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power: supply: ab8500: Standardize maintenance charging
Maintenance charging is the phase of keeping up the charge after the battery has charged fully using CC/CV charging. This can be done in many successive phases and is usually done with a slightly lower constant voltage than CV, and a slightly lower allowed current. Add an array of maintenance charging points each with a current, voltage and safety timer, and add helper functions to use these. Migrate the AB8500 code over. This is used in several Samsung products using the AB8500 and these batteries and their complete parameters will be added later as full examples, but the default battery in the AB8500 code serves as a reasonable example so far. Reviewed-by: Matti Vaittinen <matti.vaittinen@fi.rohmeurope.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org> Signed-off-by: Sebastian Reichel <sebastian.reichel@collabora.com>
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@ -331,24 +331,12 @@ struct ab8500_maxim_parameters {
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* struct ab8500_battery_type - different batteries supported
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* @resis_high: battery upper resistance limit
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* @resis_low: battery lower resistance limit
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* @maint_a_cur_lvl: charger current in maintenance A state in mA
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* @maint_a_vol_lvl: charger voltage in maintenance A state in mV
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* @maint_a_chg_timer_h: charge time in maintenance A state
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* @maint_b_cur_lvl: charger current in maintenance B state in mA
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* @maint_b_vol_lvl: charger voltage in maintenance B state in mV
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* @maint_b_chg_timer_h: charge time in maintenance B state
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* @low_high_cur_lvl: charger current in temp low/high state in mA
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* @low_high_vol_lvl: charger voltage in temp low/high state in mV'
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*/
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struct ab8500_battery_type {
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int resis_high;
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int resis_low;
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int maint_a_cur_lvl;
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int maint_a_vol_lvl;
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int maint_a_chg_timer_h;
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int maint_b_cur_lvl;
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int maint_b_vol_lvl;
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int maint_b_chg_timer_h;
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int low_high_cur_lvl;
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int low_high_vol_lvl;
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};
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@ -393,7 +381,6 @@ struct ab8500_bm_charger_parameters {
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* @usb_safety_tmr_h safety timer for usb charger
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* @bkup_bat_v voltage which we charge the backup battery with
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* @bkup_bat_i current which we charge the backup battery with
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* @no_maintenance indicates that maintenance charging is disabled
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* @capacity_scaling indicates whether capacity scaling is to be used
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* @chg_unknown_bat flag to enable charging of unknown batteries
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* @enable_overshoot flag to enable VBAT overshoot control
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@ -417,7 +404,6 @@ struct ab8500_bm_data {
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int usb_safety_tmr_h;
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int bkup_bat_v;
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int bkup_bat_i;
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bool no_maintenance;
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bool capacity_scaling;
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bool chg_unknown_bat;
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bool enable_overshoot;
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@ -58,16 +58,25 @@ static struct power_supply_resistance_temp_table temp_to_batres_tbl_thermistor[]
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{ .temp = -20, .resistance = 198 /* 595 mOhm */ },
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};
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static struct power_supply_maintenance_charge_table ab8500_maint_charg_table[] = {
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{
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/* Maintenance charging phase A, 60 hours */
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.charge_current_max_ua = 400000,
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.charge_voltage_max_uv = 4050000,
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.charge_safety_timer_minutes = 60*60,
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},
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{
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/* Maintenance charging phase B, 200 hours */
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.charge_current_max_ua = 400000,
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.charge_voltage_max_uv = 4000000,
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.charge_safety_timer_minutes = 200*60,
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}
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};
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/* Default battery type for reference designs is the unknown type */
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static struct ab8500_battery_type bat_type_thermistor_unknown = {
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.resis_high = 0,
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.resis_low = 0,
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.maint_a_cur_lvl = 400,
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.maint_a_vol_lvl = 4050,
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.maint_a_chg_timer_h = 60,
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.maint_b_cur_lvl = 400,
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.maint_b_vol_lvl = 4000,
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.maint_b_chg_timer_h = 200,
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.low_high_cur_lvl = 300,
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.low_high_vol_lvl = 4000,
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};
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@ -124,7 +133,6 @@ struct ab8500_bm_data ab8500_bm_data = {
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.usb_safety_tmr_h = 4,
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.bkup_bat_v = BUP_VCH_SEL_2P6V,
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.bkup_bat_i = BUP_ICH_SEL_150UA,
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.no_maintenance = false,
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.capacity_scaling = false,
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.chg_unknown_bat = false,
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.enable_overshoot = false,
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@ -179,6 +187,11 @@ int ab8500_bm_of_probe(struct power_supply *psy,
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/* Charging stops when we drop below this current */
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bi->charge_term_current_ua = 200000;
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if (!bi->maintenance_charge || !bi->maintenance_charge_size) {
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bi->maintenance_charge = ab8500_maint_charg_table;
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bi->maintenance_charge_size = ARRAY_SIZE(ab8500_maint_charg_table);
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}
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/*
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* Internal resistance and factory resistance are tightly coupled
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* so both MUST be defined or we fall back to defaults.
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@ -430,7 +430,7 @@ static void ab8500_chargalg_stop_safety_timer(struct ab8500_chargalg *di)
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/**
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* ab8500_chargalg_start_maintenance_timer() - Start charging maintenance timer
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* @di: pointer to the ab8500_chargalg structure
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* @duration: duration of ther maintenance timer in hours
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* @duration: duration of ther maintenance timer in minutes
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*
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* The maintenance timer is used to maintain the charge in the battery once
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* the battery is considered full. These timers are chosen to match the
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@ -439,9 +439,10 @@ static void ab8500_chargalg_stop_safety_timer(struct ab8500_chargalg *di)
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static void ab8500_chargalg_start_maintenance_timer(struct ab8500_chargalg *di,
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int duration)
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{
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/* Set a timer in minutes with a 30 second range */
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hrtimer_set_expires_range(&di->maintenance_timer,
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ktime_set(duration * ONE_HOUR_IN_SECONDS, 0),
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ktime_set(FIVE_MINUTES_IN_SECONDS, 0));
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ktime_set(duration * 60, 0),
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ktime_set(30, 0));
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di->events.maintenance_timer_expired = false;
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hrtimer_start_expires(&di->maintenance_timer, HRTIMER_MODE_REL);
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}
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@ -1223,6 +1224,7 @@ static void ab8500_chargalg_external_power_changed(struct power_supply *psy)
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static void ab8500_chargalg_algorithm(struct ab8500_chargalg *di)
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{
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struct power_supply_battery_info *bi = di->bm->bi;
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struct power_supply_maintenance_charge_table *mt;
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int charger_status;
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int ret;
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@ -1433,7 +1435,12 @@ static void ab8500_chargalg_algorithm(struct ab8500_chargalg *di)
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handle_maxim_chg_curr(di);
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if (di->charge_status == POWER_SUPPLY_STATUS_FULL &&
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di->maintenance_chg) {
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if (di->bm->no_maintenance)
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/*
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* The battery is fully charged, check if we support
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* maintenance charging else go back to waiting for
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* the recharge voltage limit.
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*/
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if (!power_supply_supports_maintenance_charging(bi))
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ab8500_chargalg_state_to(di,
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STATE_WAIT_FOR_RECHARGE_INIT);
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else
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@ -1454,12 +1461,19 @@ static void ab8500_chargalg_algorithm(struct ab8500_chargalg *di)
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break;
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case STATE_MAINTENANCE_A_INIT:
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mt = power_supply_get_maintenance_charging_setting(bi, 0);
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if (!mt) {
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/* No maintenance A state, go back to normal */
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ab8500_chargalg_state_to(di, STATE_NORMAL_INIT);
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power_supply_changed(di->chargalg_psy);
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break;
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}
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ab8500_chargalg_stop_safety_timer(di);
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ab8500_chargalg_start_maintenance_timer(di,
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di->bm->bat_type->maint_a_chg_timer_h);
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mt->charge_safety_timer_minutes);
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ab8500_chargalg_start_charging(di,
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di->bm->bat_type->maint_a_vol_lvl,
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di->bm->bat_type->maint_a_cur_lvl);
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mt->charge_voltage_max_uv,
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mt->charge_current_max_ua);
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ab8500_chargalg_state_to(di, STATE_MAINTENANCE_A);
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power_supply_changed(di->chargalg_psy);
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fallthrough;
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@ -1472,11 +1486,18 @@ static void ab8500_chargalg_algorithm(struct ab8500_chargalg *di)
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break;
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case STATE_MAINTENANCE_B_INIT:
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mt = power_supply_get_maintenance_charging_setting(bi, 1);
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if (!mt) {
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/* No maintenance B state, go back to normal */
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ab8500_chargalg_state_to(di, STATE_NORMAL_INIT);
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power_supply_changed(di->chargalg_psy);
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break;
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}
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ab8500_chargalg_start_maintenance_timer(di,
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di->bm->bat_type->maint_b_chg_timer_h);
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mt->charge_safety_timer_minutes);
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ab8500_chargalg_start_charging(di,
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di->bm->bat_type->maint_b_vol_lvl,
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di->bm->bat_type->maint_b_cur_lvl);
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mt->charge_voltage_max_uv,
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mt->charge_current_max_ua);
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ab8500_chargalg_state_to(di, STATE_MAINTENANCE_B);
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power_supply_changed(di->chargalg_psy);
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fallthrough;
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@ -595,6 +595,7 @@ int power_supply_get_battery_info(struct power_supply *psy,
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info->precharge_voltage_max_uv = -EINVAL;
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info->charge_restart_voltage_uv = -EINVAL;
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info->overvoltage_limit_uv = -EINVAL;
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info->maintenance_charge = NULL;
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info->temp_ambient_alert_min = INT_MIN;
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info->temp_ambient_alert_max = INT_MAX;
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info->temp_alert_min = INT_MIN;
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@ -844,6 +845,16 @@ int power_supply_temp2resist_simple(struct power_supply_resistance_temp_table *t
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}
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EXPORT_SYMBOL_GPL(power_supply_temp2resist_simple);
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struct power_supply_maintenance_charge_table *
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power_supply_get_maintenance_charging_setting(struct power_supply_battery_info *info,
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int index)
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{
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if (index >= info->maintenance_charge_size)
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return NULL;
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return &info->maintenance_charge[index];
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}
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EXPORT_SYMBOL_GPL(power_supply_get_maintenance_charging_setting);
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/**
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* power_supply_ocv2cap_simple() - find the battery capacity
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* @table: Pointer to battery OCV lookup table
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@ -349,6 +349,52 @@ struct power_supply_resistance_temp_table {
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int resistance; /* internal resistance percent */
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};
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/**
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* struct power_supply_maintenance_charge_table - setting for maintenace charging
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* @charge_current_max_ua: maintenance charging current that is used to keep
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* the charge of the battery full as current is consumed after full charging.
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* The corresponding charge_voltage_max_uv is used as a safeguard: when we
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* reach this voltage the maintenance charging current is turned off. It is
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* turned back on if we fall below this voltage.
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* @charge_voltage_max_uv: maintenance charging voltage that is usually a bit
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* lower than the constant_charge_voltage_max_uv. We can apply this settings
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* charge_current_max_ua until we get back up to this voltage.
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* @safety_timer_minutes: maintenance charging safety timer, with an expiry
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* time in minutes. We will only use maintenance charging in this setting
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* for a certain amount of time, then we will first move to the next
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* maintenance charge current and voltage pair in respective array and wait
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* for the next safety timer timeout, or, if we reached the last maintencance
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* charging setting, disable charging until we reach
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* charge_restart_voltage_uv and restart ordinary CC/CV charging from there.
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* These timers should be chosen to align with the typical discharge curve
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* for the battery.
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*
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* When the main CC/CV charging is complete the battery can optionally be
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* maintenance charged at the voltages from this table: a table of settings is
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* traversed using a slightly lower current and voltage than what is used for
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* CC/CV charging. The maintenance charging will for safety reasons not go on
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* indefinately: we lower the current and voltage with successive maintenance
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* settings, then disable charging completely after we reach the last one,
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* and after that we do not restart charging until we reach
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* charge_restart_voltage_uv (see struct power_supply_battery_info) and restart
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* ordinary CC/CV charging from there.
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*
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* As an example, a Samsung EB425161LA Lithium-Ion battery is CC/CV charged
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* at 900mA to 4340mV, then maintenance charged at 600mA and 4150mV for
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* 60 hours, then maintenance charged at 600mA and 4100mV for 200 hours.
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* After this the charge cycle is restarted waiting for
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* charge_restart_voltage_uv.
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*
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* For most mobile electronics this type of maintenance charging is enough for
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* the user to disconnect the device and make use of it before both maintenance
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* charging cycles are complete.
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*/
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struct power_supply_maintenance_charge_table {
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int charge_current_max_ua;
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int charge_voltage_max_uv;
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int charge_safety_timer_minutes;
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};
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#define POWER_SUPPLY_OCV_TEMP_MAX 20
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/**
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@ -394,6 +440,10 @@ struct power_supply_resistance_temp_table {
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* @constant_charge_voltage_max_uv: voltage in microvolts signifying the end of
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* the CC (constant current) charging phase and the beginning of the CV
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* (constant voltage) charging phase.
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* @maintenance_charge: an array of maintenance charging settings to be used
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* after the main CC/CV charging phase is complete.
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* @maintenance_charge_size: the number of maintenance charging settings in
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* maintenance_charge.
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* @factory_internal_resistance_uohm: the internal resistance of the battery
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* at fabrication time, expressed in microohms. This resistance will vary
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* depending on the lifetime and charge of the battery, so this is just a
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@ -543,6 +593,8 @@ struct power_supply_battery_info {
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int overvoltage_limit_uv;
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int constant_charge_current_max_ua;
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int constant_charge_voltage_max_uv;
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struct power_supply_maintenance_charge_table *maintenance_charge;
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int maintenance_charge_size;
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int factory_internal_resistance_uohm;
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int ocv_temp[POWER_SUPPLY_OCV_TEMP_MAX];
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int temp_ambient_alert_min;
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@ -596,6 +648,8 @@ extern int power_supply_batinfo_ocv2cap(struct power_supply_battery_info *info,
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extern int
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power_supply_temp2resist_simple(struct power_supply_resistance_temp_table *table,
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int table_len, int temp);
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extern struct power_supply_maintenance_charge_table *
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power_supply_get_maintenance_charging_setting(struct power_supply_battery_info *info, int index);
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extern void power_supply_changed(struct power_supply *psy);
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extern int power_supply_am_i_supplied(struct power_supply *psy);
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int power_supply_get_property_from_supplier(struct power_supply *psy,
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@ -603,6 +657,16 @@ int power_supply_get_property_from_supplier(struct power_supply *psy,
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union power_supply_propval *val);
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extern int power_supply_set_battery_charged(struct power_supply *psy);
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static inline bool
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power_supply_supports_maintenance_charging(struct power_supply_battery_info *info)
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{
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struct power_supply_maintenance_charge_table *mt;
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mt = power_supply_get_maintenance_charging_setting(info, 0);
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return (mt != NULL);
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}
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#ifdef CONFIG_POWER_SUPPLY
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extern int power_supply_is_system_supplied(void);
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#else
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