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/* Copyright 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"
#include "host_command.h"
/* Battery index, only used with CONFIG_BATTERY_V2. */
enum battery_index {
BATT_IDX_INVALID = -1,
BATT_IDX_MAIN = 0,
BATT_IDX_BASE = 1,
};
#ifdef CONFIG_BATTERY_V2
extern struct ec_response_battery_static_info
battery_static[CONFIG_BATTERY_COUNT];
extern struct ec_response_battery_dynamic_info
battery_dynamic[CONFIG_BATTERY_COUNT];
#endif
/* Stop charge when charging and battery level >= this percentage */
#define BATTERY_LEVEL_FULL 100
/* Tell host we're charged when battery level >= this percentage */
#ifdef CONFIG_BATTERY_LEVEL_NEAR_FULL
#define BATTERY_LEVEL_NEAR_FULL CONFIG_BATTERY_LEVEL_NEAR_FULL
#else
#define BATTERY_LEVEL_NEAR_FULL 97
#endif
/*
* 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_NOT_INIT = -1,
BP_NO = 0,
BP_YES = 1,
BP_NOT_SURE,
};
enum battery_cutoff_states {
BATTERY_CUTOFF_STATE_NORMAL = 0,
BATTERY_CUTOFF_STATE_CUT_OFF,
BATTERY_CUTOFF_STATE_PENDING,
};
enum battery_disconnect_state {
BATTERY_DISCONNECTED = 0,
BATTERY_NOT_DISCONNECTED,
BATTERY_DISCONNECT_ERROR,
};
/* 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) */
int display_charge; /* Display charge in 10ths of a % (1000=100.0%) */
int status; /* Battery status */
enum battery_present is_present; /* Is the battery physically present */
int flags; /* Flags */
};
/*
* Provide a 1 minute average of the current and voltage on the battery.
* Does not check for flags or whether those values are bad readings.
* See driver/battery/[your_driver].h/c for details on implementation and
* how the average is calculated.
*/
int battery_get_avg_current(void); /* in mA */
int battery_get_avg_voltage(void); /* in mV */
/* 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
#define BATT_FLAG_BAD_STATUS 0x00000400
#define BATT_FLAG_IMBALANCED_CELL 0x00000800
/* All of the above BATT_FLAG_BAD_* bits */
#define BATT_FLAG_BAD_ANY 0x000007fc
/* Battery constants */
struct battery_info {
/* Design voltage in mV */
int voltage_max;
int voltage_normal;
int voltage_min;
/* (TODO(chromium:756700): add desired_charging_current */
/* 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);
/**
* Check for physical presence of battery.
*
* @return Whether there is a battery physically present, but possibly
* in a disconnected or cut off state, or if we can't tell;
*/
enum battery_present battery_hw_present(void);
/**
* Check for battery initialization status.
*
* @return zero if not initialized.
*/
int board_battery_initialized(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 manufacturer name.
*
* This can be overridden to return a chip or board custom string.
*
* @param dest Destination buffer.
* @param size Length of destination buffer in chars.
* @return non-zero if error.
*/
int get_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);
/**
* Report the absolute difference between the highest and lowest cell voltage in
* the battery pack, in millivolts. On error or unimplemented, returns '0'.
*/
int battery_imbalance_mv(void);
/**
* 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);
/**
* Print all battery info for debugging purposes
*/
void print_battery_debug(void);
/**
* Get the disconnect state of the battery.
*/
enum battery_disconnect_state battery_get_disconnect_state(void);
#ifdef CONFIG_BATTERY_V2
/**
* Refresh battery information in host memory mapped region, if index is
* currently presented.
*/
void battery_memmap_refresh(enum battery_index index);
/**
* Set which index to present in host memory mapped region.
*/
void battery_memmap_set_index(enum battery_index index);
#endif /* CONFIG_BATTERY_V2 */
#ifdef CONFIG_CMD_I2C_STRESS_TEST_BATTERY
extern struct i2c_stress_test_dev battery_i2c_stress_test_dev;
#endif
/*
* If remaining charge is more than x% of the full capacity, the
* remaining charge is raised to the full capacity before it's
* reported to the rest of the system.
*
* Some batteries don't update full capacity timely or don't update it
* at all. On such systems, compensation is required to guarantee
* the remaining charge will be equal to the full capacity eventually.
*
* On some systems, Rohm charger generates audio noise when the battery
* is fully charged and AC is plugged. A workaround is to do charge-
* discharge cycles between 93 and 100%. On such systems, compensation
* was also applied to mask this cycle from users.
*
* This used to be done in ACPI, thus, all software components except EC
* was seeing the compensated charge. Now we do it in EC. It has more
* knowledge on the charger and the battery. So, it can perform more
* granular and precise compensation.
*
* TODO: Currently, this is applied only to smart battery. Apply it to other
* battery drivers as needed.
*/
void battery_compensate_params(struct batt_params *batt);
#endif /* __CROS_EC_BATTERY_H */
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