#pragma once #include #include #if BITS_BIG_ENDIAN == 1 #error Bit structures defined in this file is not portable to BE #endif #define BQ25896_ADDRESS 0xD6 #define BQ25896_I2C_TIMEOUT 50 #define IILIM_1600 (1 << 5) #define IILIM_800 (1 << 4) #define IILIM_400 (1 << 3) #define IILIM_200 (1 << 2) #define IILIM_100 (1 << 1) #define IILIM_50 (1 << 0) typedef struct { uint8_t IINLIM : 6; // Input Current Limit, mA, offset: +100mA bool EN_ILIM : 1; // Enable ILIM Pin bool EN_HIZ : 1; // Enable HIZ Mode } REG00; #define VINDPM_OS_1600 (1 << 4) #define VINDPM_OS_800 (1 << 3) #define VINDPM_OS_400 (1 << 2) #define VINDPM_OS_200 (1 << 1) #define VINDPM_OS_100 (1 << 0) typedef enum { Bhot34 = 0b00, // – VBHOT1 Threshold (34.75%) (default) Bhot37 = 0b01, // – VBHOT0 Threshold (Typ. 37.75%) Bhot31 = 0b10, // – VBHOT2 Threshold (Typ. 31.25%) BhotDisable = 0b11, // – Disable boost mode thermal protection } Bhot; typedef struct { uint8_t VINDPM_OS : 5; // Input Voltage Limit Offset, mV bool BCOLD : 1; // Boost Mode Cold Temperature Monitor Threshold Bhot BHOT : 2; // Boost Mode Hot Temperature Monitor Threshold } REG01; typedef struct { bool AUTO_DPDM_EN : 1; // Automatic Input Detection Enable bool FORCE_DPDM : 1; // Force Input Detection uint8_t RES : 2; // Reserved bool ICO_EN : 1; // Input Current Optimizer (ICO) Enable bool BOOST_FREQ : 1; // Boost Mode Frequency Selection bool CONV_RATE : 1; // ADC Conversion Rate Selection bool CONV_START : 1; // ADC Conversion Start Control } REG02; #define SYS_MIN_400 (1 << 2) #define SYS_MIN_200 (1 << 1) #define SYS_MIN_100 (1 << 0) typedef struct { bool MIN_VBAT_SEL : 1; // Minimum Battery Voltage (falling) to exit boost mode uint8_t SYS_MIN : 3; // Minimum System Voltage Limit, mV, offset: +3000mV bool CHG_CONFIG : 1; // Charge Enable Configuration bool OTG_CONFIG : 1; // Boost (OTG) Mode Configuration bool WD_RST : 1; // I2C Watchdog Timer Reset bool BAT_LOADEN : 1; // Battery Load (IBATLOAD) Enable } REG03; #define ICHG_4096 (1 << 6) #define ICHG_2048 (1 << 5) #define ICHG_1024 (1 << 4) #define ICHG_512 (1 << 3) #define ICHG_256 (1 << 2) #define ICHG_128 (1 << 1) #define ICHG_64 (1 << 0) typedef struct { uint8_t ICHG : 7; // Fast Charge Current Limit, mA bool EN_PUMPX : 1; // Current pulse control Enable } REG04; #define IPRETERM_512 (1 << 3) #define IPRETERM_256 (1 << 2) #define IPRETERM_128 (1 << 1) #define IPRETERM_64 (1 << 0) typedef struct { uint8_t ITERM : 4; // Termination Current Limit, offset: +64mA uint8_t IPRECHG : 4; // Precharge Current Limit, offset: +64mA } REG05; #define VREG_512 (1 << 5) #define VREG_256 (1 << 4) #define VREG_128 (1 << 3) #define VREG_64 (1 << 2) #define VREG_32 (1 << 1) #define VREG_16 (1 << 0) typedef struct { bool VRECHG : 1; // Battery Recharge Threshold Offset bool BATLOWV : 1; // Battery Precharge to Fast Charge Threshold uint8_t VREG : 6; // Charge Voltage Limit, offset: +3840mV } REG06; typedef enum { WatchdogDisable = 0b00, Watchdog40 = 0b01, Watchdog80 = 0b10, Watchdog160 = 0b11, } Watchdog; typedef enum { ChgTimer5 = 0b00, ChgTimer8 = 0b01, ChgTimer12 = 0b10, ChgTimer20 = 0b11, } ChgTimer; typedef struct { bool JEITA_ISET : 1; // JEITA Low Temperature Current Setting ChgTimer CHG_TIMER : 2; // Fast Charge Timer Setting bool EN_TIMER : 1; // Charging Safety Timer Enable Watchdog WATCHDOG : 2; // I2C Watchdog Timer Setting bool STAT_DIS : 1; // STAT Pin Disable bool EN_TERM : 1; // Charging Termination Enable } REG07; #define BAT_COMP_80 (1 << 2) #define BAT_COMP_40 (1 << 1) #define BAT_COMP_20 (1 << 0) #define VCLAMP_128 (1 << 2) #define VCLAMP_64 (1 << 1) #define VCLAMP_32 (1 << 0) #define TREG_60 (0b00) #define TREG_80 (0b01) #define TREG_100 (0b10) #define TREG_120 (0b11) typedef struct { uint8_t TREG : 2; // Thermal Regulation Threshold uint8_t VCLAMP : 3; // IR Compensation Voltage Clamp uint8_t BAT_COMP : 3; // IR Compensation Resistor Setting } REG08; typedef struct { bool PUMPX_DN : 1; // Current pulse control voltage down enable bool PUMPX_UP : 1; // Current pulse control voltage up enable bool BATFET_RST_EN : 1; // BATFET full system reset enable bool BATFET_DLY : 1; // BATFET turn off delay control bool JEITA_VSET : 1; // JEITA High Temperature Voltage Setting bool BATFET_DIS : 1; // Force BATFET off to enable ship mode bool TMR2X_EN : 1; // Safety Timer Setting during DPM or Thermal Regulation bool FORCE_ICO : 1; // Force Start Input Current Optimizer } REG09; #define BOOSTV_512 (1 << 3) #define BOOSTV_256 (1 << 2) #define BOOSTV_128 (1 << 1) #define BOOSTV_64 (1 << 0) typedef enum { BoostLim_500 = 0b000, BoostLim_750 = 0b001, BoostLim_1200 = 0b010, BoostLim_1400 = 0b011, BoostLim_1650 = 0b100, BoostLim_1875 = 0b101, BoostLim_2150 = 0b110, BoostLim_Rsvd = 0b111, } BoostLim; typedef struct { uint8_t BOOST_LIM : 3; // Boost Mode Current Limit bool PFM_OTG_DIS : 1; // PFM mode allowed in boost mode uint8_t BOOSTV : 4; // Boost Mode Voltage Regulation, offset: +4550mV } REG0A; typedef enum { VBusStatNo = 0b000, VBusStatUSB = 0b001, VBusStatExternal = 0b010, VBusStatOTG = 0b111, } VBusStat; typedef enum { ChrgStatNo = 0b00, ChrgStatPre = 0b01, ChrgStatFast = 0b10, ChrgStatDone = 0b11, } ChrgStat; typedef struct { bool VSYS_STAT : 1; // VSYS Regulation Status bool RES : 1; // Reserved: Always reads 1 bool PG_STAT : 1; // Power Good Status ChrgStat CHRG_STAT : 2; // Charging Status VBusStat VBUS_STAT : 3; // VBUS Status register } REG0B; typedef enum { ChrgFaultNO = 0b00, ChrgFaultIN = 0b01, ChrgFaultTH = 0b10, ChrgFaultTIM = 0b11, } ChrgFault; typedef enum { NtcFaultNo = 0b000, NtcFaultWarm = 0b010, NtcFaultCool = 0b011, NtcFaultCold = 0b101, NtcFaultHot = 0b110, } NtcFault; typedef struct { NtcFault NTC_FAULT : 3; // NTC Fault Status bool BAT_FAULT : 1; // Battery Fault Status ChrgFault CHRG_FAULT : 2; // Charge Fault Status bool BOOST_FAULT : 1; // Boost Mode Fault Status bool WATCHDOG_FAULT : 1; // Watchdog Fault Status } REG0C; #define VINDPM_6400 (1 << 6) #define VINDPM_3200 (1 << 5) #define VINDPM_1600 (1 << 4) #define VINDPM_800 (1 << 3) #define VINDPM_400 (1 << 2) #define VINDPM_200 (1 << 1) #define VINDPM_100 (1 << 0) typedef struct { uint8_t VINDPM : 7; // Absolute VINDPM Threshold, offset: +2600mV bool FORCE_VINDPM : 1; // VINDPM Threshold Setting Method } REG0D; typedef struct { uint8_t BATV : 7; // ADC conversion of Battery Voltage (VBAT), offset: +2304mV bool THERM_STAT : 1; // Thermal Regulation Status } REG0E; typedef struct { uint8_t SYSV : 7; // ADDC conversion of System Voltage (VSYS), offset: +2304mV uint8_t RES : 1; // Reserved: Always reads 0 } REG0F; typedef struct { uint8_t TSPCT : 7; // ADC conversion of TS Voltage (TS) as percentage of REGN, offset: +21% uint8_t RES : 1; // Reserved: Always reads 0 } REG10; typedef struct { uint8_t VBUSV : 7; // ADC conversion of VBUS voltage (VBUS), offset: +2600mV bool VBUS_GD : 1; // VBUS Good Status } REG11; typedef struct { uint8_t ICHGR : 7; // ADC conversion of Charge Current (IBAT) when VBAT > VBATSHORT uint8_t RES : 1; // Reserved: Always reads 0 } REG12; typedef struct { uint8_t IDPM_LIM : 6; // Input Current Limit in effect while Input Current Optimizer (ICO) is enabled, offset: 100mA (default) bool IDPM_STAT : 1; // IINDPM Status bool VDPM_STAT : 1; // VINDPM Status } REG13; typedef struct { uint8_t DEV_REV : 2; // Device Revision bool TS_PROFILE : 1; // Temperature Profile uint8_t PN : 3; // Device Configuration bool ICO_OPTIMIZED : 1; // Input Current Optimizer (ICO) Status bool REG_RST : 1; // Register Reset } REG14;