/* Copyright (c) 2013 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. * * Battery charging parameters and constraints */ #ifndef __CROS_EC_BATTERY_H #define __CROS_EC_BATTERY_H #include "common.h" /* Stop charge when charging and battery level >= this percentage */ #define BATTERY_LEVEL_FULL 100 /* Tell host we're charged when battery level >= this percentage */ #define BATTERY_LEVEL_NEAR_FULL 97 /* * Send battery-low host event when discharging and battery level <= this level */ #define BATTERY_LEVEL_LOW 10 /* * Send battery-critical host event when discharging and battery level <= this * level. */ #define BATTERY_LEVEL_CRITICAL 5 /* * Shut down main processor and/or hibernate EC when discharging and battery * level < this level. */ #define BATTERY_LEVEL_SHUTDOWN 3 /* * Sometimes we have hardware to detect battery present, sometimes we have to * wait until we've been able to talk to the battery. */ enum battery_present { BP_NO = 0, BP_YES = 1, BP_NOT_SURE, }; /* Battery parameters */ struct batt_params { int temperature; /* Temperature in 0.1 K */ int state_of_charge; /* State of charge (percent, 0-100) */ int voltage; /* Battery voltage (mV) */ int current; /* Battery current (mA); negative=discharging */ int desired_voltage; /* Charging voltage desired by battery (mV) */ int desired_current; /* Charging current desired by battery (mA) */ int remaining_capacity; /* Remaining capacity in mAh */ int full_capacity; /* Capacity in mAh (might change occasionally) */ enum battery_present is_present; /* Is the battery physically present */ int flags; /* Flags */ }; /* Flags for batt_params */ /* Battery wants to be charged */ #define BATT_FLAG_WANT_CHARGE 0x00000001 /* Battery is responsive (talking to us via I2C) */ #define BATT_FLAG_RESPONSIVE 0x00000002 /* Bits to indicate which parameter(s) could not be read */ #define BATT_FLAG_BAD_TEMPERATURE 0x00000004 #define BATT_FLAG_BAD_STATE_OF_CHARGE 0x00000008 #define BATT_FLAG_BAD_VOLTAGE 0x00000010 #define BATT_FLAG_BAD_CURRENT 0x00000020 #define BATT_FLAG_BAD_DESIRED_VOLTAGE 0x00000040 #define BATT_FLAG_BAD_DESIRED_CURRENT 0x00000080 #define BATT_FLAG_BAD_REMAINING_CAPACITY 0x00000100 #define BATT_FLAG_BAD_FULL_CAPACITY 0x00000200 /* All of the above BATT_FLAG_BAD_* bits */ #define BATT_FLAG_BAD_ANY 0x000003fc /* Battery constants */ struct battery_info { /* Design voltage in mV */ int voltage_max; int voltage_normal; int voltage_min; /* Pre-charge current in mA */ int precharge_current; /* Working temperature ranges in degrees C */ int8_t start_charging_min_c; int8_t start_charging_max_c; int8_t charging_min_c; int8_t charging_max_c; int8_t discharging_min_c; int8_t discharging_max_c; }; /** * Return vendor-provided battery constants. */ const struct battery_info *battery_get_info(void); /** * Get current battery parameters. * * Error conditions are reported via batt.flags. * * @param batt Destination for battery data */ void battery_get_params(struct batt_params *batt); /** * Modify battery parameters to match vendor charging profile. * * @param batt Battery parameters to modify */ void battery_override_params(struct batt_params *batt); /** * Check for presence of battery. * * @return Whether there is a battery attached or not, or if we can't tell. */ enum battery_present battery_is_present(void); /** * Get battery mode. * * See MODE_* constants in battery_smart.h * * @param mode Destination for current mode. * @return non-zero if error. */ int battery_get_mode(int *mode); /** * Read nominal voltage battery is designed to supply. * * @param voltage Destination for voltage in mW * @return non-zero if error. */ int battery_design_voltage(int *voltage); /** * Read absolute state of charge. * * @param percent Destination for charge in percent * @return non-zero if error. */ int battery_state_of_charge_abs(int *percent); /** * Read battery remaining capacity. * * @param capacity Destination for capacity in mAh * @return non-zero if error. */ int battery_remaining_capacity(int *capacity); /** * Read battery full charge capacity. * * @param capacity Destination for capacity in mAh * @return non-zero if error. */ int battery_full_charge_capacity(int *capacity); /** * Read the nominal capacity the battery is designed to supply when new. * * @param capacity Destination for capacity in mAh * @return non-zero if error. */ int battery_design_capacity(int *capacity); /** * Read time in minutes left when discharging. * * @param capacity Destination for remaining time in minutes. * @return non-zero if error. */ int battery_time_to_empty(int *minutes); /** * Read run time in minutes left when discharging. * * @param capacity Destination for remaining time in minutes. * @return non-zero if error. */ int battery_run_time_to_empty(int *minutes); /** * Read time in minutes left to full capacity when charging. * * @param capacity Destination for remaining time in minutes. * @return non-zero if error. */ int battery_time_to_full(int *minutes); /** * Calculate battery time in minutes, under an assumed current. * * @param rate Current to use for calculation, in mA. * If > 0, calculates charging time; if < 0, calculates * discharging time; 0 is invalid and sets minutes=0. * @param minutes Destination for calculated time in minutes. * @return non-zero if error. */ int battery_time_at_rate(int rate, int *minutes); /** * Read battery status. * * @param status Destination for status; see STATUS_* in battery_smart.h. * @return non-zero if error. */ int battery_status(int *status); /** * Read battery charge cycle count. * * @param count Destination for count. * @return non-zero if error. */ int battery_cycle_count(int *count); /** * Read battery serial number. * * @param serial Destination for serial number. * @return non-zero if error. */ int battery_serial_number(int *serial); /** * Read manufacturer name. * * @param dest Destination buffer. * @param size Length of destination buffer in chars. * @return non-zero if error. */ int battery_manufacturer_name(char *dest, int size); /** * Read device name. * * @param dest Destination buffer. * @param size Length of destination buffer in chars. * @return non-zero if error. */ int battery_device_name(char *dest, int size); /** * Read battery type/chemistry. * * @param dest Destination buffer. * @param size Length of destination buffer in chars. * @return non-zero if error. */ int battery_device_chemistry(char *dest, int size); /** * Read device manufacture date. * * @param year Destination for year * @param month Destination for month * @param day Destination for day * @return non-zero if error. */ int battery_manufacturer_date(int *year, int *month, int *day); /** * Call board-specific cut-off function. * * @return EC_RES_INVALID_COMMAND if the battery doesn't support. */ int board_cut_off_battery(void); /** * Return if the battery has been cut off. */ int battery_is_cut_off(void); /** * Read battery vendor parameter. * * Vendor parameter handlers are implemented in a board-specific battery.c * * @param param Parameter identifier. * @param value Location to store retrieved value. * @return non-zero if error. */ int battery_get_vendor_param(uint32_t param, uint32_t *value); /** * Write battery vendor parameter. * * Vendor parameter handlers are implemented in a board-specific battery.c * * @param param Parameter identifier. * @param value Value to write to the battery. * @return non-zero if error. */ int battery_set_vendor_param(uint32_t param, uint32_t value); /** * Wait for battery stable. * * @return non-zero if error. */ int battery_wait_for_stable(void); #endif /* __CROS_EC_BATTERY_H */