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Linux/Documentation/hwmon/da9052.rst

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Diff markup

Differences between /Documentation/hwmon/da9052.rst (Architecture m68k) and /Documentation/hwmon/da9052.rst (Architecture sparc)


  1 Kernel driver da9052                                1 Kernel driver da9052
  2 ====================                                2 ====================
  3                                                     3 
  4 Supported chips:                                    4 Supported chips:
  5                                                     5 
  6   * Dialog Semiconductors DA9052-BC and DA9053      6   * Dialog Semiconductors DA9052-BC and DA9053-AA/Bx PMICs
  7                                                     7 
  8     Prefix: 'da9052'                                8     Prefix: 'da9052'
  9                                                     9 
 10     Datasheet: Datasheet is not publicly avail     10     Datasheet: Datasheet is not publicly available.
 11                                                    11 
 12 Authors: David Dajun Chen <dchen@diasemi.com>       12 Authors: David Dajun Chen <dchen@diasemi.com>
 13                                                    13 
 14 Description                                        14 Description
 15 -----------                                        15 -----------
 16                                                    16 
 17 The DA9052/53 provides an Analogue to Digital      17 The DA9052/53 provides an Analogue to Digital Converter (ADC) with 10 bits
 18 resolution and track and hold circuitry combin     18 resolution and track and hold circuitry combined with an analogue input
 19 multiplexer. The analogue input multiplexer wi     19 multiplexer. The analogue input multiplexer will allow conversion of up to 10
 20 different inputs. The track and hold circuit e     20 different inputs. The track and hold circuit ensures stable input voltages at
 21 the input of the ADC during the conversion.        21 the input of the ADC during the conversion.
 22                                                    22 
 23 The ADC is used to measure the following input     23 The ADC is used to measure the following inputs:
 24                                                    24 
 25 ========= ====================================     25 ========= ===================================================================
 26 Channel 0 VDDOUT - measurement of the system v     26 Channel 0 VDDOUT - measurement of the system voltage
 27 Channel 1 ICH - internal battery charger curre     27 Channel 1 ICH - internal battery charger current measurement
 28 Channel 2 TBAT - output from the battery NTC       28 Channel 2 TBAT - output from the battery NTC
 29 Channel 3 VBAT - measurement of the battery vo     29 Channel 3 VBAT - measurement of the battery voltage
 30 Channel 4 ADC_IN4 - high impedance input (0 -      30 Channel 4 ADC_IN4 - high impedance input (0 - 2.5V)
 31 Channel 5 ADC_IN5 - high impedance input (0 -      31 Channel 5 ADC_IN5 - high impedance input (0 - 2.5V)
 32 Channel 6 ADC_IN6 - high impedance input (0 -      32 Channel 6 ADC_IN6 - high impedance input (0 - 2.5V)
 33 Channel 7 XY - TSI interface to measure the X      33 Channel 7 XY - TSI interface to measure the X and Y voltage of the touch
 34           screen resistive potentiometers          34           screen resistive potentiometers
 35 Channel 8 Internal Tjunc. - sense (internal te     35 Channel 8 Internal Tjunc. - sense (internal temp. sensor)
 36 Channel 9 VBBAT - measurement of the backup ba     36 Channel 9 VBBAT - measurement of the backup battery voltage
 37 ========= ====================================     37 ========= ===================================================================
 38                                                    38 
 39 By using sysfs attributes we can measure the s     39 By using sysfs attributes we can measure the system voltage VDDOUT, the battery
 40 charging current ICH, battery temperature TBAT     40 charging current ICH, battery temperature TBAT, battery junction temperature
 41 TJUNC, battery voltage VBAT and the back up ba     41 TJUNC, battery voltage VBAT and the back up battery voltage VBBAT.
 42                                                    42 
 43 Voltage Monitoring                                 43 Voltage Monitoring
 44 ------------------                                 44 ------------------
 45                                                    45 
 46 Voltages are sampled by a 10 bit ADC.              46 Voltages are sampled by a 10 bit ADC.
 47                                                    47 
 48 The battery voltage is calculated as:              48 The battery voltage is calculated as:
 49                                                    49 
 50         Milli volt = ((ADC value * 1000) / 512     50         Milli volt = ((ADC value * 1000) / 512) + 2500
 51                                                    51 
 52 The backup battery voltage is calculated as:       52 The backup battery voltage is calculated as:
 53                                                    53 
 54         Milli volt = (ADC value * 2500) / 512;     54         Milli volt = (ADC value * 2500) / 512;
 55                                                    55 
 56 The voltages on ADC channels 4, 5 and 6 are ca     56 The voltages on ADC channels 4, 5 and 6 are calculated as:
 57                                                    57 
 58         Milli volt = (ADC value * 2500) / 1023     58         Milli volt = (ADC value * 2500) / 1023
 59                                                    59 
 60 Temperature Monitoring                             60 Temperature Monitoring
 61 ----------------------                             61 ----------------------
 62                                                    62 
 63 Temperatures are sampled by a 10 bit ADC.  Jun     63 Temperatures are sampled by a 10 bit ADC.  Junction and battery temperatures
 64 are monitored by the ADC channels.                 64 are monitored by the ADC channels.
 65                                                    65 
 66 The junction temperature is calculated:            66 The junction temperature is calculated:
 67                                                    67 
 68         Degrees celsius = 1.708 * (TJUNC_RES -     68         Degrees celsius = 1.708 * (TJUNC_RES - T_OFFSET) - 108.8
 69                                                    69 
 70 The junction temperature attribute is supporte     70 The junction temperature attribute is supported by the driver.
 71                                                    71 
 72 The battery temperature is calculated:             72 The battery temperature is calculated:
 73                                                    73 
 74         Degree Celsius = 1 / (t1 + 1/298) - 27     74         Degree Celsius = 1 / (t1 + 1/298) - 273
 75                                                    75 
 76 where t1 = (1/B)* ln(( ADCval * 2.5)/(R25*ITBA     76 where t1 = (1/B)* ln(( ADCval * 2.5)/(R25*ITBAT*255))
 77                                                    77 
 78 Default values of R25, B, ITBAT are 10e3, 3380     78 Default values of R25, B, ITBAT are 10e3, 3380 and 50e-6 respectively.
                                                      

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