#include "inFlash.h" #include "parameter.h" #include "pDebug.h" // static uint8_t config_buff[200]; // static uint8_t config_buff_pos = 0; /** * @brief 校验算法, modebus * @param * @retval */ static uint16_t configCheckFunc(uint8_t *arr_buff, uint8_t len) { uint16_t crc = 0xFFFF; uint16_t i, j; for (j = 0; j < len; ++j) { crc = crc ^ (*arr_buff++); for (i = 0; i < 8; ++i) { if ((crc&0x0001) > 0) { crc = crc >> 1; crc = crc ^ 0xa001; } else { crc = crc >> 1; } } } return crc; } /** * @brief 保存配置信息 * @param save_config_info 需要保存的配置信息 * @retval None */ void save_config_info(config_info *save_config_info) { write_Flash((uint8_t *)save_config_info, CONFIG_SAVE_ADDR_BEGIN, CONFIG_INFO_SIZE); } /** * @brief 保存配置信息到备份区 * @param save_config_info 需要保存的配置信息 * @retval None */ static void save_backups_config_info(config_info *save_config_info) { write_Flash((uint8_t *)save_config_info, CONFIG_SAVE_addr, CONFIG_INFO_SIZE); } /** * @brief 读取配置信息 * @param read_config_info 读取配置信息并保存在output_config_info中 * @retval None */ void read_config_info(config_info *output_config_info) { read_Flash((uint8_t *)output_config_info, CONFIG_SAVE_ADDR_BEGIN, CONFIG_INFO_SIZE); } /** * @brief 读取备份的配置信息 * @param read_config_info 读取配置信息并保存在output_config_info中 * @retval None */ static void read_backups_config_info(config_info *output_config_info) { read_Flash((uint8_t *)output_config_info, CONFIG_SAVE_addr, CONFIG_INFO_SIZE); } /** * @brief 检测flash中是否有配置文件或者文件是否有损坏,若两处flash中都损坏则使用默认文件 * @param config_info 读取的配置信息 * @retval None * */ static void readFlashContent(config_info *config_info) { read_config_info(config_info); /* 配置文件正确就返回 */ if (config_info->crc == configCheckFunc((uint8_t *)config_info, CONFIG_INFO_SIZE - 2)) { return; } /* 更深处的配置文件正确就返回 */ read_backups_config_info(config_info); if (config_info->crc == configCheckFunc((uint8_t *)config_info, CONFIG_INFO_SIZE - 2)) { save_config_info(config_info); return; } /* 配置文件错误使用默认配置 */ config_info->address[0] = 0x11; config_info->address[1] = 0x11; config_info->address[2] = 0x11; config_info->address[3] = 0x11; config_info->address[4] = 0x11; config_info->address[5] = 0x11; config_info->address[6] = 0x11; config_info->Access_Node_Type = 0x01; config_info->Communication_Methods = 0x02; config_info->gw485_Baud = 9600; config_info->bat485_Baud = 115200; config_info->hardwareID[0] = 0x48; config_info->hardwareID[1] = 0x59; config_info->hardwareID[2] = 0x30; config_info->hardwareID[3] = 0x30; config_info->hardwareID[4] = 0x30; config_info->hardwareID[5] = 0x31; config_info->communicationID[0] = 0x00; config_info->communicationID[1] = 0x00; config_info->communicationID[2] = 0x00; config_info->communicationID[3] = 0x01; config_info->protocolType = 0x01; // config_info->CommunicationProtocolType = 0x00; config_info->onlyPower = 0x01; config_info->constantVoltageV = 14; config_info->floatI = 0.02; config_info->startSolarOpenCircuitV = 17; config_info->stopSolarOpenCircuitV = 15; config_info->constantVoltageChargeV = 14.4; config_info->FloatChargeV = 14; config_info->HighSideMosTemperature_stop = 100; config_info->HighSideMosTemperature_end = 90; config_info->HighSideMosTemperature_start = 50; config_info->checkSolarOpenCircuitVTime = 10; config_info->sensorEnableBroadcastTime = 20; config_info->outputAgainFlagTime = 10; config_info->excessiveLoadFlagTime = 60; config_info->eLAgainTime = 1800; } /** * @brief 通过配置文件初始化系统参数 * @param None * @retval None * */ void config_info_start(void) { Flash_Init(); config_info temp_configInfo; readFlashContent(&temp_configInfo); g_cfgParameter.constantVoltageV = temp_configInfo.constantVoltageV; g_cfgParameter.floatI = temp_configInfo.floatI; g_cfgParameter.startSolarOpenCircuitV = temp_configInfo.startSolarOpenCircuitV; g_cfgParameter.stopSolarOpenCircuitV = temp_configInfo.stopSolarOpenCircuitV; g_cfgParameter.constantVoltageChargeV = temp_configInfo.constantVoltageChargeV; g_cfgParameter.FloatV = temp_configInfo.FloatChargeV; g_cfgParameter.HighSideMosTemperature_stop = temp_configInfo.HighSideMosTemperature_stop; g_cfgParameter.HighSideMosTemperature_end = temp_configInfo.HighSideMosTemperature_end; g_cfgParameter.HighSideMosTemperature_start = temp_configInfo.HighSideMosTemperature_start; g_cfgParameter.sensorEnableBroadcastTime = temp_configInfo.sensorEnableBroadcastTime; g_cfgParameter.checkSolarOpenCircuitVTime = temp_configInfo.checkSolarOpenCircuitVTime; g_cfgParameter.outputAgainFlagTime = temp_configInfo.outputAgainFlagTime; g_cfgParameter.excessiveLoadFlagTime = temp_configInfo.excessiveLoadFlagTime; g_cfgParameter.eLAgainTime = temp_configInfo.eLAgainTime; g_cfgParameter.collectOpenCircuitVoltageTime= 3600; g_cfgParameter.address[0] = temp_configInfo.address[0]; g_cfgParameter.address[1] = temp_configInfo.address[1]; g_cfgParameter.address[2] = temp_configInfo.address[2]; g_cfgParameter.address[3] = temp_configInfo.address[3]; g_cfgParameter.address[4] = temp_configInfo.address[4]; g_cfgParameter.address[5] = temp_configInfo.address[5]; g_cfgParameter.address[6] = temp_configInfo.address[6]; g_cfgParameter.Access_Node_Type = temp_configInfo.Access_Node_Type; g_cfgParameter.Communication_Methods = temp_configInfo.Communication_Methods; g_cfgParameter.hardwareID[0] = temp_configInfo.hardwareID[0]; g_cfgParameter.hardwareID[1] = temp_configInfo.hardwareID[1]; g_cfgParameter.hardwareID[2] = temp_configInfo.hardwareID[2]; g_cfgParameter.hardwareID[3] = temp_configInfo.hardwareID[3]; g_cfgParameter.hardwareID[4] = temp_configInfo.hardwareID[4]; g_cfgParameter.hardwareID[5] = temp_configInfo.hardwareID[5]; g_cfgParameter.communicationID[0] = temp_configInfo.communicationID[0]; g_cfgParameter.communicationID[1] = temp_configInfo.communicationID[1]; g_cfgParameter.communicationID[2] = temp_configInfo.communicationID[2]; g_cfgParameter.communicationID[3] = temp_configInfo.communicationID[3]; g_cfgParameter.protocolType = temp_configInfo.protocolType; // g_cfgParameter.CommunicationProtocolType = temp_configInfo.CommunicationProtocolType; g_cfgParameter.onlyPower = temp_configInfo.onlyPower; g_cfgParameter.startFlagSL[0] = 'S'; g_cfgParameter.startFlagSL[1] = 'L'; g_cfgParameter.endFlagSL = 0x16; g_cfgParameter.startFlagHY = 0x68; g_cfgParameter.endFlagHY = 0x16; // if (g_cfgParameter.CommunicationProtocolType == 0x00) { // g_cfgParameter.gw485_Baud = temp_configInfo.gw485_Baud; // g_cfgParameter.bat485_Baud = temp_configInfo.bat485_Baud; // } else if (g_cfgParameter.CommunicationProtocolType == 0x01) { // g_cfgParameter.bat485_Baud = temp_configInfo.bat485_Baud; // if (g_cfgParameter.protocolType == 0x01) { // g_cfgParameter.gw485_Baud = 9600; // } else if (g_cfgParameter.protocolType == 0x02) { // g_cfgParameter.gw485_Baud = 115200; // } // } g_cfgParameter.gw485_Baud = 9600; g_cfgParameter.gw485_Baud = 115200; float fTemp; readLoopImpedance(&fTemp); /* 读取的回路阻抗偏差过大则不使用 */ if (fTemp > (float)0.005 && fTemp < (float)1) { g_cfgParameter.loopImpedance = fTemp; } else { g_cfgParameter.loopImpedance = 0; saveLoopImpedance(&g_cfgParameter.loopImpedance); } readtotalElectricityConsumption(&fTemp); totalElectricityConsumptionInt(fTemp); readtotalChargCapacity(&fTemp); totalChargCapacityInt(fTemp); } /** * @brief 判断接收到的配置文件数据是否正确,正确的话存入flash中 * @param None * @retval None * */ // #define enlargeScale 100 // BOOL read_and_process_config_data(uint8_t *config_buff[]) // { // recv_config_info *pack = (recv_config_info *)*config_buff; // config_info save_configInfo; // while (config_buff_pos >= RECV_CONFIG_INFO) { // /* 判断起始标志是否正确 */ // if (pack->start_Flag[0] != g_cfgParameter.startFlagSL[0] // || pack->start_Flag[1] != g_cfgParameter.startFlagSL[1]) { // // debug(" start_Flag : 0x%x, 0x%x \n", pack->start_Flag[0], pack->start_Flag[1]); // goto err; // } // /* 判断接入节点类型是否正确 */ // save_configInfo.Access_Node_Type = (uint16_t)pack->Access_Node_Type[0] << 8 // | (uint16_t)pack->Access_Node_Type[1]; // // debug(" Access_Node_Type : 0x%x \n", save_configInfo.Access_Node_Type); // if (save_configInfo.Access_Node_Type != POWERBOX) { // goto err; // } // /* 判断通信方式是否正确 */ // save_configInfo.Communication_Methods = (uint16_t)pack->Communication_Methods[0] << 8 // | (uint16_t)pack->Communication_Methods[1]; // // debug(" Communication_Methods : 0x%x \n", save_configInfo.Communication_Methods); // // if (temp_u16 != RS485 || temp_u16 != RJ45) { // if (save_configInfo.Communication_Methods != RS485) { // goto err; // } // /* 判断波特率是否正确 */ // save_configInfo.gw485_Baud = (uint32_t)pack->gw485_Baud[0] << 24 // | (uint32_t)pack->gw485_Baud[1] << 16 // | (uint32_t)pack->gw485_Baud[2] << 8 // | (uint32_t)pack->gw485_Baud[3]; // // debug(" gw485_Baud : 0x%x, %d \n", save_configInfo.gw485_Baud, save_configInfo.gw485_Baud); // if (save_configInfo.gw485_Baud != 9600 && save_configInfo.gw485_Baud != 115200) { // // if (save_configInfo.gw485_Baud != 0x2580 || save_configInfo.gw485_Baud != 115200) { // // debug(" error : %d\n", save_configInfo.gw485_Baud); // goto err; // } // save_configInfo.bat485_Baud = (uint32_t)pack->bat485_Baud[0] << 24 // | (uint32_t)pack->bat485_Baud[1] << 16 // | (uint32_t)pack->bat485_Baud[2] << 8 // | (uint32_t)pack->bat485_Baud[3]; // // debug(" bat485_Baud : 0x%x, %d \n", save_configInfo.bat485_Baud, save_configInfo.bat485_Baud); // if (save_configInfo.bat485_Baud != 9600 && save_configInfo.bat485_Baud!= 115200 && save_configInfo.bat485_Baud!= 0) { // goto err; // } // /* 判断协议类型是否正确 */ // if (pack->protocolType != 0x01 && pack->protocolType != 0x02) { // goto err; // } // // debug(" protocolType : 0x%x \n", pack->protocolType); /* 判断通信协议类型是否正确 */ /* if (pack->CommunicationProtocolType != 0x00 && pack->CommunicationProtocolType != 0x01) { goto err; } // debug(" CommunicationProtocolType : 0x%x \n", pack->CommunicationProtocolType); */ // /* 判断电源盒类型是否正确 */ // if (pack->onlyPower != 0x00 && pack->onlyPower != 0x01) { // goto err; // } // // debug(" onlyPower : 0x%x \n", pack->onlyPower); // /* 判断恒压充电阈值是否正确 */ // save_configInfo.constantVoltageV = // (float)(pack->ConstantVoltageV[0] << 8 | pack->ConstantVoltageV[1]) / enlargeScale; // // debug(" constantVoltageV : %f \n", save_configInfo.constantVoltageV); // if (save_configInfo.constantVoltageV > (float)14.4 || save_configInfo.constantVoltageV < (float)13.5) { // goto err; // } // /* 判断浮充充电阈值是否正确 */ // save_configInfo.floatI = (float)(pack->FloatI[0] << 8 | pack->FloatI[1]) / enlargeScale; // // debug(" floatI : %f \n", save_configInfo.floatI); // if (save_configInfo.floatI > (float)0.2 || save_configInfo.floatI < (float)0) { // goto err; // } // /* 判断太阳能板开路启动电压是否正确 */ // save_configInfo.startSolarOpenCircuitV = // (float)(pack->startSolarOpenCircuitV[0] << 8 | pack->startSolarOpenCircuitV[1]) / enlargeScale; // // debug(" startSolarOpenCircuitV : %f \n", save_configInfo.startSolarOpenCircuitV); // if (save_configInfo.startSolarOpenCircuitV > 24 || save_configInfo.startSolarOpenCircuitV < 14) { // goto err; // } // /* 判断太阳能板关闭电压是否正确 */ // save_configInfo.stopSolarOpenCircuitV = // (float)(pack->stopSolarOpenCircuitV[0] << 8 | pack->stopSolarOpenCircuitV[1]) / enlargeScale; // // debug(" stopSolarOpenCircuitV : %f \n", save_configInfo.stopSolarOpenCircuitV); // if (save_configInfo.stopSolarOpenCircuitV > 17 || save_configInfo.stopSolarOpenCircuitV < 13) { // goto err; // } // /* 判断恒压充电时的输出电压是否正确 */ // save_configInfo.constantVoltageChargeV = // (float)(pack->constantVoltageChargeV[0] << 8 | pack->constantVoltageChargeV[1]) / enlargeScale; // // debug(" constantVoltageChargeV : %f \n", save_configInfo.constantVoltageChargeV); // if (save_configInfo.constantVoltageChargeV > (float)14.6 || save_configInfo.constantVoltageChargeV < (float)14) { // goto err; // } // /* 判断浮充充电时的输出电压是否正确 */ // save_configInfo.FloatChargeV = // (float)(pack->FloatChargeV[0] << 8 | pack->FloatChargeV[1]) / enlargeScale; // // debug(" FloatChargeV : %f \n", save_configInfo.FloatChargeV); // if (save_configInfo.FloatChargeV > (float)14.4 || save_configInfo.FloatChargeV < (float)13.8) { // goto err; // } // /* 判断mos管停止工作温度是否正确 */ // save_configInfo.HighSideMosTemperature_stop = // (float)(pack->HighSideMosTemperature_stop[0] << 8 | pack->HighSideMosTemperature_stop[1]) / enlargeScale; // // debug(" HighSideMosTemperature_stop : %f \n", save_configInfo.HighSideMosTemperature_stop); // if (save_configInfo.HighSideMosTemperature_stop < 60) { // goto err; // } // /* 判断mos管降低工作功率工作温度是否正确 */ // save_configInfo.HighSideMosTemperature_end = // (float)(pack->HighSideMosTemperature_end[0] << 8 | pack->HighSideMosTemperature_end[1]) / enlargeScale; // // debug(" HighSideMosTemperature_end : %f \n", save_configInfo.HighSideMosTemperature_end)); // if (save_configInfo.HighSideMosTemperature_end < 50) { // goto err; // } // /* 判断mos管完全恢复工作温度是否正确 */ // save_configInfo.HighSideMosTemperature_start = // (float)(pack->HighSideMosTemperature_start[0] << 8 | pack->HighSideMosTemperature_start[1]) / enlargeScale; // // debug(" HighSideMosTemperature_start : %d \n", save_configInfo.HighSideMosTemperature_start); // if (save_configInfo.HighSideMosTemperature_start < 40) { // goto err; // } // /* 判断启动任务中太阳能板开路电压检测间隔时间是否正确 */ // save_configInfo.checkSolarOpenCircuitVTime = // pack->checkSolarOpenCircuitVTime[0] << 8 | pack->checkSolarOpenCircuitVTime[1]; // // debug(" checkSolarOpenCircuitVTime : %d \n", save_configInfo.checkSolarOpenCircuitVTime); // if (save_configInfo.checkSolarOpenCircuitVTime > 1800 || save_configInfo.checkSolarOpenCircuitVTime < 5) { // goto err; // } // /* 判断传感器运行再次注册的间隔是否正确 */ // save_configInfo.sensorEnableBroadcastTime = // pack->sensorEnableBroadcastTime[0] << 8 | pack->sensorEnableBroadcastTime[1]; // // debug(" sensorEnableBroadcastTime : %d \n", save_configInfo.sensorEnableBroadcastTime); // if (save_configInfo.sensorEnableBroadcastTime > 60 || save_configInfo.sensorEnableBroadcastTime < 10) { // goto err; // } // /* 判断出现短路保护后延长该段时间再次检测是否短路,仍然短路则关闭输出的间隔是否正确 */ // save_configInfo.outputAgainFlagTime = // pack->outputAgainFlagTime[0] << 8 | pack->outputAgainFlagTime[1]; // // debug(" outputAgainFlagTime : %d \n", save_configInfo.outputAgainFlagTime); // if (save_configInfo.sensorEnableBroadcastTime > 30 || save_configInfo.sensorEnableBroadcastTime < 5) { // goto err; // } // /* 判断出现过载后,在该间隔时间中多次(2次)出现过载,则关闭输出的间隔是否正确 */ // save_configInfo.excessiveLoadFlagTime = // pack->excessiveLoadFlagTime[0] << 8 | pack->excessiveLoadFlagTime[1]; // // debug(" excessiveLoadFlagTime : %d \n", save_configInfo.excessiveLoadFlagTime); // if (save_configInfo.excessiveLoadFlagTime > 90 || save_configInfo.excessiveLoadFlagTime < 30) { // goto err; // } // /* 判断出现过载过载保护后,在该间隔段时间后,再次尝试输出的间隔是否正确 */ // save_configInfo.eLAgainTime = pack->eLAgainTime[0] << 8 | pack->eLAgainTime[1]; // // debug(" eLAgainTime : %d \n", save_configInfo.eLAgainTime); // if (save_configInfo.eLAgainTime > 3000 || save_configInfo.eLAgainTime < 1000) { // goto err; // } // /* crc校验 */ // save_configInfo.crc = pack->crc[0] << 8 | pack->crc[1]; // // debug(" crc : %x%x \n", pack->crc[0], pack->crc[1]); // if (save_configInfo.crc != configCheckFunc(config_buff, RECV_CONFIG_INFO - 3)) { // // debug(" configCheckFunc : %x \n", configCheckFunc(config_buff, RECV_CONFIG_INFO)); // goto err; // } // /* 结束标志 */ // // debug(" end_Flag : %x \n", pack->end_Flag); // if (pack->end_Flag != 0x16) { // goto err; // } // // debug("address : 0x %x %x %x %x %x %x %x\n", pack->address[0] // // , pack->address[1], pack->address[2], pack->address[3] // // , pack->address[4], pack->address[5], pack->address[6]); // config_info temp_configInfo; // read_config_info(&temp_configInfo); // if (pack->address[0] != 0xFF // || pack->address[1] != 0xFF // || pack->address[2] != 0xFF // || pack->address[3] != 0xFF // || pack->address[4] != 0xFF // || pack->address[5] != 0xFF // || pack->address[6] != 0xFF) { // save_configInfo.address[0] = pack->address[0]; // save_configInfo.address[1] = pack->address[1]; // save_configInfo.address[2] = pack->address[2]; // save_configInfo.address[3] = pack->address[3]; // save_configInfo.address[4] = pack->address[4]; // save_configInfo.address[5] = pack->address[5]; // save_configInfo.address[6] = pack->address[6]; // // debug("address : 0x %x %x %x %x %x %x %x\n", save_configInfo.address[0] // // , save_configInfo.address[1], save_configInfo.address[2], save_configInfo.address[3] // // , save_configInfo.address[4], save_configInfo.address[5], save_configInfo.address[6]); // } else { // save_configInfo.address[0] = temp_configInfo.address[0]; // save_configInfo.address[1] = temp_configInfo.address[1]; // save_configInfo.address[2] = temp_configInfo.address[2]; // save_configInfo.address[3] = temp_configInfo.address[3]; // save_configInfo.address[4] = temp_configInfo.address[4]; // save_configInfo.address[5] = temp_configInfo.address[5]; // save_configInfo.address[6] = temp_configInfo.address[6]; // } // if (pack->hardwareID[0] != 0xFF // || pack->hardwareID[1] != 0xFF // || pack->hardwareID[2] != 0xFF // || pack->hardwareID[3] != 0xFF // || pack->hardwareID[4] != 0xFF // || pack->hardwareID[5] != 0xFF) { // save_configInfo.hardwareID[0] = pack->hardwareID[0]; // save_configInfo.hardwareID[1] = pack->hardwareID[1]; // save_configInfo.hardwareID[2] = pack->hardwareID[2]; // save_configInfo.hardwareID[3] = pack->hardwareID[3]; // save_configInfo.hardwareID[4] = pack->hardwareID[4]; // save_configInfo.hardwareID[5] = pack->hardwareID[5]; // } else { // save_configInfo.hardwareID[0] = temp_configInfo.hardwareID[0]; // save_configInfo.hardwareID[1] = temp_configInfo.hardwareID[1]; // save_configInfo.hardwareID[2] = temp_configInfo.hardwareID[2]; // save_configInfo.hardwareID[3] = temp_configInfo.hardwareID[3]; // save_configInfo.hardwareID[4] = temp_configInfo.hardwareID[4]; // save_configInfo.hardwareID[5] = temp_configInfo.hardwareID[5]; // } // if (pack->communicationID[0] != 0xFF // || pack->communicationID[1] != 0xFF // || pack->communicationID[2] != 0xFF // || pack->communicationID[3] != 0xFF) { // save_configInfo.communicationID[0] = pack->communicationID[0]; // save_configInfo.communicationID[1] = pack->communicationID[1]; // save_configInfo.communicationID[2] = pack->communicationID[2]; // save_configInfo.communicationID[3] = pack->communicationID[3]; // } else { // save_configInfo.communicationID[0] = temp_configInfo.communicationID[0]; // save_configInfo.communicationID[1] = temp_configInfo.communicationID[1]; // save_configInfo.communicationID[2] = temp_configInfo.communicationID[2]; // save_configInfo.communicationID[3] = temp_configInfo.communicationID[3]; // } // save_configInfo.protocolType = pack->protocolType; // save_configInfo.CommunicationProtocolType = pack->CommunicationProtocolType; // save_configInfo.onlyPower = pack->onlyPower; // save_configInfo.crc = configCheckFunc((uint8_t *)&save_configInfo, CONFIG_INFO_SIZE - 2); // save_backups_config_info(&save_configInfo); // save_config_info(&save_configInfo); // memset(config_buff, 0, sizeof(config_buff)); // // /* 返回更改配置文件成功 */ // // SL_Mppt_SOther_pack SUpdateProfile_pack = {0}; // // SUpdateProfile_pack.start_Flag[0] = g_otherParameter.startFlagSL[0]; // // SUpdateProfile_pack.start_Flag[1] = g_otherParameter.startFlagSL[1]; // // SUpdateProfile_pack.address[0] = save_configInfo.address[0]; // // SUpdateProfile_pack.address[1] = save_configInfo.address[1]; // // SUpdateProfile_pack.address[2] = save_configInfo.address[2]; // // SUpdateProfile_pack.address[3] = save_configInfo.address[3]; // // SUpdateProfile_pack.address[4] = save_configInfo.address[4]; // // SUpdateProfile_pack.address[5] = save_configInfo.address[5]; // // SUpdateProfile_pack.address[6] = save_configInfo.address[6]; // // SUpdateProfile_pack.function_Code = SL_Function_Code_Update_Profile; // // SUpdateProfile_pack.state = 0x01; // // uint16_t crc = CheckFuncSL((uint8_t *)&SUpdateProfile_pack, SL_MPPT_SOTHER_PACK_SIZE - 3); // // SUpdateProfile_pack.check_Bit_H = crc >> 8; // // SUpdateProfile_pack.check_Bit_L = crc; // // SUpdateProfile_pack.end_Flag = g_otherParameter.endFlagSL; // // while (1) { // // if (!Check_485_bus_busy(g_gw485_uart4_handle)) { // // uart_dev_write(g_gw485_uart4_handle, (uint8_t *)&SUpdateProfile_pack, SL_MPPT_SOTHER_PACK_SIZE); // // USART_ITConfig(USART3, USART_IT_RXNE, ENABLE); // // break; // // } // // Delay_Ms(randomDelay()); // // } // /* 复位 */ // NVIC_SystemReset(); // return; // err: // config_buff_pos--; // memcpy(config_buff, config_buff + 1, sizeof(config_buff) - 1); // } // } /** * @brief 保存回路阻抗在flash中 * @param */ void saveLoopImpedance(float *loopImpedance) { write_Flash((uint8_t *)loopImpedance, LoopImpedance_SAVE_addr, sizeof(float)); } /** * @brief 读取flash中的回路阻抗 * @param */ void readLoopImpedance(float *loopImpedance) { read_Flash((uint8_t *)loopImpedance, LoopImpedance_SAVE_addr, sizeof(float)); } /** * @brief 保存放电量在flash中 * @param */ void savetotalElectricityConsumption(float *totalElectricityConsumption) { write_Flash((uint8_t *)totalElectricityConsumption, totalElectricityConsumption_SAVE_addr, sizeof(float)); } /** * @brief 读取flash中的放电量 * @param */ void readtotalElectricityConsumption(float *totalElectricityConsumption) { read_Flash((uint8_t *)totalElectricityConsumption, totalElectricityConsumption_SAVE_addr, sizeof(float)); } /** * @brief 保存充电量在flash中 * @param */ void savetotalChargCapacity(float *totalChargCapacity) { write_Flash((uint8_t *)totalChargCapacity, totalChargCapacity_SAVE_addr, sizeof(float)); } /** * @brief 读取flash中的充电量 * @param */ void readtotalChargCapacity(float *totalChargCapacity) { read_Flash((uint8_t *)totalChargCapacity, totalChargCapacity_SAVE_addr, sizeof(float)); }