PMU
PMU - 电源管理单元,负责系统各模块供电及电池充放电管理。
模块配置
regulator 相关配置项:
Drivers Options
soc related device drivers
REGULATOR Devices
[*] enable regulator driver
[*] regulator test
power 相关配置项:
Drivers Options
soc related device drivers
POWER Devices
[*] enable power driver
[*] use axp2585
[*] regulator test
源码结构介绍
lichee/rtos-hal/hal/source/power/
├── axp2585.c
├── axp2585.h
├── axp.c
├── axp_twi.c
├── ffs.h
├── Kconfig
├── Makefile
├── sun20iw2p1
│ └── core.c
└── type.h
lichee/rtos-hal/hal/source/regulator/
├── Kconfig
├── Makefile
└── sun20iw2p1
└── core.c
模块接口说明
头文件:
#include <sunxi_hal_power.h>
#include <sunxi_hal_regulator.h>
regulator 相关结构体
struct regulator_ops{
int (*enable) (struct regulator_dev *);
int (*disable) (struct regulator_dev *);
int (*set_voltage) (struct regulator_dev *, int target_uV);
int (*get_voltage) (struct regulator_dev *, int *vol_uV);
int (*set_en) (struct regulator_dev *, unsigned int flags);
int (*set_voltage_ext) (struct regulator_dev *, int target_uV, unsigned int status);
int (*get_voltage_ext) (struct regulator_dev *, int *vol_uV, unsigned int status);
};
struct regulator_dev{
unsigned int flag;
struct regulator_ops *ops;
void *private;
};
power 相关结构体
struct power_dev{
unsigned int flag;
struct bat_power_ops *bat_ops;
struct usb_power_ops *usb_ops;
struct power_supply *config;
hal_sem_t irq_schd;
};
regulator 获取电路接口
函数原型
int hal_regulator_get(unsigned int request_flag, struct regulator_dev *rdev)
参数:
- rdev: 指定regulator的结构体
- request_flag: 指定regulator的电路参数
返回值:
regulator 电路使能接口
函数原型
int hal_regulator_set_able(struct regulator_dev *rdev, unsigned int flags)
参数:
- rdev: 指定regulator的结构体
- flags: 电路开关状态
返回值:
regulator 获取电压接口
函数原型
int hal_regulator_get_voltage_ext(struct regulator_dev *rdev, int *vol_uV, unsigned int status)
参数:
- rdev: 指定regulator的结构体
- vol_uV: 获取的电压信息
- status: 运行/休眠时的电压
返回值:
regulator 调节电压接口
函数原型
int hal_regulator_set_voltage_ext(struct regulator_dev *rdev, int target_uV, unsigned int status)
参数:
- rdev: 指定regulator的结构体
- target_uV: 指定调压信息
- status: 运行/休眠时的电压
返回值:
power 初始化
函数原型
int hal_power_init(void);
参数:
返回值:
获取当前 power 驱动
函数原型
int hal_power_get(struct power_dev *rdev);
参数:
返回值:
获取电池电量信息
函数原型
int hal_power_get_bat_cap(struct power_dev *rdev);
参数:
返回值:
获取库仑计信息
函数原型
int hal_power_get_coulumb_counter(struct power_dev *rdev);
参数:
返回值:
查看电池当前状态
函数原型
int hal_power_get_bat_present(struct power_dev *rdev);
参数:
返回值:
查看电池是否连接
函数原型
int hal_power_get_bat_online(struct power_dev *rdev);
参数:
返回值:
获取电池充电状态
函数原型
int hal_power_get_bat_status(struct power_dev *rdev);
参数:
返回值:
- 成功:返回电池的多种状态,[0] 未知状态;[1] 充电状态;[3] 连接单不充电;[4] 充满电。
- 失败:‑1
获取电池当前的健康状态
函数原型
int hal_power_get_bat_health(struct power_dev *rdev);
参数:
返回值:
获取电池电压
函数原型
int hal_power_get_vbat(struct power_dev *rdev);
参数:
返回值:
获取充电电流
函数原型
int hal_power_get_ibat(struct power_dev *rdev);
参数:
返回值:
获取放电电流
函数原型
int hal_power_get_disibat(struct power_dev *rdev);
参数:
返回值:
获取 AXP IC 温度
函数原型
int hal_power_get_temp(struct power_dev *rdev);
参数:
返回值:
- 成功:当前AXP IC 温度,单位为温度数值*10
- 失败:‑1
获取电池温度
函数原型
int hal_power_get_temp_ambient(struct power_dev *rdev)
参数:
返回值:
设置充电电流
函数原型
int hal_power_set_chg_cur(struct power_dev *rdev, int cur)
参数:
- rdev:初始化后power_dev 结构体
- cur:充电电流大小,单位mA
返回值:
设置充电截止电压
函数原型
int hal_power_set_chg_vol(struct power_dev *rdev, int vol)
参数:
- rdev:初始化后power_dev 结构体
- vol:充电截止电压,单位mV
返回值:
设置电池开关
函数原型
int hal_power_set_batfet(struct power_dev *rdev, int onoff)
参数:
- rdev:初始化后power_dev 结构体
- onoff:电池开关,0 关闭电池与电路连接,1 打开连接
返回值:
获取当前USB 状态
函数原型
int hal_power_get_usb_status(struct power_dev *rdev)
参数:
返回值:
- 成功:[1]USB 连接,有VBUS;[0] 无USB 连接,无VBUS
- 失败:‑1
获取USB 口输入限流值
函数原型
int hal_power_get_usb_ihold(struct power_dev *rdev)
参数:
返回值:
- 成功:USB 口限流的电流值,单位mA
- 失败:‑1
获取USB 口输入限压值
函数原型
int hal_power_get_usb_vhold(struct power_dev *rdev)
参数:
返回值:
设置USB 口输入限流值
函数原型
int hal_power_set_usb_ihold(struct power_dev *rdev, int cur)
参数:
- rdev:初始化后power_dev 结构体
- cur:USB 口限流的电流值,单位mA,范围[0‑3100]
返回值:
设置USB 口输入限压值
函数原型
int hal_power_set_usb_vhold(struct power_dev *rdev, int vol)
参数:
- rdev:初始化后power_dev 结构体
- vol:USB 口输入限压值,单位mV,范围[3880mV~5080mV]
返回值:
模块使用范例
regulator 模块使用范例
#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <stddef.h>
#include <unistd.h>
#include <sunxi_hal_regulator.h>
#include <sunxi_hal_common.h>
#include <hal_cmd.h>
#include <hal_log.h>
#define SOC_PRCM_BASE (0x40050000)
#define SOC_PRCM_DCDC_CTRL0 (SOC_PRCM_BASE+0x0004)
#define SOC_PRCM_DCDC_CTRL1 (SOC_PRCM_BASE+0x0008)
#define SOC_PRCM_DCDC_LDO_MODE (SOC_PRCM_BASE+0x000c)
#define SOC_PRCM_RTC_LDO_CTRL (SOC_PRCM_BASE+0x0020)
#define SOC_PRCM_EXT_LDO_CTRL (SOC_PRCM_BASE+0x0024)
#define SOC_PRCM_TOP_LDO_CTRL (SOC_PRCM_BASE+0x0028)
#define SOC_PRCM_AON_LDO_CTRL (SOC_PRCM_BASE+0x0040)
#define SOC_PRCM_APP_LDO_CTRL (SOC_PRCM_BASE+0x0044)
#define SOC_PRCM_DSP_LDO_CTRL (SOC_PRCM_BASE+0x004c)
static int hal_regulator_regs_check(void)
{
printf("[regulator] %x:%x\n", SOC_PRCM_DCDC_CTRL0, readl(SOC_PRCM_DCDC_CTRL0));
printf("[regulator] %x:%x\n", SOC_PRCM_DCDC_CTRL1, readl(SOC_PRCM_DCDC_CTRL1));
printf("[regulator] %x:%x\n", SOC_PRCM_DCDC_LDO_MODE, readl(SOC_PRCM_DCDC_LDO_MODE));
printf("[regulator] %x:%x\n", SOC_PRCM_RTC_LDO_CTRL, readl(SOC_PRCM_RTC_LDO_CTRL));
printf("[regulator] %x:%x\n", SOC_PRCM_EXT_LDO_CTRL, readl(SOC_PRCM_EXT_LDO_CTRL));
printf("[regulator] %x:%x\n", SOC_PRCM_TOP_LDO_CTRL, readl(SOC_PRCM_TOP_LDO_CTRL));
printf("[regulator] %x:%x\n", SOC_PRCM_AON_LDO_CTRL, readl(SOC_PRCM_AON_LDO_CTRL));
printf("[regulator] %x:%x\n", SOC_PRCM_APP_LDO_CTRL, readl(SOC_PRCM_APP_LDO_CTRL));
printf("[regulator] %x:%x\n", SOC_PRCM_DSP_LDO_CTRL, readl(SOC_PRCM_DSP_LDO_CTRL));
return 0;
}
static int cmd_set_able(int argc, const char **argv)
{
int ret;
int id = SOC_ID_MAX;
unsigned int flag = 0;
struct regulator_dev regulator;
if (argv[1])
id = (int)*argv[1] - 48;
if (argv[2])
flag = (int)*argv[2] - 48;
printf("[regulator] set regulator_en[%d]:%x, flage:%d\n", id, REGULATOR_GET(SOC_REGULATOR, id), flag);
hal_regulator_get(REGULATOR_GET(SOC_REGULATOR, id), ®ulator);
printf("[regulator] set_able regulator_en\n");
hal_regulator_set_able(®ulator, flag);
printf("[regulator] set_regulator[%d]able_status:%d\n", id, flag);
hal_regulator_regs_check();
return 0;
}
FINSH_FUNCTION_EXPORT_CMD(cmd_set_able, hal_regulator_set_current_able, regulator hal APIs tests)
static int cmd_get_voltage_ext(int argc, const char **argv)
{
int ret;
int id = SOC_ID_MAX;
unsigned int flag = 0;
struct regulator_dev regulator;
if (argv[1])
id = (int)*argv[1] - 48;
if (argv[2])
flag = (int)*argv[2] - 48;
printf("[regulator] get regulator:%x\n", REGULATOR_GET(SOC_REGULATOR, id));
hal_regulator_get(REGULATOR_GET(SOC_REGULATOR, id), ®ulator);
printf("[regulator] cat check_dedc_status\n");
hal_regulator_get_voltage_ext(®ulator, &ret, flag);
printf("[regulator] get_regulator[%d]status[%d]voltage:%d\n", id, flag, ret);
hal_regulator_regs_check();
return 0;
}
FINSH_FUNCTION_EXPORT_CMD(cmd_get_voltage_ext, hal_regulator_get_voltage, regulator hal APIs tests)
static int cmd_set_voltage_ext(int argc, const char **argv)
{
int ret[4] = {0};
int ret1;
int id = SOC_ID_MAX;
unsigned int flag = 0;
struct regulator_dev regulator;
if (argv[1])
id = (int)*argv[1] - 48;
if (argv[2])
flag = (int)*argv[2] - 48;
if (argv[3])
ret[0] = ((int)*argv[3] - 48) * 1000;
if (argv[4])
ret[1] = ((int)*argv[4] - 48) * 100;
if (argv[5])
ret[2] = ((int)*argv[5] - 48) * 10;
if (argv[6])
ret[3] = ((int)*argv[6] - 48) * 1;
ret1 = (ret[0] + ret[1] + ret[2] + ret[3]) * 1000;
printf("[regulator] set regulator:%x\n", REGULATOR_GET(SOC_REGULATOR, id));
hal_regulator_get(REGULATOR_GET(SOC_REGULATOR, id), ®ulator);
printf("[regulator] set_regulator[%d]status[%d]voltage:%d\n", id, flag, ret1);
hal_regulator_set_voltage_ext(®ulator, ret1, flag);
printf("[regulator] finishe-set_regulator[%d]status[%d]voltage:%d\n", id, flag, ret1);
hal_regulator_regs_check();
return 0;
}
FINSH_FUNCTION_EXPORT_CMD(cmd_set_voltage_ext, hal_regulator_set_voltage, regulator hal APIs tests)
power 模块使用范例
#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <sunxi_hal_power.h>
#include <hal_cmd.h>
#include <hal_log.h>
static int cmd_test_power_get_bat(int argc, const char **argv)
{
int ret;
struct power_dev rdev;
printf("[power] get power\n");
hal_power_get(&rdev);
printf("[power] get bat cap\n");
ret = hal_power_get_bat_cap(&rdev);
printf("[power] bat cap:%d\n", ret);
printf("[power] get_coulumb_counter\n");
ret = hal_power_get_coulumb_counter(&rdev);
printf("[power] coulumb_counter:%d\n", ret);
printf("[power] get bat_present\n");
pr_err("pmu_bat_unused:%d\n", rdev.config->pmu_bat_unused);
pr_err("pmu_version:%d\n", rdev.config->pmu_version);
ret = hal_power_get_bat_present(&rdev);
printf("[power] bat_present:%d\n", ret);
printf("[power] get online\n");
ret = hal_power_get_bat_online(&rdev);
printf("[power] bat online:%d\n", ret);
printf("[power] get status\n");
ret = hal_power_get_bat_status(&rdev);
printf("[power] bat status:%d\n", ret);
printf("[power] get bat health\n");
ret = hal_power_get_bat_health(&rdev);
printf("[power] bat health:%d\n", ret);
printf("[power] get vbat\n");
ret = hal_power_get_vbat(&rdev);
printf("[power] bat vbat:%d\n", ret);
printf("[power] get ibat\n");
ret = hal_power_get_ibat(&rdev);
printf("[power] bat ibat:%d\n", ret);
printf("[power] get disibat\n");
ret = hal_power_get_disibat(&rdev);
printf("[power] bat disibat:%d\n", ret);
printf("[power] get temp\n");
ret = hal_power_get_temp(&rdev);
printf("[power] bat temp:%d\n", ret);
printf("[power] bat get test finish\n");
return 0;
}
FINSH_FUNCTION_EXPORT_CMD(cmd_test_power_get_bat, test_power_get_bat, power hal APIs tests)
static int cmd_test_power_set_bat(int argc, const char **argv)
{
int ret;
struct power_dev rdev;
int cur = strtol(argv[1], NULL, 0);
int vol = strtol(argv[2], NULL, 0);
printf("[power] set bat power:cur:%d vol:%d\n", cur, vol);
hal_power_get(&rdev);
printf("[power] set bat cur:%d\n", cur);
ret = hal_power_set_chg_cur(&rdev, cur);
printf("[power] chg_cur:%d\n", ret);
printf("[power] set bat vol:%d\n", vol);
ret = hal_power_set_chg_vol(&rdev, vol);
printf("[power] _chg_vol:%d\n", ret);
printf("[power] bat set test finish\n");
return 0;
}
FINSH_FUNCTION_EXPORT_CMD(cmd_test_power_set_bat, test_power_set_bat, power hal APIs tests)
static int cmd_test_power_get_usb(int argc, const char **argv)
{
int ret;
struct power_dev rdev;
printf("[power] get power\n");
hal_power_get(&rdev);
printf("[power] get usb_status\n");
ret = hal_power_get_usb_status(&rdev);
printf("[power] usb_status:%d\n", ret);
printf("[power] usb_ihold\n");
ret = hal_power_get_usb_ihold(&rdev);
printf("[power] usb_ihold:%d\n", ret);
printf("[power] get usb_vhold\n");
ret = hal_power_get_usb_vhold(&rdev);
printf("[power] usb_vhold:%d\n", ret);
printf("[power] get cc_status\n");
ret = hal_power_get_cc_status(&rdev);
printf("[power] cc_status:%d\n", ret);
printf("[power] usb get test finish\n");
return 0;
}
FINSH_FUNCTION_EXPORT_CMD(cmd_test_power_get_usb, test_power_get_usb, power hal APIs tests)
static int cmd_test_power_set_usb(int argc, const char **argv)
{
int ret;
struct power_dev rdev;
int cur = strtol(argv[1], NULL, 0);
int vol = strtol(argv[2], NULL, 0);
printf("[power] set usb power:cur:%d vol:%d\n", cur, vol);
hal_power_get(&rdev);
printf("[power] set usb_ihold:%d\n", cur);
ret = hal_power_set_usb_ihold(&rdev, cur);
printf("[power] usb_ihold:%d\n", ret);
printf("[power] set usb_vhold:%d\n", vol);
ret = hal_power_set_usb_vhold(&rdev, vol);
printf("[power] usb_vhold:%d\n", ret);
printf("[power] usb set test finish\n");
return 0;
}
FINSH_FUNCTION_EXPORT_CMD(cmd_test_power_set_usb, test_power_set_usb, power hal APIs tests)