT status is set. +tempX_crit_alarm Chip temperature critical high alarm. Set by comparing + READ_TEMPERATURE_X with OT_FAULT_LIMIT if + TEMP_OT_FAULT status is set. +tempX_rated_min Minimum rated temperature. + From MFR_TAMBIENT_MIN register. +tempX_rated_max Maximum rated temperature. + From MFR_TAMBIENT_MAX, MFR_MAX_TEMP_1, MFR_MAX_TEMP_2 or + MFR_MAX_TEMP_3 register. +======================= ======================================================== diff --git a/Documentation/hwmon/powr1220.rst b/Documentation/hwmon/powr1220.rst new file mode 100644 index 0000000000..a7fc258da0 --- /dev/null +++ b/Documentation/hwmon/powr1220.rst @@ -0,0 +1,53 @@ +Kernel driver powr1220 +====================== + +Supported chips: + + * Lattice POWR1220AT8 + + Prefix: 'powr1220' + + Addresses scanned: none + + Datasheet: Publicly available at the Lattice website + + http://www.latticesemi.com/ + +Author: Scott Kanowitz <scott.kanowitz@gmail.com> + +Description +----------- + +This driver supports the Lattice POWR1220AT8 chip. The POWR1220 +includes voltage monitoring for 14 inputs as well as trim settings +for output voltages and GPIOs. This driver implements the voltage +monitoring portion of the chip. + +Voltages are sampled by a 12-bit ADC with a step size of 2 mV. +An in-line attenuator allows measurements from 0 to 6 V. The +attenuator is enabled or disabled depending on the setting of the +input's max value. The driver will enable the attenuator for any +value over the low measurement range maximum of 2 V. + +The input naming convention is as follows: + +============== ======== +driver name pin name +============== ======== +in0 VMON1 +in1 VMON2 +in2 VMON3 +in2 VMON4 +in4 VMON5 +in5 VMON6 +in6 VMON7 +in7 VMON8 +in8 VMON9 +in9 VMON10 +in10 VMON11 +in11 VMON12 +in12 VCCA +in13 VCCINP +============== ======== + +The ADC readings are updated on request with a minimum period of 1s. diff --git a/Documentation/hwmon/pwm-fan.rst b/Documentation/hwmon/pwm-fan.rst new file mode 100644 index 0000000000..f77998b204 --- /dev/null +++ b/Documentation/hwmon/pwm-fan.rst @@ -0,0 +1,32 @@ +Kernel driver pwm-fan +===================== + +This driver enables the use of a PWM module to drive a fan. It uses the +generic PWM interface thus it is hardware independent. It can be used on +many SoCs, as long as the SoC supplies a PWM line driver that exposes +the generic PWM API. + +Author: Kamil Debski <k.debski@samsung.com> + +Description +----------- + +The driver implements a simple interface for driving a fan connected to +a PWM output. It uses the generic PWM interface, thus it can be used with +a range of SoCs. The driver exposes the fan to the user space through +the hwmon's sysfs interface. + +The fan rotation speed returned via the optional 'fan1_input' is extrapolated +from the sampled interrupts from the tachometer signal within 1 second. + +The driver provides the following sensor accesses in sysfs: + +=============== ======= ======================================================= +fan1_input ro fan tachometer speed in RPM +pwm1_enable rw keep enable mode, defines behaviour when pwm1=0 + 0 -> disable pwm and regulator + 1 -> enable pwm; if pwm==0, disable pwm, keep regulator enabled + 2 -> enable pwm; if pwm==0, keep pwm and regulator enabled + 3 -> enable pwm; if pwm==0, disable pwm and regulator +pwm1 rw relative speed (0-255), 255=max. speed. +=============== ======= ======================================================= diff --git a/Documentation/hwmon/pxe1610.rst b/Documentation/hwmon/pxe1610.rst new file mode 100644 index 0000000000..4f2388840d --- /dev/null +++ b/Documentation/hwmon/pxe1610.rst @@ -0,0 +1,107 @@ +Kernel driver pxe1610 +===================== + +Supported chips: + + * Infineon PXE1610 + + Prefix: 'pxe1610' + + Addresses scanned: - + + Datasheet: Datasheet is not publicly available. + + * Infineon PXE1110 + + Prefix: 'pxe1110' + + Addresses scanned: - + + Datasheet: Datasheet is not publicly available. + + * Infineon PXM1310 + + Prefix: 'pxm1310' + + Addresses scanned: - + + Datasheet: Datasheet is not publicly available. + +Author: Vijay Khemka <vijaykhemka@fb.com> + + +Description +----------- + +PXE1610/PXE1110 are Multi-rail/Multiphase Digital Controllers +and compliant to + + - Intel VR13 DC-DC converter specifications. + - Intel SVID protocol. + +Used for Vcore power regulation for Intel VR13 based microprocessors + + - Servers, Workstations, and High-end desktops + +PXM1310 is a Multi-rail Controller and it is compliant to + + - Intel VR13 DC-DC converter specifications. + - Intel SVID protocol. + +Used for DDR3/DDR4 Memory power regulation for Intel VR13 and +IMVP8 based systems + + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have +to instantiate devices explicitly. + +Example: the following commands will load the driver for an PXE1610 +at address 0x70 on I2C bus #4:: + + # modprobe pxe1610 + # echo pxe1610 0x70 > /sys/bus/i2c/devices/i2c-4/new_device + +It can also be instantiated by declaring in device tree + + +Sysfs attributes +---------------- + +====================== ==================================== +curr1_label "iin" +curr1_input Measured input current +curr1_alarm Current high alarm + +curr[2-4]_label "iout[1-3]" +curr[2-4]_input Measured output current +curr[2-4]_crit Critical maximum current +curr[2-4]_crit_alarm Current critical high alarm + +in1_label "vin" +in1_input Measured input voltage +in1_crit Critical maximum input voltage +in1_crit_alarm Input voltage critical high alarm + +in[2-4]_label "vout[1-3]" +in[2-4]_input Measured output voltage +in[2-4]_lcrit Critical minimum output voltage +in[2-4]_lcrit_alarm Output voltage critical low alarm +in[2-4]_crit Critical maximum output voltage +in[2-4]_crit_alarm Output voltage critical high alarm + +power1_label "pin" +power1_input Measured input power +power1_alarm Input power high alarm + +power[2-4]_label "pout[1-3]" +power[2-4]_input Measured output power + +temp[1-3]_input Measured temperature +temp[1-3]_crit Critical high temperature +temp[1-3]_crit_alarm Chip temperature critical high alarm +temp[1-3]_max Maximum temperature +temp[1-3]_max_alarm Chip temperature high alarm +====================== ==================================== diff --git a/Documentation/hwmon/q54sj108a2.rst b/Documentation/hwmon/q54sj108a2.rst new file mode 100644 index 0000000000..f95d81382a --- /dev/null +++ b/Documentation/hwmon/q54sj108a2.rst @@ -0,0 +1,54 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver q54sj108a2 +======================== + +Supported chips: + + * DELTA Q54SJ108A2NCAH, Q54SJ108A2NCDH, Q54SJ108A2NCPG, Q54SJ108A2NCPH + + Prefix: 'q54sj108a2' + + Addresses scanned: - + + Datasheet: https://filecenter.delta-china.com.cn/products/download/01/0102/datasheet/DS_Q54SJ108A2.pdf + +Authors: + Xiao.ma <xiao.mx.ma@deltaww.com> + + +Description +----------- + +This driver implements support for DELTA Q54SJ108A2NCAH, Q54SJ108A2NCDH, +Q54SJ108A2NCPG, and Q54SJ108A2NCPH 1/4 Brick DC/DC Regulated Power Module +with PMBus support. + +The driver is a client driver to the core PMBus driver. +Please see Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Sysfs entries +------------- + +===================== ===== ================================================== +curr1_alarm RO Output current alarm +curr1_input RO Output current +curr1_label RO 'iout1' +in1_alarm RO Input voltage alarm +in1_input RO Input voltage +in1_label RO 'vin' +in2_alarm RO Output voltage alarm +in2_input RO Output voltage +in2_label RO 'vout1' +temp1_alarm RO Temperature alarm +temp1_input RO Chip temperature +===================== ===== ================================================== diff --git a/Documentation/hwmon/raspberrypi-hwmon.rst b/Documentation/hwmon/raspberrypi-hwmon.rst new file mode 100644 index 0000000000..8038ade364 --- /dev/null +++ b/Documentation/hwmon/raspberrypi-hwmon.rst @@ -0,0 +1,25 @@ +Kernel driver raspberrypi-hwmon +=============================== + +Supported boards: + + * Raspberry Pi A+ (via GPIO on SoC) + * Raspberry Pi B+ (via GPIO on SoC) + * Raspberry Pi 2 B (via GPIO on SoC) + * Raspberry Pi 3 B (via GPIO on port expander) + * Raspberry Pi 3 B+ (via PMIC) + +Author: Stefan Wahren <stefan.wahren@i2se.com> + +Description +----------- + +This driver periodically polls a mailbox property of the VC4 firmware to detect +undervoltage conditions. + +Sysfs entries +------------- + +======================= ================== +in0_lcrit_alarm Undervoltage alarm +======================= ================== diff --git a/Documentation/hwmon/sbrmi.rst b/Documentation/hwmon/sbrmi.rst new file mode 100644 index 0000000000..296049e13a --- /dev/null +++ b/Documentation/hwmon/sbrmi.rst @@ -0,0 +1,79 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver sbrmi +=================== + +Supported hardware: + + * Sideband Remote Management Interface (SB-RMI) compliant AMD SoC + device connected to the BMC via the APML. + + Prefix: 'sbrmi' + + Addresses scanned: This driver doesn't support address scanning. + + To instantiate this driver on an AMD CPU with SB-RMI + support, the i2c bus number would be the bus connected from the board + management controller (BMC) to the CPU. + The SMBus address is really 7 bits. Some vendors and the SMBus + specification show the address as 8 bits, left justified with the R/W + bit as a write (0) making bit 0. Some vendors use only the 7 bits + to describe the address. + As mentioned in AMD's APML specification, The SB-RMI address is + normally 78h(0111 100W) or 3Ch(011 1100) for socket 0 and 70h(0111 000W) + or 38h(011 1000) for socket 1, but it could vary based on hardware + address select pins. + + Datasheet: The SB-RMI interface and protocol along with the Advanced + Platform Management Link (APML) Specification is available + as part of the open source SoC register reference at: + + https://www.amd.com/en/support/tech-docs?keyword=55898 + +Author: Akshay Gupta <akshay.gupta@amd.com> + +Description +----------- + +The APML provides a way to communicate with the SB Remote Management interface +(SB-RMI) module from the external SMBus master that can be used to report socket +power on AMD platforms using mailbox command and resembles a typical 8-pin remote +power sensor's I2C interface to BMC. + +This driver implements current power with power cap and power cap max. + +sysfs-Interface +--------------- +Power sensors can be queried and set via the standard ``hwmon`` interface +on ``sysfs``, under the directory ``/sys/class/hwmon/hwmonX`` for some value +of ``X`` (search for the ``X`` such that ``/sys/class/hwmon/hwmonX/name`` has +content ``sbrmi``) + +================ ===== ======================================================== +Name Perm Description +================ ===== ======================================================== +power1_input RO Current Power consumed +power1_cap RW Power limit can be set between 0 and power1_cap_max +power1_cap_max RO Maximum powerlimit calculated and reported by the SMU FW +================ ===== ======================================================== + +The following example show how the 'Power' attribute from the i2c-addresses +can be monitored using the userspace utilities like ``sensors`` binary:: + + # sensors + sbrmi-i2c-1-38 + Adapter: bcm2835 I2C adapter + power1: 61.00 W (cap = 225.00 W) + + sbrmi-i2c-1-3c + Adapter: bcm2835 I2C adapter + power1: 28.39 W (cap = 224.77 W) + # + +Also, Below shows how get and set the values from sysfs entries individually:: + # cat /sys/class/hwmon/hwmon1/power1_cap_max + 225000000 + + # echo 180000000 > /sys/class/hwmon/hwmon1/power1_cap + # cat /sys/class/hwmon/hwmon1/power1_cap + 180000000 diff --git a/Documentation/hwmon/sbtsi_temp.rst b/Documentation/hwmon/sbtsi_temp.rst new file mode 100644 index 0000000000..749f518389 --- /dev/null +++ b/Documentation/hwmon/sbtsi_temp.rst @@ -0,0 +1,42 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver sbtsi_temp +======================== + +Supported hardware: + + * Sideband interface (SBI) Temperature Sensor Interface (SB-TSI) + compliant AMD SoC temperature device. + + Prefix: 'sbtsi_temp' + + Addresses scanned: This driver doesn't support address scanning. + + To instantiate this driver on an AMD CPU with SB-TSI + support, the i2c bus number would be the bus connected from the board + management controller (BMC) to the CPU. The i2c address is specified in + Section 6.3.1 of the SoC register reference: The SB-TSI address is normally + 98h for socket 0 and 90h for socket 1, but it could vary based on hardware + address select pins. + + Datasheet: The SB-TSI interface and protocol is available as part of + the open source SoC register reference at: + + https://www.amd.com/system/files/TechDocs/56255_OSRR.pdf + + The Advanced Platform Management Link (APML) Specification is + available at: + + http://developer.amd.com/wordpress/media/2012/10/41918.pdf + +Author: Kun Yi <kunyi@google.com> + +Description +----------- + +The SBI temperature sensor interface (SB-TSI) is an emulation of the software +and physical interface of a typical 8-pin remote temperature sensor (RTS) on +AMD SoCs. It implements one temperature sensor with readings and limit +registers encode the temperature in increments of 0.125 from 0 to 255.875. +Limits can be set through the writable thresholds, and if reached will trigger +corresponding alert signals. diff --git a/Documentation/hwmon/sch5627.rst b/Documentation/hwmon/sch5627.rst new file mode 100644 index 0000000000..ecb4fc84d0 --- /dev/null +++ b/Documentation/hwmon/sch5627.rst @@ -0,0 +1,35 @@ +Kernel driver sch5627 +===================== + +Supported chips: + + * SMSC SCH5627 + + Prefix: 'sch5627' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: Application Note available upon request + +Author: Hans de Goede <hdegoede@redhat.com> + + +Description +----------- + +SMSC SCH5627 Super I/O chips include complete hardware monitoring +capabilities. They can monitor up to 5 voltages, 4 fans and 8 temperatures. + +In addition, the SCH5627 exports data describing which temperature sensors +affect the speed of each fan. Setting pwmX_auto_channels_temp to 0 forces +the corresponding fan to full speed until another value is written. + +The SMSC SCH5627 hardware monitoring part also contains an integrated +watchdog. In order for this watchdog to function some motherboard specific +initialization most be done by the BIOS, so if the watchdog is not enabled +by the BIOS the sch5627 driver will not register a watchdog device. + +The hardware monitoring part of the SMSC SCH5627 is accessed by talking +through an embedded microcontroller. An application note describing the +protocol for communicating with the microcontroller is available upon +request. Please mail me if you want a copy. diff --git a/Documentation/hwmon/sch5636.rst b/Documentation/hwmon/sch5636.rst new file mode 100644 index 0000000000..4aaee3672f --- /dev/null +++ b/Documentation/hwmon/sch5636.rst @@ -0,0 +1,37 @@ +Kernel driver sch5636 +===================== + +Supported chips: + + * SMSC SCH5636 + + Prefix: 'sch5636' + + Addresses scanned: none, address read from Super I/O config space + +Author: Hans de Goede <hdegoede@redhat.com> + + +Description +----------- + +SMSC SCH5636 Super I/O chips include an embedded microcontroller for +hardware monitoring solutions, allowing motherboard manufacturers to create +their own custom hwmon solution based upon the SCH5636. + +Currently the sch5636 driver only supports the Fujitsu Theseus SCH5636 based +hwmon solution. The sch5636 driver runs a sanity check on loading to ensure +it is dealing with a Fujitsu Theseus and not with another custom SCH5636 based +hwmon solution. + +The Fujitsu Theseus can monitor up to 5 voltages, 8 fans and 16 +temperatures. Note that the driver detects how many fan headers / +temperature sensors are actually implemented on the motherboard, so you will +likely see fewer temperature and fan inputs. + +The Fujitsu Theseus hwmon solution also contains an integrated watchdog. +This watchdog is fully supported by the sch5636 driver. + +An application note describing the Theseus' registers, as well as an +application note describing the protocol for communicating with the +microcontroller is available upon request. Please mail me if you want a copy. diff --git a/Documentation/hwmon/scpi-hwmon.rst b/Documentation/hwmon/scpi-hwmon.rst new file mode 100644 index 0000000000..1e3f83ec06 --- /dev/null +++ b/Documentation/hwmon/scpi-hwmon.rst @@ -0,0 +1,36 @@ +Kernel driver scpi-hwmon +======================== + +Supported chips: + + * Chips based on ARM System Control Processor Interface + + Addresses scanned: - + + Datasheet: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dui0922b/index.html + +Author: Punit Agrawal <punit.agrawal@arm.com> + +Description +----------- + +This driver supports hardware monitoring for SoC's based on the ARM +System Control Processor (SCP) implementing the System Control +Processor Interface (SCPI). The following sensor types are supported +by the SCP: + + * temperature + * voltage + * current + * power + +The SCP interface provides an API to query the available sensors and +their values which are then exported to userspace by this driver. + +Usage Notes +----------- + +The driver relies on device tree node to indicate the presence of SCPI +support in the kernel. See +Documentation/devicetree/bindings/firmware/arm,scpi.yaml for details of the +devicetree node. diff --git a/Documentation/hwmon/sfctemp.rst b/Documentation/hwmon/sfctemp.rst new file mode 100644 index 0000000000..9fbd5bb1f3 --- /dev/null +++ b/Documentation/hwmon/sfctemp.rst @@ -0,0 +1,33 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver sfctemp +===================== + +Supported chips: + - StarFive JH7100 + - StarFive JH7110 + +Authors: + - Emil Renner Berthing <kernel@esmil.dk> + +Description +----------- + +This driver adds support for reading the built-in temperature sensor on the +JH7100 and JH7110 RISC-V SoCs by StarFive Technology Co. Ltd. + +``sysfs`` interface +------------------- + +The temperature sensor can be enabled, disabled and queried via the standard +hwmon interface in sysfs under ``/sys/class/hwmon/hwmonX`` for some value of +``X``: + +================ ==== ============================================= +Name Perm Description +================ ==== ============================================= +temp1_enable RW Enable or disable temperature sensor. + Automatically enabled by the driver, + but may be disabled to save power. +temp1_input RO Temperature reading in milli-degrees Celsius. +================ ==== ============================================= diff --git a/Documentation/hwmon/sht15.rst b/Documentation/hwmon/sht15.rst new file mode 100644 index 0000000000..485abe037f --- /dev/null +++ b/Documentation/hwmon/sht15.rst @@ -0,0 +1,83 @@ +Kernel driver sht15 +=================== + +Authors: + + * Wouter Horre + * Jonathan Cameron + * Vivien Didelot <vivien.didelot@savoirfairelinux.com> + * Jerome Oufella <jerome.oufella@savoirfairelinux.com> + +Supported chips: + + * Sensirion SHT10 + + Prefix: 'sht10' + + * Sensirion SHT11 + + Prefix: 'sht11' + + * Sensirion SHT15 + + Prefix: 'sht15' + + * Sensirion SHT71 + + Prefix: 'sht71' + + * Sensirion SHT75 + + Prefix: 'sht75' + +Datasheet: Publicly available at the Sensirion website + + http://www.sensirion.ch/en/pdf/product_information/Datasheet-humidity-sensor-SHT1x.pdf + +Description +----------- + +The SHT10, SHT11, SHT15, SHT71, and SHT75 are humidity and temperature +sensors. + +The devices communicate using two GPIO lines. + +Supported resolutions for the measurements are 14 bits for temperature and 12 +bits for humidity, or 12 bits for temperature and 8 bits for humidity. + +The humidity calibration coefficients are programmed into an OTP memory on the +chip. These coefficients are used to internally calibrate the signals from the +sensors. Disabling the reload of those coefficients allows saving 10ms for each +measurement and decrease power consumption, while losing on precision. + +Some options may be set via sysfs attributes. + +Notes: + * The regulator supply name is set to "vcc". + * If a CRC validation fails, a soft reset command is sent, which resets + status register to its hardware default value, but the driver will try to + restore the previous device configuration. + +Platform data +------------- + +* checksum: + set it to true to enable CRC validation of the readings (default to false). +* no_otp_reload: + flag to indicate not to reload from OTP (default to false). +* low_resolution: + flag to indicate the temp/humidity resolution to use (default to false). + +Sysfs interface +--------------- + +================== ========================================================== +temp1_input temperature input +humidity1_input humidity input +heater_enable write 1 in this attribute to enable the on-chip heater, + 0 to disable it. Be careful not to enable the heater + for too long. +temp1_fault if 1, this means that the voltage is low (below 2.47V) and + measurement may be invalid. +humidity1_fault same as temp1_fault. +================== ========================================================== diff --git a/Documentation/hwmon/sht21.rst b/Documentation/hwmon/sht21.rst new file mode 100644 index 0000000000..1bccc8e8aa --- /dev/null +++ b/Documentation/hwmon/sht21.rst @@ -0,0 +1,68 @@ +Kernel driver sht21 +=================== + +Supported chips: + + * Sensirion SHT21 + + Prefix: 'sht21' + + Addresses scanned: none + + Datasheet: Publicly available at the Sensirion website + + https://www.sensirion.com/file/datasheet_sht21 + + + + * Sensirion SHT25 + + Prefix: 'sht25' + + Addresses scanned: none + + Datasheet: Publicly available at the Sensirion website + + https://www.sensirion.com/file/datasheet_sht25 + + + +Author: + + Urs Fleisch <urs.fleisch@sensirion.com> + +Description +----------- + +The SHT21 and SHT25 are humidity and temperature sensors in a DFN package of +only 3 x 3 mm footprint and 1.1 mm height. The difference between the two +devices is the higher level of precision of the SHT25 (1.8% relative humidity, +0.2 degree Celsius) compared with the SHT21 (2.0% relative humidity, +0.3 degree Celsius). + +The devices communicate with the I2C protocol. All sensors are set to the same +I2C address 0x40, so an entry with I2C_BOARD_INFO("sht21", 0x40) can be used +in the board setup code. + +sysfs-Interface +--------------- + +temp1_input + - temperature input + +humidity1_input + - humidity input +eic + - Electronic Identification Code + +Notes +----- + +The driver uses the default resolution settings of 12 bit for humidity and 14 +bit for temperature, which results in typical measurement times of 22 ms for +humidity and 66 ms for temperature. To keep self heating below 0.1 degree +Celsius, the device should not be active for more than 10% of the time, +e.g. maximum two measurements per second at the given resolution. + +Different resolutions, the on-chip heater, and using the CRC checksum +are not supported yet. diff --git a/Documentation/hwmon/sht3x.rst b/Documentation/hwmon/sht3x.rst new file mode 100644 index 0000000000..87864ffd17 --- /dev/null +++ b/Documentation/hwmon/sht3x.rst @@ -0,0 +1,88 @@ +Kernel driver sht3x +=================== + +Supported chips: + + * Sensirion SHT3x-DIS + + Prefix: 'sht3x' + + Addresses scanned: none + + Datasheet: https://www.sensirion.com/file/datasheet_sht3x_digital + +Author: + + - David Frey <david.frey@sensirion.com> + - Pascal Sachs <pascal.sachs@sensirion.com> + +Description +----------- + +This driver implements support for the Sensirion SHT3x-DIS chip, a humidity +and temperature sensor. Temperature is measured in degrees celsius, relative +humidity is expressed as a percentage. In the sysfs interface, all values are +scaled by 1000, i.e. the value for 31.5 degrees celsius is 31500. + +The device communicates with the I2C protocol. Sensors can have the I2C +addresses 0x44 or 0x45, depending on the wiring. See +Documentation/i2c/instantiating-devices.rst for methods to instantiate the device. + +Even if sht3x sensor supports clock-strech(blocking mode) and non-strench +(non-blocking mode) in single-shot mode, this driver only supports the latter. + +The sht3x sensor supports a single shot mode as well as 5 periodic measure +modes, which can be controlled with the update_interval sysfs interface. +The allowed update_interval in milliseconds are as follows: + + ===== ======= ==================== + 0 single shot mode + 2000 0.5 Hz periodic measurement + 1000 1 Hz periodic measurement + 500 2 Hz periodic measurement + 250 4 Hz periodic measurement + 100 10 Hz periodic measurement + ===== ======= ==================== + +In the periodic measure mode, the sensor automatically triggers a measurement +with the configured update interval on the chip. When a temperature or humidity +reading exceeds the configured limits, the alert attribute is set to 1 and +the alert pin on the sensor is set to high. +When the temperature and humidity readings move back between the hysteresis +values, the alert bit is set to 0 and the alert pin on the sensor is set to +low. + +sysfs-Interface +--------------- + +=================== ============================================================ +temp1_input: temperature input +humidity1_input: humidity input +temp1_max: temperature max value +temp1_max_hyst: temperature hysteresis value for max limit +humidity1_max: humidity max value +humidity1_max_hyst: humidity hysteresis value for max limit +temp1_min: temperature min value +temp1_min_hyst: temperature hysteresis value for min limit +humidity1_min: humidity min value +humidity1_min_hyst: humidity hysteresis value for min limit +temp1_alarm: alarm flag is set to 1 if the temperature is outside the + configured limits. Alarm only works in periodic measure mode +humidity1_alarm: alarm flag is set to 1 if the humidity is outside the + configured limits. Alarm only works in periodic measure mode +heater_enable: heater enable, heating element removes excess humidity from + sensor: + + - 0: turned off + - 1: turned on +update_interval: update interval, 0 for single shot, interval in msec + for periodic measurement. If the interval is not supported + by the sensor, the next faster interval is chosen +repeatability: write or read repeatability, higher repeatability means + longer measurement duration, lower noise level and + larger energy consumption: + + - 0: low repeatability + - 1: medium repeatability + - 2: high repeatability +=================== ============================================================ diff --git a/Documentation/hwmon/sht4x.rst b/Documentation/hwmon/sht4x.rst new file mode 100644 index 0000000000..daf21e7634 --- /dev/null +++ b/Documentation/hwmon/sht4x.rst @@ -0,0 +1,45 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver sht4x +=================== + +Supported Chips: + + * Sensirion SHT4X + + Prefix: 'sht4x' + + Addresses scanned: None + + Datasheet: + + English: https://www.sensirion.com/fileadmin/user_upload/customers/sensirion/Dokumente/2_Humidity_Sensors/Datasheets/Sensirion_Humidity_Sensors_SHT4x_Datasheet.pdf + +Author: Navin Sankar Velliangiri <navin@linumiz.com> + + +Description +----------- + +This driver implements support for the Sensirion SHT4x chip, a humidity +and temperature sensor. Temperature is measured in degree celsius, relative +humidity is expressed as a percentage. In sysfs interface, all values are +scaled by 1000, i.e. the value for 31.5 degrees celsius is 31500. + +Usage Notes +----------- + +The device communicates with the I2C protocol. Sensors can have the I2C +address 0x44. See Documentation/i2c/instantiating-devices.rst for methods +to instantiate the device. + +Sysfs entries +------------- + +=============== ============================================ +temp1_input Measured temperature in millidegrees Celsius +humidity1_input Measured humidity in %H +update_interval The minimum interval for polling the sensor, + in milliseconds. Writable. Must be at least + 2000. +=============== ============================================ diff --git a/Documentation/hwmon/shtc1.rst b/Documentation/hwmon/shtc1.rst new file mode 100644 index 0000000000..f38c4c9d2f --- /dev/null +++ b/Documentation/hwmon/shtc1.rst @@ -0,0 +1,67 @@ +Kernel driver shtc1 +=================== + +Supported chips: + + * Sensirion SHTC1 + + Prefix: 'shtc1' + + Addresses scanned: none + + Datasheet: https://www.sensirion.com/file/datasheet_shtc1 + + + + * Sensirion SHTW1 + + Prefix: 'shtw1' + + Addresses scanned: none + + Datasheet: https://www.sensirion.com/file/datasheet_shtw1 + + + + * Sensirion SHTC3 + + Prefix: 'shtc3' + + Addresses scanned: none + + Datasheet: https://www.sensirion.com/file/datasheet_shtc3 + + + +Author: + + Johannes Winkelmann <johannes.winkelmann@sensirion.com> + +Description +----------- + +This driver implements support for the Sensirion SHTC1, SHTW1, and SHTC3 +chips, a humidity and temperature sensor. Temperature is measured in degrees +celsius, relative humidity is expressed as a percentage. + +The device communicates with the I2C protocol. All sensors are set to I2C +address 0x70. See Documentation/i2c/instantiating-devices.rst for methods to +instantiate the device. + +There are two options configurable by means of shtc1_platform_data: + +1. blocking (pull the I2C clock line down while performing the measurement) or + non-blocking mode. Blocking mode will guarantee the fastest result but + the I2C bus will be busy during that time. By default, non-blocking mode + is used. Make sure clock-stretching works properly on your device if you + want to use blocking mode. +2. high or low accuracy. High accuracy is used by default and using it is + strongly recommended. + +sysfs-Interface +--------------- + +temp1_input + - temperature input +humidity1_input + - humidity input diff --git a/Documentation/hwmon/sis5595.rst b/Documentation/hwmon/sis5595.rst new file mode 100644 index 0000000000..16123b3bff --- /dev/null +++ b/Documentation/hwmon/sis5595.rst @@ -0,0 +1,123 @@ +Kernel driver sis5595 +===================== + +Supported chips: + + * Silicon Integrated Systems Corp. SiS5595 Southbridge Hardware Monitor + + Prefix: 'sis5595' + + Addresses scanned: ISA in PCI-space encoded address + + Datasheet: Publicly available at the Silicon Integrated Systems Corp. site. + + + +Authors: + + - Kyösti Mälkki <kmalkki@cc.hut.fi>, + - Mark D. Studebaker <mdsxyz123@yahoo.com>, + - Aurelien Jarno <aurelien@aurel32.net> 2.6 port + + SiS southbridge has a LM78-like chip integrated on the same IC. + This driver is a customized copy of lm78.c + + Supports following revisions: + + =============== =============== ============== + Version PCI ID PCI Revision + =============== =============== ============== + 1 1039/0008 AF or less + 2 1039/0008 B0 or greater + =============== =============== ============== + + Note: these chips contain a 0008 device which is incompatible with the + 5595. We recognize these by the presence of the listed + "blacklist" PCI ID and refuse to load. + + =================== =============== ================ + NOT SUPPORTED PCI ID BLACKLIST PCI ID + =================== =============== ================ + 540 0008 0540 + 550 0008 0550 + 5513 0008 5511 + 5581 0008 5597 + 5582 0008 5597 + 5597 0008 5597 + 630 0008 0630 + 645 0008 0645 + 730 0008 0730 + 735 0008 0735 + =================== =============== ================ + + +Module Parameters +----------------- + +======================= ===================================================== +force_addr=0xaddr Set the I/O base address. Useful for boards + that don't set the address in the BIOS. Does not do a + PCI force; the device must still be present in lspci. + Don't use this unless the driver complains that the + base address is not set. + + Example: 'modprobe sis5595 force_addr=0x290' +======================= ===================================================== + + +Description +----------- + +The SiS5595 southbridge has integrated hardware monitor functions. It also +has an I2C bus, but this driver only supports the hardware monitor. For the +I2C bus driver see i2c-sis5595. + +The SiS5595 implements zero or one temperature sensor, two fan speed +sensors, four or five voltage sensors, and alarms. + +On the first version of the chip, there are four voltage sensors and one +temperature sensor. + +On the second version of the chip, the temperature sensor (temp) and the +fifth voltage sensor (in4) share a pin which is configurable, but not +through the driver. Sorry. The driver senses the configuration of the pin, +which was hopefully set by the BIOS. + +Temperatures are measured in degrees Celsius. An alarm is triggered once +when the max is crossed; it is also triggered when it drops below the min +value. Measurements are guaranteed between -55 and +125 degrees, with a +resolution of 1 degree. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4 or 8) to give +the readings more range or accuracy. Not all RPM values can accurately be +represented, so some rounding is done. With a divider of 2, the lowest +representable value is around 2600 RPM. + +Voltage sensors (also known as IN sensors) report their values in volts. An +alarm is triggered if the voltage has crossed a programmable minimum or +maximum limit. Note that minimum in this case always means 'closest to +zero'; this is important for negative voltage measurements. All voltage +inputs can measure voltages between 0 and 4.08 volts, with a resolution of +0.016 volt. + +In addition to the alarms described above, there is a BTI alarm, which gets +triggered when an external chip has crossed its limits. Usually, this is +connected to some LM75-like chip; if at least one crosses its limits, this +bit gets set. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may already +have disappeared! Note that in the current implementation, all hardware +registers are read whenever any data is read (unless it is less than 1.5 +seconds since the last update). This means that you can easily miss +once-only alarms. + +The SiS5595 only updates its values each 1.5 seconds; reading it more often +will do no harm, but will return 'old' values. + +Problems +-------- +Some chips refuse to be enabled. We don't know why. +The driver will recognize this and print a message in dmesg. diff --git a/Documentation/hwmon/sl28cpld.rst b/Documentation/hwmon/sl28cpld.rst new file mode 100644 index 0000000000..7ed65f7825 --- /dev/null +++ b/Documentation/hwmon/sl28cpld.rst @@ -0,0 +1,36 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver sl28cpld +====================== + +Supported chips: + + * Kontron sl28cpld + + Prefix: 'sl28cpld' + + Datasheet: not available + +Authors: Michael Walle <michael@walle.cc> + +Description +----------- + +The sl28cpld is a board management controller which also exposes a hardware +monitoring controller. At the moment this controller supports a single fan +supervisor. In the future there might be other flavours and additional +hardware monitoring might be supported. + +The fan supervisor has a 7 bit counter register and a counter period of 1 +second. If the 7 bit counter overflows, the supervisor will automatically +switch to x8 mode to support a wider input range at the loss of +granularity. + +Sysfs entries +------------- + +The following attributes are supported. + +======================= ======================================================== +fan1_input Fan RPM. Assuming 2 pulses per revolution. +======================= ======================================================== diff --git a/Documentation/hwmon/smpro-hwmon.rst b/Documentation/hwmon/smpro-hwmon.rst new file mode 100644 index 0000000000..fb7b366573 --- /dev/null +++ b/Documentation/hwmon/smpro-hwmon.rst @@ -0,0 +1,102 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver Ampere(R)'s Altra(R) SMpro hwmon +============================================== + +Supported chips: + + * Ampere(R) Altra(R) + + Prefix: ``smpro`` + + Reference: `Altra SoC BMC Interface Specification` + +Author: Thu Nguyen <thu@os.amperecomputing.com> + +Description +----------- +The smpro-hwmon driver supports hardware monitoring for Ampere(R) Altra(R) +SoCs based on the SMpro co-processor (SMpro). The following sensor metrics +are supported by the driver: + + * temperature + * voltage + * current + * power + +The interface provides the registers to query the various sensors and +their values which are then exported to userspace by this driver. + +Usage Notes +----------- + +The driver creates at least two sysfs files for each sensor. + +* ``<sensor_type><idx>_label`` reports the sensor label. +* ``<sensor_type><idx>_input`` returns the sensor value. + +The sysfs files are allocated in the SMpro rootfs folder, with one root +directory for each instance. + +When the SoC is turned off, the driver will fail to read registers and +return ``-ENXIO``. + +Sysfs entries +------------- + +The following sysfs files are supported: + +* Ampere(R) Altra(R): + + ============ ============= ====== =============================================== + Name Unit Perm Description + ============ ============= ====== =============================================== + temp1_input millicelsius RO SoC temperature + temp2_input millicelsius RO Max temperature reported among SoC VRDs + temp2_crit millicelsius RO SoC VRD HOT Threshold temperature + temp3_input millicelsius RO Max temperature reported among DIMM VRDs + temp4_input millicelsius RO Max temperature reported among Core VRDs + temp5_input millicelsius RO Temperature of DIMM0 on CH0 + temp5_crit millicelsius RO MEM HOT Threshold for all DIMMs + temp6_input millicelsius RO Temperature of DIMM0 on CH1 + temp6_crit millicelsius RO MEM HOT Threshold for all DIMMs + temp7_input millicelsius RO Temperature of DIMM0 on CH2 + temp7_crit millicelsius RO MEM HOT Threshold for all DIMMs + temp8_input millicelsius RO Temperature of DIMM0 on CH3 + temp8_crit millicelsius RO MEM HOT Threshold for all DIMMs + temp9_input millicelsius RO Temperature of DIMM0 on CH4 + temp9_crit millicelsius RO MEM HOT Threshold for all DIMMs + temp10_input millicelsius RO Temperature of DIMM0 on CH5 + temp10_crit millicelsius RO MEM HOT Threshold for all DIMMs + temp11_input millicelsius RO Temperature of DIMM0 on CH6 + temp11_crit millicelsius RO MEM HOT Threshold for all DIMMs + temp12_input millicelsius RO Temperature of DIMM0 on CH7 + temp12_crit millicelsius RO MEM HOT Threshold for all DIMMs + temp13_input millicelsius RO Max temperature reported among RCA VRDs + in0_input millivolts RO Core voltage + in1_input millivolts RO SoC voltage + in2_input millivolts RO DIMM VRD1 voltage + in3_input millivolts RO DIMM VRD2 voltage + in4_input millivolts RO RCA VRD voltage + cur1_input milliamperes RO Core VRD current + cur2_input milliamperes RO SoC VRD current + cur3_input milliamperes RO DIMM VRD1 current + cur4_input milliamperes RO DIMM VRD2 current + cur5_input milliamperes RO RCA VRD current + power1_input microwatts RO Core VRD power + power2_input microwatts RO SoC VRD power + power3_input microwatts RO DIMM VRD1 power + power4_input microwatts RO DIMM VRD2 power + power5_input microwatts RO RCA VRD power + ============ ============= ====== =============================================== + + Example:: + + # cat in0_input + 830 + # cat temp1_input + 37000 + # cat curr1_input + 9000 + # cat power5_input + 19500000 diff --git a/Documentation/hwmon/smsc47b397.rst b/Documentation/hwmon/smsc47b397.rst new file mode 100644 index 0000000000..600194cf18 --- /dev/null +++ b/Documentation/hwmon/smsc47b397.rst @@ -0,0 +1,197 @@ +Kernel driver smsc47b397 +======================== + +Supported chips: + + * SMSC LPC47B397-NC + + * SMSC SCH5307-NS + + * SMSC SCH5317 + + Prefix: 'smsc47b397' + + Addresses scanned: none, address read from Super I/O config space + + Datasheet: In this file + +Authors: + + - Mark M. Hoffman <mhoffman@lightlink.com> + - Utilitek Systems, Inc. + +November 23, 2004 + +The following specification describes the SMSC LPC47B397-NC [1]_ sensor chip +(for which there is no public datasheet available). This document was +provided by Craig Kelly (In-Store Broadcast Network) and edited/corrected +by Mark M. Hoffman <mhoffman@lightlink.com>. + +.. [1] And SMSC SCH5307-NS and SCH5317, which have different device IDs but are + otherwise compatible. + +------------------------------------------------------------------------- + +Methods for detecting the HP SIO and reading the thermal data on a dc7100 +------------------------------------------------------------------------- + +The thermal information on the dc7100 is contained in the SIO Hardware Monitor +(HWM). The information is accessed through an index/data pair. The index/data +pair is located at the HWM Base Address + 0 and the HWM Base Address + 1. The +HWM Base address can be obtained from Logical Device 8, registers 0x60 (MSB) +and 0x61 (LSB). Currently we are using 0x480 for the HWM Base Address and +0x480 and 0x481 for the index/data pair. + +Reading temperature information. +The temperature information is located in the following registers: + +=============== ======= ======================================================= +Temp1 0x25 (Currently, this reflects the CPU temp on all systems). +Temp2 0x26 +Temp3 0x27 +Temp4 0x80 +=============== ======= ======================================================= + +Programming Example +The following is an example of how to read the HWM temperature registers:: + + MOV DX,480H + MOV AX,25H + OUT DX,AL + MOV DX,481H + IN AL,DX + +AL contains the data in hex, the temperature in Celsius is the decimal +equivalent. + +Ex: If AL contains 0x2A, the temperature is 42 degrees C. + +Reading tach information. +The fan speed information is located in the following registers: + +=============== ======= ======= ================================= + LSB MSB +Tach1 0x28 0x29 (Currently, this reflects the CPU + fan speed on all systems). +Tach2 0x2A 0x2B +Tach3 0x2C 0x2D +Tach4 0x2E 0x2F +=============== ======= ======= ================================= + +.. Important:: + + Reading the tach LSB locks the tach MSB. + The LSB Must be read first. + +How to convert the tach reading to RPM +-------------------------------------- + +The tach reading (TCount) is given by: (Tach MSB * 256) + (Tach LSB) +The SIO counts the number of 90kHz (11.111us) pulses per revolution. +RPM = 60/(TCount * 11.111us) + +Example:: + + Reg 0x28 = 0x9B + Reg 0x29 = 0x08 + +TCount = 0x89B = 2203 + +RPM = 60 / (2203 * 11.11111 E-6) = 2451 RPM + +Obtaining the SIO version. + +Configuration Sequence +---------------------- + +To program the configuration registers, the following sequence must be followed: +1. Enter Configuration Mode +2. Configure the Configuration Registers +3. Exit Configuration Mode. + +Enter Configuration Mode +^^^^^^^^^^^^^^^^^^^^^^^^ + +To place the chip into the Configuration State The config key (0x55) is written +to the CONFIG PORT (0x2E). + +Configuration Mode +^^^^^^^^^^^^^^^^^^ + +In configuration mode, the INDEX PORT is located at the CONFIG PORT address and +the DATA PORT is at INDEX PORT address + 1. + +The desired configuration registers are accessed in two steps: + +a. Write the index of the Logical Device Number Configuration Register + (i.e., 0x07) to the INDEX PORT and then write the number of the + desired logical device to the DATA PORT. + +b. Write the address of the desired configuration register within the + logical device to the INDEX PORT and then write or read the config- + uration register through the DATA PORT. + +Note: + If accessing the Global Configuration Registers, step (a) is not required. + +Exit Configuration Mode +^^^^^^^^^^^^^^^^^^^^^^^ + +To exit the Configuration State the write 0xAA to the CONFIG PORT (0x2E). +The chip returns to the RUN State. (This is important). + +Programming Example +^^^^^^^^^^^^^^^^^^^ + +The following is an example of how to read the SIO Device ID located at 0x20: + + ; ENTER CONFIGURATION MODE + MOV DX,02EH + MOV AX,055H + OUT DX,AL + ; GLOBAL CONFIGURATION REGISTER + MOV DX,02EH + MOV AL,20H + OUT DX,AL + ; READ THE DATA + MOV DX,02FH + IN AL,DX + ; EXIT CONFIGURATION MODE + MOV DX,02EH + MOV AX,0AAH + OUT DX,AL + +The registers of interest for identifying the SIO on the dc7100 are Device ID +(0x20) and Device Rev (0x21). + +The Device ID will read 0x6F (0x81 for SCH5307-NS, and 0x85 for SCH5317) +The Device Rev currently reads 0x01 + +Obtaining the HWM Base Address +------------------------------ + +The following is an example of how to read the HWM Base Address located in +Logical Device 8:: + + ; ENTER CONFIGURATION MODE + MOV DX,02EH + MOV AX,055H + OUT DX,AL + ; CONFIGURE REGISTER CRE0, + ; LOGICAL DEVICE 8 + MOV DX,02EH + MOV AL,07H + OUT DX,AL ;Point to LD# Config Reg + MOV DX,02FH + MOV AL, 08H + OUT DX,AL;Point to Logical Device 8 + ; + MOV DX,02EH + MOV AL,60H + OUT DX,AL ; Point to HWM Base Addr MSB + MOV DX,02FH + IN AL,DX ; Get MSB of HWM Base Addr + ; EXIT CONFIGURATION MODE + MOV DX,02EH + MOV AX,0AAH + OUT DX,AL diff --git a/Documentation/hwmon/smsc47m1.rst b/Documentation/hwmon/smsc47m1.rst new file mode 100644 index 0000000000..c54eabd5eb --- /dev/null +++ b/Documentation/hwmon/smsc47m1.rst @@ -0,0 +1,86 @@ +Kernel driver smsc47m1 +====================== + +Supported chips: + + * SMSC LPC47B27x, LPC47M112, LPC47M10x, LPC47M13x, LPC47M14x, + + LPC47M15x and LPC47M192 + + Addresses scanned: none, address read from Super I/O config space + + Prefix: 'smsc47m1' + + Datasheets: + + http://www.smsc.com/media/Downloads_Public/Data_Sheets/47b272.pdf + + http://www.smsc.com/media/Downloads_Public/Data_Sheets/47m10x.pdf + + http://www.smsc.com/media/Downloads_Public/Data_Sheets/47m112.pdf + + http://www.smsc.com/ + + * SMSC LPC47M292 + + Addresses scanned: none, address read from Super I/O config space + + Prefix: 'smsc47m2' + + Datasheet: Not public + + * SMSC LPC47M997 + + Addresses scanned: none, address read from Super I/O config space + + Prefix: 'smsc47m1' + + Datasheet: none + + + +Authors: + + - Mark D. Studebaker <mdsxyz123@yahoo.com>, + - With assistance from Bruce Allen <ballen@uwm.edu>, and his + fan.c program: + + - http://www.lsc-group.phys.uwm.edu/%7Eballen/driver/ + + - Gabriele Gorla <gorlik@yahoo.com>, + - Jean Delvare <jdelvare@suse.de> + +Description +----------- + +The Standard Microsystems Corporation (SMSC) 47M1xx Super I/O chips +contain monitoring and PWM control circuitry for two fans. + +The LPC47M15x, LPC47M192 and LPC47M292 chips contain a full 'hardware +monitoring block' in addition to the fan monitoring and control. The +hardware monitoring block is not supported by this driver, use the +smsc47m192 driver for that. + +No documentation is available for the 47M997, but it has the same device +ID as the 47M15x and 47M192 chips and seems to be compatible. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4 or 8) to give +the readings more range or accuracy. Not all RPM values can accurately be +represented, so some rounding is done. With a divider of 2, the lowest +representable value is around 2600 RPM. + +PWM values are from 0 to 255. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may +already have disappeared! Note that in the current implementation, all +hardware registers are read whenever any data is read (unless it is less +than 1.5 seconds since the last update). This means that you can easily +miss once-only alarms. + +------------------------------------------------------------------ + +The lm_sensors project gratefully acknowledges the support of +Intel in the development of this driver. diff --git a/Documentation/hwmon/smsc47m192.rst b/Documentation/hwmon/smsc47m192.rst new file mode 100644 index 0000000000..a2e86ab679 --- /dev/null +++ b/Documentation/hwmon/smsc47m192.rst @@ -0,0 +1,116 @@ +Kernel driver smsc47m192 +======================== + +Supported chips: + + * SMSC LPC47M192, LPC47M15x, LPC47M292 and LPC47M997 + + Prefix: 'smsc47m192' + + Addresses scanned: I2C 0x2c - 0x2d + + Datasheet: The datasheet for LPC47M192 is publicly available from + + http://www.smsc.com/ + + The LPC47M15x, LPC47M292 and LPC47M997 are compatible for + + hardware monitoring. + + + +Author: + - Hartmut Rick <linux@rick.claranet.de> + + - Special thanks to Jean Delvare for careful checking + of the code and many helpful comments and suggestions. + + +Description +----------- + +This driver implements support for the hardware sensor capabilities +of the SMSC LPC47M192 and compatible Super-I/O chips. + +These chips support 3 temperature channels and 8 voltage inputs +as well as CPU voltage VID input. + +They do also have fan monitoring and control capabilities, but the +these features are accessed via ISA bus and are not supported by this +driver. Use the 'smsc47m1' driver for fan monitoring and control. + +Voltages and temperatures are measured by an 8-bit ADC, the resolution +of the temperatures is 1 bit per degree C. +Voltages are scaled such that the nominal voltage corresponds to +192 counts, i.e. 3/4 of the full range. Thus the available range for +each voltage channel is 0V ... 255/192*(nominal voltage), the resolution +is 1 bit per (nominal voltage)/192. +Both voltage and temperature values are scaled by 1000, the sys files +show voltages in mV and temperatures in units of 0.001 degC. + +The +12V analog voltage input channel (in4_input) is multiplexed with +bit 4 of the encoded CPU voltage. This means that you either get +a +12V voltage measurement or a 5 bit CPU VID, but not both. +The default setting is to use the pin as 12V input, and use only 4 bit VID. +This driver assumes that the information in the configuration register +is correct, i.e. that the BIOS has updated the configuration if +the motherboard has this input wired to VID4. + +The temperature and voltage readings are updated once every 1.5 seconds. +Reading them more often repeats the same values. + + +sysfs interface +--------------- + +===================== ========================================================== +in0_input +2.5V voltage input +in1_input CPU voltage input (nominal 2.25V) +in2_input +3.3V voltage input +in3_input +5V voltage input +in4_input +12V voltage input (may be missing if used as VID4) +in5_input Vcc voltage input (nominal 3.3V) + This is the supply voltage of the sensor chip itself. +in6_input +1.5V voltage input +in7_input +1.8V voltage input + +in[0-7]_min, +in[0-7]_max lower and upper alarm thresholds for in[0-7]_input reading + + All voltages are read and written in mV. + +in[0-7]_alarm alarm flags for voltage inputs + These files read '1' in case of alarm, '0' otherwise. + +temp1_input chip temperature measured by on-chip diode +temp[2-3]_input temperature measured by external diodes (one of these + would typically be wired to the diode inside the CPU) + +temp[1-3]_min, +temp[1-3]_max lower and upper alarm thresholds for temperatures + +temp[1-3]_offset temperature offset registers + The chip adds the offsets stored in these registers to + the corresponding temperature readings. + Note that temp1 and temp2 offsets share the same register, + they cannot both be different from zero at the same time. + Writing a non-zero number to one of them will reset the other + offset to zero. + + All temperatures and offsets are read and written in + units of 0.001 degC. + +temp[1-3]_alarm alarm flags for temperature inputs, '1' in case of alarm, + '0' otherwise. +temp[2-3]_input_fault diode fault flags for temperature inputs 2 and 3. + A fault is detected if the two pins for the corresponding + sensor are open or shorted, or any of the two is shorted + to ground or Vcc. '1' indicates a diode fault. + +cpu0_vid CPU voltage as received from the CPU + +vrm CPU VID standard used for decoding CPU voltage +===================== ========================================================== + +The `*_min`, `*_max`, `*_offset` and `vrm` files can be read and written, +all others are read-only. diff --git a/Documentation/hwmon/sparx5-temp.rst b/Documentation/hwmon/sparx5-temp.rst new file mode 100644 index 0000000000..0140809089 --- /dev/null +++ b/Documentation/hwmon/sparx5-temp.rst @@ -0,0 +1,33 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Microchip SparX-5 SoC +===================== + +Supported chips: + + * VSC7546, VSC7549, VSC755, VSC7556, and VSC7558 (Sparx5 series) + + Prefix: 'sparx5-temp' + + Addresses scanned: - + + Datasheet: Provided by Microchip upon request and under NDA + +Author: Lars Povlsen <lars.povlsen@microchip.com> + +Description +----------- + +The Sparx5 SoC contains a temperature sensor based on the MR74060 +Moortec IP. + +The sensor has a range of -40°C to +125°C and an accuracy of +/-5°C. + +Sysfs entries +------------- + +The following attributes are supported. + +======================= ======================================================== +temp1_input Die temperature (in millidegree Celsius.) +======================= ======================================================== diff --git a/Documentation/hwmon/stpddc60.rst b/Documentation/hwmon/stpddc60.rst new file mode 100644 index 0000000000..0c31f78fe5 --- /dev/null +++ b/Documentation/hwmon/stpddc60.rst @@ -0,0 +1,90 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver stpddc60 +====================== + +Supported chips: + + * ST STPDDC60 + + Prefix: 'stpddc60', 'bmr481' + + Addresses scanned: - + + Datasheet: https://flexpowermodules.com/documents/fpm-techspec-bmr481 + +Author: Erik Rosen <erik.rosen@metormote.com> + + +Description +----------- + +This driver supports hardware monitoring for ST STPDDC60 controller chip and +compatible modules. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst and Documentation.hwmon/pmbus-core for details +on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +The vout under- and over-voltage limits are set in relation to the commanded +output voltage as a positive or negative offset in the interval 50mV to 400mV +in 50mV steps. This means that the absolute values of the limits will change +when the commanded output voltage changes. Also, care should be taken when +writing to those limits since in the worst case the commanded output voltage +could change at the same time as the limit is written to, which will lead to +unpredictable results. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. Vin, iout, pout and temp limits +are read-write; all other attributes are read-only. + +======================= ======================================================== +in1_label "vin" +in1_input Measured input voltage. +in1_lcrit Critical minimum input voltage. +in1_crit Critical maximum input voltage. +in1_lcrit_alarm Input voltage critical low alarm. +in1_crit_alarm Input voltage critical high alarm. + +in2_label "vout1" +in2_input Measured output voltage. +in2_lcrit Critical minimum output voltage. +in2_crit Critical maximum output voltage. +in2_lcrit_alarm Critical output voltage critical low alarm. +in2_crit_alarm Critical output voltage critical high alarm. + +curr1_label "iout1" +curr1_input Measured output current. +curr1_max Maximum output current. +curr1_max_alarm Output current high alarm. +curr1_crit Critical maximum output current. +curr1_crit_alarm Output current critical high alarm. + +power1_label "pout1" +power1_input Measured output power. +power1_crit Critical maximum output power. +power1_crit_alarm Output power critical high alarm. + +temp1_input Measured maximum temperature of all phases. +temp1_max Maximum temperature limit. +temp1_max_alarm High temperature alarm. +temp1_crit Critical maximum temperature limit. +temp1_crit_alarm Critical maximum temperature alarm. +======================= ======================================================== diff --git a/Documentation/hwmon/submitting-patches.rst b/Documentation/hwmon/submitting-patches.rst new file mode 100644 index 0000000000..6482c4f137 --- /dev/null +++ b/Documentation/hwmon/submitting-patches.rst @@ -0,0 +1,149 @@ +How to Get Your Patch Accepted Into the Hwmon Subsystem +======================================================= + +This text is a collection of suggestions for people writing patches or +drivers for the hwmon subsystem. Following these suggestions will greatly +increase the chances of your change being accepted. + + +1. General +---------- + +* It should be unnecessary to mention, but please read and follow: + + - Documentation/process/submit-checklist.rst + - Documentation/process/submitting-patches.rst + - Documentation/process/coding-style.rst + +* Please run your patch through 'checkpatch --strict'. There should be no + errors, no warnings, and few if any check messages. If there are any + messages, please be prepared to explain. + +* Please use the standard multi-line comment style. Do not mix C and C++ + style comments in a single driver (with the exception of the SPDX license + identifier). + +* If your patch generates checkpatch errors, warnings, or check messages, + please refrain from explanations such as "I prefer that coding style". + Keep in mind that each unnecessary message helps hiding a real problem, + and a consistent coding style makes it easier for others to understand + and review the code. + +* Please test your patch thoroughly. We are not your test group. + Sometimes a patch can not or not completely be tested because of missing + hardware. In such cases, you should test-build the code on at least one + architecture. If run-time testing was not achieved, it should be written + explicitly below the patch header. + +* If your patch (or the driver) is affected by configuration options such as + CONFIG_SMP, make sure it compiles for all configuration variants. + + +2. Adding functionality to existing drivers +------------------------------------------- + +* Make sure the documentation in Documentation/hwmon/<driver_name>.rst is up to + date. + +* Make sure the information in Kconfig is up to date. + +* If the added functionality requires some cleanup or structural changes, split + your patch into a cleanup part and the actual addition. This makes it easier + to review your changes, and to bisect any resulting problems. + +* Never mix bug fixes, cleanup, and functional enhancements in a single patch. + + +3. New drivers +-------------- + +* Running your patch or driver file(s) through checkpatch does not mean its + formatting is clean. If unsure about formatting in your new driver, run it + through Lindent. Lindent is not perfect, and you may have to do some minor + cleanup, but it is a good start. + +* Consider adding yourself to MAINTAINERS. + +* Document the driver in Documentation/hwmon/<driver_name>.rst. + +* Add the driver to Kconfig and Makefile in alphabetical order. + +* Make sure that all dependencies are listed in Kconfig. + +* Please list include files in alphabetic order. + +* Please align continuation lines with '(' on the previous line. + +* Avoid forward declarations if you can. Rearrange the code if necessary. + +* Avoid macros to generate groups of sensor attributes. It not only confuses + checkpatch, but also makes it more difficult to review the code. + +* Avoid calculations in macros and macro-generated functions. While such macros + may save a line or so in the source, it obfuscates the code and makes code + review more difficult. It may also result in code which is more complicated + than necessary. Use inline functions or just regular functions instead. + +* Limit the number of kernel log messages. In general, your driver should not + generate an error message just because a runtime operation failed. Report + errors to user space instead, using an appropriate error code. Keep in mind + that kernel error log messages not only fill up the kernel log, but also are + printed synchronously, most likely with interrupt disabled, often to a serial + console. Excessive logging can seriously affect system performance. + +* Use devres functions whenever possible to allocate resources. For rationale + and supported functions, please see Documentation/driver-api/driver-model/devres.rst. + If a function is not supported by devres, consider using devm_add_action(). + +* If the driver has a detect function, make sure it is silent. Debug messages + and messages printed after a successful detection are acceptable, but it + must not print messages such as "Chip XXX not found/supported". + + Keep in mind that the detect function will run for all drivers supporting an + address if a chip is detected on that address. Unnecessary messages will just + pollute the kernel log and not provide any value. + +* Provide a detect function if and only if a chip can be detected reliably. + +* Only the following I2C addresses shall be probed: 0x18-0x1f, 0x28-0x2f, + 0x48-0x4f, 0x58, 0x5c, 0x73 and 0x77. Probing other addresses is strongly + discouraged as it is known to cause trouble with other (non-hwmon) I2C + chips. If your chip lives at an address which can't be probed then the + device will have to be instantiated explicitly (which is always better + anyway.) + +* Avoid writing to chip registers in the detect function. If you have to write, + only do it after you have already gathered enough data to be certain that the + detection is going to be successful. + + Keep in mind that the chip might not be what your driver believes it is, and + writing to it might cause a bad misconfiguration. + +* Make sure there are no race conditions in the probe function. Specifically, + completely initialize your chip and your driver first, then register with + the hwmon subsystem. + +* Use devm_hwmon_device_register_with_info() or, if your driver needs a remove + function, hwmon_device_register_with_info() to register your driver with the + hwmon subsystem. Try using devm_add_action() instead of a remove function if + possible. Do not use any of the deprecated registration functions. + +* Your driver should be buildable as module. If not, please be prepared to + explain why it has to be built into the kernel. + +* Do not provide support for deprecated sysfs attributes. + +* Do not create non-standard attributes unless really needed. If you have to use + non-standard attributes, or you believe you do, discuss it on the mailing list + first. Either case, provide a detailed explanation why you need the + non-standard attribute(s). + Standard attributes are specified in Documentation/hwmon/sysfs-interface.rst. + +* When deciding which sysfs attributes to support, look at the chip's + capabilities. While we do not expect your driver to support everything the + chip may offer, it should at least support all limits and alarms. + +* Last but not least, please check if a driver for your chip already exists + before starting to write a new driver. Especially for temperature sensors, + new chips are often variants of previously released chips. In some cases, + a presumably new chip may simply have been relabeled. diff --git a/Documentation/hwmon/sy7636a-hwmon.rst b/Documentation/hwmon/sy7636a-hwmon.rst new file mode 100644 index 0000000000..c85db7b329 --- /dev/null +++ b/Documentation/hwmon/sy7636a-hwmon.rst @@ -0,0 +1,26 @@ +.. SPDX-License-Identifier: GPL-2.0-or-later + +Kernel driver sy7636a-hwmon +=========================== + +Supported chips: + + * Silergy SY7636A PMIC + + +Description +----------- + +This driver adds hardware temperature reading support for +the Silergy SY7636A PMIC. + +The following sensors are supported + + * Temperature + - SoC on-die temperature in milli-degree C + +sysfs-Interface +--------------- + +temp0_input + - SoC on-die temperature (milli-degree C) diff --git a/Documentation/hwmon/sysfs-interface.rst b/Documentation/hwmon/sysfs-interface.rst new file mode 100644 index 0000000000..f76e9f8cc1 --- /dev/null +++ b/Documentation/hwmon/sysfs-interface.rst @@ -0,0 +1,656 @@ +Naming and data format standards for sysfs files +================================================ + +The libsensors library offers an interface to the raw sensors data +through the sysfs interface. Since lm-sensors 3.0.0, libsensors is +completely chip-independent. It assumes that all the kernel drivers +implement the standard sysfs interface described in this document. +This makes adding or updating support for any given chip very easy, as +libsensors, and applications using it, do not need to be modified. +This is a major improvement compared to lm-sensors 2. + +Note that motherboards vary widely in the connections to sensor chips. +There is no standard that ensures, for example, that the second +temperature sensor is connected to the CPU, or that the second fan is on +the CPU. Also, some values reported by the chips need some computation +before they make full sense. For example, most chips can only measure +voltages between 0 and +4V. Other voltages are scaled back into that +range using external resistors. Since the values of these resistors +can change from motherboard to motherboard, the conversions cannot be +hard coded into the driver and have to be done in user space. + +For this reason, even if we aim at a chip-independent libsensors, it will +still require a configuration file (e.g. /etc/sensors.conf) for proper +values conversion, labeling of inputs and hiding of unused inputs. + +An alternative method that some programs use is to access the sysfs +files directly. This document briefly describes the standards that the +drivers follow, so that an application program can scan for entries and +access this data in a simple and consistent way. That said, such programs +will have to implement conversion, labeling and hiding of inputs. For +this reason, it is still not recommended to bypass the library. + +Each chip gets its own directory in the sysfs /sys/devices tree. To +find all sensor chips, it is easier to follow the device symlinks from +`/sys/class/hwmon/hwmon*`. + +Up to lm-sensors 3.0.0, libsensors looks for hardware monitoring attributes +in the "physical" device directory. Since lm-sensors 3.0.1, attributes found +in the hwmon "class" device directory are also supported. Complex drivers +(e.g. drivers for multifunction chips) may want to use this possibility to +avoid namespace pollution. The only drawback will be that older versions of +libsensors won't support the driver in question. + +All sysfs values are fixed point numbers. + +There is only one value per file, unlike the older /proc specification. +The common scheme for files naming is: <type><number>_<item>. Usual +types for sensor chips are "in" (voltage), "temp" (temperature) and +"fan" (fan). Usual items are "input" (measured value), "max" (high +threshold, "min" (low threshold). Numbering usually starts from 1, +except for voltages which start from 0 (because most data sheets use +this). A number is always used for elements that can be present more +than once, even if there is a single element of the given type on the +specific chip. Other files do not refer to a specific element, so +they have a simple name, and no number. + +Alarms are direct indications read from the chips. The drivers do NOT +make comparisons of readings to thresholds. This allows violations +between readings to be caught and alarmed. The exact definition of an +alarm (for example, whether a threshold must be met or must be exceeded +to cause an alarm) is chip-dependent. + +When setting values of hwmon sysfs attributes, the string representation of +the desired value must be written, note that strings which are not a number +are interpreted as 0! For more on how written strings are interpreted see the +"sysfs attribute writes interpretation" section at the end of this file. + +Attribute access +---------------- + +Hardware monitoring sysfs attributes are displayed by unrestricted userspace +applications. For this reason, all standard ABI attributes shall be world +readable. Writeable standard ABI attributes shall be writeable only for +privileged users. + +------------------------------------------------------------------------- + +======= =========================================== +`[0-*]` denotes any positive number starting from 0 +`[1-*]` denotes any positive number starting from 1 +RO read only value +WO write only value +RW read/write value +======= =========================================== + +Read/write values may be read-only for some chips, depending on the +hardware implementation. + +All entries (except name) are optional, and should only be created in a +given driver if the chip has the feature. + +See Documentation/ABI/testing/sysfs-class-hwmon for a complete description +of the attributes. + +***************** +Global attributes +***************** + +`name` + The chip name. + +`label` + A descriptive label that allows to uniquely identify a device + within the system. + +`update_interval` + The interval at which the chip will update readings. + + +******** +Voltages +******** + +`in[0-*]_min` + Voltage min value. + +`in[0-*]_lcrit` + Voltage critical min value. + +`in[0-*]_max` + Voltage max value. + +`in[0-*]_crit` + Voltage critical max value. + +`in[0-*]_input` + Voltage input value. + +`in[0-*]_average` + Average voltage + +`in[0-*]_lowest` + Historical minimum voltage + +`in[0-*]_highest` + Historical maximum voltage + +`in[0-*]_reset_history` + Reset inX_lowest and inX_highest + +`in_reset_history` + Reset inX_lowest and inX_highest for all sensors + +`in[0-*]_label` + Suggested voltage channel label. + +`in[0-*]_enable` + Enable or disable the sensors. + +`cpu[0-*]_vid` + CPU core reference voltage. + +`vrm` + Voltage Regulator Module version number. + +`in[0-*]_rated_min` + Minimum rated voltage. + +`in[0-*]_rated_max` + Maximum rated voltage. + +Also see the Alarms section for status flags associated with voltages. + + +**** +Fans +**** + +`fan[1-*]_min` + Fan minimum value + +`fan[1-*]_max` + Fan maximum value + +`fan[1-*]_input` + Fan input value. + +`fan[1-*]_div` + Fan divisor. + +`fan[1-*]_pulses` + Number of tachometer pulses per fan revolution. + +`fan[1-*]_target` + Desired fan speed + +`fan[1-*]_label` + Suggested fan channel label. + +`fan[1-*]_enable` + Enable or disable the sensors. + +Also see the Alarms section for status flags associated with fans. + + +*** +PWM +*** + +`pwm[1-*]` + Pulse width modulation fan control. + +`pwm[1-*]_enable` + Fan speed control method. + +`pwm[1-*]_mode` + direct current or pulse-width modulation. + +`pwm[1-*]_freq` + Base PWM frequency in Hz. + +`pwm[1-*]_auto_channels_temp` + Select which temperature channels affect this PWM output in + auto mode. + +`pwm[1-*]_auto_point[1-*]_pwm` / `pwm[1-*]_auto_point[1-*]_temp` / `pwm[1-*]_auto_point[1-*]_temp_hyst` + Define the PWM vs temperature curve. + +`temp[1-*]_auto_point[1-*]_pwm` / `temp[1-*]_auto_point[1-*]_temp` / `temp[1-*]_auto_point[1-*]_temp_hyst` + Define the PWM vs temperature curve. + +There is a third case where trip points are associated to both PWM output +channels and temperature channels: the PWM values are associated to PWM +output channels while the temperature values are associated to temperature +channels. In that case, the result is determined by the mapping between +temperature inputs and PWM outputs. When several temperature inputs are +mapped to a given PWM output, this leads to several candidate PWM values. +The actual result is up to the chip, but in general the highest candidate +value (fastest fan speed) wins. + + +************ +Temperatures +************ + +`temp[1-*]_type` + Sensor type selection. + +`temp[1-*]_max` + Temperature max value. + +`temp[1-*]_min` + Temperature min value. + +`temp[1-*]_max_hyst` + Temperature hysteresis value for max limit. + +`temp[1-*]_min_hyst` + Temperature hysteresis value for min limit. + +`temp[1-*]_input` + Temperature input value. + +`temp[1-*]_crit` + Temperature critical max value, typically greater than + corresponding temp_max values. + +`temp[1-*]_crit_hyst` + Temperature hysteresis value for critical limit. + +`temp[1-*]_emergency` + Temperature emergency max value, for chips supporting more than + two upper temperature limits. + +`temp[1-*]_emergency_hyst` + Temperature hysteresis value for emergency limit. + +`temp[1-*]_lcrit` + Temperature critical min value, typically lower than + corresponding temp_min values. + +`temp[1-*]_lcrit_hyst` + Temperature hysteresis value for critical min limit. + +`temp[1-*]_offset` + Temperature offset which is added to the temperature reading + by the chip. + +`temp[1-*]_label` + Suggested temperature channel label. + +`temp[1-*]_lowest` + Historical minimum temperature + +`temp[1-*]_highest` + Historical maximum temperature + +`temp[1-*]_reset_history` + Reset temp_lowest and temp_highest + +`temp_reset_history` + Reset temp_lowest and temp_highest for all sensors + +`temp[1-*]_enable` + Enable or disable the sensors. + +`temp[1-*]_rated_min` + Minimum rated temperature. + +`temp[1-*]_rated_max` + Maximum rated temperature. + +Some chips measure temperature using external thermistors and an ADC, and +report the temperature measurement as a voltage. Converting this voltage +back to a temperature (or the other way around for limits) requires +mathematical functions not available in the kernel, so the conversion +must occur in user space. For these chips, all temp* files described +above should contain values expressed in millivolt instead of millidegree +Celsius. In other words, such temperature channels are handled as voltage +channels by the driver. + +Also see the Alarms section for status flags associated with temperatures. + + +******** +Currents +******** + +`curr[1-*]_max` + Current max value. + +`curr[1-*]_min` + Current min value. + +`curr[1-*]_lcrit` + Current critical low value + +`curr[1-*]_crit` + Current critical high value. + +`curr[1-*]_input` + Current input value. + +`curr[1-*]_average` + Average current use. + +`curr[1-*]_lowest` + Historical minimum current. + +`curr[1-*]_highest` + Historical maximum current. + +`curr[1-*]_reset_history` + Reset currX_lowest and currX_highest + + WO + +`curr_reset_history` + Reset currX_lowest and currX_highest for all sensors. + +`curr[1-*]_enable` + Enable or disable the sensors. + +`curr[1-*]_rated_min` + Minimum rated current. + +`curr[1-*]_rated_max` + Maximum rated current. + +Also see the Alarms section for status flags associated with currents. + +***** +Power +***** + +`power[1-*]_average` + Average power use. + +`power[1-*]_average_interval` + Power use averaging interval. + +`power[1-*]_average_interval_max` + Maximum power use averaging interval. + +`power[1-*]_average_interval_min` + Minimum power use averaging interval. + +`power[1-*]_average_highest` + Historical average maximum power use + +`power[1-*]_average_lowest` + Historical average minimum power use + +`power[1-*]_average_max` + A poll notification is sent to `power[1-*]_average` when + power use rises above this value. + +`power[1-*]_average_min` + A poll notification is sent to `power[1-*]_average` when + power use sinks below this value. + +`power[1-*]_input` + Instantaneous power use. + +`power[1-*]_input_highest` + Historical maximum power use + +`power[1-*]_input_lowest` + Historical minimum power use. + +`power[1-*]_reset_history` + Reset input_highest, input_lowest, average_highest and + average_lowest. + +`power[1-*]_accuracy` + Accuracy of the power meter. + +`power[1-*]_cap` + If power use rises above this limit, the + system should take action to reduce power use. + +`power[1-*]_cap_hyst` + Margin of hysteresis built around capping and notification. + +`power[1-*]_cap_max` + Maximum cap that can be set. + +`power[1-*]_cap_min` + Minimum cap that can be set. + +`power[1-*]_max` + Maximum power. + +`power[1-*]_crit` + Critical maximum power. + + If power rises to or above this limit, the + system is expected take drastic action to reduce + power consumption, such as a system shutdown or + a forced powerdown of some devices. + + Unit: microWatt + + RW + +`power[1-*]_enable` + Enable or disable the sensors. + + When disabled the sensor read will return + -ENODATA. + + - 1: Enable + - 0: Disable + + RW + +`power[1-*]_rated_min` + Minimum rated power. + + Unit: microWatt + + RO + +`power[1-*]_rated_max` + Maximum rated power. + + Unit: microWatt + + RO + +Also see the Alarms section for status flags associated with power readings. + +****** +Energy +****** + +`energy[1-*]_input` + Cumulative energy use + + Unit: microJoule + + RO + +`energy[1-*]_enable` + Enable or disable the sensors. + + When disabled the sensor read will return + -ENODATA. + + - 1: Enable + - 0: Disable + + RW + +******** +Humidity +******** + +`humidity[1-*]_input` + Humidity. + +`humidity[1-*]_enable` + Enable or disable the sensors. + +`humidity[1-*]_rated_min` + Minimum rated humidity. + +`humidity[1-*]_rated_max` + Maximum rated humidity. + +****** +Alarms +****** + +Each channel or limit may have an associated alarm file, containing a +boolean value. 1 means than an alarm condition exists, 0 means no alarm. + +Usually a given chip will either use channel-related alarms, or +limit-related alarms, not both. The driver should just reflect the hardware +implementation. + ++-------------------------------+-----------------------+ +| **`in[0-*]_alarm`, | Channel alarm | +| `curr[1-*]_alarm`, | | +| `power[1-*]_alarm`, | - 0: no alarm | +| `fan[1-*]_alarm`, | - 1: alarm | +| `temp[1-*]_alarm`** | | +| | RO | ++-------------------------------+-----------------------+ + +**OR** + ++-------------------------------+-----------------------+ +| **`in[0-*]_min_alarm`, | Limit alarm | +| `in[0-*]_max_alarm`, | | +| `in[0-*]_lcrit_alarm`, | - 0: no alarm | +| `in[0-*]_crit_alarm`, | - 1: alarm | +| `curr[1-*]_min_alarm`, | | +| `curr[1-*]_max_alarm`, | RO | +| `curr[1-*]_lcrit_alarm`, | | +| `curr[1-*]_crit_alarm`, | | +| `power[1-*]_cap_alarm`, | | +| `power[1-*]_max_alarm`, | | +| `power[1-*]_crit_alarm`, | | +| `fan[1-*]_min_alarm`, | | +| `fan[1-*]_max_alarm`, | | +| `temp[1-*]_min_alarm`, | | +| `temp[1-*]_max_alarm`, | | +| `temp[1-*]_lcrit_alarm`, | | +| `temp[1-*]_crit_alarm`, | | +| `temp[1-*]_emergency_alarm`** | | ++-------------------------------+-----------------------+ + +Each input channel may have an associated fault file. This can be used +to notify open diodes, unconnected fans etc. where the hardware +supports it. When this boolean has value 1, the measurement for that +channel should not be trusted. + +`fan[1-*]_fault` / `temp[1-*]_fault` + Input fault condition. + +Some chips also offer the possibility to get beeped when an alarm occurs: + +`beep_enable` + Master beep enable. + +`in[0-*]_beep`, `curr[1-*]_beep`, `fan[1-*]_beep`, `temp[1-*]_beep`, + Channel beep. + +In theory, a chip could provide per-limit beep masking, but no such chip +was seen so far. + +Old drivers provided a different, non-standard interface to alarms and +beeps. These interface files are deprecated, but will be kept around +for compatibility reasons: + +`alarms` + Alarm bitmask. + +`beep_mask` + Bitmask for beep. + + +******************* +Intrusion detection +******************* + +`intrusion[0-*]_alarm` + Chassis intrusion detection. + +`intrusion[0-*]_beep` + Chassis intrusion beep. + +**************************** +Average sample configuration +**************************** + +Devices allowing for reading {in,power,curr,temp}_average values may export +attributes for controlling number of samples used to compute average. + ++--------------+---------------------------------------------------------------+ +| samples | Sets number of average samples for all types of measurements. | +| | | +| | RW | ++--------------+---------------------------------------------------------------+ +| in_samples | Sets number of average samples for specific type of | +| power_samples| measurements. | +| curr_samples | | +| temp_samples | Note that on some devices it won't be possible to set all of | +| | them to different values so changing one might also change | +| | some others. | +| | | +| | RW | ++--------------+---------------------------------------------------------------+ + +sysfs attribute writes interpretation +------------------------------------- + +hwmon sysfs attributes always contain numbers, so the first thing to do is to +convert the input to a number, there are 2 ways todo this depending whether +the number can be negative or not:: + + unsigned long u = simple_strtoul(buf, NULL, 10); + long s = simple_strtol(buf, NULL, 10); + +With buf being the buffer with the user input being passed by the kernel. +Notice that we do not use the second argument of strto[u]l, and thus cannot +tell when 0 is returned, if this was really 0 or is caused by invalid input. +This is done deliberately as checking this everywhere would add a lot of +code to the kernel. + +Notice that it is important to always store the converted value in an +unsigned long or long, so that no wrap around can happen before any further +checking. + +After the input string is converted to an (unsigned) long, the value should be +checked if its acceptable. Be careful with further conversions on the value +before checking it for validity, as these conversions could still cause a wrap +around before the check. For example do not multiply the result, and only +add/subtract if it has been divided before the add/subtract. + +What to do if a value is found to be invalid, depends on the type of the +sysfs attribute that is being set. If it is a continuous setting like a +tempX_max or inX_max attribute, then the value should be clamped to its +limits using clamp_val(value, min_limit, max_limit). If it is not continuous +like for example a tempX_type, then when an invalid value is written, +-EINVAL should be returned. + +Example1, temp1_max, register is a signed 8 bit value (-128 - 127 degrees):: + + long v = simple_strtol(buf, NULL, 10) / 1000; + v = clamp_val(v, -128, 127); + /* write v to register */ + +Example2, fan divider setting, valid values 2, 4 and 8:: + + unsigned long v = simple_strtoul(buf, NULL, 10); + + switch (v) { + case 2: v = 1; break; + case 4: v = 2; break; + case 8: v = 3; break; + default: + return -EINVAL; + } + /* write v to register */ diff --git a/Documentation/hwmon/tc654.rst b/Documentation/hwmon/tc654.rst new file mode 100644 index 0000000000..ce546ee6df --- /dev/null +++ b/Documentation/hwmon/tc654.rst @@ -0,0 +1,34 @@ +Kernel driver tc654 +=================== + +Supported chips: + + * Microchip TC654 and TC655 + + Prefix: 'tc654' + Datasheet: http://ww1.m + icrochip.com/downloads/en/DeviceDoc/20001734C.pdf + +Authors: + - Chris Packham <chris.packham@alliedtelesis.co.nz> + - Masahiko Iwamoto <iwamoto@allied-telesis.co.jp> + +Description +----------- +This driver implements support for the Microchip TC654 and TC655. + +The TC654 uses the 2-wire interface compatible with the SMBUS 2.0 +specification. The TC654 has two (2) inputs for measuring fan RPM and +one (1) PWM output which can be used for fan control. + +Configuration Notes +------------------- +Ordinarily the pwm1_mode ABI is used for controlling the pwm output +mode. However, for this chip the output is always pwm, and the +pwm1_mode determines if the pwm output is controlled via the pwm1 value +or via the Vin analog input. + + +Setting pwm1_mode to 1 will cause the pwm output to be driven based on +the pwm1 value. Setting pwm1_mode to 0 will cause the pwm output to be +driven based on the Vin input. diff --git a/Documentation/hwmon/tc74.rst b/Documentation/hwmon/tc74.rst new file mode 100644 index 0000000000..f1764211c1 --- /dev/null +++ b/Documentation/hwmon/tc74.rst @@ -0,0 +1,23 @@ +Kernel driver tc74 +==================== + +Supported chips: + + * Microchip TC74 + + Prefix: 'tc74' + + Datasheet: Publicly available at Microchip website. + +Description +----------- + +Driver supports the above part. + +The tc74 has an 8-bit sensor, with 1 degree centigrade resolution +and +- 2 degrees centigrade accuracy. + +Notes +----- + +Currently entering low power standby mode is not supported. diff --git a/Documentation/hwmon/thmc50.rst b/Documentation/hwmon/thmc50.rst new file mode 100644 index 0000000000..090f040294 --- /dev/null +++ b/Documentation/hwmon/thmc50.rst @@ -0,0 +1,89 @@ +Kernel driver thmc50 +===================== + +Supported chips: + + * Analog Devices ADM1022 + + Prefix: 'adm1022' + + Addresses scanned: I2C 0x2c - 0x2e + + Datasheet: http://www.analog.com/en/prod/0,2877,ADM1022,00.html + + * Texas Instruments THMC50 + + Prefix: 'thmc50' + + Addresses scanned: I2C 0x2c - 0x2e + + Datasheet: https://www.ti.com/ + + +Author: Krzysztof Helt <krzysztof.h1@wp.pl> + +This driver was derived from the 2.4 kernel thmc50.c source file. + +Credits: + + thmc50.c (2.4 kernel): + + - Frodo Looijaard <frodol@dds.nl> + - Philip Edelbrock <phil@netroedge.com> + +Module Parameters +----------------- + +* adm1022_temp3: short array + List of adapter,address pairs to force chips into ADM1022 mode with + second remote temperature. This does not work for original THMC50 chips. + +Description +----------- + +The THMC50 implements: an internal temperature sensor, support for an +external diode-type temperature sensor (compatible w/ the diode sensor inside +many processors), and a controllable fan/analog_out DAC. For the temperature +sensors, limits can be set through the appropriate Overtemperature Shutdown +register and Hysteresis register. Each value can be set and read to half-degree +accuracy. An alarm is issued (usually to a connected LM78) when the +temperature gets higher then the Overtemperature Shutdown value; it stays on +until the temperature falls below the Hysteresis value. All temperatures are in +degrees Celsius, and are guaranteed within a range of -55 to +125 degrees. + +The THMC50 only updates its values each 1.5 seconds; reading it more often +will do no harm, but will return 'old' values. + +The THMC50 is usually used in combination with LM78-like chips, to measure +the temperature of the processor(s). + +The ADM1022 works the same as THMC50 but it is faster (5 Hz instead of +1 Hz for THMC50). It can be also put in a new mode to handle additional +remote temperature sensor. The driver use the mode set by BIOS by default. + +In case the BIOS is broken and the mode is set incorrectly, you can force +the mode with additional remote temperature with adm1022_temp3 parameter. +A typical symptom of wrong setting is a fan forced to full speed. + +Driver Features +--------------- + +The driver provides up to three temperatures: + +temp1 + - internal +temp2 + - remote +temp3 + - 2nd remote only for ADM1022 + +pwm1 + - fan speed (0 = stop, 255 = full) +pwm1_mode + - always 0 (DC mode) + +The value of 0 for pwm1 also forces FAN_OFF signal from the chip, +so it stops fans even if the value 0 into the ANALOG_OUT register does not. + +The driver was tested on Compaq AP550 with two ADM1022 chips (one works +in the temp3 mode), five temperature readings and two fans. diff --git a/Documentation/hwmon/tmp102.rst b/Documentation/hwmon/tmp102.rst new file mode 100644 index 0000000000..b1f585531a --- /dev/null +++ b/Documentation/hwmon/tmp102.rst @@ -0,0 +1,31 @@ +Kernel driver tmp102 +==================== + +Supported chips: + + * Texas Instruments TMP102 + + Prefix: 'tmp102' + + Addresses scanned: none + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp102.html + +Author: + + Steven King <sfking@fdwdc.com> + +Description +----------- + +The Texas Instruments TMP102 implements one temperature sensor. Limits can be +set through the Overtemperature Shutdown register and Hysteresis register. The +sensor is accurate to 0.5 degree over the range of -25 to +85 C, and to 1.0 +degree from -40 to +125 C. Resolution of the sensor is 0.0625 degree. The +operating temperature has a minimum of -55 C and a maximum of +150 C. + +The TMP102 has a programmable update rate that can select between 8, 4, 1, and +0.5 Hz. (Currently the driver only supports the default of 4 Hz). + +The driver provides the common sysfs-interface for temperatures (see +Documentation/hwmon/sysfs-interface.rst under Temperatures). diff --git a/Documentation/hwmon/tmp103.rst b/Documentation/hwmon/tmp103.rst new file mode 100644 index 0000000000..b3ef81475c --- /dev/null +++ b/Documentation/hwmon/tmp103.rst @@ -0,0 +1,33 @@ +Kernel driver tmp103 +==================== + +Supported chips: + + * Texas Instruments TMP103 + + Prefix: 'tmp103' + + Addresses scanned: none + + Product info and datasheet: https://www.ti.com/product/tmp103 + +Author: + + Heiko Schocher <hs@denx.de> + +Description +----------- + +The TMP103 is a digital output temperature sensor in a four-ball +wafer chip-scale package (WCSP). The TMP103 is capable of reading +temperatures to a resolution of 1°C. The TMP103 is specified for +operation over a temperature range of -40°C to +125°C. + +Resolution: 8 Bits +Accuracy: ±1°C Typ (-10°C to +100°C) + +The driver provides the common sysfs-interface for temperatures (see +Documentation/hwmon/sysfs-interface.rst under Temperatures). + +Please refer how to instantiate this driver: +Documentation/i2c/instantiating-devices.rst diff --git a/Documentation/hwmon/tmp108.rst b/Documentation/hwmon/tmp108.rst new file mode 100644 index 0000000000..6df7cf1b42 --- /dev/null +++ b/Documentation/hwmon/tmp108.rst @@ -0,0 +1,41 @@ +Kernel driver tmp108 +==================== + +Supported chips: + + * Texas Instruments TMP108 + + Prefix: 'tmp108' + + Addresses scanned: none + + Datasheet: https://www.ti.com/product/tmp108 + +Author: + + John Muir <john@jmuir.com> + +Description +----------- + +The Texas Instruments TMP108 implements one temperature sensor. An alert pin +can be set when temperatures exceed minimum or maximum values plus or minus a +hysteresis value. (This driver does not support interrupts for the alert pin, +and the device runs in comparator mode.) + +The sensor is accurate to 0.75C over the range of -25 to +85 C, and to 1.0 +degree from -40 to +125 C. Resolution of the sensor is 0.0625 degree. The +operating temperature has a minimum of -55 C and a maximum of +150 C. +Hysteresis values can be set to 0, 1, 2, or 4C. + +The TMP108 has a programmable update rate that can select between 8, 4, 1, and +0.5 Hz. + +By default the TMP108 reads the temperature continuously. To conserve power, +the TMP108 has a one-shot mode where the device is normally shut-down. When a +one shot is requested the temperature is read, the result can be retrieved, +and then the device is shut down automatically. (This driver only supports +continuous mode.) + +The driver provides the common sysfs-interface for temperatures (see +Documentation/hwmon/sysfs-interface.rst under Temperatures). diff --git a/Documentation/hwmon/tmp401.rst b/Documentation/hwmon/tmp401.rst new file mode 100644 index 0000000000..3aacf3d3bd --- /dev/null +++ b/Documentation/hwmon/tmp401.rst @@ -0,0 +1,80 @@ +Kernel driver tmp401 +==================== + +Supported chips: + + * Texas Instruments TMP401 + + Prefix: 'tmp401' + + Addresses scanned: I2C 0x4c + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp401.html + + * Texas Instruments TMP411 + + Prefix: 'tmp411' + + Addresses scanned: I2C 0x4c, 0x4d, 0x4e + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp411.html + + * Texas Instruments TMP431 + + Prefix: 'tmp431' + + Addresses scanned: I2C 0x4c, 0x4d + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp431.html + + * Texas Instruments TMP432 + + Prefix: 'tmp432' + + Addresses scanned: I2C 0x4c, 0x4d + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp432.html + + * Texas Instruments TMP435 + + Prefix: 'tmp435' + + Addresses scanned: I2C 0x48 - 0x4f + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp435.html + + + +Authors: + + - Hans de Goede <hdegoede@redhat.com> + - Andre Prendel <andre.prendel@gmx.de> + +Description +----------- + +This driver implements support for Texas Instruments TMP401, TMP411, +TMP431, TMP432, and TMP435 chips. These chips implement one or two +remote and one local temperature sensors. Temperature is measured in degrees +Celsius. Resolution of the remote sensor is 0.0625 degree. Local +sensor resolution can be set to 0.5, 0.25, 0.125 or 0.0625 degree (not +supported by the driver so far, so using the default resolution of 0.5 +degree). + +The driver provides the common sysfs-interface for temperatures (see +Documentation/hwmon/sysfs-interface.rst under Temperatures). + +The TMP411 and TMP431 chips are compatible with TMP401. TMP411 provides +some additional features. + +* Minimum and Maximum temperature measured since power-on, chip-reset + + Exported via sysfs attributes tempX_lowest and tempX_highest. + +* Reset of historical minimum/maximum temperature measurements + + Exported via sysfs attribute temp_reset_history. Writing 1 to this + file triggers a reset. + +TMP432 is compatible with TMP401 and TMP431. It supports two external +temperature sensors. diff --git a/Documentation/hwmon/tmp421.rst b/Documentation/hwmon/tmp421.rst new file mode 100644 index 0000000000..a3002117bb --- /dev/null +++ b/Documentation/hwmon/tmp421.rst @@ -0,0 +1,76 @@ +Kernel driver tmp421 +==================== + +Supported chips: + + * Texas Instruments TMP421 + + Prefix: 'tmp421' + + Addresses scanned: I2C 0x2a, 0x4c, 0x4d, 0x4e and 0x4f + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp421.html + + * Texas Instruments TMP422 + + Prefix: 'tmp422' + + Addresses scanned: I2C 0x4c, 0x4d, 0x4e and 0x4f + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp421.html + + * Texas Instruments TMP423 + + Prefix: 'tmp423' + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp421.html + + * Texas Instruments TMP441 + + Prefix: 'tmp441' + + Addresses scanned: I2C 0x2a, 0x4c, 0x4d, 0x4e and 0x4f + + Datasheet: https://www.ti.com/product/tmp441 + + * Texas Instruments TMP442 + + Prefix: 'tmp442' + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: https://www.ti.com/product/tmp442 + +Authors: + + Andre Prendel <andre.prendel@gmx.de> + +Description +----------- + +This driver implements support for Texas Instruments TMP421, TMP422, +TMP423, TMP441, and TMP442 temperature sensor chips. These chips +implement one local and up to one (TMP421, TMP441), up to two (TMP422, +TMP442) or up to three (TMP423) remote sensors. Temperature is measured +in degrees Celsius. The chips are wired over I2C/SMBus and specified +over a temperature range of -40 to +125 degrees Celsius. Resolution +for both the local and remote channels is 0.0625 degree C. + +The chips support only temperature measurement. The driver exports +the temperature values via the following sysfs files: + +**temp[1-4]_input** + +**temp[2-4]_fault** + +Each sensor can be individually disabled via Devicetree or from sysfs +via: + +**temp[1-4]_enable** + +If labels were specified in Devicetree, additional sysfs files will +be present: + +**temp[1-4]_label** diff --git a/Documentation/hwmon/tmp464.rst b/Documentation/hwmon/tmp464.rst new file mode 100644 index 0000000000..7596e7623d --- /dev/null +++ b/Documentation/hwmon/tmp464.rst @@ -0,0 +1,73 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver tmp464 +==================== + +Supported chips: + + * Texas Instruments TMP464 + + Prefix: 'tmp464' + + Addresses scanned: I2C 0x48, 0x49, 0x4a and 0x4b + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp464.html + + * Texas Instruments TMP468 + + Prefix: 'tmp468' + + Addresses scanned: I2C 0x48, 0x49, 0x4a and 0x4b + + Datasheet: http://focus.ti.com/docs/prod/folders/print/tmp468.html + +Authors: + + Agathe Porte <agathe.porte@nokia.com> + Guenter Roeck <linux@roeck-us.net> + +Description +----------- + +This driver implements support for Texas Instruments TMP464 and TMP468 +temperature sensor chips. TMP464 provides one local and four remote +sensors. TMP468 provides one local and eight remote sensors. +Temperature is measured in degrees Celsius. The chips are wired over +I2C/SMBus and specified over a temperature range of -40 to +125 degrees +Celsius. Resolution for both the local and remote channels is 0.0625 +degree C. + +The chips support only temperature measurements. The driver exports +temperature values, limits, and alarms via the following sysfs files: + +**temp[1-9]_input** + +**temp[1-9]_max** + +**temp[1-9]_max_hyst** + +**temp[1-9]_max_alarm** + +**temp[1-9]_crit** + +**temp[1-9]_crit_alarm** + +**temp[1-9]_crit_hyst** + +**temp[2-9]_offset** + +**temp[2-9]_fault** + +Each sensor can be individually disabled via Devicetree or from sysfs +via: + +**temp[1-9]_enable** + +If labels were specified in Devicetree, additional sysfs files will +be present: + +**temp[1-9]_label** + +The update interval is configurable with the following sysfs attribute. + +**update_interval** diff --git a/Documentation/hwmon/tmp513.rst b/Documentation/hwmon/tmp513.rst new file mode 100644 index 0000000000..f2dfc1677a --- /dev/null +++ b/Documentation/hwmon/tmp513.rst @@ -0,0 +1,103 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver tmp513 +==================== + +Supported chips: + + * Texas Instruments TMP512 + + Prefix: 'tmp512' + + Datasheet: https://www.ti.com/lit/ds/symlink/tmp512.pdf + + * Texas Instruments TMP513 + + Prefix: 'tmp513' + + Datasheet: https://www.ti.com/lit/ds/symlink/tmp513.pdf + +Authors: + + Eric Tremblay <etremblay@distech-controls.com> + +Description +----------- + +This driver implements support for Texas Instruments TMP512, and TMP513. +The TMP512 (dual-channel) and TMP513 (triple-channel) are system monitors +that include remote sensors, a local temperature sensor, and a high-side current +shunt monitor. These system monitors have the capability of measuring remote +temperatures, on-chip temperatures, and system voltage/power/current +consumption. + +The temperatures are measured in degrees Celsius with a range of +-40 to + 125 degrees with a resolution of 0.0625 degree C. + +For hysteresis value, only the first channel is writable. Writing to it +will affect all other values since each channels are sharing the same +hysteresis value. The hysteresis is in degrees Celsius with a range of +0 to 127.5 degrees with a resolution of 0.5 degree. + +The driver exports the temperature values via the following sysfs files: + +**temp[1-4]_input** + +**temp[1-4]_crit** + +**temp[1-4]_crit_alarm** + +**temp[1-4]_crit_hyst** + +The driver read the shunt voltage from the chip and convert it to current. +The readable range depends on the "ti,pga-gain" property (default to 8) and the +shunt resistor value. The value resolution will be equal to 10uV/Rshunt. + +The driver exports the shunt currents values via the following sysFs files: + +**curr1_input** + +**curr1_lcrit** + +**curr1_lcrit_alarm** + +**curr1_crit** + +**curr1_crit_alarm** + +The bus voltage range is read from the chip with a resolution of 4mV. The chip +can be configurable in two different range (32V or 16V) using the +ti,bus-range-microvolt property in the devicetree. + +The driver exports the bus voltage values via the following sysFs files: + +**in0_input** + +**in0_lcrit** + +**in0_lcrit_alarm** + +**in0_crit** + +**in0_crit_alarm** + +The bus power and bus currents range and resolution depends on the calibration +register value. Those values are calculate by the hardware using those +formulas: + +Current = (ShuntVoltage * CalibrationRegister) / 4096 +Power = (Current * BusVoltage) / 5000 + +The driver exports the bus current and bus power values via the following +sysFs files: + +**curr2_input** + +**power1_input** + +**power1_crit** + +**power1_crit_alarm** + +The calibration process follow the procedure of the datasheet (without overflow) +and depend on the shunt resistor value and the pga_gain value. diff --git a/Documentation/hwmon/tps23861.rst b/Documentation/hwmon/tps23861.rst new file mode 100644 index 0000000000..46d121ff3f --- /dev/null +++ b/Documentation/hwmon/tps23861.rst @@ -0,0 +1,41 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver tps23861 +====================== + +Supported chips: + * Texas Instruments TPS23861 + + Prefix: 'tps23861' + + Datasheet: https://www.ti.com/lit/gpn/tps23861 + +Author: Robert Marko <robert.marko@sartura.hr> + +Description +----------- + +This driver supports hardware monitoring for Texas Instruments TPS23861 PoE PSE. + +TPS23861 is a quad port IEEE802.3at PSE controller with optional I2C control +and monitoring capabilities. + +TPS23861 offers three modes of operation: Auto, Semi-Auto and Manual. + +This driver only supports the Auto mode of operation providing monitoring +as well as enabling/disabling the four ports. + +Sysfs entries +------------- + +======================= ===================================================================== +in[0-3]_input Voltage on ports [1-4] +in[0-3]_label "Port[1-4]" +in4_input IC input voltage +in4_label "Input" +temp1_input IC die temperature +temp1_label "Die" +curr[1-4]_input Current on ports [1-4] +in[1-4]_label "Port[1-4]" +in[0-3]_enable Enable/disable ports [1-4] +======================= ===================================================================== diff --git a/Documentation/hwmon/tps40422.rst b/Documentation/hwmon/tps40422.rst new file mode 100644 index 0000000000..32a62ccea1 --- /dev/null +++ b/Documentation/hwmon/tps40422.rst @@ -0,0 +1,73 @@ +Kernel driver tps40422 +====================== + +Supported chips: + + * TI TPS40422 + + Prefix: 'tps40422' + + Addresses scanned: - + + Datasheet: https://www.ti.com/lit/gpn/tps40422 + +Author: Zhu Laiwen <richard.zhu@nsn.com> + + +Description +----------- + +This driver supports TI TPS40422 Dual-Output or Two-Phase Synchronous Buck +Controller with PMBus + +The driver is a client driver to the core PMBus driver. +Please see Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Sysfs entries +------------- + +The following attributes are supported. + +======================= ======================================================= +in[1-2]_label "vout[1-2]" +in[1-2]_input Measured voltage. From READ_VOUT register. +in[1-2]_alarm voltage alarm. + +curr[1-2]_input Measured current. From READ_IOUT register. +curr[1-2]_label "iout[1-2]" +curr1_max Maximum current. From IOUT_OC_WARN_LIMIT register. +curr1_crit Critical maximum current. From IOUT_OC_FAULT_LIMIT + register. +curr1_max_alarm Current high alarm. From IOUT_OC_WARN_LIMIT status. +curr1_crit_alarm Current critical high alarm. From IOUT_OC_FAULT status. +curr2_alarm Current high alarm. From IOUT_OC_WARNING status. + +temp1_input Measured temperature. From READ_TEMPERATURE_2 register + on page 0. +temp1_max Maximum temperature. From OT_WARN_LIMIT register. +temp1_crit Critical high temperature. From OT_FAULT_LIMIT register. +temp1_max_alarm Chip temperature high alarm. Set by comparing + READ_TEMPERATURE_2 on page 0 with OT_WARN_LIMIT if + TEMP_OT_WARNING status is set. +temp1_crit_alarm Chip temperature critical high alarm. Set by comparing + READ_TEMPERATURE_2 on page 0 with OT_FAULT_LIMIT if + TEMP_OT_FAULT status is set. +temp2_input Measured temperature. From READ_TEMPERATURE_2 register + on page 1. +temp2_alarm Chip temperature alarm on page 1. +======================= ======================================================= diff --git a/Documentation/hwmon/tps53679.rst b/Documentation/hwmon/tps53679.rst new file mode 100644 index 0000000000..3b9561648c --- /dev/null +++ b/Documentation/hwmon/tps53679.rst @@ -0,0 +1,187 @@ +Kernel driver tps53679 +====================== + +Supported chips: + + * Texas Instruments TPS53647 + + Prefix: 'tps53647' + + Addresses scanned: - + + Datasheet: https://www.ti.com/lit/gpn/tps53647 + + * Texas Instruments TPS53667 + + Prefix: 'tps53667' + + Addresses scanned: - + + Datasheet: https://www.ti.com/lit/gpn/TPS53667 + + * Texas Instruments TPS53676 + + Prefix: 'tps53676' + + Addresses scanned: - + + Datasheet: https://www.ti.com/lit/gpn/TPS53676 + + * Texas Instruments TPS53679 + + Prefix: 'tps53679' + + Addresses scanned: - + + Datasheet: https://www.ti.com/lit/gpn/TPS53679 (short version) + + * Texas Instruments TPS53681 + + Prefix: 'tps53681' + + Addresses scanned: - + + Datasheet: https://www.ti.com/lit/gpn/TPS53681 + + * Texas Instruments TPS53688 + + Prefix: 'tps53688' + + Addresses scanned: - + + Datasheet: Available under NDA + + +Authors: + Vadim Pasternak <vadimp@mellanox.com> + Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +Chips in this series are multi-phase step-down converters with one or two +output channels and up to 8 phases per channel. + + +Usage Notes +----------- + +This driver does not probe for PMBus devices. You will have to instantiate +devices explicitly. + +Example: the following commands will load the driver for an TPS53681 at address +0x60 on I2C bus #1:: + + # modprobe tps53679 + # echo tps53681 0x60 > /sys/bus/i2c/devices/i2c-1/new_device + + +Sysfs attributes +---------------- + +======================= ======================================================== +in1_label "vin" + +in1_input Measured input voltage. + +in1_lcrit Critical minimum input voltage + + TPS53679, TPS53681, TPS53688 only. + +in1_lcrit_alarm Input voltage critical low alarm. + + TPS53679, TPS53681, TPS53688 only. + +in1_crit Critical maximum input voltage. + +in1_crit_alarm Input voltage critical high alarm. + +in[N]_label "vout[1-2]" + + - TPS53647, TPS53667: N=2 + - TPS53679, TPS53588: N=2,3 + +in[N]_input Measured output voltage. + +in[N]_lcrit Critical minimum input voltage. + + TPS53679, TPS53681, TPS53688 only. + +in[N]_lcrit_alarm Critical minimum voltage alarm. + + TPS53679, TPS53681, TPS53688 only. + +in[N]_alarm Output voltage alarm. + + TPS53647, TPS53667 only. + +in[N]_crit Critical maximum output voltage. + + TPS53679, TPS53681, TPS53688 only. + +in[N]_crit_alarm Output voltage critical high alarm. + + TPS53679, TPS53681, TPS53688 only. + +temp[N]_input Measured temperature. + + - TPS53647, TPS53667: N=1 + - TPS53679, TPS53681, TPS53588: N=1,2 + +temp[N]_max Maximum temperature. + +temp[N]_crit Critical high temperature. + +temp[N]_max_alarm Temperature high alarm. + +temp[N]_crit_alarm Temperature critical high alarm. + +power1_label "pin". + +power1_input Measured input power. + +power[N]_label "pout[1-2]". + + - TPS53647, TPS53667: N=2 + - TPS53676, TPS53679, TPS53681, TPS53588: N=2,3 + +power[N]_input Measured output power. + +curr1_label "iin". + +curr1_input Measured input current. + +curr1_max Maximum input current. + +curr1_max_alarm Input current high alarm. + +curr1_crit Critical input current. + +curr1_crit_alarm Input current critical alarm. + +curr[N]_label "iout[1-2]" or "iout1.[0-5]". + + The first digit is the output channel, the second + digit is the phase within the channel. Per-phase + telemetry supported on TPS53676 and TPS53681 only. + + - TPS53647, TPS53667: N=2 + - TPS53679, TPS53588: N=2,3 + - TPS53676: N=2-8 + - TPS53681: N=2-9 + +curr[N]_input Measured output current. + +curr[N]_max Maximum output current. + +curr[N]_crit Critical high output current. + +curr[N]_max_alarm Output current high alarm. + +curr[N]_crit_alarm Output current critical high alarm. + + Limit and alarm attributes are only available for + non-phase telemetry (iout1, iout2). + +======================= ======================================================== diff --git a/Documentation/hwmon/tps546d24.rst b/Documentation/hwmon/tps546d24.rst new file mode 100644 index 0000000000..97adb8a30f --- /dev/null +++ b/Documentation/hwmon/tps546d24.rst @@ -0,0 +1,35 @@ +.. SPDX-License-Identifier: GPL-2.0-only + +Kernel driver tps546d24 +======================= + +Supported chips: + + * TI TPS546D24 + + Prefix: 'tps546d24' + + Addresses scanned: - + + Datasheet: https://www.ti.com/lit/gpn/tps546d24 + +Author: Duke Du <dukedu83@gmail.com> + + +Description +----------- + +The TPS546D24A is a highly integrated, non-isolated DC/DC converter capable +of high frequency operation and 40-A current output from a 7-mm x 5-mm +package. + +Two, three, and four TPS546D24A devices can be interconnected +to provide up to 160 A on a single output. The device has an option to +overdrive the internal 5-V LDO with an external 5-V supply via the VDD5 +pin to improve efficiency and reduce power dissipation of the converter. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. diff --git a/Documentation/hwmon/twl4030-madc-hwmon.rst b/Documentation/hwmon/twl4030-madc-hwmon.rst new file mode 100644 index 0000000000..22c885383b --- /dev/null +++ b/Documentation/hwmon/twl4030-madc-hwmon.rst @@ -0,0 +1,49 @@ +Kernel driver twl4030-madc +========================== + +Supported chips: + + * Texas Instruments TWL4030 + + Prefix: 'twl4030-madc' + + +Authors: + J Keerthy <j-keerthy@ti.com> + +Description +----------- + +The Texas Instruments TWL4030 is a Power Management and Audio Circuit. Among +other things it contains a 10-bit A/D converter MADC. The converter has 16 +channels which can be used in different modes. + + +See this table for the meaning of the different channels + +======= ========================================================== +Channel Signal +======= ========================================================== +0 Battery type(BTYPE) +1 BCI: Battery temperature (BTEMP) +2 GP analog input +3 GP analog input +4 GP analog input +5 GP analog input +6 GP analog input +7 GP analog input +8 BCI: VBUS voltage(VBUS) +9 Backup Battery voltage (VBKP) +10 BCI: Battery charger current (ICHG) +11 BCI: Battery charger voltage (VCHG) +12 BCI: Main battery voltage (VBAT) +13 Reserved +14 Reserved +15 VRUSB Supply/Speaker left/Speaker right polarization level +======= ========================================================== + + +The Sysfs nodes will represent the voltage in the units of mV, +the temperature channel shows the converted temperature in +degree Celsius. The Battery charging current channel represents +battery charging current in mA. diff --git a/Documentation/hwmon/ucd9000.rst b/Documentation/hwmon/ucd9000.rst new file mode 100644 index 0000000000..704f0cbd95 --- /dev/null +++ b/Documentation/hwmon/ucd9000.rst @@ -0,0 +1,137 @@ +Kernel driver ucd9000 +===================== + +Supported chips: + + * TI UCD90120, UCD90124, UCD90160, UCD90320, UCD9090, and UCD90910 + + Prefixes: 'ucd90120', 'ucd90124', 'ucd90160', 'ucd90320', 'ucd9090', + 'ucd90910' + + Addresses scanned: - + + Datasheets: + + - http://focus.ti.com/lit/ds/symlink/ucd90120.pdf + - http://focus.ti.com/lit/ds/symlink/ucd90124.pdf + - http://focus.ti.com/lit/ds/symlink/ucd90160.pdf + - http://focus.ti.com/lit/ds/symlink/ucd90320.pdf + - http://focus.ti.com/lit/ds/symlink/ucd9090.pdf + - http://focus.ti.com/lit/ds/symlink/ucd90910.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +From datasheets: + +The UCD90120 Power Supply Sequencer and System Health Monitor monitors and +sequences up to 12 independent voltage rails. The device integrates a 12-bit +ADC with a 2.5V internal reference for monitoring up to 13 power supply voltage, +current, or temperature inputs. + +The UCD90124 is a 12-rail PMBus/I2C addressable power-supply sequencer and +system-health monitor. The device integrates a 12-bit ADC for monitoring up to +13 power-supply voltage, current, or temperature inputs. Twenty-six GPIO pins +can be used for power supply enables, power-on reset signals, external +interrupts, cascading, or other system functions. Twelve of these pins offer PWM +functionality. Using these pins, the UCD90124 offers support for fan control, +margining, and general-purpose PWM functions. + +The UCD90160 is a 16-rail PMBus/I2C addressable power-supply sequencer and +monitor. The device integrates a 12-bit ADC for monitoring up to 16 power-supply +voltage inputs. Twenty-six GPIO pins can be used for power supply enables, +power-on reset signals, external interrupts, cascading, or other system +functions. Twelve of these pins offer PWM functionality. Using these pins, the +UCD90160 offers support for margining, and general-purpose PWM functions. + +The UCD90320 is a 32-rail PMBus/I2C addressable power-supply sequencer and +monitor. The 24 integrated ADC channels (AMONx) monitor the power supply +voltage, current, and temperature. Of the 84 GPIO pins, 8 can be used as +digital monitors (DMONx), 32 to enable the power supply (ENx), 24 for margining +(MARx), 16 for logical GPO, and 32 GPIs for cascading, and system function. + +The UCD9090 is a 10-rail PMBus/I2C addressable power-supply sequencer and +monitor. The device integrates a 12-bit ADC for monitoring up to 10 power-supply +voltage inputs. Twenty-three GPIO pins can be used for power supply enables, +power-on reset signals, external interrupts, cascading, or other system +functions. Ten of these pins offer PWM functionality. Using these pins, the +UCD9090 offers support for margining, and general-purpose PWM functions. + +The UCD90910 is a ten-rail I2C / PMBus addressable power-supply sequencer and +system-health monitor. The device integrates a 12-bit ADC for monitoring up to +13 power-supply voltage, current, or temperature inputs. + +This driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. Please see +Documentation/hwmon/pmbus.rst for details. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +======================= ======================================================== +in[1-12]_label "vout[1-12]". +in[1-12]_input Measured voltage. From READ_VOUT register. +in[1-12]_min Minimum Voltage. From VOUT_UV_WARN_LIMIT register. +in[1-12]_max Maximum voltage. From VOUT_OV_WARN_LIMIT register. +in[1-12]_lcrit Critical minimum Voltage. VOUT_UV_FAULT_LIMIT register. +in[1-12]_crit Critical maximum voltage. From VOUT_OV_FAULT_LIMIT + register. +in[1-12]_min_alarm Voltage low alarm. From VOLTAGE_UV_WARNING status. +in[1-12]_max_alarm Voltage high alarm. From VOLTAGE_OV_WARNING status. +in[1-12]_lcrit_alarm Voltage critical low alarm. From VOLTAGE_UV_FAULT + status. +in[1-12]_crit_alarm Voltage critical high alarm. From VOLTAGE_OV_FAULT + status. + +curr[1-12]_label "iout[1-12]". +curr[1-12]_input Measured current. From READ_IOUT register. +curr[1-12]_max Maximum current. From IOUT_OC_WARN_LIMIT register. +curr[1-12]_lcrit Critical minimum output current. From + IOUT_UC_FAULT_LIMIT register. +curr[1-12]_crit Critical maximum current. From IOUT_OC_FAULT_LIMIT + register. +curr[1-12]_max_alarm Current high alarm. From IOUT_OC_WARNING status. +curr[1-12]_crit_alarm Current critical high alarm. From IOUT_OC_FAULT status. + + For each attribute index, either voltage or current is + reported, but not both. If voltage or current is + reported depends on the chip configuration. + +temp[1-2]_input Measured temperatures. From READ_TEMPERATURE_1 and + READ_TEMPERATURE_2 registers. +temp[1-2]_max Maximum temperature. From OT_WARN_LIMIT register. +temp[1-2]_crit Critical high temperature. From OT_FAULT_LIMIT register. +temp[1-2]_max_alarm Temperature high alarm. +temp[1-2]_crit_alarm Temperature critical high alarm. + +fan[1-4]_input Fan RPM. +fan[1-4]_alarm Fan alarm. +fan[1-4]_fault Fan fault. + + Fan attributes are only available on chips supporting + fan control (UCD90124, UCD90910). Attribute files are + created only for enabled fans. + Note that even though UCD90910 supports up to 10 fans, + only up to four fans are currently supported. +======================= ======================================================== diff --git a/Documentation/hwmon/ucd9200.rst b/Documentation/hwmon/ucd9200.rst new file mode 100644 index 0000000000..4f0e7c3ca6 --- /dev/null +++ b/Documentation/hwmon/ucd9200.rst @@ -0,0 +1,124 @@ +Kernel driver ucd9200 +===================== + +Supported chips: + + * TI UCD9220, UCD9222, UCD9224, UCD9240, UCD9244, UCD9246, and UCD9248 + + Prefixes: 'ucd9220', 'ucd9222', 'ucd9224', 'ucd9240', 'ucd9244', 'ucd9246', + 'ucd9248' + + Addresses scanned: - + + Datasheets: + + - http://focus.ti.com/lit/ds/symlink/ucd9220.pdf + - http://focus.ti.com/lit/ds/symlink/ucd9222.pdf + - http://focus.ti.com/lit/ds/symlink/ucd9224.pdf + - http://focus.ti.com/lit/ds/symlink/ucd9240.pdf + - http://focus.ti.com/lit/ds/symlink/ucd9244.pdf + - http://focus.ti.com/lit/ds/symlink/ucd9246.pdf + - http://focus.ti.com/lit/ds/symlink/ucd9248.pdf + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +[From datasheets] UCD9220, UCD9222, UCD9224, UCD9240, UCD9244, UCD9246, and +UCD9248 are multi-rail, multi-phase synchronous buck digital PWM controllers +designed for non-isolated DC/DC power applications. The devices integrate +dedicated circuitry for DC/DC loop management with flash memory and a serial +interface to support configuration, monitoring and management. + +This driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst for details on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. Please see +Documentation/hwmon/pmbus.rst for details. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +======================= ======================================================== +in1_label "vin". +in1_input Measured voltage. From READ_VIN register. +in1_min Minimum Voltage. From VIN_UV_WARN_LIMIT register. +in1_max Maximum voltage. From VIN_OV_WARN_LIMIT register. +in1_lcrit Critical minimum Voltage. VIN_UV_FAULT_LIMIT register. +in1_crit Critical maximum voltage. From VIN_OV_FAULT_LIMIT + register. +in1_min_alarm Voltage low alarm. From VIN_UV_WARNING status. +in1_max_alarm Voltage high alarm. From VIN_OV_WARNING status. +in1_lcrit_alarm Voltage critical low alarm. From VIN_UV_FAULT status. +in1_crit_alarm Voltage critical high alarm. From VIN_OV_FAULT status. + +in[2-5]_label "vout[1-4]". +in[2-5]_input Measured voltage. From READ_VOUT register. +in[2-5]_min Minimum Voltage. From VOUT_UV_WARN_LIMIT register. +in[2-5]_max Maximum voltage. From VOUT_OV_WARN_LIMIT register. +in[2-5]_lcrit Critical minimum Voltage. VOUT_UV_FAULT_LIMIT register. +in[2-5]_crit Critical maximum voltage. From VOUT_OV_FAULT_LIMIT + register. +in[2-5]_min_alarm Voltage low alarm. From VOLTAGE_UV_WARNING status. +in[2-5]_max_alarm Voltage high alarm. From VOLTAGE_OV_WARNING status. +in[2-5]_lcrit_alarm Voltage critical low alarm. From VOLTAGE_UV_FAULT + status. +in[2-5]_crit_alarm Voltage critical high alarm. From VOLTAGE_OV_FAULT + status. + +curr1_label "iin". +curr1_input Measured current. From READ_IIN register. + +curr[2-5]_label "iout[1-4]". +curr[2-5]_input Measured current. From READ_IOUT register. +curr[2-5]_max Maximum current. From IOUT_OC_WARN_LIMIT register. +curr[2-5]_lcrit Critical minimum output current. From + IOUT_UC_FAULT_LIMIT register. +curr[2-5]_crit Critical maximum current. From IOUT_OC_FAULT_LIMIT + register. +curr[2-5]_max_alarm Current high alarm. From IOUT_OC_WARNING status. +curr[2-5]_crit_alarm Current critical high alarm. From IOUT_OC_FAULT status. + +power1_input Measured input power. From READ_PIN register. +power1_label "pin" + +power[2-5]_input Measured output power. From READ_POUT register. +power[2-5]_label "pout[1-4]" + + The number of output voltage, current, and power + attribute sets is determined by the number of enabled + rails. See chip datasheets for details. + +temp[1-5]_input Measured temperatures. From READ_TEMPERATURE_1 and + READ_TEMPERATURE_2 registers. + temp1 is the chip internal temperature. temp[2-5] are + rail temperatures. temp[2-5] attributes are only + created for enabled rails. See chip datasheets for + details. +temp[1-5]_max Maximum temperature. From OT_WARN_LIMIT register. +temp[1-5]_crit Critical high temperature. From OT_FAULT_LIMIT register. +temp[1-5]_max_alarm Temperature high alarm. +temp[1-5]_crit_alarm Temperature critical high alarm. + +fan1_input Fan RPM. ucd9240 only. +fan1_alarm Fan alarm. ucd9240 only. +fan1_fault Fan fault. ucd9240 only. +======================= ======================================================== diff --git a/Documentation/hwmon/userspace-tools.rst b/Documentation/hwmon/userspace-tools.rst new file mode 100644 index 0000000000..bf3797c8e7 --- /dev/null +++ b/Documentation/hwmon/userspace-tools.rst @@ -0,0 +1,43 @@ +Userspace tools +=============== + +Introduction +------------ + +Most mainboards have sensor chips to monitor system health (like temperatures, +voltages, fans speed). They are often connected through an I2C bus, but some +are also connected directly through the ISA bus. + +The kernel drivers make the data from the sensor chips available in the /sys +virtual filesystem. Userspace tools are then used to display the measured +values or configure the chips in a more friendly manner. + +Lm-sensors +---------- + +Core set of utilities that will allow you to obtain health information, +setup monitoring limits etc. You can get them on their homepage +http://www.lm-sensors.org/ or as a package from your Linux distribution. + +If from website: +Get lm-sensors from project web site. Please note, you need only userspace +part, so compile with "make user" and install with "make user_install". + +General hints to get things working: + +0) get lm-sensors userspace utils +1) compile all drivers in I2C and Hardware Monitoring sections as modules + in your kernel +2) run sensors-detect script, it will tell you what modules you need to load. +3) load them and run "sensors" command, you should see some results. +4) fix sensors.conf, labels, limits, fan divisors +5) if any more problems consult FAQ, or documentation + +Other utilities +--------------- + +If you want some graphical indicators of system health look for applications +like: gkrellm, ksensors, xsensors, wmtemp, wmsensors, wmgtemp, ksysguardd, +hardware-monitor + +If you are server administrator you can try snmpd or mrtgutils. diff --git a/Documentation/hwmon/vexpress.rst b/Documentation/hwmon/vexpress.rst new file mode 100644 index 0000000000..7fc99f75b3 --- /dev/null +++ b/Documentation/hwmon/vexpress.rst @@ -0,0 +1,41 @@ +Kernel driver vexpress +====================== + +Supported systems: + + * ARM Ltd. Versatile Express platform + + Prefix: 'vexpress' + + Datasheets: + + * "Hardware Description" sections of the Technical Reference Manuals + for the Versatile Express boards: + + - http://infocenter.arm.com/help/topic/com.arm.doc.subset.boards.express/index.html + + * Section "4.4.14. System Configuration registers" of the V2M-P1 TRM: + + - http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dui0447-/index.html + +Author: Pawel Moll + +Description +----------- + +Versatile Express platform (http://www.arm.com/versatileexpress/) is a +reference & prototyping system for ARM Ltd. processors. It can be set up +from a wide range of boards, each of them containing (apart of the main +chip/FPGA) a number of microcontrollers responsible for platform +configuration and control. These microcontrollers can also monitor the +board and its environment by a number of internal and external sensors, +providing information about power lines voltages and currents, board +temperature and power usage. Some of them also calculate consumed energy +and provide a cumulative use counter. + +The configuration devices are _not_ memory mapped and must be accessed +via a custom interface, abstracted by the "vexpress_config" API. + +As these devices are non-discoverable, they must be described in a Device +Tree passed to the kernel. Details of the DT binding for them can be found +in Documentation/devicetree/bindings/hwmon/vexpress.txt. diff --git a/Documentation/hwmon/via686a.rst b/Documentation/hwmon/via686a.rst new file mode 100644 index 0000000000..8c52a9207b --- /dev/null +++ b/Documentation/hwmon/via686a.rst @@ -0,0 +1,84 @@ +Kernel driver via686a +===================== + +Supported chips: + + * Via VT82C686A, VT82C686B Southbridge Integrated Hardware Monitor + + Prefix: 'via686a' + + Addresses scanned: ISA in PCI-space encoded address + + Datasheet: On request through web form (http://www.via.com.tw/en/resources/download-center/) + +Authors: + - Kyösti Mälkki <kmalkki@cc.hut.fi>, + - Mark D. Studebaker <mdsxyz123@yahoo.com> + - Bob Dougherty <bobd@stanford.edu> + - (Some conversion-factor data were contributed by + - Jonathan Teh Soon Yew <j.teh@iname.com> + - and Alex van Kaam <darkside@chello.nl>.) + +Module Parameters +----------------- + +======================= ======================================================= +force_addr=0xaddr Set the I/O base address. Useful for boards that + don't set the address in the BIOS. Look for a BIOS + upgrade before resorting to this. Does not do a + PCI force; the via686a must still be present in lspci. + Don't use this unless the driver complains that the + base address is not set. + Example: 'modprobe via686a force_addr=0x6000' +======================= ======================================================= + +Description +----------- + +The driver does not distinguish between the chips and reports +all as a 686A. + +The Via 686a southbridge has integrated hardware monitor functionality. +It also has an I2C bus, but this driver only supports the hardware monitor. +For the I2C bus driver, see <file:Documentation/i2c/busses/i2c-viapro.rst> + +The Via 686a implements three temperature sensors, two fan rotation speed +sensors, five voltage sensors and alarms. + +Temperatures are measured in degrees Celsius. An alarm is triggered once +when the Overtemperature Shutdown limit is crossed; it is triggered again +as soon as it drops below the hysteresis value. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4 or 8) to give +the readings more range or accuracy. Not all RPM values can accurately be +represented, so some rounding is done. With a divider of 2, the lowest +representable value is around 2600 RPM. + +Voltage sensors (also known as IN sensors) report their values in volts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. Voltages are internally scaled, so each voltage channel +has a different resolution and range. + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may +already have disappeared! Note that in the current implementation, all +hardware registers are read whenever any data is read (unless it is less +than 1.5 seconds since the last update). This means that you can easily +miss once-only alarms. + +The driver only updates its values each 1.5 seconds; reading it more often +will do no harm, but will return 'old' values. + +Known Issues +------------ + +This driver handles sensors integrated in some VIA south bridges. It is +possible that a motherboard maker used a VT82C686A/B chip as part of a +product design but was not interested in its hardware monitoring features, +in which case the sensor inputs will not be wired. This is the case of +the Asus K7V, A7V and A7V133 motherboards, to name only a few of them. +So, if you need the force_addr parameter, and end up with values which +don't seem to make any sense, don't look any further: your chip is simply +not wired for hardware monitoring. diff --git a/Documentation/hwmon/vt1211.rst b/Documentation/hwmon/vt1211.rst new file mode 100644 index 0000000000..ddbcde7dd6 --- /dev/null +++ b/Documentation/hwmon/vt1211.rst @@ -0,0 +1,226 @@ +Kernel driver vt1211 +==================== + +Supported chips: + + * VIA VT1211 + + Prefix: 'vt1211' + + Addresses scanned: none, address read from Super-I/O config space + + Datasheet: Provided by VIA upon request and under NDA + +Authors: Juerg Haefliger <juergh@gmail.com> + +This driver is based on the driver for kernel 2.4 by Mark D. Studebaker and +its port to kernel 2.6 by Lars Ekman. + +Thanks to Joseph Chan and Fiona Gatt from VIA for providing documentation and +technical support. + + +Module Parameters +----------------- + + +* uch_config: int + Override the BIOS default universal channel (UCH) + configuration for channels 1-5. + Legal values are in the range of 0-31. Bit 0 maps to + UCH1, bit 1 maps to UCH2 and so on. Setting a bit to 1 + enables the thermal input of that particular UCH and + setting a bit to 0 enables the voltage input. + +* int_mode: int + Override the BIOS default temperature interrupt mode. + The only possible value is 0 which forces interrupt + mode 0. In this mode, any pending interrupt is cleared + when the status register is read but is regenerated as + long as the temperature stays above the hysteresis + limit. + +Be aware that overriding BIOS defaults might cause some unwanted side effects! + + +Description +----------- + +The VIA VT1211 Super-I/O chip includes complete hardware monitoring +capabilities. It monitors 2 dedicated temperature sensor inputs (temp1 and +temp2), 1 dedicated voltage (in5) and 2 fans. Additionally, the chip +implements 5 universal input channels (UCH1-5) that can be individually +programmed to either monitor a voltage or a temperature. + +This chip also provides manual and automatic control of fan speeds (according +to the datasheet). The driver only supports automatic control since the manual +mode doesn't seem to work as advertised in the datasheet. In fact I couldn't +get manual mode to work at all! Be aware that automatic mode hasn't been +tested very well (due to the fact that my EPIA M10000 doesn't have the fans +connected to the PWM outputs of the VT1211 :-(). + +The following table shows the relationship between the vt1211 inputs and the +sysfs nodes. + +=============== ============== =========== ================================ +Sensor Voltage Mode Temp Mode Default Use (from the datasheet) +=============== ============== =========== ================================ +Reading 1 temp1 Intel thermal diode +Reading 3 temp2 Internal thermal diode +UCH1/Reading2 in0 temp3 NTC type thermistor +UCH2 in1 temp4 +2.5V +UCH3 in2 temp5 VccP (processor core) +UCH4 in3 temp6 +5V +UCH5 in4 temp7 +12V ++3.3V in5 Internal VCC (+3.3V) +=============== ============== =========== ================================ + + +Voltage Monitoring +------------------ + +Voltages are sampled by an 8-bit ADC with a LSB of ~10mV. The supported input +range is thus from 0 to 2.60V. Voltage values outside of this range need +external scaling resistors. This external scaling needs to be compensated for +via compute lines in sensors.conf, like: + +compute inx @*(1+R1/R2), @/(1+R1/R2) + +The board level scaling resistors according to VIA's recommendation are as +follows. And this is of course totally dependent on the actual board +implementation :-) You will have to find documentation for your own +motherboard and edit sensors.conf accordingly. + +============= ====== ====== ========= ============ + Expected +Voltage R1 R2 Divider Raw Value +============= ====== ====== ========= ============ ++2.5V 2K 10K 1.2 2083 mV +VccP --- --- 1.0 1400 mV [1]_ ++5V 14K 10K 2.4 2083 mV ++12V 47K 10K 5.7 2105 mV ++3.3V (int) 2K 3.4K 1.588 3300 mV [2]_ ++3.3V (ext) 6.8K 10K 1.68 1964 mV +============= ====== ====== ========= ============ + +.. [1] Depending on the CPU (1.4V is for a VIA C3 Nehemiah). + +.. [2] R1 and R2 for 3.3V (int) are internal to the VT1211 chip and the driver + performs the scaling and returns the properly scaled voltage value. + +Each measured voltage has an associated low and high limit which triggers an +alarm when crossed. + + +Temperature Monitoring +---------------------- + +Temperatures are reported in millidegree Celsius. Each measured temperature +has a high limit which triggers an alarm if crossed. There is an associated +hysteresis value with each temperature below which the temperature has to drop +before the alarm is cleared (this is only true for interrupt mode 0). The +interrupt mode can be forced to 0 in case the BIOS doesn't do it +automatically. See the 'Module Parameters' section for details. + +All temperature channels except temp2 are external. Temp2 is the VT1211 +internal thermal diode and the driver does all the scaling for temp2 and +returns the temperature in millidegree Celsius. For the external channels +temp1 and temp3-temp7, scaling depends on the board implementation and needs +to be performed in userspace via sensors.conf. + +Temp1 is an Intel-type thermal diode which requires the following formula to +convert between sysfs readings and real temperatures: + +compute temp1 (@-Offset)/Gain, (@*Gain)+Offset + +According to the VIA VT1211 BIOS porting guide, the following gain and offset +values should be used: + +=============== ======== =========== +Diode Type Offset Gain +=============== ======== =========== +Intel CPU 88.638 0.9528 + 65.000 0.9686 [3]_ +VIA C3 Ezra 83.869 0.9528 +VIA C3 Ezra-T 73.869 0.9528 +=============== ======== =========== + +.. [3] This is the formula from the lm_sensors 2.10.0 sensors.conf file. I don't + know where it comes from or how it was derived, it's just listed here for + completeness. + +Temp3-temp7 support NTC thermistors. For these channels, the driver returns +the voltages as seen at the individual pins of UCH1-UCH5. The voltage at the +pin (Vpin) is formed by a voltage divider made of the thermistor (Rth) and a +scaling resistor (Rs):: + + Vpin = 2200 * Rth / (Rs + Rth) (2200 is the ADC max limit of 2200 mV) + +The equation for the thermistor is as follows (google it if you want to know +more about it):: + + Rth = Ro * exp(B * (1 / T - 1 / To)) (To is 298.15K (25C) and Ro is the + nominal resistance at 25C) + +Mingling the above two equations and assuming Rs = Ro and B = 3435 yields the +following formula for sensors.conf:: + + compute tempx 1 / (1 / 298.15 - (` (2200 / @ - 1)) / 3435) - 273.15, + 2200 / (1 + (^ (3435 / 298.15 - 3435 / (273.15 + @)))) + + +Fan Speed Control +----------------- + +The VT1211 provides 2 programmable PWM outputs to control the speeds of 2 +fans. Writing a 2 to any of the two pwm[1-2]_enable sysfs nodes will put the +PWM controller in automatic mode. There is only a single controller that +controls both PWM outputs but each PWM output can be individually enabled and +disabled. + +Each PWM has 4 associated distinct output duty-cycles: full, high, low and +off. Full and off are internally hard-wired to 255 (100%) and 0 (0%), +respectively. High and low can be programmed via +pwm[1-2]_auto_point[2-3]_pwm. Each PWM output can be associated with a +different thermal input but - and here's the weird part - only one set of +thermal thresholds exist that controls both PWMs output duty-cycles. The +thermal thresholds are accessible via pwm[1-2]_auto_point[1-4]_temp. Note +that even though there are 2 sets of 4 auto points each, they map to the same +registers in the VT1211 and programming one set is sufficient (actually only +the first set pwm1_auto_point[1-4]_temp is writable, the second set is +read-only). + +========================== ========================================= +PWM Auto Point PWM Output Duty-Cycle +========================== ========================================= +pwm[1-2]_auto_point4_pwm full speed duty-cycle (hard-wired to 255) +pwm[1-2]_auto_point3_pwm high speed duty-cycle +pwm[1-2]_auto_point2_pwm low speed duty-cycle +pwm[1-2]_auto_point1_pwm off duty-cycle (hard-wired to 0) +========================== ========================================= + +========================== ================= +Temp Auto Point Thermal Threshold +========================== ================= +pwm[1-2]_auto_point4_temp full speed temp +pwm[1-2]_auto_point3_temp high speed temp +pwm[1-2]_auto_point2_temp low speed temp +pwm[1-2]_auto_point1_temp off temp +========================== ================= + +Long story short, the controller implements the following algorithm to set the +PWM output duty-cycle based on the input temperature: + +=================== ======================= ======================== +Thermal Threshold Output Duty-Cycle Output Duty-Cycle + (Rising Temp) (Falling Temp) +=================== ======================= ======================== +- full speed duty-cycle full speed duty-cycle +full speed temp +- high speed duty-cycle full speed duty-cycle +high speed temp +- low speed duty-cycle high speed duty-cycle +low speed temp +- off duty-cycle low speed duty-cycle +off temp +=================== ======================= ======================== diff --git a/Documentation/hwmon/w83627ehf.rst b/Documentation/hwmon/w83627ehf.rst new file mode 100644 index 0000000000..7bb557c948 --- /dev/null +++ b/Documentation/hwmon/w83627ehf.rst @@ -0,0 +1,248 @@ +Kernel driver w83627ehf +======================= + +Supported chips: + + * Winbond W83627EHF/EHG (ISA access ONLY) + + Prefix: 'w83627ehf' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: not available + + * Winbond W83627DHG + + Prefix: 'w83627dhg' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: not available + + * Winbond W83627DHG-P + + Prefix: 'w83627dhg' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: not available + + * Winbond W83627UHG + + Prefix: 'w83627uhg' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: available from www.nuvoton.com + + * Winbond W83667HG + + Prefix: 'w83667hg' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: not available + + * Winbond W83667HG-B + + Prefix: 'w83667hg' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT6775F/W83667HG-I + + Prefix: 'nct6775' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + * Nuvoton NCT6776F + + Prefix: 'nct6776' + + Addresses scanned: ISA address retrieved from Super I/O registers + + Datasheet: Available from Nuvoton upon request + + +Authors: + + - Jean Delvare <jdelvare@suse.de> + - Yuan Mu (Winbond) + - Rudolf Marek <r.marek@assembler.cz> + - David Hubbard <david.c.hubbard@gmail.com> + - Gong Jun <JGong@nuvoton.com> + +Description +----------- + +This driver implements support for the Winbond W83627EHF, W83627EHG, +W83627DHG, W83627DHG-P, W83627UHG, W83667HG, W83667HG-B, W83667HG-I +(NCT6775F), and NCT6776F super I/O chips. We will refer to them collectively +as Winbond chips. + +The chips implement 3 to 4 temperature sensors (9 for NCT6775F and NCT6776F), +2 to 5 fan rotation speed sensors, 8 to 10 analog voltage sensors, one VID +(except for 627UHG), alarms with beep warnings (control unimplemented), +and some automatic fan regulation strategies (plus manual fan control mode). + +The temperature sensor sources on W82677HG-B, NCT6775F, and NCT6776F are +configurable. temp4 and higher attributes are only reported if its temperature +source differs from the temperature sources of the already reported temperature +sensors. The configured source for each of the temperature sensors is provided +in tempX_label. + +Temperatures are measured in degrees Celsius and measurement resolution is 1 +degC for temp1 and 0.5 degC for temp2 and temp3. For temp4 and higher, +resolution is 1 degC for W83667HG-B and 0.0 degC for NCT6775F and NCT6776F. +An alarm is triggered when the temperature gets higher than high limit; +it stays on until the temperature falls below the hysteresis value. +Alarms are only supported for temp1, temp2, and temp3. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4, 8, 16, 32, 64 or +128) to give the readings more range or accuracy. The driver sets the most +suitable fan divisor itself. Some fans might not be present because they +share pins with other functions. + +Voltage sensors (also known as IN sensors) report their values in millivolts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. + +The driver supports automatic fan control mode known as Thermal Cruise. +In this mode, the chip attempts to keep the measured temperature in a +predefined temperature range. If the temperature goes out of range, fan +is driven slower/faster to reach the predefined range again. + +The mode works for fan1-fan4. Mapping of temperatures to pwm outputs is as +follows:: + + temp1 -> pwm1 + temp2 -> pwm2 + temp3 -> pwm3 (not on 627UHG) + prog -> pwm4 (not on 667HG and 667HG-B; the programmable setting is not + supported by the driver) + +/sys files +---------- + +name + this is a standard hwmon device entry, it contains the name of + the device (see the prefix in the list of supported devices at + the top of this file) + +pwm[1-4] + this file stores PWM duty cycle or DC value (fan speed) in range: + + 0 (stop) to 255 (full) + +pwm[1-4]_enable + this file controls mode of fan/temperature control: + + * 1 Manual mode, write to pwm file any value 0-255 (full speed) + * 2 "Thermal Cruise" mode + * 3 "Fan Speed Cruise" mode + * 4 "Smart Fan III" mode + * 5 "Smart Fan IV" mode + + SmartFan III mode is not supported on NCT6776F. + + SmartFan IV mode is configurable only if it was configured at system + startup, and is only supported for W83677HG-B, NCT6775F, and NCT6776F. + SmartFan IV operational parameters can not be configured at this time, + and the various pwm attributes are not used in SmartFan IV mode. + The attributes can be written to, which is useful if you plan to + configure the system for a different pwm mode. However, the information + returned when reading pwm attributes is unrelated to SmartFan IV + operation. + +pwm[1-4]_mode + controls if output is PWM or DC level + + * 0 DC output (0 - 12v) + * 1 PWM output + +Thermal Cruise mode +------------------- + +If the temperature is in the range defined by: + +pwm[1-4]_target + set target temperature, unit millidegree Celsius + (range 0 - 127000) +pwm[1-4]_tolerance + tolerance, unit millidegree Celsius (range 0 - 15000) + +there are no changes to fan speed. Once the temperature leaves the interval, +fan speed increases (temp is higher) or decreases if lower than desired. +There are defined steps and times, but not exported by the driver yet. + +pwm[1-4]_min_output + minimum fan speed (range 1 - 255), when the temperature + is below defined range. +pwm[1-4]_stop_time + how many milliseconds [ms] must elapse to switch + corresponding fan off. (when the temperature was below + defined range). +pwm[1-4]_start_output + minimum fan speed (range 1 - 255) when spinning up +pwm[1-4]_step_output + rate of fan speed change (1 - 255) +pwm[1-4]_stop_output + minimum fan speed (range 1 - 255) when spinning down +pwm[1-4]_max_output + maximum fan speed (range 1 - 255), when the temperature + is above defined range. + +Note: last six functions are influenced by other control bits, not yet exported + by the driver, so a change might not have any effect. + +Implementation Details +---------------------- + +Future driver development should bear in mind that the following registers have +different functions on the 627EHF and the 627DHG. Some registers also have +different power-on default values, but BIOS should already be loading +appropriate defaults. Note that bank selection must be performed as is currently +done in the driver for all register addresses. + +========================= ===================================================== +Register(s) Meaning +========================= ===================================================== +0x49 only on DHG, selects temperature source for AUX fan, + CPU fan0 +0x4a not completely documented for the EHF and the DHG + documentation assigns different behavior to bits 7 + and 6, including extending the temperature input + selection to SmartFan I, not just SmartFan III. + Testing on the EHF will reveal whether they are + compatible or not. +0x58 Chip ID: 0xa1=EHF 0xc1=DHG +0x5e only on DHG, has bits to enable "current mode" + temperature detection and critical temperature + protection +0x45b only on EHF, bit 3, vin4 alarm (EHF supports 10 + inputs, only 9 on DHG) +0x552 only on EHF, vin4 +0x558 only on EHF, vin4 high limit +0x559 only on EHF, vin4 low limit +0x6b only on DHG, SYS fan critical temperature +0x6c only on DHG, CPU fan0 critical temperature +0x6d only on DHG, AUX fan critical temperature +0x6e only on DHG, CPU fan1 critical temperature +0x50-0x55 and 0x650-0x657 marked as: + + - "Test Register" for the EHF + - "Reserved Register" for the DHG +========================= ===================================================== + +The DHG also supports PECI, where the DHG queries Intel CPU temperatures, and +the ICH8 southbridge gets that data via PECI from the DHG, so that the +southbridge drives the fans. And the DHG supports SST, a one-wire serial bus. + +The DHG-P has an additional automatic fan speed control mode named Smart Fan +(TM) III+. This mode is not yet supported by the driver. diff --git a/Documentation/hwmon/w83627hf.rst b/Documentation/hwmon/w83627hf.rst new file mode 100644 index 0000000000..d1406c28de --- /dev/null +++ b/Documentation/hwmon/w83627hf.rst @@ -0,0 +1,124 @@ +Kernel driver w83627hf +====================== + +Supported chips: + * Winbond W83627HF (ISA accesses ONLY) + Prefix: 'w83627hf' + Addresses scanned: ISA address retrieved from Super I/O registers + * Winbond W83627THF + Prefix: 'w83627thf' + Addresses scanned: ISA address retrieved from Super I/O registers + * Winbond W83697HF + Prefix: 'w83697hf' + Addresses scanned: ISA address retrieved from Super I/O registers + * Winbond W83637HF + Prefix: 'w83637hf' + Addresses scanned: ISA address retrieved from Super I/O registers + * Winbond W83687THF + Prefix: 'w83687thf' + Addresses scanned: ISA address retrieved from Super I/O registers + Datasheet: Provided by Winbond on request(http://www.winbond.com/hq/enu) + +Authors: + Frodo Looijaard <frodol@dds.nl>, + Philip Edelbrock <phil@netroedge.com>, + Mark Studebaker <mdsxyz123@yahoo.com>, + Bernhard C. Schrenk <clemy@clemy.org> + +Module Parameters +----------------- + +* force_i2c: int + Initialize the I2C address of the sensors +* init: int + (default is 1) + Use 'init=0' to bypass initializing the chip. + Try this if your computer crashes when you load the module. + +Description +----------- + +This driver implements support for ISA accesses *only* for +the Winbond W83627HF, W83627THF, W83697HF and W83637HF Super I/O chips. +We will refer to them collectively as Winbond chips. + +This driver supports ISA accesses, which should be more reliable +than i2c accesses. Also, for Tyan boards which contain both a +Super I/O chip and a second i2c-only Winbond chip (often a W83782D), +using this driver will avoid i2c address conflicts and complex +initialization that were required in the w83781d driver. + +If you really want i2c accesses for these Super I/O chips, +use the w83781d driver. However this is not the preferred method +now that this ISA driver has been developed. + +The `w83627_HF_` uses pins 110-106 as VID0-VID4. The `w83627_THF_` uses the +same pins as GPIO[0:4]. Technically, the `w83627_THF_` does not support a +VID reading. However the two chips have the identical 128 pin package. So, +it is possible or even likely for a w83627thf to have the VID signals routed +to these pins despite their not being labeled for that purpose. Therefore, +the w83627thf driver interprets these as VID. If the VID on your board +doesn't work, first see doc/vid in the lm_sensors package[1]. If that still +doesn't help, you may just ignore the bogus VID reading with no harm done. + +For further information on this driver see the w83781d driver documentation. + +[1] http://www.lm-sensors.org/browser/lm-sensors/trunk/doc/vid + +Forcing the address +------------------- + +The driver used to have a module parameter named force_addr, which could +be used to force the base I/O address of the hardware monitoring block. +This was meant as a workaround for mainboards with a broken BIOS. This +module parameter is gone for technical reasons. If you need this feature, +you can obtain the same result by using the isaset tool (part of +lm-sensors) before loading the driver: + +# Enter the Super I/O config space:: + + isaset -y -f 0x2e 0x87 + isaset -y -f 0x2e 0x87 + +# Select the hwmon logical device:: + + isaset -y 0x2e 0x2f 0x07 0x0b + +# Set the base I/O address (to 0x290 in this example):: + + isaset -y 0x2e 0x2f 0x60 0x02 + isaset -y 0x2e 0x2f 0x61 0x90 + +# Exit the Super-I/O config space:: + + isaset -y -f 0x2e 0xaa + +The above sequence assumes a Super-I/O config space at 0x2e/0x2f, but +0x4e/0x4f is also possible. + +Voltage pin mapping +------------------- + +Here is a summary of the voltage pin mapping for the W83627THF. This +can be useful to convert data provided by board manufacturers into +working libsensors configuration statements: + + +- W83627THF + + + ======== =============== =============== =============== + Pin Name Register Sysfs attribute + ======== =============== =============== =============== + 100 CPUVCORE 20h in0 + 99 VIN0 21h in1 + 98 VIN1 22h in2 + 97 VIN2 24h in4 + 114 AVCC 23h in3 + 61 5VSB 50h (bank 5) in7 + 74 VBAT 51h (bank 5) in8 + ======== =============== =============== =============== + +For other supported devices, you'll have to take the hard path and +look up the information in the datasheet yourself (and then add it +to this document please.) diff --git a/Documentation/hwmon/w83773g.rst b/Documentation/hwmon/w83773g.rst new file mode 100644 index 0000000000..cabaed3914 --- /dev/null +++ b/Documentation/hwmon/w83773g.rst @@ -0,0 +1,35 @@ +Kernel driver w83773g +===================== + +Supported chips: + + * Nuvoton W83773G + + Prefix: 'w83773g' + + Addresses scanned: I2C 0x4c and 0x4d + + Datasheet: https://www.nuvoton.com/resource-files/W83773G_SG_DatasheetV1_2.pdf + +Authors: + + Lei YU <mine260309@gmail.com> + +Description +----------- + +This driver implements support for Nuvoton W83773G temperature sensor +chip. This chip implements one local and two remote sensors. +The chip also features offsets for the two remote sensors which get added to +the input readings. The chip does all the scaling by itself and the driver +therefore reports true temperatures that don't need any user-space adjustments. +Temperature is measured in degrees Celsius. +The chip is wired over I2C/SMBus and specified over a temperature +range of -40 to +125 degrees Celsius (for local sensor) and -40 to +127 +degrees Celsius (for remote sensors). +Resolution for both the local and remote channels is 0.125 degree C. + +The chip supports only temperature measurement. The driver exports +the temperature values via the following sysfs files: + +**temp[1-3]_input, temp[2-3]_fault, temp[2-3]_offset, update_interval** diff --git a/Documentation/hwmon/w83781d.rst b/Documentation/hwmon/w83781d.rst new file mode 100644 index 0000000000..c2dcb68560 --- /dev/null +++ b/Documentation/hwmon/w83781d.rst @@ -0,0 +1,513 @@ +Kernel driver w83781d +===================== + +Supported chips: + + * Winbond W83781D + + Prefix: 'w83781d' + + Addresses scanned: I2C 0x28 - 0x2f, ISA 0x290 (8 I/O ports) + + Datasheet: http://www.winbond-usa.com/products/winbond_products/pdfs/PCIC/w83781d.pdf + + * Winbond W83782D + + Prefix: 'w83782d' + + Addresses scanned: I2C 0x28 - 0x2f, ISA 0x290 (8 I/O ports) + + Datasheet: https://www.winbond.com + + * Winbond W83783S + + Prefix: 'w83783s' + + Addresses scanned: I2C 0x2d + + Datasheet: http://www.winbond-usa.com/products/winbond_products/pdfs/PCIC/w83783s.pdf + + * Asus AS99127F + + Prefix: 'as99127f' + + Addresses scanned: I2C 0x28 - 0x2f + + Datasheet: Unavailable from Asus + + + +Authors: + + - Frodo Looijaard <frodol@dds.nl>, + - Philip Edelbrock <phil@netroedge.com>, + - Mark Studebaker <mdsxyz123@yahoo.com> + +Module parameters +----------------- + +* init int + (default 1) + + Use 'init=0' to bypass initializing the chip. + Try this if your computer crashes when you load the module. + +* reset int + (default 0) + The driver used to reset the chip on load, but does no more. Use + 'reset=1' to restore the old behavior. Report if you need to do this. + +force_subclients=bus,caddr,saddr,saddr + This is used to force the i2c addresses for subclients of + a certain chip. Typical usage is `force_subclients=0,0x2d,0x4a,0x4b` + to force the subclients of chip 0x2d on bus 0 to i2c addresses + 0x4a and 0x4b. This parameter is useful for certain Tyan boards. + +Description +----------- + +This driver implements support for the Winbond W83781D, W83782D, W83783S +chips, and the Asus AS99127F chips. We will refer to them collectively as +W8378* chips. + +There is quite some difference between these chips, but they are similar +enough that it was sensible to put them together in one driver. +The Asus chips are similar to an I2C-only W83782D. + ++----------+---------+--------+-------+-------+---------+--------+------+-----+ +| Chip | #vin | #fanin | #pwm | #temp | wchipid | vendid | i2c | ISA | ++----------+---------+--------+-------+-------+---------+--------+------+-----+ +| as99127f | 7 | 3 | 0 | 3 | 0x31 | 0x12c3 | yes | no | ++----------+---------+--------+-------+-------+---------+--------+------+-----+ +| as99127f rev.2 (type_name = as99127f) | 0x31 | 0x5ca3 | yes | no | ++----------+---------+--------+-------+-------+---------+--------+------+-----+ +| w83781d | 7 | 3 | 0 | 3 | 0x10-1 | 0x5ca3 | yes | yes | ++----------+---------+--------+-------+-------+---------+--------+------+-----+ +| w83782d | 9 | 3 | 2-4 | 3 | 0x30 | 0x5ca3 | yes | yes | ++----------+---------+--------+-------+-------+---------+--------+------+-----+ +| w83783s | 5-6 | 3 | 2 | 1-2 | 0x40 | 0x5ca3 | yes | no | ++----------+---------+--------+-------+-------+---------+--------+------+-----+ + +Detection of these chips can sometimes be foiled because they can be in +an internal state that allows no clean access. If you know the address +of the chip, use a 'force' parameter; this will put them into a more +well-behaved state first. + +The W8378* implements temperature sensors (three on the W83781D and W83782D, +two on the W83783S), three fan rotation speed sensors, voltage sensors +(seven on the W83781D, nine on the W83782D and six on the W83783S), VID +lines, alarms with beep warnings, and some miscellaneous stuff. + +Temperatures are measured in degrees Celsius. There is always one main +temperature sensor, and one (W83783S) or two (W83781D and W83782D) other +sensors. An alarm is triggered for the main sensor once when the +Overtemperature Shutdown limit is crossed; it is triggered again as soon as +it drops below the Hysteresis value. A more useful behavior +can be found by setting the Hysteresis value to +127 degrees Celsius; in +this case, alarms are issued during all the time when the actual temperature +is above the Overtemperature Shutdown value. The driver sets the +hysteresis value for temp1 to 127 at initialization. + +For the other temperature sensor(s), an alarm is triggered when the +temperature gets higher then the Overtemperature Shutdown value; it stays +on until the temperature falls below the Hysteresis value. But on the +W83781D, there is only one alarm that functions for both other sensors! +Temperatures are guaranteed within a range of -55 to +125 degrees. The +main temperature sensors has a resolution of 1 degree; the other sensor(s) +of 0.5 degree. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4 or 8 for the +W83781D; 1, 2, 4, 8, 16, 32, 64 or 128 for the others) to give +the readings more range or accuracy. Not all RPM values can accurately +be represented, so some rounding is done. With a divider of 2, the lowest +representable value is around 2600 RPM. + +Voltage sensors (also known as IN sensors) report their values in volts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. Note that minimum in this case always means 'closest to +zero'; this is important for negative voltage measurements. All voltage +inputs can measure voltages between 0 and 4.08 volts, with a resolution +of 0.016 volt. + +The VID lines encode the core voltage value: the voltage level your processor +should work with. This is hardcoded by the mainboard and/or processor itself. +It is a value in volts. When it is unconnected, you will often find the +value 3.50 V here. + +The W83782D and W83783S temperature conversion machine understands about +several kinds of temperature probes. You can program the so-called +beta value in the sensor files. '1' is the PII/Celeron diode, '2' is the +TN3904 transistor, and 3435 the default thermistor value. Other values +are (not yet) supported. + +In addition to the alarms described above, there is a CHAS alarm on the +chips which triggers if your computer case is open. + +When an alarm goes off, you can be warned by a beeping signal through +your computer speaker. It is possible to enable all beeping globally, +or only the beeping for some alarms. + +Individual alarm and beep bits: + +======== ========================== +0x000001 in0 +0x000002 in1 +0x000004 in2 +0x000008 in3 +0x000010 temp1 +0x000020 temp2 (+temp3 on W83781D) +0x000040 fan1 +0x000080 fan2 +0x000100 in4 +0x000200 in5 +0x000400 in6 +0x000800 fan3 +0x001000 chassis +0x002000 temp3 (W83782D only) +0x010000 in7 (W83782D only) +0x020000 in8 (W83782D only) +======== ========================== + +If an alarm triggers, it will remain triggered until the hardware register +is read at least once. This means that the cause for the alarm may +already have disappeared! Note that in the current implementation, all +hardware registers are read whenever any data is read (unless it is less +than 1.5 seconds since the last update). This means that you can easily +miss once-only alarms. + +The chips only update values each 1.5 seconds; reading them more often +will do no harm, but will return 'old' values. + +AS99127F PROBLEMS +----------------- +The as99127f support was developed without the benefit of a datasheet. +In most cases it is treated as a w83781d (although revision 2 of the +AS99127F looks more like a w83782d). +This support will be BETA until a datasheet is released. +One user has reported problems with fans stopping +occasionally. + +Note that the individual beep bits are inverted from the other chips. +The driver now takes care of this so that user-space applications +don't have to know about it. + +Known problems: + - Problems with diode/thermistor settings (supported?) + - One user reports fans stopping under high server load. + - Revision 2 seems to have 2 PWM registers but we don't know + how to handle them. More details below. + +These will not be fixed unless we get a datasheet. +If you have problems, please lobby Asus to release a datasheet. +Unfortunately several others have without success. +Please do not send mail to us asking for better as99127f support. +We have done the best we can without a datasheet. +Please do not send mail to the author or the sensors group asking for +a datasheet or ideas on how to convince Asus. We can't help. + + +NOTES +----- + 783s has no in1 so that in[2-6] are compatible with the 781d/782d. + + 783s pin is programmable for -5V or temp1; defaults to -5V, + no control in driver so temp1 doesn't work. + + 782d and 783s datasheets differ on which is pwm1 and which is pwm2. + We chose to follow 782d. + + 782d and 783s pin is programmable for fan3 input or pwm2 output; + defaults to fan3 input. + If pwm2 is enabled (with echo 255 1 > pwm2), then + fan3 will report 0. + + 782d has pwm1-2 for ISA, pwm1-4 for i2c. (pwm3-4 share pins with + the ISA pins) + +Data sheet updates +------------------ + - PWM clock registers: + * 000: master / 512 + * 001: master / 1024 + * 010: master / 2048 + * 011: master / 4096 + * 100: master / 8192 + + +Answers from Winbond tech support +--------------------------------- + +:: + + > + > 1) In the W83781D data sheet section 7.2 last paragraph, it talks about + > reprogramming the R-T table if the Beta of the thermistor is not + > 3435K. The R-T table is described briefly in section 8.20. + > What formulas do I use to program a new R-T table for a given Beta? + > + + We are sorry that the calculation for R-T table value is + confidential. If you have another Beta value of thermistor, we can help + to calculate the R-T table for you. But you should give us real R-T + Table which can be gotten by thermistor vendor. Therefore we will calculate + them and obtain 32-byte data, and you can fill the 32-byte data to the + register in Bank0.CR51 of W83781D. + + + > 2) In the W83782D data sheet, it mentions that pins 38, 39, and 40 are + > programmable to be either thermistor or Pentium II diode inputs. + > How do I program them for diode inputs? I can't find any register + > to program these to be diode inputs. + + You may program Bank0 CR[5Dh] and CR[59h] registers. + + =============================== =============== ============== ============ + CR[5Dh] bit 1(VTIN1) bit 2(VTIN2) bit 3(VTIN3) + + thermistor 0 0 0 + diode 1 1 1 + + + (error) CR[59h] bit 4(VTIN1) bit 2(VTIN2) bit 3(VTIN3) + (right) CR[59h] bit 4(VTIN1) bit 5(VTIN2) bit 6(VTIN3) + + PII thermal diode 1 1 1 + 2N3904 diode 0 0 0 + =============================== =============== ============== ============ + + +Asus Clones +----------- + +We have no datasheets for the Asus clones (AS99127F and ASB100 Bach). +Here are some very useful information that were given to us by Alex Van +Kaam about how to detect these chips, and how to read their values. He +also gives advice for another Asus chipset, the Mozart-2 (which we +don't support yet). Thanks Alex! + +I reworded some parts and added personal comments. + +Detection +^^^^^^^^^ + +AS99127F rev.1, AS99127F rev.2 and ASB100: +- I2C address range: 0x29 - 0x2F +- If register 0x58 holds 0x31 then we have an Asus (either ASB100 or AS99127F) +- Which one depends on register 0x4F (manufacturer ID): + + - 0x06 or 0x94: ASB100 + - 0x12 or 0xC3: AS99127F rev.1 + - 0x5C or 0xA3: AS99127F rev.2 + + Note that 0x5CA3 is Winbond's ID (WEC), which let us think Asus get their + AS99127F rev.2 direct from Winbond. The other codes mean ATT and DVC, + respectively. ATT could stand for Asustek something (although it would be + very badly chosen IMHO), I don't know what DVC could stand for. Maybe + these codes simply aren't meant to be decoded that way. + +Mozart-2: +- I2C address: 0x77 +- If register 0x58 holds 0x56 or 0x10 then we have a Mozart-2 +- Of the Mozart there are 3 types: + + - 0x58=0x56, 0x4E=0x94, 0x4F=0x36: Asus ASM58 Mozart-2 + - 0x58=0x56, 0x4E=0x94, 0x4F=0x06: Asus AS2K129R Mozart-2 + - 0x58=0x10, 0x4E=0x5C, 0x4F=0xA3: Asus ??? Mozart-2 + + You can handle all 3 the exact same way :) + +Temperature sensors +^^^^^^^^^^^^^^^^^^^ + +ASB100: + - sensor 1: register 0x27 + - sensor 2 & 3 are the 2 LM75's on the SMBus + - sensor 4: register 0x17 + +Remark: + + I noticed that on Intel boards sensor 2 is used for the CPU + and 4 is ignored/stuck, on AMD boards sensor 4 is the CPU and sensor 2 is + either ignored or a socket temperature. + +AS99127F (rev.1 and 2 alike): + - sensor 1: register 0x27 + - sensor 2 & 3 are the 2 LM75's on the SMBus + +Remark: + + Register 0x5b is suspected to be temperature type selector. Bit 1 + would control temp1, bit 3 temp2 and bit 5 temp3. + +Mozart-2: + - sensor 1: register 0x27 + - sensor 2: register 0x13 + +Fan sensors +^^^^^^^^^^^ + +ASB100, AS99127F (rev.1 and 2 alike): + - 3 fans, identical to the W83781D + +Mozart-2: + - 2 fans only, 1350000/RPM/div + - fan 1: register 0x28, divisor on register 0xA1 (bits 4-5) + - fan 2: register 0x29, divisor on register 0xA1 (bits 6-7) + +Voltages +^^^^^^^^ + +This is where there is a difference between AS99127F rev.1 and 2. + +Remark: + + The difference is similar to the difference between + W83781D and W83782D. + +ASB100: + - in0=r(0x20)*0.016 + - in1=r(0x21)*0.016 + - in2=r(0x22)*0.016 + - in3=r(0x23)*0.016*1.68 + - in4=r(0x24)*0.016*3.8 + - in5=r(0x25)*(-0.016)*3.97 + - in6=r(0x26)*(-0.016)*1.666 + +AS99127F rev.1: + - in0=r(0x20)*0.016 + - in1=r(0x21)*0.016 + - in2=r(0x22)*0.016 + - in3=r(0x23)*0.016*1.68 + - in4=r(0x24)*0.016*3.8 + - in5=r(0x25)*(-0.016)*3.97 + - in6=r(0x26)*(-0.016)*1.503 + +AS99127F rev.2: + - in0=r(0x20)*0.016 + - in1=r(0x21)*0.016 + - in2=r(0x22)*0.016 + - in3=r(0x23)*0.016*1.68 + - in4=r(0x24)*0.016*3.8 + - in5=(r(0x25)*0.016-3.6)*5.14+3.6 + - in6=(r(0x26)*0.016-3.6)*3.14+3.6 + +Mozart-2: + - in0=r(0x20)*0.016 + - in1=255 + - in2=r(0x22)*0.016 + - in3=r(0x23)*0.016*1.68 + - in4=r(0x24)*0.016*4 + - in5=255 + - in6=255 + + +PWM +^^^ + +* Additional info about PWM on the AS99127F (may apply to other Asus + chips as well) by Jean Delvare as of 2004-04-09: + +AS99127F revision 2 seems to have two PWM registers at 0x59 and 0x5A, +and a temperature sensor type selector at 0x5B (which basically means +that they swapped registers 0x59 and 0x5B when you compare with Winbond +chips). +Revision 1 of the chip also has the temperature sensor type selector at +0x5B, but PWM registers have no effect. + +We don't know exactly how the temperature sensor type selection works. +Looks like bits 1-0 are for temp1, bits 3-2 for temp2 and bits 5-4 for +temp3, although it is possible that only the most significant bit matters +each time. So far, values other than 0 always broke the readings. + +PWM registers seem to be split in two parts: bit 7 is a mode selector, +while the other bits seem to define a value or threshold. + +When bit 7 is clear, bits 6-0 seem to hold a threshold value. If the value +is below a given limit, the fan runs at low speed. If the value is above +the limit, the fan runs at full speed. We have no clue as to what the limit +represents. Note that there seem to be some inertia in this mode, speed +changes may need some time to trigger. Also, an hysteresis mechanism is +suspected since walking through all the values increasingly and then +decreasingly led to slightly different limits. + +When bit 7 is set, bits 3-0 seem to hold a threshold value, while bits 6-4 +would not be significant. If the value is below a given limit, the fan runs +at full speed, while if it is above the limit it runs at low speed (so this +is the contrary of the other mode, in a way). Here again, we don't know +what the limit is supposed to represent. + +One remarkable thing is that the fans would only have two or three +different speeds (transitional states left apart), not a whole range as +you usually get with PWM. + +As a conclusion, you can write 0x00 or 0x8F to the PWM registers to make +fans run at low speed, and 0x7F or 0x80 to make them run at full speed. + +Please contact us if you can figure out how it is supposed to work. As +long as we don't know more, the w83781d driver doesn't handle PWM on +AS99127F chips at all. + +* Additional info about PWM on the AS99127F rev.1 by Hector Martin: + +I've been fiddling around with the (in)famous 0x59 register and +found out the following values do work as a form of coarse pwm: + +0x80 + - seems to turn fans off after some time(1-2 minutes)... might be + some form of auto-fan-control based on temp? hmm (Qfan? this mobo is an + old ASUS, it isn't marketed as Qfan. Maybe some beta pre-attempt at Qfan + that was dropped at the BIOS) +0x81 + - off +0x82 + - slightly "on-ner" than off, but my fans do not get to move. I can + hear the high-pitched PWM sound that motors give off at too-low-pwm. +0x83 + - now they do move. Estimate about 70% speed or so. +0x84-0x8f + - full on + +Changing the high nibble doesn't seem to do much except the high bit +(0x80) must be set for PWM to work, else the current pwm doesn't seem to +change. + +My mobo is an ASUS A7V266-E. This behavior is similar to what I got +with speedfan under Windows, where 0-15% would be off, 15-2x% (can't +remember the exact value) would be 70% and higher would be full on. + +* Additional info about PWM on the AS99127F rev.1 from lm-sensors + ticket #2350: + +I conducted some experiment on Asus P3B-F motherboard with AS99127F +(Ver. 1). + +I confirm that 0x59 register control the CPU_Fan Header on this +motherboard, and 0x5a register control PWR_Fan. + +In order to reduce the dependency of specific fan, the measurement is +conducted with a digital scope without fan connected. I found out that +P3B-F actually output variable DC voltage on fan header center pin, +looks like PWM is filtered on this motherboard. + +Here are some of measurements: + +==== ========= +0x80 20 mV +0x81 20 mV +0x82 232 mV +0x83 1.2 V +0x84 2.31 V +0x85 3.44 V +0x86 4.62 V +0x87 5.81 V +0x88 7.01 V +9x89 8.22 V +0x8a 9.42 V +0x8b 10.6 V +0x8c 11.9 V +0x8d 12.4 V +0x8e 12.4 V +0x8f 12.4 V +==== ========= diff --git a/Documentation/hwmon/w83791d.rst b/Documentation/hwmon/w83791d.rst new file mode 100644 index 0000000000..3adaed39b1 --- /dev/null +++ b/Documentation/hwmon/w83791d.rst @@ -0,0 +1,180 @@ +Kernel driver w83791d +===================== + +Supported chips: + + * Winbond W83791D + + Prefix: 'w83791d' + + Addresses scanned: I2C 0x2c - 0x2f + + Datasheet: http://www.winbond-usa.com/products/winbond_products/pdfs/PCIC/W83791D_W83791Gb.pdf + +Author: Charles Spirakis <bezaur@gmail.com> + +This driver was derived from the w83781d.c and w83792d.c source files. + +Credits: + + w83781d.c: + + - Frodo Looijaard <frodol@dds.nl>, + - Philip Edelbrock <phil@netroedge.com>, + - Mark Studebaker <mdsxyz123@yahoo.com> + + w83792d.c: + + - Shane Huang (Winbond), + - Rudolf Marek <r.marek@assembler.cz> + +Additional contributors: + + - Sven Anders <anders@anduras.de> + - Marc Hulsman <m.hulsman@tudelft.nl> + +Module Parameters +----------------- + +* init boolean + (default 0) + + Use 'init=1' to have the driver do extra software initializations. + The default behavior is to do the minimum initialization possible + and depend on the BIOS to properly setup the chip. If you know you + have a w83791d and you're having problems, try init=1 before trying + reset=1. + +* reset boolean + (default 0) + + Use 'reset=1' to reset the chip (via index 0x40, bit 7). The default + behavior is no chip reset to preserve BIOS settings. + +* force_subclients=bus,caddr,saddr,saddr + This is used to force the i2c addresses for subclients of + a certain chip. Example usage is `force_subclients=0,0x2f,0x4a,0x4b` + to force the subclients of chip 0x2f on bus 0 to i2c addresses + 0x4a and 0x4b. + + +Description +----------- + +This driver implements support for the Winbond W83791D chip. The W83791G +chip appears to be the same as the W83791D but is lead free. + +Detection of the chip can sometimes be foiled because it can be in an +internal state that allows no clean access (Bank with ID register is not +currently selected). If you know the address of the chip, use a 'force' +parameter; this will put it into a more well-behaved state first. + +The driver implements three temperature sensors, ten voltage sensors, +five fan rotation speed sensors and manual PWM control of each fan. + +Temperatures are measured in degrees Celsius and measurement resolution is 1 +degC for temp1 and 0.5 degC for temp2 and temp3. An alarm is triggered when +the temperature gets higher than the Overtemperature Shutdown value; it stays +on until the temperature falls below the Hysteresis value. + +Voltage sensors (also known as IN sensors) report their values in millivolts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4, 8, 16, +32, 64 or 128 for all fans) to give the readings more range or accuracy. + +Each fan controlled is controlled by PWM. The PWM duty cycle can be read and +set for each fan separately. Valid values range from 0 (stop) to 255 (full). +PWM 1-3 support Thermal Cruise mode, in which the PWMs are automatically +regulated to keep respectively temp 1-3 at a certain target temperature. +See below for the description of the sysfs-interface. + +The w83791d has a global bit used to enable beeping from the speaker when an +alarm is triggered as well as a bitmask to enable or disable the beep for +specific alarms. You need both the global beep enable bit and the +corresponding beep bit to be on for a triggered alarm to sound a beep. + +The sysfs interface to the global enable is via the sysfs beep_enable file. +This file is used for both legacy and new code. + +The sysfs interface to the beep bitmask has migrated from the original legacy +method of a single sysfs beep_mask file to a newer method using multiple +`*_beep` files as described in `Documentation/hwmon/sysfs-interface.rst`. + +A similar change has occurred for the bitmap corresponding to the alarms. The +original legacy method used a single sysfs alarms file containing a bitmap +of triggered alarms. The newer method uses multiple sysfs `*_alarm` files +(again following the pattern described in sysfs-interface). + +Since both methods read and write the underlying hardware, they can be used +interchangeably and changes in one will automatically be reflected by +the other. If you use the legacy bitmask method, your user-space code is +responsible for handling the fact that the alarms and beep_mask bitmaps +are not the same (see the table below). + +NOTE: All new code should be written to use the newer sysfs-interface +specification as that avoids bitmap problems and is the preferred interface +going forward. + +The driver reads the hardware chip values at most once every three seconds. +User mode code requesting values more often will receive cached values. + +/sys files +---------- +The sysfs-interface is documented in the 'sysfs-interface' file. Only +chip-specific options are documented here. + +======================= ======================================================= +pwm[1-3]_enable this file controls mode of fan/temperature control for + fan 1-3. Fan/PWM 4-5 only support manual mode. + + * 1 Manual mode + * 2 Thermal Cruise mode + * 3 Fan Speed Cruise mode (no further support) + +temp[1-3]_target defines the target temperature for Thermal Cruise mode. + Unit: millidegree Celsius + RW + +temp[1-3]_tolerance temperature tolerance for Thermal Cruise mode. + Specifies an interval around the target temperature + in which the fan speed is not changed. + Unit: millidegree Celsius + RW +======================= ======================================================= + +Alarms bitmap vs. beep_mask bitmask +----------------------------------- + +For legacy code using the alarms and beep_mask files: + +============= ======== ========= ========================== +Signal Alarms beep_mask Obs +============= ======== ========= ========================== +in0 (VCORE) 0x000001 0x000001 +in1 (VINR0) 0x000002 0x002000 <== mismatch +in2 (+3.3VIN) 0x000004 0x000004 +in3 (5VDD) 0x000008 0x000008 +in4 (+12VIN) 0x000100 0x000100 +in5 (-12VIN) 0x000200 0x000200 +in6 (-5VIN) 0x000400 0x000400 +in7 (VSB) 0x080000 0x010000 <== mismatch +in8 (VBAT) 0x100000 0x020000 <== mismatch +in9 (VINR1) 0x004000 0x004000 +temp1 0x000010 0x000010 +temp2 0x000020 0x000020 +temp3 0x002000 0x000002 <== mismatch +fan1 0x000040 0x000040 +fan2 0x000080 0x000080 +fan3 0x000800 0x000800 +fan4 0x200000 0x200000 +fan5 0x400000 0x400000 +tart1 0x010000 0x040000 <== mismatch +tart2 0x020000 0x080000 <== mismatch +tart3 0x040000 0x100000 <== mismatch +case_open 0x001000 0x001000 +global_enable - 0x800000 (modified via beep_enable) +============= ======== ========= ========================== diff --git a/Documentation/hwmon/w83792d.rst b/Documentation/hwmon/w83792d.rst new file mode 100644 index 0000000000..92c4bfe496 --- /dev/null +++ b/Documentation/hwmon/w83792d.rst @@ -0,0 +1,199 @@ +Kernel driver w83792d +===================== + +Supported chips: + + * Winbond W83792D + + Prefix: 'w83792d' + + Addresses scanned: I2C 0x2c - 0x2f + + Datasheet: http://www.winbond.com.tw + +Author: Shane Huang (Winbond) +Updated: Roger Lucas + + +Module Parameters +----------------- + +* init int + (default 1) + + Use 'init=0' to bypass initializing the chip. + Try this if your computer crashes when you load the module. + +* force_subclients=bus,caddr,saddr,saddr + This is used to force the i2c addresses for subclients of + a certain chip. Example usage is `force_subclients=0,0x2f,0x4a,0x4b` + to force the subclients of chip 0x2f on bus 0 to i2c addresses + 0x4a and 0x4b. + + +Description +----------- + +This driver implements support for the Winbond W83792AD/D. + +Detection of the chip can sometimes be foiled because it can be in an +internal state that allows no clean access (Bank with ID register is not +currently selected). If you know the address of the chip, use a 'force' +parameter; this will put it into a more well-behaved state first. + +The driver implements three temperature sensors, seven fan rotation speed +sensors, nine voltage sensors, and two automatic fan regulation +strategies called: Smart Fan I (Thermal Cruise mode) and Smart Fan II. + +The driver also implements up to seven fan control outputs: pwm1-7. Pwm1-7 +can be configured to PWM output or Analogue DC output via their associated +pwmX_mode. Outputs pwm4 through pwm7 may or may not be present depending on +how the W83792AD/D was configured by the BIOS. + +Automatic fan control mode is possible only for fan1-fan3. + +For all pwmX outputs, a value of 0 means minimum fan speed and a value of +255 means maximum fan speed. + +Temperatures are measured in degrees Celsius and measurement resolution is 1 +degC for temp1 and 0.5 degC for temp2 and temp3. An alarm is triggered when +the temperature gets higher than the Overtemperature Shutdown value; it stays +on until the temperature falls below the Hysteresis value. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4, 8, 16, 32, 64 or +128) to give the readings more range or accuracy. + +Voltage sensors (also known as IN sensors) report their values in millivolts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. + +Alarms are provided as output from "realtime status register". Following bits +are defined: + +==== ========== +bit alarm on +==== ========== +0 in0 +1 in1 +2 temp1 +3 temp2 +4 temp3 +5 fan1 +6 fan2 +7 fan3 +8 in2 +9 in3 +10 in4 +11 in5 +12 in6 +13 VID change +14 chassis +15 fan7 +16 tart1 +17 tart2 +18 tart3 +19 in7 +20 in8 +21 fan4 +22 fan5 +23 fan6 +==== ========== + +Tart will be asserted while target temperature cannot be achieved after 3 minutes +of full speed rotation of corresponding fan. + +In addition to the alarms described above, there is a CHAS alarm on the chips +which triggers if your computer case is open (This one is latched, contrary +to realtime alarms). + +The chips only update values each 3 seconds; reading them more often will +do no harm, but will return 'old' values. + + +W83792D PROBLEMS +---------------- +Known problems: + - This driver is only for Winbond W83792D C version device, there + are also some motherboards with B version W83792D device. The + calculation method to in6-in7(measured value, limits) is a little + different between C and B version. C or B version can be identified + by CR[0x49h]. + - The function of vid and vrm has not been finished, because I'm NOT + very familiar with them. Adding support is welcome. + - The function of chassis open detection needs more tests. + - If you have ASUS server board and chip was not found: Then you will + need to upgrade to latest (or beta) BIOS. If it does not help please + contact us. + +Fan control +----------- + +Manual mode +----------- + +Works as expected. You just need to specify desired PWM/DC value (fan speed) +in appropriate pwm# file. + +Thermal cruise +-------------- + +In this mode, W83792D provides the Smart Fan system to automatically control +fan speed to keep the temperatures of CPU and the system within specific +range. At first a wanted temperature and interval must be set. This is done +via thermal_cruise# file. The tolerance# file serves to create T +- tolerance +interval. The fan speed will be lowered as long as the current temperature +remains below the thermal_cruise# +- tolerance# value. Once the temperature +exceeds the high limit (T+tolerance), the fan will be turned on with a +specific speed set by pwm# and automatically controlled its PWM duty cycle +with the temperature varying. Three conditions may occur: + +(1) If the temperature still exceeds the high limit, PWM duty +cycle will increase slowly. + +(2) If the temperature goes below the high limit, but still above the low +limit (T-tolerance), the fan speed will be fixed at the current speed because +the temperature is in the target range. + +(3) If the temperature goes below the low limit, PWM duty cycle will decrease +slowly to 0 or a preset stop value until the temperature exceeds the low +limit. (The preset stop value handling is not yet implemented in driver) + +Smart Fan II +------------ + +W83792D also provides a special mode for fan. Four temperature points are +available. When related temperature sensors detects the temperature in preset +temperature region (sf2_point@_fan# +- tolerance#) it will cause fans to run +on programmed value from sf2_level@_fan#. You need to set four temperatures +for each fan. + + +/sys files +---------- + +pwm[1-7] + - this file stores PWM duty cycle or DC value (fan speed) in range: + + 0 (stop) to 255 (full) +pwm[1-3]_enable + - this file controls mode of fan/temperature control: + + * 0 Disabled + * 1 Manual mode + * 2 Smart Fan II + * 3 Thermal Cruise +pwm[1-7]_mode + - Select PWM or DC mode + + * 0 DC + * 1 PWM +thermal_cruise[1-3] + - Selects the desired temperature for cruise (degC) +tolerance[1-3] + - Value in degrees of Celsius (degC) for +- T +sf2_point[1-4]_fan[1-3] + - four temperature points for each fan for Smart Fan II +sf2_level[1-3]_fan[1-3] + - three PWM/DC levels for each fan for Smart Fan II diff --git a/Documentation/hwmon/w83793.rst b/Documentation/hwmon/w83793.rst new file mode 100644 index 0000000000..83bb40c486 --- /dev/null +++ b/Documentation/hwmon/w83793.rst @@ -0,0 +1,113 @@ +Kernel driver w83793 +==================== + +Supported chips: + + * Winbond W83793G/W83793R + + Prefix: 'w83793' + + Addresses scanned: I2C 0x2c - 0x2f + + Datasheet: Still not published + +Authors: + - Yuan Mu (Winbond Electronics) + - Rudolf Marek <r.marek@assembler.cz> + + +Module parameters +----------------- + +* reset int + (default 0) + + This parameter is not recommended, it will lose motherboard specific + settings. Use 'reset=1' to reset the chip when loading this module. + +* force_subclients=bus,caddr,saddr1,saddr2 + This is used to force the i2c addresses for subclients of + a certain chip. Typical usage is `force_subclients=0,0x2f,0x4a,0x4b` + to force the subclients of chip 0x2f on bus 0 to i2c addresses + 0x4a and 0x4b. + + +Description +----------- + +This driver implements support for Winbond W83793G/W83793R chips. + +* Exported features + This driver exports 10 voltage sensors, up to 12 fan tachometer inputs, + 6 remote temperatures, up to 8 sets of PWM fan controls, SmartFan + (automatic fan speed control) on all temperature/PWM combinations, 2 + sets of 6-pin CPU VID input. + +* Sensor resolutions + If your motherboard maker used the reference design, the resolution of + voltage0-2 is 2mV, resolution of voltage3/4/5 is 16mV, 8mV for voltage6, + 24mV for voltage7/8. Temp1-4 have a 0.25 degree Celsius resolution, + temp5-6 have a 1 degree Celsiis resolution. + +* Temperature sensor types + Temp1-4 have 2 possible types. It can be read from (and written to) + temp[1-4]_type. + + - If the value is 3, it starts monitoring using a remote termal diode + (default). + - If the value is 6, it starts monitoring using the temperature sensor + in Intel CPU and get result by PECI. + + Temp5-6 can be connected to external thermistors (value of + temp[5-6]_type is 4). + +* Alarm mechanism + For voltage sensors, an alarm triggers if the measured value is below + the low voltage limit or over the high voltage limit. + For temperature sensors, an alarm triggers if the measured value goes + above the high temperature limit, and wears off only after the measured + value drops below the hysteresis value. + For fan sensors, an alarm triggers if the measured value is below the + low speed limit. + +* SmartFan/PWM control + If you want to set a pwm fan to manual mode, you just need to make sure it + is not controlled by any temp channel, for example, you want to set fan1 + to manual mode, you need to check the value of temp[1-6]_fan_map, make + sure bit 0 is cleared in the 6 values. And then set the pwm1 value to + control the fan. + + Each temperature channel can control all the 8 PWM outputs (by setting the + corresponding bit in tempX_fan_map), you can set the temperature channel + mode using temp[1-6]_pwm_enable, 2 is Thermal Cruise mode and 3 + is the SmartFanII mode. Temperature channels will try to speed up or + slow down all controlled fans, this means one fan can receive different + PWM value requests from different temperature channels, but the chip + will always pick the safest (max) PWM value for each fan. + + In Thermal Cruise mode, the chip attempts to keep the temperature at a + predefined value, within a tolerance margin. So if tempX_input > + thermal_cruiseX + toleranceX, the chip will increase the PWM value, + if tempX_input < thermal_cruiseX - toleranceX, the chip will decrease + the PWM value. If the temperature is within the tolerance range, the PWM + value is left unchanged. + + SmartFanII works differently, you have to define up to 7 PWM, temperature + trip points, defining a PWM/temperature curve which the chip will follow. + While not fundamentally different from the Thermal Cruise mode, the + implementation is quite different, giving you a finer-grained control. + +* Chassis + If the case open alarm triggers, it will stay in this state unless cleared + by writing 0 to the sysfs file "intrusion0_alarm". + +* VID and VRM + The VRM version is detected automatically, don't modify the it unless you + *do* know the cpu VRM version and it's not properly detected. + + +Notes +----- + + Only Fan1-5 and PWM1-3 are guaranteed to always exist, other fan inputs and + PWM outputs may or may not exist depending on the chip pin configuration. diff --git a/Documentation/hwmon/w83795.rst b/Documentation/hwmon/w83795.rst new file mode 100644 index 0000000000..d0615e2fab --- /dev/null +++ b/Documentation/hwmon/w83795.rst @@ -0,0 +1,142 @@ +Kernel driver w83795 +==================== + +Supported chips: + + * Winbond/Nuvoton W83795G + + Prefix: 'w83795g' + + Addresses scanned: I2C 0x2c - 0x2f + + Datasheet: Available for download on nuvoton.com + + * Winbond/Nuvoton W83795ADG + + Prefix: 'w83795adg' + + Addresses scanned: I2C 0x2c - 0x2f + + Datasheet: Available for download on nuvoton.com + +Authors: + - Wei Song (Nuvoton) + - Jean Delvare <jdelvare@suse.de> + + +Pin mapping +----------- + +Here is a summary of the pin mapping for the W83795G and W83795ADG. +This can be useful to convert data provided by board manufacturers +into working libsensors configuration statements. + + +- W83795G + +========= ======================= =============== ================ +Pin Name Register Sysfs attribute +========= ======================= =============== ================ + 13 VSEN1 (VCORE1) 10h in0 + 14 VSEN2 (VCORE2) 11h in1 + 15 VSEN3 (VCORE3) 12h in2 + 16 VSEN4 13h in3 + 17 VSEN5 14h in4 + 18 VSEN6 15h in5 + 19 VSEN7 16h in6 + 20 VSEN8 17h in7 + 21 VSEN9 18h in8 + 22 VSEN10 19h in9 + 23 VSEN11 1Ah in10 + 28 VTT 1Bh in11 + 24 3VDD 1Ch in12 + 25 3VSB 1Dh in13 + 26 VBAT 1Eh in14 + 3 VSEN12/TR5 1Fh in15/temp5 + 4 VSEN13/TR5 20h in16/temp6 + 5/ 6 VDSEN14/TR1/TD1 21h in17/temp1 + 7/ 8 VDSEN15/TR2/TD2 22h in18/temp2 + 9/ 10 VDSEN16/TR3/TD3 23h in19/temp3 + 11/ 12 VDSEN17/TR4/TD4 24h in20/temp4 + 40 FANIN1 2Eh fan1 + 42 FANIN2 2Fh fan2 + 44 FANIN3 30h fan3 + 46 FANIN4 31h fan4 + 48 FANIN5 32h fan5 + 50 FANIN6 33h fan6 + 52 FANIN7 34h fan7 + 54 FANIN8 35h fan8 + 57 FANIN9 36h fan9 + 58 FANIN10 37h fan10 + 59 FANIN11 38h fan11 + 60 FANIN12 39h fan12 + 31 FANIN13 3Ah fan13 + 35 FANIN14 3Bh fan14 + 41 FANCTL1 10h (bank 2) pwm1 + 43 FANCTL2 11h (bank 2) pwm2 + 45 FANCTL3 12h (bank 2) pwm3 + 47 FANCTL4 13h (bank 2) pwm4 + 49 FANCTL5 14h (bank 2) pwm5 + 51 FANCTL6 15h (bank 2) pwm6 + 53 FANCTL7 16h (bank 2) pwm7 + 55 FANCTL8 17h (bank 2) pwm8 + 29/ 30 PECI/TSI (DTS1) 26h temp7 + 29/ 30 PECI/TSI (DTS2) 27h temp8 + 29/ 30 PECI/TSI (DTS3) 28h temp9 + 29/ 30 PECI/TSI (DTS4) 29h temp10 + 29/ 30 PECI/TSI (DTS5) 2Ah temp11 + 29/ 30 PECI/TSI (DTS6) 2Bh temp12 + 29/ 30 PECI/TSI (DTS7) 2Ch temp13 + 29/ 30 PECI/TSI (DTS8) 2Dh temp14 + 27 CASEOPEN# 46h intrusion0 +========= ======================= =============== ================ + +- W83795ADG + +========= ======================= =============== ================ +Pin Name Register Sysfs attribute +========= ======================= =============== ================ + 10 VSEN1 (VCORE1) 10h in0 + 11 VSEN2 (VCORE2) 11h in1 + 12 VSEN3 (VCORE3) 12h in2 + 13 VSEN4 13h in3 + 14 VSEN5 14h in4 + 15 VSEN6 15h in5 + 16 VSEN7 16h in6 + 17 VSEN8 17h in7 + 22 VTT 1Bh in11 + 18 3VDD 1Ch in12 + 19 3VSB 1Dh in13 + 20 VBAT 1Eh in14 + 48 VSEN12/TR5 1Fh in15/temp5 + 1 VSEN13/TR5 20h in16/temp6 + 2/ 3 VDSEN14/TR1/TD1 21h in17/temp1 + 4/ 5 VDSEN15/TR2/TD2 22h in18/temp2 + 6/ 7 VDSEN16/TR3/TD3 23h in19/temp3 + 8/ 9 VDSEN17/TR4/TD4 24h in20/temp4 + 32 FANIN1 2Eh fan1 + 34 FANIN2 2Fh fan2 + 36 FANIN3 30h fan3 + 37 FANIN4 31h fan4 + 38 FANIN5 32h fan5 + 39 FANIN6 33h fan6 + 40 FANIN7 34h fan7 + 41 FANIN8 35h fan8 + 43 FANIN9 36h fan9 + 44 FANIN10 37h fan10 + 45 FANIN11 38h fan11 + 46 FANIN12 39h fan12 + 24 FANIN13 3Ah fan13 + 28 FANIN14 3Bh fan14 + 33 FANCTL1 10h (bank 2) pwm1 + 35 FANCTL2 11h (bank 2) pwm2 + 23 PECI (DTS1) 26h temp7 + 23 PECI (DTS2) 27h temp8 + 23 PECI (DTS3) 28h temp9 + 23 PECI (DTS4) 29h temp10 + 23 PECI (DTS5) 2Ah temp11 + 23 PECI (DTS6) 2Bh temp12 + 23 PECI (DTS7) 2Ch temp13 + 23 PECI (DTS8) 2Dh temp14 + 21 CASEOPEN# 46h intrusion0 +========= ======================= =============== ================ diff --git a/Documentation/hwmon/w83l785ts.rst b/Documentation/hwmon/w83l785ts.rst new file mode 100644 index 0000000000..7fa5418fed --- /dev/null +++ b/Documentation/hwmon/w83l785ts.rst @@ -0,0 +1,45 @@ +Kernel driver w83l785ts +======================= + +Supported chips: + + * Winbond W83L785TS-S + + Prefix: 'w83l785ts' + + Addresses scanned: I2C 0x2e + + Datasheet: Publicly available at the Winbond USA website + + http://www.winbond-usa.com/products/winbond_products/pdfs/PCIC/W83L785TS-S.pdf + +Authors: + Jean Delvare <jdelvare@suse.de> + +Description +----------- + +The W83L785TS-S is a digital temperature sensor. It senses the +temperature of a single external diode. The high limit is +theoretically defined as 85 or 100 degrees C through a combination +of external resistors, so the user cannot change it. Values seen so +far suggest that the two possible limits are actually 95 and 110 +degrees C. The datasheet is rather poor and obviously inaccurate +on several points including this one. + +All temperature values are given in degrees Celsius. Resolution +is 1.0 degree. See the datasheet for details. + +The w83l785ts driver will not update its values more frequently than +every other second; reading them more often will do no harm, but will +return 'old' values. + +Known Issues +------------ + +On some systems (Asus), the BIOS is known to interfere with the driver +and cause read errors. Or maybe the W83L785TS-S chip is simply unreliable, +we don't really know. The driver will retry a given number of times +(5 by default) and then give up, returning the old value (or 0 if +there is no old value). It seems to work well enough so that you should +not notice anything. Thanks to James Bolt for helping test this feature. diff --git a/Documentation/hwmon/w83l786ng.rst b/Documentation/hwmon/w83l786ng.rst new file mode 100644 index 0000000000..06234dea42 --- /dev/null +++ b/Documentation/hwmon/w83l786ng.rst @@ -0,0 +1,66 @@ +Kernel driver w83l786ng +======================= + +Supported chips: + + * Winbond W83L786NG/W83L786NR + + Prefix: 'w83l786ng' + + Addresses scanned: I2C 0x2e - 0x2f + + Datasheet: http://www.winbond-usa.com/products/winbond_products/pdfs/PCIC/W83L786NRNG09.pdf + +Author: Kevin Lo <kevlo@kevlo.org> + + +Module Parameters +----------------- + +* reset boolean + (default 0) + + Use 'reset=1' to reset the chip (via index 0x40, bit 7). The default + behavior is no chip reset to preserve BIOS settings + + +Description +----------- + +This driver implements support for Winbond W83L786NG/W83L786NR chips. + +The driver implements two temperature sensors, two fan rotation speed +sensors, and three voltage sensors. + +Temperatures are measured in degrees Celsius and measurement resolution is 1 +degC for temp1 and temp2. + +Fan rotation speeds are reported in RPM (rotations per minute). Fan readings +can be divided by a programmable divider (1, 2, 4, 8, 16, 32, 64 +or 128 for fan 1/2) to give the readings more range or accuracy. + +Voltage sensors (also known as IN sensors) report their values in millivolts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. + +/sys files +---------- + +pwm[1-2] + - this file stores PWM duty cycle or DC value (fan speed) in range: + + 0 (stop) to 255 (full) +pwm[1-2]_enable + - this file controls mode of fan/temperature control: + + * 0 Manual Mode + * 1 Thermal Cruise + * 2 Smart Fan II + * 4 FAN_SET +pwm[1-2]_mode + - Select PWM of DC mode + + * 0 DC + * 1 PWM +tolerance[1-2] + - Value in degrees of Celsius (degC) for +- T diff --git a/Documentation/hwmon/wm831x.rst b/Documentation/hwmon/wm831x.rst new file mode 100644 index 0000000000..c56fb35a2f --- /dev/null +++ b/Documentation/hwmon/wm831x.rst @@ -0,0 +1,40 @@ +Kernel driver wm831x-hwmon +========================== + +Supported chips: + * Wolfson Microelectronics WM831x PMICs + + Prefix: 'wm831x' + + Datasheet: + + - http://www.wolfsonmicro.com/products/WM8310 + - http://www.wolfsonmicro.com/products/WM8311 + - http://www.wolfsonmicro.com/products/WM8312 + +Authors: Mark Brown <broonie@opensource.wolfsonmicro.com> + +Description +----------- + +The WM831x series of PMICs include an AUXADC which can be used to +monitor a range of system operating parameters, including the voltages +of the major supplies within the system. Currently the driver provides +reporting of all the input values but does not provide any alarms. + +Voltage Monitoring +------------------ + +Voltages are sampled by a 12 bit ADC. Voltages in millivolts are 1.465 +times the ADC value. + +Temperature Monitoring +---------------------- + +Temperatures are sampled by a 12 bit ADC. Chip and battery temperatures +are available. The chip temperature is calculated as: + + Degrees celsius = (512.18 - data) / 1.0983 + +while the battery temperature calculation will depend on the NTC +thermistor component. diff --git a/Documentation/hwmon/wm8350.rst b/Documentation/hwmon/wm8350.rst new file mode 100644 index 0000000000..cec044ca59 --- /dev/null +++ b/Documentation/hwmon/wm8350.rst @@ -0,0 +1,30 @@ +Kernel driver wm8350-hwmon +========================== + +Supported chips: + + * Wolfson Microelectronics WM835x PMICs + + Prefix: 'wm8350' + + Datasheet: + + - http://www.wolfsonmicro.com/products/WM8350 + - http://www.wolfsonmicro.com/products/WM8351 + - http://www.wolfsonmicro.com/products/WM8352 + +Authors: Mark Brown <broonie@opensource.wolfsonmicro.com> + +Description +----------- + +The WM835x series of PMICs include an AUXADC which can be used to +monitor a range of system operating parameters, including the voltages +of the major supplies within the system. Currently the driver provides +simple access to these major supplies. + +Voltage Monitoring +------------------ + +Voltages are sampled by a 12 bit ADC. For the internal supplies the ADC +is referenced to the system VRTC. diff --git a/Documentation/hwmon/xdpe12284.rst b/Documentation/hwmon/xdpe12284.rst new file mode 100644 index 0000000000..a224dc74ad --- /dev/null +++ b/Documentation/hwmon/xdpe12284.rst @@ -0,0 +1,106 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver xdpe122 +===================== + +Supported chips: + + * Infineon XDPE11280 + + Prefix: 'xdpe11280' + + * Infineon XDPE12254 + + Prefix: 'xdpe12254' + + * Infineon XDPE12284 + + Prefix: 'xdpe12284' + +Authors: + + Vadim Pasternak <vadimp@mellanox.com> + +Description +----------- + +This driver implements support for Infineon Multi-phase XDPE112 and XDPE122 +family dual loop voltage regulators. +These families include XDPE11280, XDPE12284 and XDPE12254 devices. +The devices from this family compliant with: + +- Intel VR13 and VR13HC rev 1.3, IMVP8 rev 1.2 and IMPVP9 rev 1.3 DC-DC + converter specification. +- Intel SVID rev 1.9. protocol. +- PMBus rev 1.3 interface. + +Devices support linear format for reading input voltage, input and output current, +input and output power and temperature. +Device supports VID format for reading output voltage. The below modes are +supported: +- VR12.0 mode, 5-mV DAC - 0x01. +- VR12.5 mode, 10-mV DAC - 0x02. +- IMVP9 mode, 5-mV DAC - 0x03. +- AMD mode 6.25mV - 0x10. + +Devices support two pages for telemetry. + +The driver provides for current: input, maximum and critical thresholds +and maximum and critical alarms. Critical thresholds and critical alarm are +supported only for current output. +The driver exports the following attributes for via the sysfs files, where +indexes 1, 2 are for "iin" and 3, 4 for "iout": + +**curr[3-4]_crit** + +**curr[3-4]_crit_alarm** + +**curr[1-4]_input** + +**curr[1-4]_label** + +**curr[1-4]_max** + +**curr[1-4]_max_alarm** + +The driver provides for voltage: input, critical and low critical thresholds +and critical and low critical alarms. +The driver exports the following attributes for via the sysfs files, where +indexes 1, 2 are for "vin" and 3, 4 for "vout": + +**in[1-4]_crit** + +**in[1-4_crit_alarm** + +**in[1-4]_input** + +**in[1-4_label** + +**in[1-4]_lcrit** + +**in[1-41_lcrit_alarm** + +The driver provides for power: input and alarms. Power alarm is supported only +for power input. +The driver exports the following attributes for via the sysfs files, where +indexes 1, 2 are for "pin" and 3, 4 for "pout": + +**power[1-2]_alarm** + +**power[1-4]_input** + +**power[1-4]_label** + +The driver provides for temperature: input, maximum and critical thresholds +and maximum and critical alarms. +The driver exports the following attributes for via the sysfs files: + +**temp[1-2]_crit** + +**temp[1-2]_crit_alarm** + +**temp[1-2]_input** + +**temp[1-2]_max** + +**temp[1-2]_max_alarm** diff --git a/Documentation/hwmon/xdpe152c4.rst b/Documentation/hwmon/xdpe152c4.rst new file mode 100644 index 0000000000..ab92c32d4d --- /dev/null +++ b/Documentation/hwmon/xdpe152c4.rst @@ -0,0 +1,118 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Kernel driver xdpe152 +===================== + +Supported chips: + + * Infineon XDPE152C4 + + Prefix: 'xdpe152c4' + + * Infineon XDPE15284 + + Prefix: 'xdpe15284' + +Authors: + + Greg Schwendimann <greg.schwendimann@infineon.com> + +Description +----------- + +This driver implements support for Infineon Digital Multi-phase Controller +XDPE152C4 and XDPE15284 dual loop voltage regulators. +The devices are compliant with: + +- Intel VR13, VR13HC and VR14 rev 1.86 + converter specification. +- Intel SVID rev 1.93. protocol. +- PMBus rev 1.3.1 interface. + +Devices support linear format for reading input and output voltage, input +and output current, input and output power and temperature. + +Devices support two pages for telemetry. + +The driver provides for current: input, maximum and critical thresholds +and maximum and critical alarms. Low Critical thresholds and Low critical alarm are +supported only for current output. +The driver exports the following attributes for via the sysfs files, where +indexes 1, 2 are for "iin" and 3, 4 for "iout": + +**curr[1-4]_crit** + +**curr[1-4]_crit_alarm** + +**curr[1-4]_input** + +**curr[1-4]_label** + +**curr[1-4]_max** + +**curr[1-4]_max_alarm** + +**curr[3-4]_lcrit** + +**curr[3-4]_lcrit_alarm** + +**curr[3-4]_rated_max** + +The driver provides for voltage: input, critical and low critical thresholds +and critical and low critical alarms. +The driver exports the following attributes for via the sysfs files, where +indexes 1, 2 are for "vin" and 3, 4 for "vout": + +**in[1-4]_min** + +**in[1-4]_crit** + +**in[1-4_crit_alarm** + +**in[1-4]_input** + +**in[1-4]_label** + +**in[1-4]_max** + +**in[1-4]_max_alarm** + +**in[1-4]_min** + +**in[1-4]_min_alarm** + +**in[3-4]_lcrit** + +**in[3-4]_lcrit_alarm** + +**in[3-4]_rated_max** + +**in[3-4]_rated_min** + +The driver provides for power: input and alarms. +The driver exports the following attributes for via the sysfs files, where +indexes 1, 2 are for "pin" and 3, 4 for "pout": + +**power[1-2]_alarm** + +**power[1-4]_input** + +**power[1-4]_label** + +**power[1-4]_max** + +**power[1-4]_rated_max** + +The driver provides for temperature: input, maximum and critical thresholds +and maximum and critical alarms. +The driver exports the following attributes for via the sysfs files: + +**temp[1-2]_crit** + +**temp[1-2]_crit_alarm** + +**temp[1-2]_input** + +**temp[1-2]_max** + +**temp[1-2]_max_alarm** diff --git a/Documentation/hwmon/xgene-hwmon.rst b/Documentation/hwmon/xgene-hwmon.rst new file mode 100644 index 0000000000..439b30b881 --- /dev/null +++ b/Documentation/hwmon/xgene-hwmon.rst @@ -0,0 +1,36 @@ +Kernel driver xgene-hwmon +========================= + +Supported chips: + + * APM X-Gene SoC + +Description +----------- + +This driver adds hardware temperature and power reading support for +APM X-Gene SoC using the mailbox communication interface. +For device tree, it is the standard DT mailbox. +For ACPI, it is the PCC mailbox. + +The following sensors are supported + + * Temperature + - SoC on-die temperature in milli-degree C + - Alarm when high/over temperature occurs + + * Power + - CPU power in uW + - IO power in uW + +sysfs-Interface +--------------- + +temp0_input + - SoC on-die temperature (milli-degree C) +temp0_critical_alarm + - An 1 would indicates on-die temperature exceeded threshold +power0_input + - CPU power in (uW) +power1_input + - IO power in (uW) diff --git a/Documentation/hwmon/zl6100.rst b/Documentation/hwmon/zl6100.rst new file mode 100644 index 0000000000..d42ed9d3ac --- /dev/null +++ b/Documentation/hwmon/zl6100.rst @@ -0,0 +1,259 @@ +Kernel driver zl6100 +==================== + +Supported chips: + + * Renesas / Intersil / Zilker Labs ZL2004 + + Prefix: 'zl2004' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl2004-datasheet.pdf + + * Renesas / Intersil / Zilker Labs ZL2005 + + Prefix: 'zl2005' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl2005-datasheet.pdf + + * Renesas / Intersil / Zilker Labs ZL2006 + + Prefix: 'zl2006' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl2006-datasheet.pdf + + * Renesas / Intersil / Zilker Labs ZL2008 + + Prefix: 'zl2008' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl2008-datasheet.pdf + + * Renesas / Intersil / Zilker Labs ZL2105 + + Prefix: 'zl2105' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl2105-datasheet.pdf + + * Renesas / Intersil / Zilker Labs ZL2106 + + Prefix: 'zl2106' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl2106-datasheet.pdf + + * Renesas / Intersil / Zilker Labs ZL6100 + + Prefix: 'zl6100' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl6100-datasheet.pdf + + * Renesas / Intersil / Zilker Labs ZL6105 + + Prefix: 'zl6105' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl6105-datasheet.pdf + + * Renesas / Intersil / Zilker Labs ZL8802 + + Prefix: 'zl8802' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl8802-datasheet + + * Renesas / Intersil / Zilker Labs ZL9101M + + Prefix: 'zl9101' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl9101m-datasheet + + * Renesas / Intersil / Zilker Labs ZL9117M + + Prefix: 'zl9117' + + Addresses scanned: - + + Datasheet: https://www.renesas.com/us/en/document/dst/zl9117m-datasheet + + * Renesas / Intersil / Zilker Labs ZLS1003, ZLS4009 + + Prefix: 'zls1003', zls4009 + + Addresses scanned: - + + Datasheet: Not published + + * Flex BMR450, BMR451 + + Prefix: 'bmr450', 'bmr451' + + Addresses scanned: - + + Datasheet: + +https://flexpowermodules.com/resources/fpm-techspec-bmr450-digital-pol-regulators-20a + + * Flex BMR462, BMR463, BMR464 + + Prefixes: 'bmr462', 'bmr463', 'bmr464' + + Addresses scanned: - + + Datasheet: https://flexpowermodules.com/resources/fpm-techspec-bmr462 + + * Flex BMR465, BMR467 + + Prefixes: 'bmr465', 'bmr467' + + Addresses scanned: - + + Datasheet: https://flexpowermodules.com/resources/fpm-techspec-bmr465-digital-pol + + * Flex BMR466 + + Prefixes: 'bmr466' + + Addresses scanned: - + + Datasheet: https://flexpowermodules.com/resources/fpm-techspec-bmr466-8x12 + + * Flex BMR469 + + Prefixes: 'bmr469' + + Addresses scanned: - + + Datasheet: https://flexpowermodules.com/resources/fpm-techspec-bmr4696001 + +Author: Guenter Roeck <linux@roeck-us.net> + + +Description +----------- + +This driver supports hardware monitoring for Renesas / Intersil / Zilker Labs +ZL6100 and compatible digital DC-DC controllers. + +The driver is a client driver to the core PMBus driver. Please see +Documentation/hwmon/pmbus.rst and Documentation.hwmon/pmbus-core for details +on PMBus client drivers. + + +Usage Notes +----------- + +This driver does not auto-detect devices. You will have to instantiate the +devices explicitly. Please see Documentation/i2c/instantiating-devices.rst for +details. + +.. warning:: + + Do not access chip registers using the i2cdump command, and do not use + any of the i2ctools commands on a command register used to save and restore + configuration data (0x11, 0x12, 0x15, 0x16, and 0xf4). The chips supported by + this driver interpret any access to those command registers (including read + commands) as request to execute the command in question. Unless write accesses + to those registers are protected, this may result in power loss, board resets, + and/or Flash corruption. Worst case, your board may turn into a brick. + + +Platform data support +--------------------- + +The driver supports standard PMBus driver platform data. + + +Module parameters +----------------- + +delay +----- + +Renesas/Intersil/Zilker Labs DC-DC controllers require a minimum interval +between I2C bus accesses. According to Intersil, the minimum interval is 2 ms, +though 1 ms appears to be sufficient and has not caused any problems in testing. +The problem is known to affect all currently supported chips. For manual override, +the driver provides a writeable module parameter, 'delay', which can be used +to set the interval to a value between 0 and 65,535 microseconds. + + +Sysfs entries +------------- + +The following attributes are supported. Limits are read-write; all other +attributes are read-only. + +======================= ======================================================== +in1_label "vin" +in1_input Measured input voltage. +in1_min Minimum input voltage. +in1_max Maximum input voltage. +in1_lcrit Critical minimum input voltage. +in1_crit Critical maximum input voltage. +in1_min_alarm Input voltage low alarm. +in1_max_alarm Input voltage high alarm. +in1_lcrit_alarm Input voltage critical low alarm. +in1_crit_alarm Input voltage critical high alarm. + +in2_label "vmon" +in2_input Measured voltage on VMON (ZL2004) or VDRV (ZL9101M, + ZL9117M) pin. Reported voltage is 16x the voltage on the + pin (adjusted internally by the chip). +in2_lcrit Critical minimum VMON/VDRV Voltage. +in2_crit Critical maximum VMON/VDRV voltage. +in2_lcrit_alarm VMON/VDRV voltage critical low alarm. +in2_crit_alarm VMON/VDRV voltage critical high alarm. + + vmon attributes are supported on ZL2004, ZL8802, + ZL9101M, ZL9117M and ZLS4009 only. + +inX_label "vout[12]" +inX_input Measured output voltage. +inX_lcrit Critical minimum output Voltage. +inX_crit Critical maximum output voltage. +inX_lcrit_alarm Critical output voltage critical low alarm. +inX_crit_alarm Critical output voltage critical high alarm. + + X is 3 for ZL2004, ZL9101M, and ZL9117M, + 3, 4 for ZL8802 and 2 otherwise. + +curr1_label "iin" +curr1_input Measured input current. + + iin attributes are supported on ZL8802 only + +currY_label "iout[12]" +currY_input Measured output current. +currY_lcrit Critical minimum output current. +currY_crit Critical maximum output current. +currY_lcrit_alarm Output current critical low alarm. +currY_crit_alarm Output current critical high alarm. + + Y is 2, 3 for ZL8802, 1 otherwise + +temp[12]_input Measured temperature. +temp[12]_min Minimum temperature. +temp[12]_max Maximum temperature. +temp[12]_lcrit Critical low temperature. +temp[12]_crit Critical high temperature. +temp[12]_min_alarm Chip temperature low alarm. +temp[12]_max_alarm Chip temperature high alarm. +temp[12]_lcrit_alarm Chip temperature critical low alarm. +temp[12]_crit_alarm Chip temperature critical high alarm. +======================= ======================================================== |