Motion_EC_Stm32_archived/Middlewares/Coulomb/coulomb.c

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/*
* @Description: file content
* @Author: CK.Zh
* @Date: 2020-04-27 18:01:58
* @LastEditors: CK.Zh
* @LastEditTime: 2020-04-29 17:49:01
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*/
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#include "coulomb.h"
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coulomb_t coulomb;
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//静态方法,检测设备是否就绪
static HAL_StatusTypeDef is_coulomb_ready()
{
return HAL_I2C_IsDeviceReady(&hi2c1,COULOMB_ADDR,3,20);
}
//静态方法,写寄存器
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static HAL_StatusTypeDef coulomb_write_reg(uint8_t addr,uint8_t* pData)
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{
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return HAL_I2C_Mem_Write(&hi2c1,COULOMB_ADDR ,addr,1,pData, 1, 10);
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}
//静态方法,读寄存器
static HAL_StatusTypeDef coulomb_read_reg(uint8_t addr,uint8_t* pData)
{
return HAL_I2C_Mem_Read(&hi2c1,COULOMB_ADDR ,addr,1,pData, 1, 10);
}
/**
* @description:
* @param pData
* @param msbIndex
* @param lsbIndex
* @return:
*/
static uint16_t uint8_to_uint16(uint8_t *pData,uint8_t msbIndex,uint8_t lsbIndex)
{
return ((pData[msbIndex]<<8) | pData[lsbIndex]);
}
/**
* @description:
* @param data
* @return:
*/
static uint8_t uint16_to_uint8_msb(uint16_t data)
{
return ((data>>8) & 0xff);
}
/**
* @description:
* @param data
* @return:
*/
static uint8_t uint16_to_uint8_lsb(uint16_t data)
{
return ((data ) & 0xff);
}
/**
* @description: ()
* @param {type}
* @return:
*/
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// void coulomb_write_config_load_default()
// {
// coulomb.write.raw.control = 0xEC;
// coulomb.write.raw.accumulated_charge = 0x7fff;
// coulomb.write.raw.charge_threshold_H = 0xffff;
// coulomb.write.raw.charge_threshold_L = 0x0000;
// coulomb.write.raw.voltage_threshold_H = 0xffff;
// coulomb.write.raw.voltage_threshold_L = 0x0000;
// coulomb.write.raw.current_threshold_H = 0xffff;
// coulomb.write.raw.current_threshold_L = 0x0000;
// coulomb.write.raw.temperature_threshold_H = 0xff;
// coulomb.write.raw.temperature_threshold_L = 0x00;
// }
/**
* @description:
* @param {type}
* @return:
*/
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void coulomb_write_config_load()
{
//控制寄存器配置
coulomb.write.actual.control.adc_mode = 0b00;
coulomb.write.actual.control.prescaler = 0b111;
coulomb.write.actual.control.alcc_configure = 0b10;
coulomb.write.actual.control.shutdown = 0b00;
//剩余容量重写入
coulomb.write.actual.accumulated_charge = 2;
//充电阈值上限
coulomb.write.actual.charge_threshold_H = 20;
//充电阈值下限
coulomb.write.actual.charge_threshold_L = 1;
//电压阈值上限
coulomb.write.actual.voltage_threshold_H = 15;
//电压阈值下限
coulomb.write.actual.voltage_threshold_L = 9.5;
//电流阈值上限
coulomb.write.actual.current_threshold_H = 10;
//电流阈值下限
coulomb.write.actual.current_threshold_L = -10;
//温度阈值上限
coulomb.write.actual.temperature_threshold_H = 60;
//温度阈值下限
coulomb.write.actual.temperature_threshold_L = -15;
}
/**
* @description:
* @param {type}
* @return:
*/
void coulomb_write_config_actual_to_raw()
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{
//控制寄存器
coulomb.write.raw.control = (coulomb.write.actual.control.adc_mode << 6) | \
(coulomb.write.actual.control.prescaler << 3) | \
(coulomb.write.actual.control.alcc_configure << 1) | \
(coulomb.write.actual.control.shutdown ) ;
//累计电量
coulomb.write.raw.accumulated_charge = (uint16_t)((coulomb.write.actual.accumulated_charge / 30.0) * 32767 + 32767);
//充电阈值上限
coulomb.write.raw.charge_threshold_H = (uint16_t)((coulomb.write.actual.charge_threshold_H / 30.0) * 32767 + 32767);
//充电阈值下限
coulomb.write.raw.charge_threshold_L = (uint16_t)((coulomb.write.actual.charge_threshold_L / 30.0) * 32767 + 32767);
//电压阈值上限
coulomb.write.raw.voltage_threshold_H = (uint16_t)((coulomb.write.actual.voltage_threshold_H / 23.6) * 65535);
//电压阈值下限
coulomb.write.raw.voltage_threshold_L = (uint16_t)((coulomb.write.actual.voltage_threshold_L / 23.6) * 65535);
//电流阈值上限
coulomb.write.raw.current_threshold_H = (uint16_t)((coulomb.write.actual.current_threshold_H / 30.0) * 32767 + 32767);
//电流阈值下限
coulomb.write.raw.current_threshold_L = (uint16_t)((coulomb.write.actual.current_threshold_L / 30.0) * 32767 + 32767);
//温度阈值上限
coulomb.write.raw.temperature_threshold_H = ((uint16_t)((coulomb.write.actual.temperature_threshold_H + 273.15) / 510.0 * 65535)) & 0xFF00;//清空低字节
//温度阈值下限
coulomb.write.raw.temperature_threshold_L = ((uint16_t)((coulomb.write.actual.temperature_threshold_L + 273.15) / 510.0 * 65535)) & 0xFF00;//清空低字节
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}
/**
* @description:
* @param {type}
* @return:
*/
bool coulomb_write_config()
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{
uint8_t writeData[COULOMB_REG_NUM] = {0};
//控制寄存器
writeData[LTC2943_CONTROL_REG] = coulomb.write.raw.control;
//累计电量
writeData[LTC2943_ACCUM_CHARGE_MSB_REG] = uint16_to_uint8_msb(coulomb.write.raw.accumulated_charge);
writeData[LTC2943_ACCUM_CHARGE_LSB_REG] = uint16_to_uint8_lsb(coulomb.write.raw.accumulated_charge);
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//充电阈值上限
writeData[LTC2943_CHARGE_THRESH_HIGH_MSB_REG] = uint16_to_uint8_msb(coulomb.write.raw.charge_threshold_H);
writeData[LTC2943_CHARGE_THRESH_HIGH_LSB_REG] = uint16_to_uint8_lsb(coulomb.write.raw.charge_threshold_H);
//充电阈值下限
writeData[LTC2943_CHARGE_THRESH_LOW_MSB_REG] = uint16_to_uint8_msb(coulomb.write.raw.charge_threshold_L);
writeData[LTC2943_CHARGE_THRESH_LOW_LSB_REG] = uint16_to_uint8_lsb(coulomb.write.raw.charge_threshold_L);
//电压阈值上限
writeData[LTC2943_VOLTAGE_THRESH_HIGH_MSB_REG] = uint16_to_uint8_msb(coulomb.write.raw.voltage_threshold_H);
writeData[LTC2943_VOLTAGE_THRESH_HIGH_LSB_REG] = uint16_to_uint8_lsb(coulomb.write.raw.voltage_threshold_H);
//电压阈值下限
writeData[LTC2943_VOLTAGE_THRESH_LOW_MSB_REG] = uint16_to_uint8_msb(coulomb.write.raw.voltage_threshold_L);
writeData[LTC2943_VOLTAGE_THRESH_LOW_LSB_REG] = uint16_to_uint8_lsb(coulomb.write.raw.voltage_threshold_L);
//电流阈值上限
writeData[LTC2943_CURRENT_THRESH_HIGH_MSB_REG] = uint16_to_uint8_msb(coulomb.write.raw.current_threshold_H);
writeData[LTC2943_CURRENT_THRESH_HIGH_LSB_REG] = uint16_to_uint8_lsb(coulomb.write.raw.current_threshold_H);
//电流阈值下限
writeData[LTC2943_CURRENT_THRESH_LOW_MSB_REG] = uint16_to_uint8_msb(coulomb.write.raw.current_threshold_L);
writeData[LTC2943_CURRENT_THRESH_LOW_LSB_REG] = uint16_to_uint8_lsb(coulomb.write.raw.current_threshold_L);
//温度阈值上限
writeData[LTC2943_TEMPERATURE_THRESH_HIGH_REG] = uint16_to_uint8_msb(coulomb.write.raw.temperature_threshold_H);
//温度阈值下限
writeData[LTC2943_TEMPERATURE_THRESH_LOW_REG] = uint16_to_uint8_msb(coulomb.write.raw.temperature_threshold_L);
coulomb.ready = (is_coulomb_ready()==HAL_OK) ? true : false;
if(coulomb.ready)
{
coulomb_write_reg(LTC2943_CONTROL_REG,&writeData[LTC2943_CONTROL_REG]);
coulomb_write_reg(LTC2943_ACCUM_CHARGE_MSB_REG,&writeData[LTC2943_ACCUM_CHARGE_MSB_REG]);
coulomb_write_reg(LTC2943_ACCUM_CHARGE_LSB_REG,&writeData[LTC2943_ACCUM_CHARGE_LSB_REG]);
coulomb_write_reg(LTC2943_CHARGE_THRESH_HIGH_MSB_REG,&writeData[LTC2943_CHARGE_THRESH_HIGH_MSB_REG]);
coulomb_write_reg(LTC2943_CHARGE_THRESH_HIGH_LSB_REG,&writeData[LTC2943_CHARGE_THRESH_HIGH_LSB_REG]);
coulomb_write_reg(LTC2943_CHARGE_THRESH_LOW_MSB_REG,&writeData[LTC2943_CHARGE_THRESH_LOW_MSB_REG]);
coulomb_write_reg(LTC2943_CHARGE_THRESH_LOW_LSB_REG,&writeData[LTC2943_CHARGE_THRESH_LOW_LSB_REG]);
coulomb_write_reg(LTC2943_VOLTAGE_THRESH_HIGH_MSB_REG,&writeData[LTC2943_VOLTAGE_THRESH_HIGH_MSB_REG]);
coulomb_write_reg(LTC2943_VOLTAGE_THRESH_HIGH_LSB_REG,&writeData[LTC2943_VOLTAGE_THRESH_HIGH_LSB_REG]);
coulomb_write_reg(LTC2943_VOLTAGE_THRESH_LOW_MSB_REG,&writeData[LTC2943_VOLTAGE_THRESH_LOW_MSB_REG]);
coulomb_write_reg(LTC2943_VOLTAGE_THRESH_LOW_LSB_REG,&writeData[LTC2943_VOLTAGE_THRESH_LOW_LSB_REG]);
coulomb_write_reg(LTC2943_CURRENT_THRESH_HIGH_MSB_REG,&writeData[LTC2943_CURRENT_THRESH_HIGH_MSB_REG]);
coulomb_write_reg(LTC2943_CURRENT_THRESH_HIGH_LSB_REG,&writeData[LTC2943_CURRENT_THRESH_HIGH_LSB_REG]);
coulomb_write_reg(LTC2943_CURRENT_THRESH_LOW_MSB_REG,&writeData[LTC2943_CURRENT_THRESH_LOW_MSB_REG]);
coulomb_write_reg(LTC2943_CURRENT_THRESH_LOW_LSB_REG,&writeData[LTC2943_CURRENT_THRESH_LOW_LSB_REG]);
coulomb_write_reg(LTC2943_TEMPERATURE_THRESH_HIGH_REG,&writeData[LTC2943_TEMPERATURE_THRESH_HIGH_REG]);
coulomb_write_reg(LTC2943_TEMPERATURE_THRESH_LOW_REG,&writeData[LTC2943_TEMPERATURE_THRESH_LOW_REG]);
}
return coulomb.ready;
}
/**
* @description:
* @param {type}
* @return:
*/
void coulomb_read_status_raw_to_actual()
{
//status 转换到 对应位
coulomb.read.actual.status.current_alret = ((coulomb.read.raw.status>>6) & 0b00000001) ? true : false;
coulomb.read.actual.status.accumulated_charge_alert = ((coulomb.read.raw.status>>5) & 0b00000001) ? true : false;
coulomb.read.actual.status.temperature_alret = ((coulomb.read.raw.status>>4) & 0b00000001) ? true : false;
coulomb.read.actual.status.charge_alert_H = ((coulomb.read.raw.status>>3) & 0b00000001) ? true : false;
coulomb.read.actual.status.charge_alert_L = ((coulomb.read.raw.status>>2) & 0b00000001) ? true : false;
coulomb.read.actual.status.voltage_alert = ((coulomb.read.raw.status>>1) & 0b00000001) ? true : false;
coulomb.read.actual.status.uvlo_alert = ( coulomb.read.raw.status & 0b00000001) ? true : false;
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//剩余电量转换
coulomb.read.actual.accumulated_charge = (coulomb.read.raw.accumulated_charge - 32767) / 32767.0 * 30 ;
//电压转换
coulomb.read.actual.voltage = coulomb.read.raw.voltage / 65535.0 *23.6;
//电流转换
coulomb.read.actual.current = (coulomb.read.raw.current - 32767) / 32767.0 * 30 ;
//温度转换
coulomb.read.actual.temperature = (coulomb.read.raw.temperature / 65535.0 * 510 ) - 273.15;
}
/**
* @description:
* @param {type}
* @return:
*/
void coulomb_read_config_raw_to_actual()
{
//control寄存器转换到对应位
coulomb.read.actual.control.adc_mode = ((coulomb.read.raw.control >> 6) & 0b00000011);
coulomb.read.actual.control.prescaler = ((coulomb.read.raw.control >> 3) & 0b00000111);
coulomb.read.actual.control.alcc_configure = ((coulomb.read.raw.control >> 1) & 0b00000011);
coulomb.read.actual.control.shutdown = ( coulomb.read.raw.control & 0b00000001);
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//阈值累计充电转换
coulomb.read.actual.charge_threshold_H = (coulomb.read.raw.charge_threshold_H - 32767) / 32767.0 * 30;
coulomb.read.actual.charge_threshold_L = (coulomb.read.raw.charge_threshold_L - 32767) / 32767.0 * 30;
//电压阈值转换
coulomb.read.actual.voltage_threshold_H = coulomb.read.raw.voltage_threshold_H / 65535.0 *23.6;
coulomb.read.actual.voltage_threshold_L = coulomb.read.raw.voltage_threshold_L / 65535.0 *23.6;
//电流阈值转换
coulomb.read.actual.current_threshold_H = (coulomb.read.raw.current_threshold_H - 32767) / 32767.0 * 30 ;
coulomb.read.actual.current_threshold_L = (coulomb.read.raw.current_threshold_L - 32767) / 32767.0 * 30 ;
//温度阈值转换
coulomb.read.actual.temperature_threshold_H = (coulomb.read.raw.temperature_threshold_H / 65535.0 * 510 ) - 273.15;
coulomb.read.actual.temperature_threshold_L = (coulomb.read.raw.temperature_threshold_L / 65535.0 * 510 ) - 273.15;
}
//读取原始寄存器数据
/**
* @description:
* @param {type}
* @return:
*/
bool coulomb_read_status_and_config()
{
uint8_t readData[COULOMB_REG_NUM];
coulomb.ready = (is_coulomb_ready()==HAL_OK) ? true : false;
if(coulomb.ready)
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{
HAL_I2C_Mem_Read(&hi2c1,COULOMB_ADDR ,0,1,readData, 1, 10);
HAL_I2C_Mem_Read(&hi2c1,COULOMB_ADDR ,0,COULOMB_REG_NUM,&readData[1], COULOMB_REG_NUM, 100);
coulomb.read.raw.status = readData[LTC2943_STATUS_REG];
coulomb.read.raw.control = readData[LTC2943_CONTROL_REG];
coulomb.read.raw.accumulated_charge = uint8_to_uint16(readData,LTC2943_ACCUM_CHARGE_MSB_REG,LTC2943_ACCUM_CHARGE_LSB_REG);
coulomb.read.raw.charge_threshold_H = uint8_to_uint16(readData,LTC2943_CHARGE_THRESH_HIGH_MSB_REG,LTC2943_CHARGE_THRESH_HIGH_LSB_REG);
coulomb.read.raw.charge_threshold_L = uint8_to_uint16(readData,LTC2943_CHARGE_THRESH_LOW_MSB_REG,LTC2943_CHARGE_THRESH_LOW_LSB_REG);
coulomb.read.raw.voltage = uint8_to_uint16(readData,LTC2943_VOLTAGE_MSB_REG,LTC2943_VOLTAGE_LSB_REG);
coulomb.read.raw.voltage_threshold_H = uint8_to_uint16(readData,LTC2943_VOLTAGE_THRESH_HIGH_MSB_REG,LTC2943_VOLTAGE_THRESH_HIGH_LSB_REG);
coulomb.read.raw.voltage_threshold_L = uint8_to_uint16(readData,LTC2943_VOLTAGE_THRESH_LOW_MSB_REG,LTC2943_VOLTAGE_THRESH_LOW_LSB_REG);
coulomb.read.raw.current = uint8_to_uint16(readData,LTC2943_CURRENT_MSB_REG,LTC2943_CURRENT_LSB_REG);
coulomb.read.raw.current_threshold_H = uint8_to_uint16(readData,LTC2943_CURRENT_THRESH_HIGH_MSB_REG,LTC2943_CURRENT_THRESH_HIGH_LSB_REG);
coulomb.read.raw.current_threshold_L = uint8_to_uint16(readData,LTC2943_CURRENT_THRESH_LOW_MSB_REG,LTC2943_CURRENT_THRESH_LOW_LSB_REG);
coulomb.read.raw.temperature = uint8_to_uint16(readData,LTC2943_TEMPERATURE_MSB_REG,LTC2943_TEMPERATURE_LSB_REG);
coulomb.read.raw.temperature_threshold_H = (readData[LTC2943_TEMPERATURE_THRESH_HIGH_REG]<<8) | 0x00;//补充低字节
coulomb.read.raw.temperature_threshold_L = (readData[LTC2943_TEMPERATURE_THRESH_LOW_REG]<<8) | 0x00;//补充低字节
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}
return coulomb.ready;
}
bool coulomb_read_alcc()
{
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return HAL_GPIO_ReadPin(PMB_CLOULOMB_ALCC_GPIO_Port,PMB_CLOULOMB_ALCC_Pin);
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}