335 lines
9.0 KiB
C
335 lines
9.0 KiB
C
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/* Copyright 2016 The Chromium OS Authors. All rights reserved.
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*
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* Placeholder values for temporary battery pack.
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*/
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#include "battery.h"
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#include "battery_smart.h"
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#include "bd9995x.h"
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#include "charge_ramp.h"
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#include "charge_state.h"
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#include "console.h"
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#include "ec_commands.h"
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#include "extpower.h"
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#include "gpio.h"
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#include "hooks.h"
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#include "util.h"
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#define CPRINTS(format, args...) cprints(CC_CHARGER, format, ## args)
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/* Shutdown mode parameter to write to manufacturer access register */
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#define SB_SHUTDOWN_DATA 0x0010
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enum battery_type {
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BATTERY_LG,
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BATTERY_LISHEN,
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BATTERY_SIMPLO,
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BATTERY_TYPE_COUNT,
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};
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struct board_batt_params {
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const char *manuf_name;
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const struct battery_info *batt_info;
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};
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/*
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* Set LISHEN as default since the LG precharge current level could cause the
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* LISHEN battery to not accept charge when it's recovering from a fully
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* discharged state.
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*/
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#define DEFAULT_BATTERY_TYPE BATTERY_LISHEN
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static enum battery_present batt_pres_prev = BP_NOT_SURE;
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static enum battery_type board_battery_type = BATTERY_TYPE_COUNT;
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/*
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* Battery info for LG A50. Note that the fields start_charging_min/max and
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* charging_min/max are not used for the Eve charger. The effective temperature
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* limits are given by discharging_min/max_c.
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*/
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static const struct battery_info batt_info_lg = {
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.voltage_max = TARGET_WITH_MARGIN(8800, 5), /* mV */
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.voltage_normal = 7700,
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.voltage_min = 6100, /* Add 100mV for charger accuracy */
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.precharge_current = 256, /* mA */
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.start_charging_min_c = 0,
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.start_charging_max_c = 46,
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.charging_min_c = 10,
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.charging_max_c = 50,
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.discharging_min_c = 0,
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.discharging_max_c = 60,
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};
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/*
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* Battery info for LISHEN. Note that the fields start_charging_min/max and
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* charging_min/max are not used for the Eve charger. The effective temperature
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* limits are given by discharging_min/max_c.
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*/
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static const struct battery_info batt_info_lishen = {
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.voltage_max = TARGET_WITH_MARGIN(8800, 5), /* mV */
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.voltage_normal = 7700,
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.voltage_min = 6100, /* Add 100mV for charger accuracy */
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.precharge_current = 256, /* mA */
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.start_charging_min_c = 0,
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.start_charging_max_c = 46,
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.charging_min_c = 10,
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.charging_max_c = 50,
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.discharging_min_c = 0,
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.discharging_max_c = 60,
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};
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static const struct board_batt_params info[] = {
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[BATTERY_LG] = {
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.manuf_name = "LG A50",
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.batt_info = &batt_info_lg,
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},
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[BATTERY_LISHEN] = {
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.manuf_name = "Lishen A50",
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.batt_info = &batt_info_lishen,
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},
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[BATTERY_SIMPLO] = {
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.manuf_name = "Simplo A50",
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.batt_info = &batt_info_lishen,
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},
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};
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BUILD_ASSERT(ARRAY_SIZE(info) == BATTERY_TYPE_COUNT);
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/* Get type of the battery connected on the board */
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static int board_get_battery_type(void)
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{
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char name[3];
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int i;
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if (!battery_manufacturer_name(name, sizeof(name))) {
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for (i = 0; i < BATTERY_TYPE_COUNT; i++) {
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if (!strncasecmp(name, info[i].manuf_name,
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ARRAY_SIZE(name)-1)) {
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board_battery_type = i;
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break;
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}
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}
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}
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return board_battery_type;
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}
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/*
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* Initialize the battery type for the board.
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*
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* Very first battery info is called by the charger driver to initialize
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* the charger parameters hence initialize the battery type for the board
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* as soon as the I2C is initialized.
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*/
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static void board_init_battery_type(void)
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{
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if (board_get_battery_type() != BATTERY_TYPE_COUNT)
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CPRINTS("found batt: %s", info[board_battery_type].manuf_name);
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else
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CPRINTS("battery not found");
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}
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DECLARE_HOOK(HOOK_INIT, board_init_battery_type, HOOK_PRIO_INIT_I2C + 1);
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const struct battery_info *battery_get_info(void)
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{
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return info[board_battery_type == BATTERY_TYPE_COUNT ?
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DEFAULT_BATTERY_TYPE : board_battery_type].batt_info;
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}
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int board_cut_off_battery(void)
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{
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int rv;
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/* Ship mode command must be sent twice to take effect */
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rv = sb_write(SB_MANUFACTURER_ACCESS, SB_SHUTDOWN_DATA);
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if (rv != EC_SUCCESS)
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return EC_RES_ERROR;
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rv = sb_write(SB_MANUFACTURER_ACCESS, SB_SHUTDOWN_DATA);
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return rv ? EC_RES_ERROR : EC_RES_SUCCESS;
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}
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enum battery_disconnect_state battery_get_disconnect_state(void)
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{
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uint8_t data[6];
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int rv;
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/*
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* Take note if we find that the battery isn't in disconnect state,
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* and always return NOT_DISCONNECTED without probing the battery.
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* This assumes the battery will not go to disconnect state during
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* runtime.
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*/
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static int not_disconnected;
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if (not_disconnected)
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return BATTERY_NOT_DISCONNECTED;
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if (extpower_is_present()) {
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/* Check if battery charging + discharging is disabled. */
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rv = sb_read_mfgacc(PARAM_OPERATION_STATUS,
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SB_ALT_MANUFACTURER_ACCESS, data, sizeof(data));
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if (rv)
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return BATTERY_DISCONNECT_ERROR;
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if (~data[3] & (BATTERY_DISCHARGING_DISABLED |
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BATTERY_CHARGING_DISABLED)) {
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not_disconnected = 1;
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return BATTERY_NOT_DISCONNECTED;
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}
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/*
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* Battery is neither charging nor discharging. Verify that
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* we didn't enter this state due to a safety fault.
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*/
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rv = sb_read_mfgacc(PARAM_SAFETY_STATUS,
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SB_ALT_MANUFACTURER_ACCESS, data, sizeof(data));
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if (rv || data[2] || data[3] || data[4] || data[5])
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return BATTERY_DISCONNECT_ERROR;
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/*
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* Battery is present and also the status is initialized and
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* no safety fault, battery is disconnected.
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*/
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if (battery_is_present() == BP_YES)
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return BATTERY_DISCONNECTED;
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}
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not_disconnected = 1;
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return BATTERY_NOT_DISCONNECTED;
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}
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static int charger_should_discharge_on_ac(struct charge_state_data *curr)
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{
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/* Can not discharge on AC without battery */
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if (curr->batt.is_present != BP_YES)
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return 0;
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/* Do not discharge on AC if the battery is still waking up */
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if (!(curr->batt.flags & BATT_FLAG_WANT_CHARGE) &&
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!(curr->batt.status & STATUS_FULLY_CHARGED))
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return 0;
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/*
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* In light load (<450mA being withdrawn from VSYS) the DCDC of the
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* charger operates intermittently i.e. DCDC switches continuously
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* and then stops to regulate the output voltage and current, and
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* sometimes to prevent reverse current from flowing to the input.
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* This causes a slight voltage ripple on VSYS that falls in the
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* audible noise frequency (single digit kHz range). This small
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* ripple generates audible noise in the output ceramic capacitors
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* (caps on VSYS and any input of DCDC under VSYS).
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*
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* To overcome this issue enable the battery learning operation
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* and suspend USB charging and DC/DC converter.
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*/
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if ((board_get_version() < 5) && !battery_is_cut_off() &&
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!(curr->batt.flags & BATT_FLAG_WANT_CHARGE) &&
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(curr->batt.status & STATUS_FULLY_CHARGED))
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return 1;
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/*
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* To avoid inrush current from the external charger, enable
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* discharge on AC 2till the new charger is detected and charge
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* detect delay has passed.
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*/
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if (!chg_ramp_is_detected() && curr->batt.state_of_charge > 2)
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return 1;
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return 0;
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}
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int charger_profile_override(struct charge_state_data *curr)
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{
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const struct battery_info *batt_info;
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/* battery temp in 0.1 deg C */
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int bat_temp_c = curr->batt.temperature - 2731;
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int disch_on_ac = charger_should_discharge_on_ac(curr);
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charger_discharge_on_ac(disch_on_ac);
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if (disch_on_ac) {
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curr->state = ST_DISCHARGE;
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return 0;
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}
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batt_info = battery_get_info();
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/* Don't charge if outside of allowable temperature range */
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if (bat_temp_c >= batt_info->charging_max_c * 10 ||
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bat_temp_c < batt_info->charging_min_c * 10) {
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curr->requested_current = 0;
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curr->requested_voltage = 0;
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curr->batt.flags &= ~BATT_FLAG_WANT_CHARGE;
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curr->state = ST_IDLE;
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}
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return 0;
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}
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/* Customs options controllable by host command. */
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#define PARAM_FASTCHARGE (CS_PARAM_CUSTOM_PROFILE_MIN + 0)
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enum ec_status charger_profile_override_get_param(uint32_t param,
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uint32_t *value)
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{
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return EC_RES_INVALID_PARAM;
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}
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enum ec_status charger_profile_override_set_param(uint32_t param,
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uint32_t value)
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{
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return EC_RES_INVALID_PARAM;
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}
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enum battery_present battery_hw_present(void)
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{
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/* The GPIO is low when the battery is physically present */
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return gpio_get_level(GPIO_BATTERY_PRESENT_L) ? BP_NO : BP_YES;
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}
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static int battery_init(void)
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{
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int batt_status;
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return battery_status(&batt_status) ? 0 :
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!!(batt_status & STATUS_INITIALIZED);
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}
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/*
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* Physical detection of battery.
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*/
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enum battery_present battery_is_present(void)
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{
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enum battery_present batt_pres;
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/* Get the physical hardware status */
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batt_pres = battery_hw_present();
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/*
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* Make sure battery status is implemented, I2C transactions are
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* success & the battery status is Initialized to find out if it
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* is a working battery and it is not in the cut-off mode.
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*
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* If battery I2C fails but VBATT is high, battery is booting from
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* cut-off mode.
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*
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* FETs are turned off after Power Shutdown time.
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* The device will wake up when a voltage is applied to PACK.
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* Battery status will be inactive until it is initialized.
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*/
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if (batt_pres == BP_YES && batt_pres_prev != batt_pres &&
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!battery_is_cut_off() && !battery_init()) {
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batt_pres = BP_NO;
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}
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batt_pres_prev = batt_pres;
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return batt_pres;
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}
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int board_battery_initialized(void)
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{
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return battery_hw_present() == batt_pres_prev;
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}
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