Battery Profile Data Battery Data is a collection of battery profile data made available to the QPNP Charger and BMS drivers via device tree. qcom,battery-data node required properties: - qcom,rpull-up-kohm : The vadc pullup resistor's resistance value in kOhms. - qcom,vref-batt-therm-uv : The vadc voltage used to make readings. For Qualcomm VADCs this should be 1800000uV. qcom,battery-data node optional properties: - qcom,batt-id-range-pct : The area of variation between upper and lower bound for which a given battery ID resistance is valid. This value is expressed as a percentage of the specified kohm resistance provided by qcom,batt-id-kohm. qcom,battery-data can also include any number of children nodes. These children nodes will be treated as battery profile data nodes. Profile data node required properties: - qcom,fcc-mah : Full charge count of the battery in milliamp-hours - qcom,default-rbatt-mohm : The nominal battery resistance value - qcom,rbatt-capacitive-mohm : The capacitive resistance of the battery. - qcom,flat-ocv-threshold-uv : The threshold under which the battery can be considered to be in the flat portion of the discharge curve. - qcom,max-voltage-uv : The maximum rated voltage of the battery - qcom,v-cutoff-uv : The cutoff voltage of the battery at which the device should shutdown gracefully. - qcom,chg-term-ua : The termination charging current of the battery. - qcom,batt-id-kohm : The battery id resistance of the battery. It can be used as an array which could support multiple IDs for one battery module when the ID resistance of some battery modules goes across several ranges. - qcom,battery-type : A string indicating the type of battery. - qcom,fg-profile-data : An array of hexadecimal values used to configure more complex fuel gauge peripherals which have a large amount of coefficients used in hardware state machines and thus influencing the final output of the state of charge read by software. Profile data node optional properties: - qcom,chg-rslow-comp-c1 : A constant for rslow compensation in the fuel gauge. This will be provided by the profiling tool for additional fuel gauge accuracy during charging. - qcom,chg-rslow-comp-c2 : A constant for rslow compensation in the fuel gauge. This will be provided by the profiling tool for additional fuel gauge accuracy during charging. - qcom,chg-rslow-comp-thr : A constant for rslow compensation in the fuel gauge. This will be provided by the profiling tool for additional fuel gauge accuracy during charging. - qcom,chg-rs-to-rslow: A constant for rslow compensation in the fuel gauge. This will be provided by the profiling tool for additional fuel gauge accuracy during charging. - qcom,fastchg-current-ma: Specifies the maximum fastcharge current. - qcom,fg-cc-cv-threshold-mv: Voltage threshold in mV for transition from constant charge (CC) to constant voltage (CV). This value should be 10 mV less than the float voltage. This property should only be specified if "qcom,autoadjust-vfloat" property is specified in the charger driver to ensure a proper operation. - qcom,thermal-coefficients: Byte array of thermal coefficients for reading battery thermistor. This should be exactly 6 bytes in length. Example: [01 02 03 04 05 06] Profile data node required subnodes: - qcom,fcc-temp-lut : An 1-dimensional lookup table node that encodes temperature to fcc lookup. The units for this lookup table should be degrees celsius to milliamp-hours. - qcom,pc-temp-ocv-lut : A 2-dimensional lookup table node that encodes temperature and percent charge to open circuit voltage lookup. The units for this lookup table should be degrees celsius and percent to millivolts. - qcom,rbatt-sf-lut : A 2-dimentional lookup table node that encodes temperature and percent charge to battery internal resistance lookup. The units for this lookup table should be degrees celsius and percent to milliohms. Profile data node optional subnodes: - qcom,ibat-acc-luit: A 2-dimentional lookup table that encodes temperature and battery current to battery ACC (apparent charge capacity). The units for this lookup table should be temperature in degrees celsius, ibat in milli-amps and ACC in milli-ampere-hour. Lookup table required properties: - qcom,lut-col-legend : An array that encodes the legend of the lookup table's columns. The length of this array will determine the lookup table's width. - qcom,lut-data : An array that encodes the lookup table's data. The size of this array should be equal to the size of qcom,lut-col-legend multiplied by 1 if it's a 1-dimensional table, or the size of qcom,lut-row-legend if it's a 2-dimensional table. The data should be in a flattened row-major representation. Lookup table optional properties: - qcom,lut-row-legend : An array that encodes the legend of the lookup table's rows. If this property exists, then it is assumed that the lookup table is a 2-dimensional table. Example: In msm8974-mtp.dtsi: mtp_batterydata: qcom,battery-data { qcom,rpull-up-kohm = <100>; qcom,vref-batt-therm-uv = <1800000>; /include/ "batterydata-palladium.dtsi" /include/ "batterydata-mtp-3000mah.dtsi" }; &pm8941_bms { qcom,battery-data = <&mtp_batterydata>; }; In batterydata-palladium.dtsi: qcom,palladium-batterydata { qcom,fcc-mah = <1500>; qcom,default-rbatt-mohm = <236>; qcom,rbatt-capacitive-mohm = <50>; qcom,flat-ocv-threshold-uv = <3800000>; qcom,max-voltage-uv = <4200000>; qcom,v-cutoff-uv = <3400000>; qcom,chg-term-ua = <100000>; qcom,batt-id-kohm = <75>; qcom,battery-type = "palladium_1500mah"; qcom,fcc-temp-lut { qcom,lut-col-legend = <(-20) 0 25 40 65>; qcom,lut-data = <1492 1492 1493 1483 1502>; }; qcom,pc-temp-ocv-lut { qcom,lut-col-legend = <(-20) 0 25 40 65>; qcom,lut-row-legend = <100 95 90 85 80 75 70>, <65 60 55 50 45 40 35>, <30 25 20 15 10 9 8>, <7 6 5 4 3 2 1 0>; qcom,lut-data = <4173 4167 4163 4156 4154>, <4104 4107 4108 4102 4104>, <4057 4072 4069 4061 4060>, <3973 4009 4019 4016 4020>, <3932 3959 3981 3982 3983>, <3899 3928 3954 3950 3950>, <3868 3895 3925 3921 3920>, <3837 3866 3898 3894 3892>, <3812 3841 3853 3856 3862>, <3794 3818 3825 3823 3822>, <3780 3799 3804 3804 3803>, <3768 3787 3790 3788 3788>, <3757 3779 3778 3775 3776>, <3747 3772 3771 3766 3765>, <3736 3763 3766 3760 3746>, <3725 3749 3756 3747 3729>, <3714 3718 3734 3724 3706>, <3701 3703 3696 3689 3668>, <3675 3695 3682 3675 3662>, <3670 3691 3680 3673 3661>, <3661 3686 3679 3672 3656>, <3649 3680 3676 3669 3641>, <3633 3669 3667 3655 3606>, <3610 3647 3640 3620 3560>, <3580 3607 3596 3572 3501>, <3533 3548 3537 3512 3425>, <3457 3468 3459 3429 3324>, <3328 3348 3340 3297 3172>, <3000 3000 3000 3000 3000>; }; qcom,rbatt-sf-lut { qcom,lut-col-legend = <(-20) 0 25 40 65>; qcom,lut-row-legend = <100 95 90 85 80 75 70>, <65 60 55 50 45 40 35>, <30 25 20 15 10 9 8>, <7 6 5 4 3 2 1 0>; qcom,lut-data = <357 187 100 91 91>, <400 208 105 94 94>, <390 204 106 95 96>, <391 201 108 98 98>, <391 202 110 98 100>, <390 200 110 99 102>, <389 200 110 99 102>, <393 202 101 93 100>, <407 205 99 89 94>, <428 208 100 91 96>, <455 212 102 92 98>, <495 220 104 93 101>, <561 232 107 95 102>, <634 245 112 98 98>, <714 258 114 98 98>, <791 266 114 97 100>, <871 289 108 95 97>, <973 340 124 108 105>, <489 241 109 96 99>, <511 246 110 96 99>, <534 252 111 95 98>, <579 263 112 96 96>, <636 276 111 95 97>, <730 294 109 96 99>, <868 328 112 98 104>, <1089 374 119 101 115>, <1559 457 128 105 213>, <12886 1026 637 422 3269>, <170899 127211 98968 88907 77102>; }; qcom,ibat-acc-lut { qcom,lut-col-legend = <(-20) 0 25>; qcom,lut-row-legend = <0 250 500 1000>; qcom,lut-data = <1470 1470 1473>, <1406 1406 1430>, <1247 1247 1414>, <764 764 1338>; }; };