forked from luck/tmp_suning_uos_patched
549edb8332
Add support for the SCH5027. The differences to the DME1737 are: - No support for programmable temp offsets - In auto mode, PWM outputs stay on min value if temp goes below low threshold and can't be programmed to fully turn off - Different voltage scaling - No VID input Signed-off-by: Juerg Haefliger <juergh@gmail.com> Signed-off-by: Jean Delvare <khali@linux-fr.org>
296 lines
12 KiB
Plaintext
296 lines
12 KiB
Plaintext
Kernel driver dme1737
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=====================
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Supported chips:
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* SMSC DME1737 and compatibles (like Asus A8000)
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Prefix: 'dme1737'
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Addresses scanned: I2C 0x2c, 0x2d, 0x2e
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Datasheet: Provided by SMSC upon request and under NDA
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* SMSC SCH3112, SCH3114, SCH3116
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Prefix: 'sch311x'
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Addresses scanned: none, address read from Super-I/O config space
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Datasheet: http://www.nuhorizons.com/FeaturedProducts/Volume1/SMSC/311x.pdf
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* SMSC SCH5027
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Prefix: 'sch5027'
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Addresses scanned: I2C 0x2c, 0x2d, 0x2e
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Datasheet: Provided by SMSC upon request and under NDA
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Authors:
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Juerg Haefliger <juergh@gmail.com>
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Module Parameters
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-----------------
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* force_start: bool Enables the monitoring of voltage, fan and temp inputs
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and PWM output control functions. Using this parameter
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shouldn't be required since the BIOS usually takes care
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of this.
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* probe_all_addr: bool Include non-standard LPC addresses 0x162e and 0x164e
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when probing for ISA devices. This is required for the
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following boards:
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- VIA EPIA SN18000
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Description
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-----------
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This driver implements support for the hardware monitoring capabilities of the
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SMSC DME1737 and Asus A8000 (which are the same), SMSC SCH5027, and SMSC
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SCH311x Super-I/O chips. These chips feature monitoring of 3 temp sensors
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temp[1-3] (2 remote diodes and 1 internal), 7 voltages in[0-6] (6 external and
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1 internal) and up to 6 fan speeds fan[1-6]. Additionally, the chips implement
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up to 5 PWM outputs pwm[1-3,5-6] for controlling fan speeds both manually and
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automatically.
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For the DME1737, A8000 and SCH5027, fan[1-2] and pwm[1-2] are always present.
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Fan[3-6] and pwm[3,5-6] are optional features and their availability depends on
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the configuration of the chip. The driver will detect which features are
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present during initialization and create the sysfs attributes accordingly.
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For the SCH311x, fan[1-3] and pwm[1-3] are always present and fan[4-6] and
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pwm[5-6] don't exist.
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The hardware monitoring features of the DME1737, A8000, and SCH5027 are only
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accessible via SMBus, while the SCH311x only provides access via the ISA bus.
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The driver will therefore register itself as an I2C client driver if it detects
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a DME1737, A8000, or SCH5027 and as a platform driver if it detects a SCH311x
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chip.
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Voltage Monitoring
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------------------
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The voltage inputs are sampled with 12-bit resolution and have internal
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scaling resistors. The values returned by the driver therefore reflect true
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millivolts and don't need scaling. The voltage inputs are mapped as follows
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(the last column indicates the input ranges):
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DME1737, A8000:
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in0: +5VTR (+5V standby) 0V - 6.64V
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in1: Vccp (processor core) 0V - 3V
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in2: VCC (internal +3.3V) 0V - 4.38V
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in3: +5V 0V - 6.64V
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in4: +12V 0V - 16V
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in5: VTR (+3.3V standby) 0V - 4.38V
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in6: Vbat (+3.0V) 0V - 4.38V
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SCH311x:
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in0: +2.5V 0V - 6.64V
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in1: Vccp (processor core) 0V - 2V
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in2: VCC (internal +3.3V) 0V - 4.38V
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in3: +5V 0V - 6.64V
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in4: +12V 0V - 16V
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in5: VTR (+3.3V standby) 0V - 4.38V
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in6: Vbat (+3.0V) 0V - 4.38V
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SCH5027:
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in0: +5VTR (+5V standby) 0V - 6.64V
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in1: Vccp (processor core) 0V - 3V
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in2: VCC (internal +3.3V) 0V - 4.38V
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in3: V2_IN 0V - 1.5V
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in4: V1_IN 0V - 1.5V
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in5: VTR (+3.3V standby) 0V - 4.38V
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in6: Vbat (+3.0V) 0V - 4.38V
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Each voltage input has associated min and max limits which trigger an alarm
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when crossed.
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Temperature Monitoring
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----------------------
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Temperatures are measured with 12-bit resolution and reported in millidegree
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Celsius. The chip also features offsets for all 3 temperature inputs which -
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when programmed - get added to the input readings. The chip does all the
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scaling by itself and the driver therefore reports true temperatures that don't
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need any user-space adjustments. The temperature inputs are mapped as follows
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(the last column indicates the input ranges):
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temp1: Remote diode 1 (3904 type) temperature -127C - +127C
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temp2: DME1737 internal temperature -127C - +127C
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temp3: Remote diode 2 (3904 type) temperature -127C - +127C
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Each temperature input has associated min and max limits which trigger an alarm
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when crossed. Additionally, each temperature input has a fault attribute that
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returns 1 when a faulty diode or an unconnected input is detected and 0
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otherwise.
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Fan Monitoring
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--------------
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Fan RPMs are measured with 16-bit resolution. The chip provides inputs for 6
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fan tachometers. All 6 inputs have an associated min limit which triggers an
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alarm when crossed. Fan inputs 1-4 provide type attributes that need to be set
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to the number of pulses per fan revolution that the connected tachometer
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generates. Supported values are 1, 2, and 4. Fan inputs 5-6 only support fans
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that generate 2 pulses per revolution. Fan inputs 5-6 also provide a max
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attribute that needs to be set to the maximum attainable RPM (fan at 100% duty-
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cycle) of the input. The chip adjusts the sampling rate based on this value.
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PWM Output Control
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------------------
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This chip features 5 PWM outputs. PWM outputs 1-3 are associated with fan
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inputs 1-3 and PWM outputs 5-6 are associated with fan inputs 5-6. PWM outputs
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1-3 can be configured to operate either in manual or automatic mode by setting
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the appropriate enable attribute accordingly. PWM outputs 5-6 can only operate
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in manual mode, their enable attributes are therefore read-only. When set to
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manual mode, the fan speed is set by writing the duty-cycle value to the
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appropriate PWM attribute. In automatic mode, the PWM attribute returns the
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current duty-cycle as set by the fan controller in the chip. All PWM outputs
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support the setting of the output frequency via the freq attribute.
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In automatic mode, the chip supports the setting of the PWM ramp rate which
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defines how fast the PWM output is adjusting to changes of the associated
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temperature input. Associating PWM outputs to temperature inputs is done via
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temperature zones. The chip features 3 zones whose assignments to temperature
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inputs is static and determined during initialization. These assignments can
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be retrieved via the zone[1-3]_auto_channels_temp attributes. Each PWM output
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is assigned to one (or hottest of multiple) temperature zone(s) through the
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pwm[1-3]_auto_channels_zone attributes. Each PWM output has 3 distinct output
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duty-cycles: full, low, and min. Full is internally hard-wired to 255 (100%)
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and low and min can be programmed via pwm[1-3]_auto_point1_pwm and
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pwm[1-3]_auto_pwm_min, respectively. The thermal thresholds of the zones are
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programmed via zone[1-3]_auto_point[1-3]_temp and
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zone[1-3]_auto_point1_temp_hyst:
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pwm[1-3]_auto_point2_pwm full-speed duty-cycle (255, i.e., 100%)
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pwm[1-3]_auto_point1_pwm low-speed duty-cycle
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pwm[1-3]_auto_pwm_min min-speed duty-cycle
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zone[1-3]_auto_point3_temp full-speed temp (all outputs)
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zone[1-3]_auto_point2_temp full-speed temp
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zone[1-3]_auto_point1_temp low-speed temp
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zone[1-3]_auto_point1_temp_hyst min-speed temp
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The chip adjusts the output duty-cycle linearly in the range of auto_point1_pwm
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to auto_point2_pwm if the temperature of the associated zone is between
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auto_point1_temp and auto_point2_temp. If the temperature drops below the
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auto_point1_temp_hyst value, the output duty-cycle is set to the auto_pwm_min
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value which only supports two values: 0 or auto_point1_pwm. That means that the
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fan either turns completely off or keeps spinning with the low-speed
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duty-cycle. If any of the temperatures rise above the auto_point3_temp value,
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all PWM outputs are set to 100% duty-cycle.
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Following is another representation of how the chip sets the output duty-cycle
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based on the temperature of the associated thermal zone:
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Duty-Cycle Duty-Cycle
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Temperature Rising Temp Falling Temp
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----------- ----------- ------------
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full-speed full-speed full-speed
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< linearly adjusted duty-cycle >
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low-speed low-speed low-speed
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min-speed low-speed
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min-speed min-speed min-speed
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min-speed min-speed
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Sysfs Attributes
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----------------
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Following is a list of all sysfs attributes that the driver provides, their
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permissions and a short description:
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Name Perm Description
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---- ---- -----------
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cpu0_vid RO CPU core reference voltage in
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millivolts.
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vrm RW Voltage regulator module version
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number.
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in[0-6]_input RO Measured voltage in millivolts.
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in[0-6]_min RW Low limit for voltage input.
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in[0-6]_max RW High limit for voltage input.
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in[0-6]_alarm RO Voltage input alarm. Returns 1 if
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voltage input is or went outside the
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associated min-max range, 0 otherwise.
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temp[1-3]_input RO Measured temperature in millidegree
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Celsius.
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temp[1-3]_min RW Low limit for temp input.
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temp[1-3]_max RW High limit for temp input.
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temp[1-3]_offset RW Offset for temp input. This value will
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be added by the chip to the measured
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temperature.
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temp[1-3]_alarm RO Alarm for temp input. Returns 1 if temp
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input is or went outside the associated
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min-max range, 0 otherwise.
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temp[1-3]_fault RO Temp input fault. Returns 1 if the chip
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detects a faulty thermal diode or an
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unconnected temp input, 0 otherwise.
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zone[1-3]_auto_channels_temp RO Temperature zone to temperature input
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mapping. This attribute is a bitfield
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and supports the following values:
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1: temp1
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2: temp2
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4: temp3
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zone[1-3]_auto_point1_temp_hyst RW Auto PWM temp point1 hysteresis. The
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output of the corresponding PWM is set
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to the pwm_auto_min value if the temp
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falls below the auto_point1_temp_hyst
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value.
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zone[1-3]_auto_point[1-3]_temp RW Auto PWM temp points. Auto_point1 is
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the low-speed temp, auto_point2 is the
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full-speed temp, and auto_point3 is the
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temp at which all PWM outputs are set
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to full-speed (100% duty-cycle).
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fan[1-6]_input RO Measured fan speed in RPM.
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fan[1-6]_min RW Low limit for fan input.
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fan[1-6]_alarm RO Alarm for fan input. Returns 1 if fan
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input is or went below the associated
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min value, 0 otherwise.
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fan[1-4]_type RW Type of attached fan. Expressed in
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number of pulses per revolution that
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the fan generates. Supported values are
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1, 2, and 4.
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fan[5-6]_max RW Max attainable RPM at 100% duty-cycle.
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Required for chip to adjust the
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sampling rate accordingly.
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pmw[1-3,5-6] RO/RW Duty-cycle of PWM output. Supported
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values are 0-255 (0%-100%). Only
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writeable if the associated PWM is in
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manual mode.
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pwm[1-3]_enable RW Enable of PWM outputs 1-3. Supported
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values are:
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0: turned off (output @ 100%)
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1: manual mode
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2: automatic mode
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pwm[5-6]_enable RO Enable of PWM outputs 5-6. Always
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returns 1 since these 2 outputs are
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hard-wired to manual mode.
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pmw[1-3,5-6]_freq RW Frequency of PWM output. Supported
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values are in the range 11Hz-30000Hz
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(default is 25000Hz).
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pmw[1-3]_ramp_rate RW Ramp rate of PWM output. Determines how
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fast the PWM duty-cycle will change
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when the PWM is in automatic mode.
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Expressed in ms per PWM step. Supported
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values are in the range 0ms-206ms
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(default is 0, which means the duty-
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cycle changes instantly).
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pwm[1-3]_auto_channels_zone RW PWM output to temperature zone mapping.
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This attribute is a bitfield and
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supports the following values:
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1: zone1
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2: zone2
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4: zone3
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6: highest of zone[2-3]
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7: highest of zone[1-3]
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pwm[1-3]_auto_pwm_min RW Auto PWM min pwm. Minimum PWM duty-
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cycle. Supported values are 0 or
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auto_point1_pwm.
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pwm[1-3]_auto_point1_pwm RW Auto PWM pwm point. Auto_point1 is the
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low-speed duty-cycle.
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pwm[1-3]_auto_point2_pwm RO Auto PWM pwm point. Auto_point2 is the
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full-speed duty-cycle which is hard-
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wired to 255 (100% duty-cycle).
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