BatterySwap/System/Vehicle/Communication/BcuCanProtocolFunc.c

/*
 * @Author       : ChenJie
 * @Date         : 2021-12-22 17:09:09
 * @Version      : V3.0
 * @LastEditors  : ChenJie
 * @LastEditTime : 2021-12-30 13:53:04
 * @Description  : BcuCan鍗忚瑙ｆ瀽鍙婄粍鍖呭彂閫�
 * @FilePath     : \VehicleControl\VehicleControl\src\System\Vehicle\Communication\BcuCanProtocolFunc.c
 */
#include "BcuCanProtocolFunc.h"
/**
 * @brief :BcuCan瑙ｇ爜鍑芥暟
 * @param {UINT32} ID
 * @param {UINT8} *rawData
 * @return {*}
 */
void BcuDecodeFunction(UINT32 ID, UINT8 *rawData)
{
	switch (ID)
	{
	case 0x1801EFF4:
		BMS13_ReqVIN = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BcuRxFlag[0] = 0x01;
		break;
	case 0x1801FBF4:
		BMS_Cell_Volt[0] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[1] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[2] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[3] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[1] = 0x01;
		break;
	case 0x1802FBF4:
		BMS_Cell_Volt[4] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[5] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[6] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[7] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[2] = 0x01;
		break;
	case 0x1803FBF4:
		BMS_Cell_Volt[8] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[9] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[10] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[11] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[3] = 0x01;
		break;
	case 0x1804FBF4:
		BMS_Cell_Volt[12] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[13] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[14] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[15] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[4] = 0x01;
		break;
	case 0x1805FBF4:
		BMS_Cell_Volt[16] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[17] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[18] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[19] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[5] = 0x01;
		break;
	case 0x1806FBF4:
		BMS_Cell_Volt[20] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[21] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[22] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[23] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[6] = 0x01;
		break;
	case 0x1807FBF4:
		BMS_Cell_Volt[24] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[25] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[26] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[27] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[7] = 0x01;
		break;
	case 0x1808FBF4:
		BMS_Cell_Volt[28] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[29] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[30] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[31] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[8] = 0x01;
		break;
	case 0x1809FBF4:
		BMS_Cell_Volt[32] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[33] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[34] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[35] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[9] = 0x01;
		break;
	case 0x180AFBF4:
		BMS_Cell_Volt[36] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[37] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[38] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[39] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[10] = 0x01;
		break;
	case 0x180BFBF4:
		BMS_Cell_Volt[40] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[41] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[42] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[43] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[11] = 0x01;
		break;
	case 0x180CFBF4:
		BMS_Cell_Volt[44] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[45] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[46] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[47] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[12] = 0x01;
		break;
	case 0x180DFBF4:
		BMS_Cell_Volt[48] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[49] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[50] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[51] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[13] = 0x01;
		break;
	case 0x180EFBF4:
		BMS_Cell_Volt[52] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[53] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[54] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[55] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[14] = 0x01;
		break;
	case 0x180FFBF4:
		BMS_Cell_Volt[56] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[57] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[58] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[59] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[15] = 0x01;
		break;
	case 0x1810FBF4:
		BMS_Cell_Volt[60] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[61] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[62] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[63] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[16] = 0x01;
		break;
	case 0x1811FBF4:
		BMS_Cell_Volt[64] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[65] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[66] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[67] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[17] = 0x01;
		break;
	case 0x1812FBF4:
		BMS_Cell_Volt[68] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[69] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[70] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[71] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[18] = 0x01;
		break;
	case 0x1813FBF4:
		BMS_Cell_Volt[72] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[73] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[74] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[75] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[19] = 0x01;
		break;
	case 0x1814FBF4:
		BMS_Cell_Volt[76] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[77] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[78] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[79] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[20] = 0x01;
		break;
	case 0x1815FBF4:
		BMS_Cell_Volt[80] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[81] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[82] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[83] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[21] = 0x01;
		break;
	case 0x1816FBF4:
		BMS_Cell_Volt[84] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[85] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[86] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[87] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[22] = 0x01;
		break;
	case 0x1817FBF4:
		BMS_Cell_Volt[88] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[89] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[90] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[91] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[23] = 0x01;
		break;
	case 0x1818FBF4:
		BMS_Cell_Volt[92] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[93] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[94] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[95] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[24] = 0x01;
		break;
	case 0x1819FBF4:
		BMS_Cell_Volt[96] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[97] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[98] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[99] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[25] = 0x01;
		break;
	case 0x181AFBF4:
		BMS_Cell_Volt[100] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[101] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[102] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[103] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[26] = 0x01;
		break;
	case 0x181BFBF4:
		BMS_Cell_Volt[104] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[105] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[106] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[107] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[27] = 0x01;
		break;
	case 0x181CFBF4:
		BMS_Cell_Volt[108] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[109] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[110] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[111] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[28] = 0x01;
		break;
	case 0x181DFBF4:
		BMS_Cell_Volt[112] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[113] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[114] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[115] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[29] = 0x01;
		break;
	case 0x181EFBF4:
		BMS_Cell_Volt[116] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[117] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[118] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[119] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[30] = 0x01;
		break;
	case 0x181FFBF4:
		BMS_Cell_Volt[120] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[121] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[122] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[123] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[31] = 0x01;
		break;
	case 0x1820FBF4:
		BMS_Cell_Volt[124] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[125] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[126] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[127] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[32] = 0x01;
		break;
	case 0x1821FBF4:
		BMS_Cell_Volt[128] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[129] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[130] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[131] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[33] = 0x01;
		break;
	case 0x1822FBF4:
		BMS_Cell_Volt[132] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[133] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[134] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[135] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[34] = 0x01;
		break;
	case 0x1823FBF4:
		BMS_Cell_Volt[136] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[137] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[138] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[139] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[35] = 0x01;
		break;
	case 0x1824FBF4:
		BMS_Cell_Volt[140] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[141] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[142] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[143] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[36] = 0x01;
		break;
	case 0x1825FBF4:
		BMS_Cell_Volt[144] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[145] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[146] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[147] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[37] = 0x01;
		break;
	case 0x1826FBF4:
		BMS_Cell_Volt[148] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[149] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[150] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[151] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[38] = 0x01;
		break;
	case 0x1827FBF4:
		BMS_Cell_Volt[152] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[153] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[154] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[155] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[39] = 0x01;
		break;
	case 0x1828FBF4:
		BMS_Cell_Volt[156] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[157] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[158] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[159] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[40] = 0x01;
		break;
	case 0x1829FBF4:
		BMS_Cell_Volt[160] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[161] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[162] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[163] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[41] = 0x01;
		break;
	case 0x182AFBF4:
		BMS_Cell_Volt[164] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[165] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[166] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[167] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[42] = 0x01;
		break;
	case 0x182BFBF4:
		BMS_Cell_Volt[168] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[169] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[170] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[171] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[43] = 0x01;
		break;
	case 0x182CFBF4:
		BMS_Cell_Volt[172] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[173] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[174] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[175] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[44] = 0x01;
		break;
	case 0x182DFBF4:
		BMS_Cell_Volt[176] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[177] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[178] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[179] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[45] = 0x01;
		break;
	case 0x182EFBF4:
		BMS_Cell_Volt[180] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[181] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[182] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[183] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[46] = 0x01;
		break;
	case 0x182FFBF4:
		BMS_Cell_Volt[184] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[185] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[186] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[187] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[47] = 0x01;
		break;
	case 0x1830FBF4:
		BMS_Cell_Volt[188] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[189] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[190] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[191] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[48] = 0x01;
		break;
	case 0x1831FBF4:
		BMS_Cell_Volt[192] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[193] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[194] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[195] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[49] = 0x01;
		break;
	case 0x1832FBF4:
		BMS_Cell_Volt[196] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[197] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[198] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[199] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[50] = 0x01;
		break;
	case 0x1833FBF4:
		BMS_Cell_Volt[200] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[201] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[202] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[203] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[51] = 0x01;
		break;
	case 0x1834FBF4:
		BMS_Cell_Volt[204] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[205] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[206] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[207] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[52] = 0x01;
		break;
	case 0x1835FBF4:
		BMS_Cell_Volt[208] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[209] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[210] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[211] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[53] = 0x01;
		break;
	case 0x1836FBF4:
		BMS_Cell_Volt[212] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[213] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[214] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[215] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[54] = 0x01;
		break;
	case 0x1837FBF4:
		BMS_Cell_Volt[216] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[217] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[218] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[219] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[55] = 0x01;
		break;
	case 0x1838FBF4:
		BMS_Cell_Volt[220] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[221] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[222] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[223] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[56] = 0x01;
		break;
	case 0x1839FBF4:
		BMS_Cell_Volt[224] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[225] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[226] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[227] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[57] = 0x01;
		break;
	case 0x183AFBF4:
		BMS_Cell_Volt[228] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[229] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[230] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[231] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[58] = 0x01;
		break;
	case 0x183BFBF4:
		BMS_Cell_Volt[232] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[233] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[234] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[235] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[59] = 0x01;
		break;
	case 0x183CFBF4:
		BMS_Cell_Volt[236] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[237] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[238] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[239] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[60] = 0x01;
		break;
	case 0x183DFBF4:
		BMS_Cell_Volt[240] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[241] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[242] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[243] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[61] = 0x01;
		break;
	case 0x183EFBF4:
		BMS_Cell_Volt[244] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[245] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[246] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[247] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[62] = 0x01;
		break;
	case 0x183FFBF4:
		BMS_Cell_Volt[248] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[249] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[250] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[251] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[63] = 0x01;
		break;
	case 0x1840FBF4:
		BMS_Cell_Volt[252] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[253] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[254] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[255] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[64] = 0x01;
		break;
	case 0x1841FBF4:
		BMS_Cell_Volt[256] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[257] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[258] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[259] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[65] = 0x01;
		break;
	case 0x1842FBF4:
		BMS_Cell_Volt[260] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[261] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[262] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[263] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[66] = 0x01;
		break;
	case 0x1843FBF4:
		BMS_Cell_Volt[264] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[265] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[266] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[267] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[67] = 0x01;
		break;
	case 0x1844FBF4:
		BMS_Cell_Volt[268] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[269] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[270] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[271] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[68] = 0x01;
		break;
	case 0x1845FBF4:
		BMS_Cell_Volt[272] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[273] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[274] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[275] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[69] = 0x01;
		break;
	case 0x1846FBF4:
		BMS_Cell_Volt[276] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[277] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[278] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[279] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[70] = 0x01;
		break;
	case 0x1847FBF4:
		BMS_Cell_Volt[280] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[281] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[282] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[283] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[71] = 0x01;
		break;
	case 0x1848FBF4:
		BMS_Cell_Volt[284] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[285] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[286] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[287] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[72] = 0x01;
		break;
	case 0x1849FBF4:
		BMS_Cell_Volt[288] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[289] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[290] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[291] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[73] = 0x01;
		break;
	case 0x184AFBF4:
		BMS_Cell_Volt[292] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[293] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[294] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[295] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[74] = 0x01;
		break;
	case 0x184BFBF4:
		BMS_Cell_Volt[296] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[297] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[298] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[299] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[75] = 0x01;
		break;
	case 0x184CFBF4:
		BMS_Cell_Volt[300] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[301] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[302] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[303] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[76] = 0x01;
		break;
	case 0x184DFBF4:
		BMS_Cell_Volt[304] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[305] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[306] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[307] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[77] = 0x01;
		break;
	case 0x184EFBF4:
		BMS_Cell_Volt[308] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[309] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[310] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[311] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[78] = 0x01;
		break;
	case 0x184FFBF4:
		BMS_Cell_Volt[312] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[313] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[314] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[315] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[79] = 0x01;
		break;
	case 0x1850FBF4:
		BMS_Cell_Volt[316] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[317] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[318] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[319] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[80] = 0x01;
		break;
	case 0x1851FBF4:
		BMS_Cell_Volt[320] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[321] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[322] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[323] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[81] = 0x01;
		break;
	case 0x1852FBF4:
		BMS_Cell_Volt[324] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[325] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[326] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[327] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[82] = 0x01;
		break;
	case 0x1853FBF4:
		BMS_Cell_Volt[328] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[329] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[330] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[331] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[83] = 0x01;
		break;
	case 0x1854FBF4:
		BMS_Cell_Volt[332] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[333] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[334] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[335] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[84] = 0x01;
		break;
	case 0x1855FBF4:
		BMS_Cell_Volt[336] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[337] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[338] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[339] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[85] = 0x01;
		break;
	case 0x1856FBF4:
		BMS_Cell_Volt[340] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[341] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[342] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[343] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[86] = 0x01;
		break;
	case 0x1857FBF4:
		BMS_Cell_Volt[344] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[345] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[346] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[347] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[87] = 0x01;
		break;
	case 0x1858FBF4:
		BMS_Cell_Volt[348] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[349] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[350] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[351] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[88] = 0x01;
		break;
	case 0x1859FBF4:
		BMS_Cell_Volt[352] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[353] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[354] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[355] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[89] = 0x01;
		break;
	case 0x185AFBF4:
		BMS_Cell_Volt[356] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[357] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[358] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[359] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[90] = 0x01;
		break;
	case 0x185BFBF4:
		BMS_Cell_Volt[360] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[361] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[362] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[363] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[91] = 0x01;
		break;
	case 0x185CFBF4:
		BMS_Cell_Volt[364] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[365] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[366] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[367] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[92] = 0x01;
		break;
	case 0x185DFBF4:
		BMS_Cell_Volt[368] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[369] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[370] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[371] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[93] = 0x01;
		break;
	case 0x185EFBF4:
		BMS_Cell_Volt[372] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[373] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[374] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[375] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[94] = 0x01;
		break;
	case 0x185FFBF4:
		BMS_Cell_Volt[376] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[377] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[378] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[379] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[95] = 0x01;
		break;
	case 0x1860FBF4:
		BMS_Cell_Volt[380] = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_Cell_Volt[381] = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS_Cell_Volt[382] = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS_Cell_Volt[383] = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[96] = 0x01;
		break;
	case 0x1881EFF4:
		BMS11_Fult1_DelTemp = (UINT8)(((*(UINT8 *)(rawData + 0)) >> 2) & 0x3);
		BMS11_Fult1_OverTemp = (UINT8)(((*(UINT8 *)(rawData + 0)) >> 4) & 0x3);
		BMS11_Fult1_PackOverHVolt = (UINT8)(((*(UINT8 *)(rawData + 0)) >> 6) & 0x3);
		BMS11_Fult1_PackLowHVolt = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0x3);
		BMS11_Fult1_LowSOC = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 2) & 0x3);
		BMS11_Fult1_OverUcell = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 4) & 0x3);
		BMS11_Fult1_LowUcell = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 6) & 0x3);
		BMS11_Fult1_LowInsRes = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0x3);
		BMS11_Fult1_UcellUniformity = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 2) & 0x3);
		BMS11_Fult1_OverChg = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 4) & 0x3);
		BMS11_Fult1_OverSOC = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 6) & 0x3);
		BMS11_Fult1_SOCChangeFast = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0x1);
		BMS11_Fult1_BatSysNotMatch = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 1) & 0x1);
		BMS11_Fult1_HVILFault = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 2) & 0x1);
		BMS11_PackOutsideVolt = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BcuRxFlag[97] = 0x01;
		break;
	case 0x1882EFF4:
		BMS12_Fult2_FaultNum = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS12_Fult2_CellOverDischrg = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0x1);
		BMS12_Fult2_CellLowTemp = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 1) & 0x1);
		BMS12_Fult2_PackFireWarning = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 2) & 0x1);
		BMS12_Fult2_OverDischrgCurr = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 3) & 0x3);
		BMS12_Fult2_OverChrgCurrInTheDrive = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 5) & 0x3);
		BMS12_Fult2_CurrSensorErr = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 7) & 0x1);
		BMS12_Fult2_PowerSupplyErr = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0x1);
		BMS12_Fult2_TMSErr = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 1) & 0x1);
		BMS12_Fult2_HeatingFilmErr = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 2) & 0x1);
		BMS12_Fult2_PackSelfProtect = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 3) & 0x1);
		BMS12_Fult2_MainLoopPrechrgErr = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 4) & 0x1);
		BMS12_Fult2_AuxLoopPrechrgErr = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 5) & 0x1);
		BMS12_Fult2_ChrgInsLowErr = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 6) & 0x1);
		BMS12_Fult2_ACANLost = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 7) & 0x1);
		BMS12_Fult2_InnerCommunicationErr = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0x1);
		BMS12_Fult2_DCDCErr = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 1) & 0x1);
		BMS12_Fult2_BranchBreakErr = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 2) & 0x1);
		BMS12_Fult2_HeatRelayOpenErr = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 3) & 0x1);
		BMS12_Fult2_HeatRelayWeldErr = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 4) & 0x1);
		BMS12_Fult2_MainPosRelayOpenErr = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 5) & 0x1);
		BMS12_Fult2_MainPosRelayWeldErr = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 6) & 0x1);
		BMS12_Fult2_MainNegRelayOpenErr = (UINT8)(((*(UINT8 *)(rawData + 3)) >> 7) & 0x1);
		BMS12_Fult2_MainNegRelayWeldErr = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0x1);
		BMS12_Fult2_DCChrgPos1RelayOpenErr = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 1) & 0x1);
		BMS12_Fult2_DCChrgPos1RelayWeldErr = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 2) & 0x1);
		BMS12_Fult2_DCChrgNeg1RelayOpenErr = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 3) & 0x1);
		BMS12_Fult2_DCChrgNeg1RelayWeldErr = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 4) & 0x1);
		BMS12_Fult2_DCChrgPos2RelayOpenErr = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 5) & 0x1);
		BMS12_Fult2_DCChrgPos2RelayWeldErr = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 6) & 0x1);
		BMS12_Fult2_DCChrgNeg2RelayOpenErr = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 7) & 0x1);
		BMS12_Fult2_DCChrgNeg2RelayWeldErr = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0x1);
		BMS12_Fult2_ChrgConnectErr = (UINT8)(((*(UINT8 *)(rawData + 6)) >> 1) & 0x1);
		BMS12_ult2_OverDischrgCurrWhenInChrg = (UINT8)(((*(UINT8 *)(rawData + 6)) >> 2) & 0x1);
		BMS12_Fult2_OverChrgCurrInTheChrg = (UINT8)(((*(UINT8 *)(rawData + 6)) >> 3) & 0x1);
		BMS12_Fult2_ChrgNTCErr = (UINT8)(((*(UINT8 *)(rawData + 6)) >> 4) & 0x1);
		BMS12_Fult2_ChrgNTCTempOver = (UINT8)(((*(UINT8 *)(rawData + 6)) >> 5) & 0x3);
		BMS12_Fult2_ELockErr = (UINT8)(((*(UINT8 *)(rawData + 6)) >> 7) & 0x1);
		BMS12_Fult2_FireDetectorEr = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0x1);
		BMS12_Fult2_ContiDischrgCurrOverLoad = (UINT8)(((*(UINT8 *)(rawData + 7)) >> 1) & 0x3);
		BMS12_Fult2_SOCDifferErr = (UINT8)(((*(UINT8 *)(rawData + 7)) >> 3) & 0x1);
		BMS12_Fult2_ContiChrgCurrOverLoad = (UINT8)(((*(UINT8 *)(rawData + 7)) >> 4) & 0x3);
		BcuRxFlag[98] = 0x01;
		break;
	case 0x1883EFF4:
		BMS1_MainPosRelaySt = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0x3);
		BMS1_MainNegRelaySt = (UINT8)(((*(UINT8 *)(rawData + 0)) >> 2) & 0x3);
		BMS1_PreChgRelaySt = (UINT8)(((*(UINT8 *)(rawData + 0)) >> 4) & 0x3);
		BMS1_DCChrgPos1RelaySt = (UINT8)(((*(UINT8 *)(rawData + 0)) >> 6) & 0x3);
		BMS1_DCChrgNeg1RelaySt = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0x3);
		BMS1_DCChrgPos2RelaySt = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 2) & 0x3);
		BMS1_DCChrgNeg2RelaySt = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 4) & 0x3);
		BMS1_HeatPosRelaySt = (UINT8)(((*(UINT8 *)(rawData + 1)) >> 6) & 0x3);
		BMS1_HeatNegRelaySt = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0x3);
		BMS1_SysSts = (UINT8)(((*(UINT8 *)(rawData + 2)) >> 2) & 0xF);
		BMS1_Life = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS1_BalanceStatus = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 2) & 0x1);
		BMS1_DCChrgConnectSt = (UINT8)(((*(UINT8 *)(rawData + 4)) >> 3) & 0x3);
		BMS1_ChrgMode = (UINT8)(((*(UINT16 *)(rawData + 4)) >> 7) & 0x3);
		BMS1_ChrgStatus = (UINT8)(((*(UINT8 *)(rawData + 5)) >> 1) & 0x3);
		BMS1_HeatingStatus = (UINT8)(((*(UINT8 *)(rawData + 5)) >> 3) & 0x1);
		BMS1_CoolingStatus = (UINT8)(((*(UINT8 *)(rawData + 5)) >> 4) & 0x3);
		//BMS1_RechrgCycels = (UINT32)(((*(UINT32 *)(rawData + 5)) >> 6) & 0x3FFFF);//error
		BMS1_RechrgCycels = (UINT32)((*(rawData + 5) >> 6)|(*(rawData + 6)<<2)|(*(rawData + 7)<<10));
		BcuRxFlag[99] = 0x01;
		break;
	case 0x1884EFF4:
		BMS2_SOC = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS2_SOH = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS2_PackCurrent = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS2_PackInsideVolt = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS2_FaultCode = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS2_FaultLevel = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0x3);
		BMS2_RqHVPoerOff = (UINT8)(((*(UINT8 *)(rawData + 7)) >> 2) & 0x3);
		BMS2_Life = (UINT8)(((*(UINT8 *)(rawData + 7)) >> 4) & 0xF);
		BcuRxFlag[100] = 0x01;
		break;
	case 0x1885EFF4:
		BMS4_PosIsolation = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS4_NegIsolation = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS4_SysInsRes = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS4_InsDetectorSt = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0x1);
		BcuRxFlag[101] = 0x01;
		break;
	case 0x1886EFF4:
		BMS8_Max_Temp = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS8_Min_Temp = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS8_Avg_Temp = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS8_MaxTempSysNr = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS8_MaxTempNr = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS8_MinTempSysNr = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS8_MinTempNr = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BcuRxFlag[102] = 0x01;
		break;
	case 0x1887EFF4:
		BMS6_Max_Ucell = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS6_Min_Ucell = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS6_Avg_Ucell = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS6_SOE = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[103] = 0x01;
		break;
	case 0x1888EFF4:
		BMS7_MaxUcellSysNr = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS7_MaxUcellNr = (UINT16)(((*(UINT16 *)(rawData + 1))) & 0xFFFF);
		BMS7_MinUcellSysNr = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS7_MinUcellNr = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BcuRxFlag[104] = 0x01;
		break;
	case 0x1889EFF4:
		BMS23_Gun1DCPosTemp = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS23_Gun1DCNegTemp = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS23_Gun2DCPosTemp = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS23_Gun2DCNegTemp = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS23_RemainChgTi = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[105] = 0x01;
		break;
	case 0x18A0FBF4:
		BMS_Cell_TempN[0] = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS_Cell_TempN[1] = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_Cell_TempN[2] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_Cell_TempN[3] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_Cell_TempN[4] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_Cell_TempN[5] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_Cell_TempN[6] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_Cell_TempN[7] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[106] = 0x01;
		break;
	case 0x18A1FBF4:
		BMS_Cell_TempN[8] = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS_Cell_TempN[9] = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_Cell_TempN[10] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_Cell_TempN[11] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_Cell_TempN[12] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_Cell_TempN[13] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_Cell_TempN[14] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_Cell_TempN[15] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[107] = 0x01;
		break;
	case 0x18A2FBF4:
		BMS_Cell_TempN[16] = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS_Cell_TempN[17] = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_Cell_TempN[18] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_Cell_TempN[19] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_Cell_TempN[20] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_Cell_TempN[21] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_Cell_TempN[22] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_Cell_TempN[23] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BMS_Cell_TempN[24] = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS_Cell_TempN[25] = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_Cell_TempN[26] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_Cell_TempN[27] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_Cell_TempN[28] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_Cell_TempN[29] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_Cell_TempN[30] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_Cell_TempN[31] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[108] = 0x01;
		break;
	case 0x18A3FBF4:
		BMS_Cell_TempN[32] = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS_Cell_TempN[33] = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_Cell_TempN[34] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_Cell_TempN[35] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_Cell_TempN[36] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_Cell_TempN[37] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_Cell_TempN[38] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_Cell_TempN[39] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[109] = 0x01;
		break;
	case 0x18A4FBF4:
		BMS_Cell_TempN[40] = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS_Cell_TempN[41] = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_Cell_TempN[42] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_Cell_TempN[43] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_Cell_TempN[44] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_Cell_TempN[45] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_Cell_TempN[46] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_Cell_TempN[47] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[110] = 0x01;
		break;
	case 0x18A5FBF4:
		BMS_Cell_TempN[48] = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS_Cell_TempN[49] = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_Cell_TempN[50] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_Cell_TempN[51] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_Cell_TempN[52] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_Cell_TempN[53] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_Cell_TempN[54] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_Cell_TempN[55] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[111] = 0x01;
		break;
	case 0x18A6FBF4:
		BMS_Cell_TempN[56] = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS_Cell_TempN[57] = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_Cell_TempN[58] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_Cell_TempN[59] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_Cell_TempN[60] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_Cell_TempN[61] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_Cell_TempN[62] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_Cell_TempN[63] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[112] = 0x01;
		break;
	case 0x18E1EFF4:
	{
		UINT8 SN_FrameNo = 0, SN_SysCodeLength;
		SN_FrameNo = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		SN_SysCodeLength = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS_SN_SysCode[0 + 6 * (SN_FrameNo - 1)] = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS_SN_SysCode[1 + 6 * (SN_FrameNo - 1)] = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS_SN_SysCode[2 + 6 * (SN_FrameNo - 1)] = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS_SN_SysCode[3 + 6 * (SN_FrameNo - 1)] = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS_SN_SysCode[4 + 6 * (SN_FrameNo - 1)] = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS_SN_SysCode[5 + 6 * (SN_FrameNo - 1)] = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[113] = 0x01;
		BCU_SnMsgFlag = BCU_SnMsgFlag | (1 << (SN_FrameNo - 1));
		break;
	}
	case 0x18E2EFF4:
		BMS21_RateCap = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS21_RateHVolt = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS21_RatePower = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS21_BattType = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xF);
		BMS21_CoolType = (UINT8)(((*(UINT8 *)(rawData + 6)) >> 4) & 0x3);
		BMS21_Manufacture = (UINT8)(((*(UINT16 *)(rawData + 6)) >> 6) & 0xF);
		BMS21_ProtocolEditionH = (UINT8)(((*(UINT8 *)(rawData + 7)) >> 2) & 0x3);
		BMS21_ProtocolEditionL = (UINT8)(((*(UINT8 *)(rawData + 7)) >> 4) & 0xF);
		BcuRxFlag[114] = 0x01;
		break;
	case 0x18E3EFF4:
		BMS9_TotCSCNum = (UINT8)(((*(UINT8 *)(rawData + 0))) & 0xFF);
		BMS9_PackTotCellNum = (UINT16)(((*(UINT16 *)(rawData + 1))) & 0xFFFF);
		BMS9_PackTotTempNum = (UINT8)(((*(UINT8 *)(rawData + 3))) & 0xFF);
		BMS9_HVBranchNum = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS9_SingleHVBranchCellNum = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS9_BattSysNum = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS9_BattSysSeqNum = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[115] = 0x01;
		break;
	case 0x18E4EFF4:
		BMS22_PackAvaiMaxVolt = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS22_PackAvaiMinVolt = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS22_AvaiMaxSOC = (UINT8)(((*(UINT8 *)(rawData + 4))) & 0xFF);
		BMS22_AvaiMinSOC = (UINT8)(((*(UINT8 *)(rawData + 5))) & 0xFF);
		BMS22_AvaiMaxTemp = (UINT8)(((*(UINT8 *)(rawData + 6))) & 0xFF);
		BMS22_AvaiMinTemp = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[116] = 0x01;
		break;
	case 0x18FEDAF4:
		BMS_SoftwareVersion = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS_HardwareVersion = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BcuRxFlag[117] = 0x01;
		break;
	case 0x18FF23F4:
		BMS3_MaxDischgPow = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS3_MaxChgPow = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS3_MaxInstantDischgPow = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS3_MaxiInstantChgPow = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[118] = 0x01;
		break;
	case 0x18FF24F4:
		BMS10_SubSysEncodingLen = (UINT8)(((*(UINT8 *)(rawData + 1))) & 0xFF);
		BMS10_SubSysIdx = (UINT8)(((*(UINT8 *)(rawData + 2))) & 0xFF);
		BMS10_SubSysErrNum = (UINT8)(((*(UINT8 *)(rawData + 7))) & 0xFF);
		BcuRxFlag[119] = 0x01;
		break;
	case 0x18FF25F4:
		BMS5_DischgCurMaxAllw = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS5_ChrgCurMaxAllw = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS5_InstChrgCurMaxAllw = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS5_InstDischrgCurMaxAllw = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[120] = 0x01;
		break;
	case 0x18FF30F4:
		BMS26_Bat_InstantConsume = (UINT16)(((*(UINT16 *)(rawData + 0))) & 0xFFFF);
		BMS26_Bat_TotalConsume = (UINT16)(((*(UINT16 *)(rawData + 2))) & 0xFFFF);
		BMS26_ChgReqVoltage = (UINT16)(((*(UINT16 *)(rawData + 4))) & 0xFFFF);
		BMS26_ChgReqCurrent = (UINT16)(((*(UINT16 *)(rawData + 6))) & 0xFFFF);
		BcuRxFlag[121] = 0x01;
		break;
	case 0x18FF45F4:
		BMS28_ReqMode = (UINT8)(((((*(UINT8 *)(rawData + 0)) >> 0) & 0x3) * 1) + (0));
		BMS28_HVCmd = (UINT8)(((((*(UINT8 *)(rawData + 0)) >> 2) & 0x3) * 1) + (0));
		BMS28_ChgSts = (UINT8)(((((*(UINT8 *)(rawData + 0)) >> 4) & 0x3) * 1) + (0));
		BMS28_HVRelaySts = (UINT8)(((((*(UINT8 *)(rawData + 0)) >> 6) & 0x3) * 1) + (0));
		BMS28_HVVolt = (UINT16)((((((*(UINT16 *)(rawData + 1) >> 8) & 0xFF) | ((*(UINT16 *)(rawData + 1) << 8) & 0xFF00) >> 0) & 0xFFFF) * 1) + (0));
		BMS28_SetTemp = (UINT8)(((((*(UINT8 *)(rawData + 4)) >> 0) & 0xFF) * 1) + (0));
		BMS28_Life = (UINT8)(((((*(UINT8 *)(rawData + 6)) >> 0) & 0xFF) * 1) + (0));
		BMS28_CRC = (UINT8)(((((*(UINT8 *)(rawData + 7)) >> 0) & 0xFF) * 1) + (0));
		BcuRxFlag[122] = 0x01;
		break;
	case 0x18FFC13A:
		TMS_WorkStatus = (UINT8)(((((*(UINT8 *)(rawData + 0)) >> 0) & 0x3) * 1) + (0));
		TMS_HVRelayST = (UINT8)(((((*(UINT8 *)(rawData + 0)) >> 2) & 0x3) * 1) + (0));
		TMS_OutletTemp = (UINT8)(((((*(UINT8 *)(rawData + 1)) >> 0) & 0xFF) * 1) + (0));
		TMS_InletTemp = (UINT8)(((((*(UINT8 *)(rawData + 2)) >> 0) & 0xFF) * 1) + (0));
		TMS_Version = (UINT8)(((((*(UINT8 *)(rawData + 3)) >> 0) & 0xFF) * 1) + (0));
		TMS_ReqPow = (UINT16)((((((*(UINT16 *)(rawData + 5) >> 8) & 0xFF) | ((*(UINT16 *)(rawData + 5) << 8) & 0xFF00) >> 0) & 0xFFFF) * 1) + (0));
		TMS_ErrCode = (UINT8)(((((*(UINT8 *)(rawData + 7)) >> 0) & 0x3F) * 1) + (0));
		TMS_FaultLevel = (UINT8)(((((*(UINT8 *)(rawData + 7)) >> 6) & 0x3) * 1) + (0));
		BcuRxFlag[123] = 0x01;
		break;
	case 0x18FFD4F4:
		BMS14_TotalChargeAh = (UINT32)(((*(UINT32 *)(rawData + 0))) & 0xFFFFFFFF);
		BMS14_TotalDischargeAh = (UINT32)(((*(UINT32 *)(rawData + 4))) & 0xFFFFFFFF);
		BcuRxFlag[124] = 0x01;
		break;
	case 0x18FFD5F4:
		BMS15_TotalChargeKwh = (UINT32)(((*(UINT32 *)(rawData + 0))) & 0xFFFFFFFF);
		BMS15_TotalDischargeKwh = (UINT32)(((*(UINT32 *)(rawData + 4))) & 0xFFFFFFFF);
		BcuRxFlag[125] = 0x01;
		break;
	case 0x18FFD6F4:
		BMS16_TotalEneryECOChargeAh = (UINT32)(((*(UINT32 *)(rawData + 0))) & 0xFFFFFFFF);
		BMS16_TotalEneryECOChargeKwh = (UINT32)(((*(UINT32 *)(rawData + 4))) & 0xFFFFFFFF);
		BcuRxFlag[126] = 0x01;
		break;
	case 0x18FFD7F4:
		BMS17_TotalStationChargeAh = (UINT32)(((*(UINT32 *)(rawData + 0))) & 0xFFFFFFFF);
		BMS17_TotalStationChargeKwh = (UINT32)(((*(UINT32 *)(rawData + 4))) & 0xFFFFFFFF);
		BcuRxFlag[127] = 0x01;
		break;
	case 0x18FFD8F4:
		BMS18_TotalPoleChargeAh = (UINT32)(((*(UINT32 *)(rawData + 0))) & 0xFFFFFFFF);
		BMS18_TotalPoleChargeKwh = (UINT32)(((*(UINT32 *)(rawData + 4))) & 0xFFFFFFFF);
		BcuRxFlag[128] = 0x01;
		break;
	case 0x18FFD9F4:
		BMS19_SingleChargeAh = (UINT32)(((*(UINT32 *)(rawData + 0))) & 0xFFFFFFFF);
		BMS19_SingleChargeKwh = (UINT32)(((*(UINT32 *)(rawData + 4))) & 0xFFFFFFFF);
		BcuRxFlag[129] = 0x01;
		break;
	default:
		break;
	}
}
/**
 * @brief : BcuCan涓㈠抚璇婃柇
 * @param {*}
 * @return {*}
 */
void BcuRxDiagnose(void)
{
	static UINT32 TimeCounter = 0;//ms
	TimeCounter = TimeCounter + 10; //
	/*
	Can涓㈠抚璇婃柇
	*/
	for (UINT8 i = 0; i < sizeof(BcuInTable) / 4; i++)
	{
		if (BcuRxFlag[i] == 1) // received msg, and clear the error conter
		{
			BcuRxErrorCounter[i] = 0;
			BcuRxFlag[i] = 0;
			continue;
		}
		if (BcuRxErrorCounter[i] < 3)
		{
			BcuRxShortError[i] = 0;
			BcuRxLongError[i] = 0;
		}
		else if (BcuRxErrorCounter[i] >= 3 && BcuRxErrorCounter[i] < 13)
		{
			BcuRxShortError[i] = 1;
			BcuRxLongError[i] = 0;
		}
		else if (BcuRxErrorCounter[i] >= 13)
		{
			BcuRxShortError[i] = 0;
			BcuRxLongError[i] = 1;
			BcuRxMsgSetInvalidValue(BcuInTable[i]);
			BcuRxErrorCounter[i] = 0;
		}
		else if (BcuRxErrorCounter[i] == 0xFF)
		{
			BcuRxErrorCounter[i] = 0xFE;
		}
	}
	/*
	CAN涓㈠抚绱
	*/
	if (TimeCounter % 100 == 0) // period <=100ms
	{
		BcuRxErrorCounter[99]++; // can msg 0x1883EFF4
		// if(BcuRxErrorCounter[99]>=13)
		BcuRxErrorCounter[100]++; // can msg 0x1884EFF4
		// if(BcuRxErrorCounter[100]>=13)
		BcuRxErrorCounter[118]++; // can msg 0x18FF23F4
		// if(BcuRxErrorCounter[118]>=13)
		BcuRxErrorCounter[120]++; // can msg 0x18FF25F4
								  // if(BcuRxErrorCounter[120]>=13)
	}
	if (TimeCounter % 200 == 0) // period ==200ms
	{
		BcuRxErrorCounter[103]++; // can msg 0x1887EFF4
		// if(BcuRxErrorCounter[103]>=13)
		// printf("can msg 0x%x lost,cycle time200ms\n",COMInTable[103]);
		BcuRxErrorCounter[121]++; // can msg 0x18FF30F4
								  // if(BcuRxErrorCounter[121]>=13)
								  // printf("can msg 0x%x lost,cycle time200ms\n",COMInTable[121]);
	}
	if (TimeCounter % 500 == 0) // period ==500ms
	{
		BcuRxErrorCounter[0]++; // can msg 0x1801EFF4
		// if(BcuRxErrorCounter[0]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[0]);
		BcuRxErrorCounter[1]++; // can msg 0x1801FBF4
		// if(BcuRxErrorCounter[1]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[1]);
		BcuRxErrorCounter[2]++; // can msg 0x1802FBF4
		// if(BcuRxErrorCounter[2]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[2]);
		BcuRxErrorCounter[3]++; // can msg 0x1803FBF4
		// if(BcuRxErrorCounter[3]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[3]);
		BcuRxErrorCounter[4]++; // can msg 0x1804FBF4
		// if(BcuRxErrorCounter[4]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[4]);
		BcuRxErrorCounter[5]++; // can msg 0x1805FBF4
		// if(BcuRxErrorCounter[5]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[5]);
		BcuRxErrorCounter[6]++; // can msg 0x1806FBF4
		// if(BcuRxErrorCounter[6]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[6]);
		BcuRxErrorCounter[7]++; // can msg 0x1807FBF4
		// if(BcuRxErrorCounter[7]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[7]);
		BcuRxErrorCounter[8]++; // can msg 0x1808FBF4
		// if(BcuRxErrorCounter[8]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[8]);
		BcuRxErrorCounter[9]++; // can msg 0x1809FBF4
		// if(BcuRxErrorCounter[9]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[9]);
		BcuRxErrorCounter[10]++; // can msg 0x180AFBF4
		// if(BcuRxErrorCounter[10]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[10]);
		BcuRxErrorCounter[11]++; // can msg 0x180BFBF4
		// if(BcuRxErrorCounter[11]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[11]);
		BcuRxErrorCounter[12]++; // can msg 0x180CFBF4
		// if(BcuRxErrorCounter[12]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[12]);
		BcuRxErrorCounter[13]++; // can msg 0x180DFBF4
		// if(BcuRxErrorCounter[13]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[13]);
		BcuRxErrorCounter[14]++; // can msg 0x180EFBF4
		// if(BcuRxErrorCounter[14]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[14]);
		BcuRxErrorCounter[15]++; // can msg 0x180FFBF4
		// if(BcuRxErrorCounter[15]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[15]);
		BcuRxErrorCounter[16]++; // can msg 0x1810FBF4
		// if(BcuRxErrorCounter[16]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[16]);
		BcuRxErrorCounter[17]++; // can msg 0x1811FBF4
		// if(BcuRxErrorCounter[17]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[17]);
		BcuRxErrorCounter[18]++; // can msg 0x1812FBF4
		// if(BcuRxErrorCounter[18]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[18]);
		BcuRxErrorCounter[19]++; // can msg 0x1813FBF4
		// if(BcuRxErrorCounter[19]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[19]);
		BcuRxErrorCounter[20]++; // can msg 0x1814FBF4
		// if(BcuRxErrorCounter[20]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[20]);
		BcuRxErrorCounter[21]++; // can msg 0x1815FBF4
		// if(BcuRxErrorCounter[21]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[21]);
		BcuRxErrorCounter[22]++; // can msg 0x1816FBF4
		// if(BcuRxErrorCounter[22]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[22]);
		BcuRxErrorCounter[23]++; // can msg 0x1817FBF4
		// if(BcuRxErrorCounter[23]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[23]);
		BcuRxErrorCounter[24]++; // can msg 0x1818FBF4
		// if(BcuRxErrorCounter[24]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[24]);
		BcuRxErrorCounter[25]++; // can msg 0x1819FBF4
		// if(BcuRxErrorCounter[25]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[25]);
		BcuRxErrorCounter[26]++; // can msg 0x181AFBF4
		// if(BcuRxErrorCounter[26]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[26]);
		BcuRxErrorCounter[27]++; // can msg 0x181BFBF4
		// if(BcuRxErrorCounter[27]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[27]);
		BcuRxErrorCounter[28]++; // can msg 0x181CFBF4
		// if(BcuRxErrorCounter[28]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[28]);
		BcuRxErrorCounter[29]++; // can msg 0x181DFBF4
		// if(BcuRxErrorCounter[29]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[29]);
		BcuRxErrorCounter[30]++; // can msg 0x181EFBF4
		// if(BcuRxErrorCounter[30]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[30]);
		BcuRxErrorCounter[31]++; // can msg 0x181FFBF4
		// if(BcuRxErrorCounter[31]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[31]);
		BcuRxErrorCounter[32]++; // can msg 0x1820FBF4
		// if(BcuRxErrorCounter[32]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[32]);
		BcuRxErrorCounter[33]++; // can msg 0x1821FBF4
		// if(BcuRxErrorCounter[33]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[33]);
		BcuRxErrorCounter[34]++; // can msg 0x1822FBF4
		// if(BcuRxErrorCounter[34]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[34]);
		BcuRxErrorCounter[35]++; // can msg 0x1823FBF4
		// if(BcuRxErrorCounter[35]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[35]);
		BcuRxErrorCounter[36]++; // can msg 0x1824FBF4
		// if(BcuRxErrorCounter[36]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[36]);
		BcuRxErrorCounter[37]++; // can msg 0x1825FBF4
		// if(BcuRxErrorCounter[37]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[37]);
		BcuRxErrorCounter[38]++; // can msg 0x1826FBF4
		// if(BcuRxErrorCounter[38]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[38]);
		BcuRxErrorCounter[39]++; // can msg 0x1827FBF4
		// if(BcuRxErrorCounter[39]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[39]);
		BcuRxErrorCounter[40]++; // can msg 0x1828FBF4
		// if(BcuRxErrorCounter[40]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[40]);
		BcuRxErrorCounter[41]++; // can msg 0x1829FBF4
		// if(BcuRxErrorCounter[41]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[41]);
		BcuRxErrorCounter[42]++; // can msg 0x182AFBF4
		// if(BcuRxErrorCounter[42]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[42]);
		BcuRxErrorCounter[43]++; // can msg 0x182BFBF4
		// if(BcuRxErrorCounter[43]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[43]);
		BcuRxErrorCounter[44]++; // can msg 0x182CFBF4
		// if(BcuRxErrorCounter[44]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[44]);
		BcuRxErrorCounter[45]++; // can msg 0x182DFBF4
		// if(BcuRxErrorCounter[45]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[45]);
		BcuRxErrorCounter[46]++; // can msg 0x182EFBF4
		// if(BcuRxErrorCounter[46]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[46]);
		BcuRxErrorCounter[47]++; // can msg 0x182FFBF4
		// if(BcuRxErrorCounter[47]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[47]);
		BcuRxErrorCounter[48]++; // can msg 0x1830FBF4
		// if(BcuRxErrorCounter[48]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[48]);
		BcuRxErrorCounter[49]++; // can msg 0x1831FBF4
		// if(BcuRxErrorCounter[49]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[49]);
		BcuRxErrorCounter[50]++; // can msg 0x1832FBF4
		// if(BcuRxErrorCounter[50]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[50]);
		BcuRxErrorCounter[51]++; // can msg 0x1833FBF4
		// if(BcuRxErrorCounter[51]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[51]);
		BcuRxErrorCounter[52]++; // can msg 0x1834FBF4
		// if(BcuRxErrorCounter[52]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[52]);
		BcuRxErrorCounter[53]++; // can msg 0x1835FBF4
		// if(BcuRxErrorCounter[53]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[53]);
		BcuRxErrorCounter[54]++; // can msg 0x1836FBF4
		// if(BcuRxErrorCounter[54]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[54]);
		BcuRxErrorCounter[55]++; // can msg 0x1837FBF4
		// if(BcuRxErrorCounter[55]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[55]);
		BcuRxErrorCounter[56]++; // can msg 0x1838FBF4
		// if(BcuRxErrorCounter[56]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[56]);
		BcuRxErrorCounter[57]++; // can msg 0x1839FBF4
		// if(BcuRxErrorCounter[57]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[57]);
		BcuRxErrorCounter[58]++; // can msg 0x183AFBF4
		// if(BcuRxErrorCounter[58]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[58]);
		BcuRxErrorCounter[59]++; // can msg 0x183BFBF4
		// if(BcuRxErrorCounter[59]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[59]);
		BcuRxErrorCounter[60]++; // can msg 0x183CFBF4
		// if(BcuRxErrorCounter[60]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[60]);
		BcuRxErrorCounter[61]++; // can msg 0x183DFBF4
		// if(BcuRxErrorCounter[61]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[61]);
		BcuRxErrorCounter[62]++; // can msg 0x183EFBF4
		// if(BcuRxErrorCounter[62]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[62]);
		BcuRxErrorCounter[63]++; // can msg 0x183FFBF4
		// if(BcuRxErrorCounter[63]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[63]);
		BcuRxErrorCounter[64]++; // can msg 0x1840FBF4
		// if(BcuRxErrorCounter[64]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[64]);
		BcuRxErrorCounter[65]++; // can msg 0x1841FBF4
		// if(BcuRxErrorCounter[65]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[65]);
		BcuRxErrorCounter[66]++; // can msg 0x1842FBF4
		// if(BcuRxErrorCounter[66]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[66]);
		BcuRxErrorCounter[67]++; // can msg 0x1843FBF4
		// if(BcuRxErrorCounter[67]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[67]);
		BcuRxErrorCounter[68]++; // can msg 0x1844FBF4
		// if(BcuRxErrorCounter[68]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[68]);
		BcuRxErrorCounter[69]++; // can msg 0x1845FBF4
		// if(BcuRxErrorCounter[69]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[69]);
		BcuRxErrorCounter[70]++; // can msg 0x1846FBF4
		// if(BcuRxErrorCounter[70]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[70]);
		BcuRxErrorCounter[71]++; // can msg 0x1847FBF4
		// if(BcuRxErrorCounter[71]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[71]);
		BcuRxErrorCounter[72]++; // can msg 0x1848FBF4
		// if(BcuRxErrorCounter[72]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[72]);
		BcuRxErrorCounter[73]++; // can msg 0x1849FBF4
		// if(BcuRxErrorCounter[73]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[73]);
		BcuRxErrorCounter[74]++; // can msg 0x184AFBF4
		// if(BcuRxErrorCounter[74]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[74]);
		BcuRxErrorCounter[75]++; // can msg 0x184BFBF4
		// if(BcuRxErrorCounter[75]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[75]);
		BcuRxErrorCounter[76]++; // can msg 0x184CFBF4
		// if(BcuRxErrorCounter[76]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[76]);
		BcuRxErrorCounter[77]++; // can msg 0x184DFBF4
		// if(BcuRxErrorCounter[77]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[77]);
		BcuRxErrorCounter[78]++; // can msg 0x184EFBF4
		// if(BcuRxErrorCounter[78]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[78]);
		BcuRxErrorCounter[79]++; // can msg 0x184FFBF4
		// if(BcuRxErrorCounter[79]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[79]);
		BcuRxErrorCounter[80]++; // can msg 0x1850FBF4
		// if(BcuRxErrorCounter[80]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[80]);
		BcuRxErrorCounter[81]++; // can msg 0x1851FBF4
		// if(BcuRxErrorCounter[81]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[81]);
		BcuRxErrorCounter[82]++; // can msg 0x1852FBF4
		// if(BcuRxErrorCounter[82]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[82]);
		BcuRxErrorCounter[83]++; // can msg 0x1853FBF4
		// if(BcuRxErrorCounter[83]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[83]);
		BcuRxErrorCounter[84]++; // can msg 0x1854FBF4
		// if(BcuRxErrorCounter[84]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[84]);
		BcuRxErrorCounter[85]++; // can msg 0x1855FBF4
		// if(BcuRxErrorCounter[85]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[85]);
		BcuRxErrorCounter[86]++; // can msg 0x1856FBF4
		// if(BcuRxErrorCounter[86]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[86]);
		BcuRxErrorCounter[87]++; // can msg 0x1857FBF4
		// if(BcuRxErrorCounter[87]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[87]);
		BcuRxErrorCounter[88]++; // can msg 0x1858FBF4
		// if(BcuRxErrorCounter[88]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[88]);
		BcuRxErrorCounter[89]++; // can msg 0x1859FBF4
		// if(BcuRxErrorCounter[89]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[89]);
		BcuRxErrorCounter[90]++; // can msg 0x185AFBF4
		// if(BcuRxErrorCounter[90]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[90]);
		BcuRxErrorCounter[91]++; // can msg 0x185BFBF4
		// if(BcuRxErrorCounter[91]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[91]);
		BcuRxErrorCounter[92]++; // can msg 0x185CFBF4
		// if(BcuRxErrorCounter[92]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[92]);
		BcuRxErrorCounter[93]++; // can msg 0x185DFBF4
		// if(BcuRxErrorCounter[93]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[93]);
		BcuRxErrorCounter[94]++; // can msg 0x185EFBF4
		// if(BcuRxErrorCounter[94]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[94]);
		BcuRxErrorCounter[95]++; // can msg 0x185FFBF4
		// if(BcuRxErrorCounter[95]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[95]);
		BcuRxErrorCounter[96]++; // can msg 0x1860FBF4
		// if(BcuRxErrorCounter[96]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[96]);
		BcuRxErrorCounter[97]++; // can msg 0x1881EFF4
		// if(BcuRxErrorCounter[97]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[97]);
		BcuRxErrorCounter[98]++; // can msg 0x1882EFF4
		// if(BcuRxErrorCounter[98]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[98]);
		BcuRxErrorCounter[101]++; // can msg 0x1885EFF4
		// if(BcuRxErrorCounter[101]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[101]);
		BcuRxErrorCounter[102]++; // can msg 0x1886EFF4
		// if(BcuRxErrorCounter[102]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[102]);
		BcuRxErrorCounter[104]++; // can msg 0x1888EFF4
		// if(BcuRxErrorCounter[104]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[104]);
		BcuRxErrorCounter[105]++; // can msg 0x1889EFF4
		// if(BcuRxErrorCounter[105]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[105]);
		BcuRxErrorCounter[106]++; // can msg 0x18A0FBF4
		// if(BcuRxErrorCounter[106]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[106]);
		BcuRxErrorCounter[107]++; // can msg 0x18A1FBF4
		// if(BcuRxErrorCounter[107]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[107]);
		BcuRxErrorCounter[108]++; // can msg 0x18A2FBF4
		// if(BcuRxErrorCounter[108]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[108]);
		BcuRxErrorCounter[109]++; // can msg 0x18A3FBF4
		// if(BcuRxErrorCounter[109]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[109]);
		BcuRxErrorCounter[110]++; // can msg 0x18A4FBF4
		// if(BcuRxErrorCounter[110]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[110]);
		BcuRxErrorCounter[111]++; // can msg 0x18A5FBF4
		// if(BcuRxErrorCounter[111]>=13)
		// printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[111]);
		BcuRxErrorCounter[112]++; // can msg 0x18A6FBF4
								  // if(BcuRxErrorCounter[112]>=13)
								  // printf("can msg 0x%x lost,cycle time500ms\n",COMInTable[112]);
	}
	if (TimeCounter % 1000 == 0) // period ==1000ms
	{
		BcuRxErrorCounter[113]++; // can msg 0x18E1EFF4
		// if(BcuRxErrorCounter[113]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[113]);
		BcuRxErrorCounter[114]++; // can msg 0x18E2EFF4
		// if(BcuRxErrorCounter[114]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[114]);
		BcuRxErrorCounter[115]++; // can msg 0x18E3EFF4
		// if(BcuRxErrorCounter[115]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[115]);
		BcuRxErrorCounter[116]++; // can msg 0x18E4EFF4
		// if(BcuRxErrorCounter[116]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[116]);
		BcuRxErrorCounter[117]++; // can msg 0x18FEDAF4
		// if(BcuRxErrorCounter[117]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[117]);
		BcuRxErrorCounter[119]++; // can msg 0x18FF24F4
		// if(BcuRxErrorCounter[119]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[119]);
		BcuRxErrorCounter[122]++; // can msg 0x18FF45F4
		// if(BcuRxErrorCounter[122]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[122]);
		BcuRxErrorCounter[123]++; // can msg 0x18FFC13A
		// if(BcuRxErrorCounter[123]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[123]);
		BcuRxErrorCounter[124]++; // can msg 0x18FFD4F4
		// if(BcuRxErrorCounter[124]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[124]);
		BcuRxErrorCounter[125]++; // can msg 0x18FFD5F4
		// if(BcuRxErrorCounter[125]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[125]);
		BcuRxErrorCounter[126]++; // can msg 0x18FFD6F4
		// if(BcuRxErrorCounter[126]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[126]);
		BcuRxErrorCounter[127]++; // can msg 0x18FFD7F4
		// if(BcuRxErrorCounter[127]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[127]);
		BcuRxErrorCounter[128]++; // can msg 0x18FFD8F4
		// if(BcuRxErrorCounter[128]>=13)
		// printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[128]);
		BcuRxErrorCounter[129]++; // can msg 0x18FFD9F4
								  // if(BcuRxErrorCounter[129]>=13)
								  // printf("can msg 0x%x lost,cycle time1000ms\n",COMInTable[129]);
	}
	if (TimeCounter % 2000 == 0) // period ==2000ms
	{
	}
	if (TimeCounter % 3000 == 0) // period ==3000ms
	{
	}
	if (TimeCounter % 5000 == 0) // period ==5000ms
	{
	}
}
/**
 * @brief :Bcu涓㈠抚鍒濆鍖栬祴鍊�
 * @param {UINT32} ID
 * @return {*}
 */
void BcuRxMsgSetInvalidValue(UINT32 ID)
{
	switch (ID)
	{
	case 0x1801EFF4:
		BMS13_ReqVIN = 0xFF;
		break;
	case 0x1801FBF4:
		BMS_Cell_Volt[0] = 0xFFFF;
		BMS_Cell_Volt[1] = 0xFFFF;
		BMS_Cell_Volt[2] = 0xFFFF;
		BMS_Cell_Volt[3] = 0xFFFF;
		break;
	case 0x1802FBF4:
		BMS_Cell_Volt[4] = 0xFFFF;
		BMS_Cell_Volt[5] = 0xFFFF;
		BMS_Cell_Volt[6] = 0xFFFF;
		BMS_Cell_Volt[7] = 0xFFFF;
		break;
	case 0x1803FBF4:
		BMS_Cell_Volt[8] = 0xFFFF;
		BMS_Cell_Volt[9] = 0xFFFF;
		BMS_Cell_Volt[10] = 0xFFFF;
		BMS_Cell_Volt[11] = 0xFFFF;
		break;
	case 0x1804FBF4:
		BMS_Cell_Volt[12] = 0xFFFF;
		BMS_Cell_Volt[13] = 0xFFFF;
		BMS_Cell_Volt[14] = 0xFFFF;
		BMS_Cell_Volt[15] = 0xFFFF;
		break;
	case 0x1805FBF4:
		BMS_Cell_Volt[16] = 0xFFFF;
		BMS_Cell_Volt[17] = 0xFFFF;
		BMS_Cell_Volt[18] = 0xFFFF;
		BMS_Cell_Volt[19] = 0xFFFF;
		break;
	case 0x1806FBF4:
		BMS_Cell_Volt[20] = 0xFFFF;
		BMS_Cell_Volt[21] = 0xFFFF;
		BMS_Cell_Volt[22] = 0xFFFF;
		BMS_Cell_Volt[23] = 0xFFFF;
		break;
	case 0x1807FBF4:
		BMS_Cell_Volt[24] = 0xFFFF;
		BMS_Cell_Volt[25] = 0xFFFF;
		BMS_Cell_Volt[26] = 0xFFFF;
		BMS_Cell_Volt[27] = 0xFFFF;
		break;
	case 0x1808FBF4:
		BMS_Cell_Volt[28] = 0xFFFF;
		BMS_Cell_Volt[29] = 0xFFFF;
		BMS_Cell_Volt[30] = 0xFFFF;
		BMS_Cell_Volt[31] = 0xFFFF;
		break;
	case 0x1809FBF4:
		BMS_Cell_Volt[32] = 0xFFFF;
		BMS_Cell_Volt[33] = 0xFFFF;
		BMS_Cell_Volt[34] = 0xFFFF;
		BMS_Cell_Volt[35] = 0xFFFF;
		break;
	case 0x180AFBF4:
		BMS_Cell_Volt[36] = 0xFFFF;
		BMS_Cell_Volt[37] = 0xFFFF;
		BMS_Cell_Volt[38] = 0xFFFF;
		BMS_Cell_Volt[39] = 0xFFFF;
		break;
	case 0x180BFBF4:
		BMS_Cell_Volt[40] = 0xFFFF;
		BMS_Cell_Volt[41] = 0xFFFF;
		BMS_Cell_Volt[42] = 0xFFFF;
		BMS_Cell_Volt[43] = 0xFFFF;
		break;
	case 0x180CFBF4:
		BMS_Cell_Volt[44] = 0xFFFF;
		BMS_Cell_Volt[45] = 0xFFFF;
		BMS_Cell_Volt[46] = 0xFFFF;
		BMS_Cell_Volt[47] = 0xFFFF;
		break;
	case 0x180DFBF4:
		BMS_Cell_Volt[48] = 0xFFFF;
		BMS_Cell_Volt[49] = 0xFFFF;
		BMS_Cell_Volt[50] = 0xFFFF;
		BMS_Cell_Volt[51] = 0xFFFF;
		break;
	case 0x180EFBF4:
		BMS_Cell_Volt[52] = 0xFFFF;
		BMS_Cell_Volt[53] = 0xFFFF;
		BMS_Cell_Volt[54] = 0xFFFF;
		BMS_Cell_Volt[55] = 0xFFFF;
		break;
	case 0x180FFBF4:
		BMS_Cell_Volt[56] = 0xFFFF;
		BMS_Cell_Volt[57] = 0xFFFF;
		BMS_Cell_Volt[58] = 0xFFFF;
		BMS_Cell_Volt[59] = 0xFFFF;
		break;
	case 0x1810FBF4:
		BMS_Cell_Volt[60] = 0xFFFF;
		BMS_Cell_Volt[61] = 0xFFFF;
		BMS_Cell_Volt[62] = 0xFFFF;
		BMS_Cell_Volt[63] = 0xFFFF;
		break;
	case 0x1811FBF4:
		BMS_Cell_Volt[64] = 0xFFFF;
		BMS_Cell_Volt[65] = 0xFFFF;
		BMS_Cell_Volt[66] = 0xFFFF;
		BMS_Cell_Volt[67] = 0xFFFF;
		break;
	case 0x1812FBF4:
		BMS_Cell_Volt[68] = 0xFFFF;
		BMS_Cell_Volt[69] = 0xFFFF;
		BMS_Cell_Volt[70] = 0xFFFF;
		BMS_Cell_Volt[71] = 0xFFFF;
		break;
	case 0x1813FBF4:
		BMS_Cell_Volt[72] = 0xFFFF;
		BMS_Cell_Volt[73] = 0xFFFF;
		BMS_Cell_Volt[74] = 0xFFFF;
		BMS_Cell_Volt[75] = 0xFFFF;
		break;
	case 0x1814FBF4:
		BMS_Cell_Volt[76] = 0xFFFF;
		BMS_Cell_Volt[77] = 0xFFFF;
		BMS_Cell_Volt[78] = 0xFFFF;
		BMS_Cell_Volt[79] = 0xFFFF;
		break;
	case 0x1815FBF4:
		BMS_Cell_Volt[80] = 0xFFFF;
		BMS_Cell_Volt[81] = 0xFFFF;
		BMS_Cell_Volt[82] = 0xFFFF;
		BMS_Cell_Volt[83] = 0xFFFF;
		break;
	case 0x1816FBF4:
		BMS_Cell_Volt[84] = 0xFFFF;
		BMS_Cell_Volt[85] = 0xFFFF;
		BMS_Cell_Volt[86] = 0xFFFF;
		BMS_Cell_Volt[87] = 0xFFFF;
		break;
	case 0x1817FBF4:
		BMS_Cell_Volt[88] = 0xFFFF;
		BMS_Cell_Volt[89] = 0xFFFF;
		BMS_Cell_Volt[90] = 0xFFFF;
		BMS_Cell_Volt[91] = 0xFFFF;
		break;
	case 0x1818FBF4:
		BMS_Cell_Volt[92] = 0xFFFF;
		BMS_Cell_Volt[93] = 0xFFFF;
		BMS_Cell_Volt[94] = 0xFFFF;
		BMS_Cell_Volt[95] = 0xFFFF;
		break;
	case 0x1819FBF4:
		BMS_Cell_Volt[96] = 0xFFFF;
		BMS_Cell_Volt[97] = 0xFFFF;
		BMS_Cell_Volt[98] = 0xFFFF;
		BMS_Cell_Volt[99] = 0xFFFF;
		break;
	case 0x181AFBF4:
		BMS_Cell_Volt[100] = 0xFFFF;
		BMS_Cell_Volt[101] = 0xFFFF;
		BMS_Cell_Volt[102] = 0xFFFF;
		BMS_Cell_Volt[103] = 0xFFFF;
		break;
	case 0x181BFBF4:
		BMS_Cell_Volt[104] = 0xFFFF;
		BMS_Cell_Volt[105] = 0xFFFF;
		BMS_Cell_Volt[106] = 0xFFFF;
		BMS_Cell_Volt[107] = 0xFFFF;
		break;
	case 0x181CFBF4:
		BMS_Cell_Volt[108] = 0xFFFF;
		BMS_Cell_Volt[109] = 0xFFFF;
		BMS_Cell_Volt[110] = 0xFFFF;
		BMS_Cell_Volt[111] = 0xFFFF;
		break;
	case 0x181DFBF4:
		BMS_Cell_Volt[112] = 0xFFFF;
		BMS_Cell_Volt[113] = 0xFFFF;
		BMS_Cell_Volt[114] = 0xFFFF;
		BMS_Cell_Volt[115] = 0xFFFF;
		break;
	case 0x181EFBF4:
		BMS_Cell_Volt[116] = 0xFFFF;
		BMS_Cell_Volt[117] = 0xFFFF;
		BMS_Cell_Volt[118] = 0xFFFF;
		BMS_Cell_Volt[119] = 0xFFFF;
		break;
	case 0x181FFBF4:
		BMS_Cell_Volt[120] = 0xFFFF;
		BMS_Cell_Volt[121] = 0xFFFF;
		BMS_Cell_Volt[122] = 0xFFFF;
		BMS_Cell_Volt[123] = 0xFFFF;
		break;
	case 0x1820FBF4:
		BMS_Cell_Volt[124] = 0xFFFF;
		BMS_Cell_Volt[125] = 0xFFFF;
		BMS_Cell_Volt[126] = 0xFFFF;
		BMS_Cell_Volt[127] = 0xFFFF;
		break;
	case 0x1821FBF4:
		BMS_Cell_Volt[128] = 0xFFFF;
		BMS_Cell_Volt[129] = 0xFFFF;
		BMS_Cell_Volt[130] = 0xFFFF;
		BMS_Cell_Volt[131] = 0xFFFF;
		break;
	case 0x1822FBF4:
		BMS_Cell_Volt[132] = 0xFFFF;
		BMS_Cell_Volt[133] = 0xFFFF;
		BMS_Cell_Volt[134] = 0xFFFF;
		BMS_Cell_Volt[135] = 0xFFFF;
		break;
	case 0x1823FBF4:
		BMS_Cell_Volt[136] = 0xFFFF;
		BMS_Cell_Volt[137] = 0xFFFF;
		BMS_Cell_Volt[138] = 0xFFFF;
		BMS_Cell_Volt[139] = 0xFFFF;
		break;
	case 0x1824FBF4:
		BMS_Cell_Volt[140] = 0xFFFF;
		BMS_Cell_Volt[141] = 0xFFFF;
		BMS_Cell_Volt[142] = 0xFFFF;
		BMS_Cell_Volt[143] = 0xFFFF;
		break;
	case 0x1825FBF4:
		BMS_Cell_Volt[144] = 0xFFFF;
		BMS_Cell_Volt[145] = 0xFFFF;
		BMS_Cell_Volt[146] = 0xFFFF;
		BMS_Cell_Volt[147] = 0xFFFF;
		break;
	case 0x1826FBF4:
		BMS_Cell_Volt[148] = 0xFFFF;
		BMS_Cell_Volt[149] = 0xFFFF;
		BMS_Cell_Volt[150] = 0xFFFF;
		BMS_Cell_Volt[151] = 0xFFFF;
		break;
	case 0x1827FBF4:
		BMS_Cell_Volt[152] = 0xFFFF;
		BMS_Cell_Volt[153] = 0xFFFF;
		BMS_Cell_Volt[154] = 0xFFFF;
		BMS_Cell_Volt[155] = 0xFFFF;
		break;
	case 0x1828FBF4:
		BMS_Cell_Volt[156] = 0xFFFF;
		BMS_Cell_Volt[157] = 0xFFFF;
		BMS_Cell_Volt[158] = 0xFFFF;
		BMS_Cell_Volt[159] = 0xFFFF;
		break;
	case 0x1829FBF4:
		BMS_Cell_Volt[160] = 0xFFFF;
		BMS_Cell_Volt[161] = 0xFFFF;
		BMS_Cell_Volt[162] = 0xFFFF;
		BMS_Cell_Volt[163] = 0xFFFF;
		break;
	case 0x182AFBF4:
		BMS_Cell_Volt[164] = 0xFFFF;
		BMS_Cell_Volt[165] = 0xFFFF;
		BMS_Cell_Volt[166] = 0xFFFF;
		BMS_Cell_Volt[167] = 0xFFFF;
		break;
	case 0x182BFBF4:
		BMS_Cell_Volt[168] = 0xFFFF;
		BMS_Cell_Volt[169] = 0xFFFF;
		BMS_Cell_Volt[170] = 0xFFFF;
		BMS_Cell_Volt[171] = 0xFFFF;
		break;
	case 0x182CFBF4:
		BMS_Cell_Volt[172] = 0xFFFF;
		BMS_Cell_Volt[173] = 0xFFFF;
		BMS_Cell_Volt[174] = 0xFFFF;
		BMS_Cell_Volt[175] = 0xFFFF;
		break;
	case 0x182DFBF4:
		BMS_Cell_Volt[176] = 0xFFFF;
		BMS_Cell_Volt[177] = 0xFFFF;
		BMS_Cell_Volt[178] = 0xFFFF;
		BMS_Cell_Volt[179] = 0xFFFF;
		break;
	case 0x182EFBF4:
		BMS_Cell_Volt[180] = 0xFFFF;
		BMS_Cell_Volt[181] = 0xFFFF;
		BMS_Cell_Volt[182] = 0xFFFF;
		BMS_Cell_Volt[183] = 0xFFFF;
		break;
	case 0x182FFBF4:
		BMS_Cell_Volt[184] = 0xFFFF;
		BMS_Cell_Volt[185] = 0xFFFF;
		BMS_Cell_Volt[186] = 0xFFFF;
		BMS_Cell_Volt[187] = 0xFFFF;
		break;
	case 0x1830FBF4:
		BMS_Cell_Volt[188] = 0xFFFF;
		BMS_Cell_Volt[189] = 0xFFFF;
		BMS_Cell_Volt[190] = 0xFFFF;
		BMS_Cell_Volt[191] = 0xFFFF;
		break;
	case 0x1831FBF4:
		BMS_Cell_Volt[192] = 0xFFFF;
		BMS_Cell_Volt[193] = 0xFFFF;
		BMS_Cell_Volt[194] = 0xFFFF;
		BMS_Cell_Volt[195] = 0xFFFF;
		break;
	case 0x1832FBF4:
		BMS_Cell_Volt[196] = 0xFFFF;
		BMS_Cell_Volt[197] = 0xFFFF;
		BMS_Cell_Volt[198] = 0xFFFF;
		BMS_Cell_Volt[199] = 0xFFFF;
		break;
	case 0x1833FBF4:
		BMS_Cell_Volt[200] = 0xFFFF;
		BMS_Cell_Volt[201] = 0xFFFF;
		BMS_Cell_Volt[202] = 0xFFFF;
		BMS_Cell_Volt[203] = 0xFFFF;
		break;
	case 0x1834FBF4:
		BMS_Cell_Volt[204] = 0xFFFF;
		BMS_Cell_Volt[205] = 0xFFFF;
		BMS_Cell_Volt[206] = 0xFFFF;
		BMS_Cell_Volt[207] = 0xFFFF;
		break;
	case 0x1835FBF4:
		BMS_Cell_Volt[208] = 0xFFFF;
		BMS_Cell_Volt[209] = 0xFFFF;
		BMS_Cell_Volt[210] = 0xFFFF;
		BMS_Cell_Volt[211] = 0xFFFF;
		break;
	case 0x1836FBF4:
		BMS_Cell_Volt[212] = 0xFFFF;
		BMS_Cell_Volt[213] = 0xFFFF;
		BMS_Cell_Volt[214] = 0xFFFF;
		BMS_Cell_Volt[215] = 0xFFFF;
		break;
	case 0x1837FBF4:
		BMS_Cell_Volt[216] = 0xFFFF;
		BMS_Cell_Volt[217] = 0xFFFF;
		BMS_Cell_Volt[218] = 0xFFFF;
		BMS_Cell_Volt[219] = 0xFFFF;
		break;
	case 0x1838FBF4:
		BMS_Cell_Volt[220] = 0xFFFF;
		BMS_Cell_Volt[221] = 0xFFFF;
		BMS_Cell_Volt[222] = 0xFFFF;
		BMS_Cell_Volt[223] = 0xFFFF;
		break;
	case 0x1839FBF4:
		BMS_Cell_Volt[224] = 0xFFFF;
		BMS_Cell_Volt[225] = 0xFFFF;
		BMS_Cell_Volt[226] = 0xFFFF;
		BMS_Cell_Volt[227] = 0xFFFF;
		break;
	case 0x183AFBF4:
		BMS_Cell_Volt[228] = 0xFFFF;
		BMS_Cell_Volt[229] = 0xFFFF;
		BMS_Cell_Volt[230] = 0xFFFF;
		BMS_Cell_Volt[231] = 0xFFFF;
		break;
	case 0x183BFBF4:
		BMS_Cell_Volt[232] = 0xFFFF;
		BMS_Cell_Volt[233] = 0xFFFF;
		BMS_Cell_Volt[234] = 0xFFFF;
		BMS_Cell_Volt[235] = 0xFFFF;
		break;
	case 0x183CFBF4:
		BMS_Cell_Volt[236] = 0xFFFF;
		BMS_Cell_Volt[237] = 0xFFFF;
		BMS_Cell_Volt[238] = 0xFFFF;
		BMS_Cell_Volt[239] = 0xFFFF;
		break;
	case 0x183DFBF4:
		BMS_Cell_Volt[240] = 0xFFFF;
		BMS_Cell_Volt[241] = 0xFFFF;
		BMS_Cell_Volt[242] = 0xFFFF;
		BMS_Cell_Volt[243] = 0xFFFF;
		break;
	case 0x183EFBF4:
		BMS_Cell_Volt[244] = 0xFFFF;
		BMS_Cell_Volt[245] = 0xFFFF;
		BMS_Cell_Volt[246] = 0xFFFF;
		BMS_Cell_Volt[247] = 0xFFFF;
		break;
	case 0x183FFBF4:
		BMS_Cell_Volt[248] = 0xFFFF;
		BMS_Cell_Volt[249] = 0xFFFF;
		BMS_Cell_Volt[250] = 0xFFFF;
		BMS_Cell_Volt[251] = 0xFFFF;
		break;
	case 0x1840FBF4:
		BMS_Cell_Volt[252] = 0xFFFF;
		BMS_Cell_Volt[253] = 0xFFFF;
		BMS_Cell_Volt[254] = 0xFFFF;
		BMS_Cell_Volt[255] = 0xFFFF;
		break;
	case 0x1841FBF4:
		BMS_Cell_Volt[256] = 0xFFFF;
		BMS_Cell_Volt[257] = 0xFFFF;
		BMS_Cell_Volt[258] = 0xFFFF;
		BMS_Cell_Volt[259] = 0xFFFF;
		break;
	case 0x1842FBF4:
		BMS_Cell_Volt[260] = 0xFFFF;
		BMS_Cell_Volt[261] = 0xFFFF;
		BMS_Cell_Volt[262] = 0xFFFF;
		BMS_Cell_Volt[263] = 0xFFFF;
		break;
	case 0x1843FBF4:
		BMS_Cell_Volt[264] = 0xFFFF;
		BMS_Cell_Volt[265] = 0xFFFF;
		BMS_Cell_Volt[266] = 0xFFFF;
		BMS_Cell_Volt[267] = 0xFFFF;
		break;
	case 0x1844FBF4:
		BMS_Cell_Volt[268] = 0xFFFF;
		BMS_Cell_Volt[269] = 0xFFFF;
		BMS_Cell_Volt[270] = 0xFFFF;
		BMS_Cell_Volt[271] = 0xFFFF;
		break;
	case 0x1845FBF4:
		BMS_Cell_Volt[272] = 0xFFFF;
		BMS_Cell_Volt[273] = 0xFFFF;
		BMS_Cell_Volt[274] = 0xFFFF;
		BMS_Cell_Volt[275] = 0xFFFF;
		break;
	case 0x1846FBF4:
		BMS_Cell_Volt[276] = 0xFFFF;
		BMS_Cell_Volt[277] = 0xFFFF;
		BMS_Cell_Volt[278] = 0xFFFF;
		BMS_Cell_Volt[279] = 0xFFFF;
		break;
	case 0x1847FBF4:
		BMS_Cell_Volt[280] = 0xFFFF;
		BMS_Cell_Volt[281] = 0xFFFF;
		BMS_Cell_Volt[282] = 0xFFFF;
		BMS_Cell_Volt[283] = 0xFFFF;
		break;
	case 0x1848FBF4:
		BMS_Cell_Volt[284] = 0xFFFF;
		BMS_Cell_Volt[285] = 0xFFFF;
		BMS_Cell_Volt[286] = 0xFFFF;
		BMS_Cell_Volt[287] = 0xFFFF;
		break;
	case 0x1849FBF4:
		BMS_Cell_Volt[288] = 0xFFFF;
		BMS_Cell_Volt[289] = 0xFFFF;
		BMS_Cell_Volt[290] = 0xFFFF;
		BMS_Cell_Volt[291] = 0xFFFF;
		break;
	case 0x184AFBF4:
		BMS_Cell_Volt[292] = 0xFFFF;
		BMS_Cell_Volt[293] = 0xFFFF;
		BMS_Cell_Volt[294] = 0xFFFF;
		BMS_Cell_Volt[295] = 0xFFFF;
		break;
	case 0x184BFBF4:
		BMS_Cell_Volt[296] = 0xFFFF;
		BMS_Cell_Volt[297] = 0xFFFF;
		BMS_Cell_Volt[298] = 0xFFFF;
		BMS_Cell_Volt[299] = 0xFFFF;
		break;
	case 0x184CFBF4:
		BMS_Cell_Volt[300] = 0xFFFF;
		BMS_Cell_Volt[301] = 0xFFFF;
		BMS_Cell_Volt[302] = 0xFFFF;
		BMS_Cell_Volt[303] = 0xFFFF;
		break;
	case 0x184DFBF4:
		BMS_Cell_Volt[304] = 0xFFFF;
		BMS_Cell_Volt[305] = 0xFFFF;
		BMS_Cell_Volt[306] = 0xFFFF;
		BMS_Cell_Volt[307] = 0xFFFF;
		break;
	case 0x184EFBF4:
		BMS_Cell_Volt[308] = 0xFFFF;
		BMS_Cell_Volt[309] = 0xFFFF;
		BMS_Cell_Volt[310] = 0xFFFF;
		BMS_Cell_Volt[311] = 0xFFFF;
		break;
	case 0x184FFBF4:
		BMS_Cell_Volt[312] = 0xFFFF;
		BMS_Cell_Volt[313] = 0xFFFF;
		BMS_Cell_Volt[314] = 0xFFFF;
		BMS_Cell_Volt[315] = 0xFFFF;
		break;
	case 0x1850FBF4:
		BMS_Cell_Volt[316] = 0xFFFF;
		BMS_Cell_Volt[317] = 0xFFFF;
		BMS_Cell_Volt[318] = 0xFFFF;
		BMS_Cell_Volt[319] = 0xFFFF;
		break;
	case 0x1851FBF4:
		BMS_Cell_Volt[320] = 0xFFFF;
		BMS_Cell_Volt[321] = 0xFFFF;
		BMS_Cell_Volt[322] = 0xFFFF;
		BMS_Cell_Volt[323] = 0xFFFF;
		break;
	case 0x1852FBF4:
		BMS_Cell_Volt[324] = 0xFFFF;
		BMS_Cell_Volt[325] = 0xFFFF;
		BMS_Cell_Volt[326] = 0xFFFF;
		BMS_Cell_Volt[327] = 0xFFFF;
		break;
	case 0x1853FBF4:
		BMS_Cell_Volt[328] = 0xFFFF;
		BMS_Cell_Volt[329] = 0xFFFF;
		BMS_Cell_Volt[330] = 0xFFFF;
		BMS_Cell_Volt[331] = 0xFFFF;
		break;
	case 0x1854FBF4:
		BMS_Cell_Volt[332] = 0xFFFF;
		BMS_Cell_Volt[333] = 0xFFFF;
		BMS_Cell_Volt[334] = 0xFFFF;
		BMS_Cell_Volt[335] = 0xFFFF;
		break;
	case 0x1855FBF4:
		BMS_Cell_Volt[336] = 0xFFFF;
		BMS_Cell_Volt[337] = 0xFFFF;
		BMS_Cell_Volt[338] = 0xFFFF;
		BMS_Cell_Volt[339] = 0xFFFF;
		break;
	case 0x1856FBF4:
		BMS_Cell_Volt[340] = 0xFFFF;
		BMS_Cell_Volt[341] = 0xFFFF;
		BMS_Cell_Volt[342] = 0xFFFF;
		BMS_Cell_Volt[343] = 0xFFFF;
		break;
	case 0x1857FBF4:
		BMS_Cell_Volt[344] = 0xFFFF;
		BMS_Cell_Volt[345] = 0xFFFF;
		BMS_Cell_Volt[346] = 0xFFFF;
		BMS_Cell_Volt[347] = 0xFFFF;
		break;
	case 0x1858FBF4:
		BMS_Cell_Volt[348] = 0xFFFF;
		BMS_Cell_Volt[349] = 0xFFFF;
		BMS_Cell_Volt[350] = 0xFFFF;
		BMS_Cell_Volt[351] = 0xFFFF;
		break;
	case 0x1859FBF4:
		BMS_Cell_Volt[352] = 0xFFFF;
		BMS_Cell_Volt[353] = 0xFFFF;
		BMS_Cell_Volt[354] = 0xFFFF;
		BMS_Cell_Volt[355] = 0xFFFF;
		break;
	case 0x185AFBF4:
		BMS_Cell_Volt[356] = 0xFFFF;
		BMS_Cell_Volt[357] = 0xFFFF;
		BMS_Cell_Volt[358] = 0xFFFF;
		BMS_Cell_Volt[359] = 0xFFFF;
		break;
	case 0x185BFBF4:
		BMS_Cell_Volt[360] = 0xFFFF;
		BMS_Cell_Volt[361] = 0xFFFF;
		BMS_Cell_Volt[362] = 0xFFFF;
		BMS_Cell_Volt[363] = 0xFFFF;
		break;
	case 0x185CFBF4:
		BMS_Cell_Volt[364] = 0xFFFF;
		BMS_Cell_Volt[365] = 0xFFFF;
		BMS_Cell_Volt[366] = 0xFFFF;
		BMS_Cell_Volt[367] = 0xFFFF;
		break;
	case 0x185DFBF4:
		BMS_Cell_Volt[368] = 0xFFFF;
		BMS_Cell_Volt[369] = 0xFFFF;
		BMS_Cell_Volt[370] = 0xFFFF;
		BMS_Cell_Volt[371] = 0xFFFF;
		break;
	case 0x185EFBF4:
		BMS_Cell_Volt[372] = 0xFFFF;
		BMS_Cell_Volt[373] = 0xFFFF;
		BMS_Cell_Volt[374] = 0xFFFF;
		BMS_Cell_Volt[375] = 0xFFFF;
		break;
	case 0x185FFBF4:
		BMS_Cell_Volt[376] = 0xFFFF;
		BMS_Cell_Volt[377] = 0xFFFF;
		BMS_Cell_Volt[378] = 0xFFFF;
		BMS_Cell_Volt[379] = 0xFFFF;
		break;
	case 0x1860FBF4:
		BMS_Cell_Volt[380] = 0xFFFF;
		BMS_Cell_Volt[381] = 0xFFFF;
		BMS_Cell_Volt[382] = 0xFFFF;
		BMS_Cell_Volt[383] = 0xFFFF;
		break;
	case 0x1881EFF4:
		BMS11_Fult1_DelTemp = 0xFF;
		BMS11_Fult1_OverTemp = 0xFF;
		BMS11_Fult1_PackOverHVolt = 0xFF;
		BMS11_Fult1_PackLowHVolt = 0xFF;
		BMS11_Fult1_LowSOC = 0xFF;
		BMS11_Fult1_OverUcell = 0xFF;
		BMS11_Fult1_LowUcell = 0xFF;
		BMS11_Fult1_LowInsRes = 0xFF;
		BMS11_Fult1_UcellUniformity = 0xFF;
		BMS11_Fult1_OverChg = 0xFF;
		BMS11_Fult1_OverSOC = 0xFF;
		BMS11_Fult1_SOCChangeFast = 0xFF;
		BMS11_Fult1_BatSysNotMatch = 0xFF;
		BMS11_Fult1_HVILFault = 0xFF;
		BMS11_PackOutsideVolt = 0xFFFF;
		break;
	case 0x1882EFF4:
		BMS12_Fult2_FaultNum = 0xFF;
		BMS12_Fult2_CellOverDischrg = 0xFF;
		BMS12_Fult2_CellLowTemp = 0xFF;
		BMS12_Fult2_PackFireWarning = 0xFF;
		BMS12_Fult2_OverDischrgCurr = 0xFF;
		BMS12_Fult2_OverChrgCurrInTheDrive = 0xFF;
		BMS12_Fult2_CurrSensorErr = 0xFF;
		BMS12_Fult2_PowerSupplyErr = 0xFF;
		BMS12_Fult2_TMSErr = 0xFF;
		BMS12_Fult2_HeatingFilmErr = 0xFF;
		BMS12_Fult2_PackSelfProtect = 0xFF;
		BMS12_Fult2_MainLoopPrechrgErr = 0xFF;
		BMS12_Fult2_AuxLoopPrechrgErr = 0xFF;
		BMS12_Fult2_ChrgInsLowErr = 0xFF;
		BMS12_Fult2_ACANLost = 0xFF;
		BMS12_Fult2_InnerCommunicationErr = 0xFF;
		BMS12_Fult2_DCDCErr = 0xFF;
		BMS12_Fult2_BranchBreakErr = 0xFF;
		BMS12_Fult2_HeatRelayOpenErr = 0xFF;
		BMS12_Fult2_HeatRelayWeldErr = 0xFF;
		BMS12_Fult2_MainPosRelayOpenErr = 0xFF;
		BMS12_Fult2_MainPosRelayWeldErr = 0xFF;
		BMS12_Fult2_MainNegRelayOpenErr = 0xFF;
		BMS12_Fult2_MainNegRelayWeldErr = 0xFF;
		BMS12_Fult2_DCChrgPos1RelayOpenErr = 0xFF;
		BMS12_Fult2_DCChrgPos1RelayWeldErr = 0xFF;
		BMS12_Fult2_DCChrgNeg1RelayOpenErr = 0xFF;
		BMS12_Fult2_DCChrgNeg1RelayWeldErr = 0xFF;
		BMS12_Fult2_DCChrgPos2RelayOpenErr = 0xFF;
		BMS12_Fult2_DCChrgPos2RelayWeldErr = 0xFF;
		BMS12_Fult2_DCChrgNeg2RelayOpenErr = 0xFF;
		BMS12_Fult2_DCChrgNeg2RelayWeldErr = 0xFF;
		BMS12_Fult2_ChrgConnectErr = 0xFF;
		BMS12_ult2_OverDischrgCurrWhenInChrg = 0xFF;
		BMS12_Fult2_OverChrgCurrInTheChrg = 0xFF;
		BMS12_Fult2_ChrgNTCErr = 0xFF;
		BMS12_Fult2_ChrgNTCTempOver = 0xFF;
		BMS12_Fult2_ELockErr = 0xFF;
		BMS12_Fult2_FireDetectorEr = 0xFF;
		BMS12_Fult2_ContiDischrgCurrOverLoad = 0xFF;
		BMS12_Fult2_SOCDifferErr = 0xFF;
		BMS12_Fult2_ContiChrgCurrOverLoad = 0xFF;
		break;
	case 0x1883EFF4:
		BMS1_MainPosRelaySt = 0xFF;
		BMS1_MainNegRelaySt = 0xFF;
		BMS1_PreChgRelaySt = 0xFF;
		BMS1_DCChrgPos1RelaySt = 0xFF;
		BMS1_DCChrgNeg1RelaySt = 0xFF;
		BMS1_DCChrgPos2RelaySt = 0xFF;
		BMS1_DCChrgNeg2RelaySt = 0xFF;
		BMS1_HeatPosRelaySt = 0xFF;
		BMS1_HeatNegRelaySt = 0xFF;
		BMS1_SysSts = 0xFF;
		BMS1_Life = 0xFF;
		BMS1_BalanceStatus = 0xFF;
		BMS1_DCChrgConnectSt = 0xFF;
		BMS1_ChrgMode = 0xFF;
		BMS1_ChrgStatus = 0xFF;
		BMS1_HeatingStatus = 0xFF;
		BMS1_CoolingStatus = 0xFF;
		BMS1_RechrgCycels = 0xFFFFFFFF;
		break;
	case 0x1884EFF4:
		BMS2_SOC = 0xFF;
		BMS2_SOH = 0xFF;
		BMS2_PackCurrent = 0xFFFF;
		BMS2_PackInsideVolt = 0xFFFF;
		BMS2_FaultCode = 0xFF;
		BMS2_FaultLevel = 0xFF;
		BMS2_RqHVPoerOff = 0xFF;
		BMS2_Life = 0xFF;
		break;
	case 0x1885EFF4:
		BMS4_PosIsolation = 0xFFFF;
		BMS4_NegIsolation = 0xFFFF;
		BMS4_SysInsRes = 0xFFFF;
		BMS4_InsDetectorSt = 0xFF;
		break;
	case 0x1886EFF4:
		BMS8_Max_Temp = 0xFF;
		BMS8_Min_Temp = 0xFF;
		BMS8_Avg_Temp = 0xFF;
		BMS8_MaxTempSysNr = 0xFF;
		BMS8_MaxTempNr = 0xFF;
		BMS8_MinTempSysNr = 0xFF;
		BMS8_MinTempNr = 0xFF;
		break;
	case 0x1887EFF4:
		BMS6_Max_Ucell = 0xFFFF;
		BMS6_Min_Ucell = 0xFFFF;
		BMS6_Avg_Ucell = 0xFFFF;
		BMS6_SOE = 0xFFFF;
		break;
	case 0x1888EFF4:
		BMS7_MaxUcellSysNr = 0xFF;
		BMS7_MaxUcellNr = 0xFFFF;
		BMS7_MinUcellSysNr = 0xFF;
		BMS7_MinUcellNr = 0xFFFF;
		break;
	case 0x1889EFF4:
		BMS23_Gun1DCPosTemp = 0xFF;
		BMS23_Gun1DCNegTemp = 0xFF;
		BMS23_Gun2DCPosTemp = 0xFF;
		BMS23_Gun2DCNegTemp = 0xFF;
		BMS23_RemainChgTi = 0xFFFF;
		break;
	case 0x18A0FBF4:
		BMS_Cell_TempN[0] = 0xFF;
		BMS_Cell_TempN[1] = 0xFF;
		BMS_Cell_TempN[2] = 0xFF;
		BMS_Cell_TempN[3] = 0xFF;
		BMS_Cell_TempN[4] = 0xFF;
		BMS_Cell_TempN[5] = 0xFF;
		BMS_Cell_TempN[6] = 0xFF;
		BMS_Cell_TempN[7] = 0xFF;
		break;
	case 0x18A1FBF4:
		BMS_Cell_TempN[8] = 0xFF;
		BMS_Cell_TempN[9] = 0xFF;
		BMS_Cell_TempN[10] = 0xFF;
		BMS_Cell_TempN[11] = 0xFF;
		BMS_Cell_TempN[12] = 0xFF;
		BMS_Cell_TempN[13] = 0xFF;
		BMS_Cell_TempN[14] = 0xFF;
		BMS_Cell_TempN[15] = 0xFF;
		break;
	case 0x18A2FBF4:
		BMS_Cell_TempN[16] = 0xFF;
		BMS_Cell_TempN[17] = 0xFF;
		BMS_Cell_TempN[18] = 0xFF;
		BMS_Cell_TempN[19] = 0xFF;
		BMS_Cell_TempN[20] = 0xFF;
		BMS_Cell_TempN[21] = 0xFF;
		BMS_Cell_TempN[22] = 0xFF;
		BMS_Cell_TempN[23] = 0xFF;
		BMS_Cell_TempN[24] = 0xFF;
		BMS_Cell_TempN[25] = 0xFF;
		BMS_Cell_TempN[26] = 0xFF;
		BMS_Cell_TempN[27] = 0xFF;
		BMS_Cell_TempN[28] = 0xFF;
		BMS_Cell_TempN[29] = 0xFF;
		BMS_Cell_TempN[30] = 0xFF;
		BMS_Cell_TempN[31] = 0xFF;
		break;
	case 0x18A3FBF4:
		BMS_Cell_TempN[32] = 0xFF;
		BMS_Cell_TempN[33] = 0xFF;
		BMS_Cell_TempN[34] = 0xFF;
		BMS_Cell_TempN[35] = 0xFF;
		BMS_Cell_TempN[36] = 0xFF;
		BMS_Cell_TempN[37] = 0xFF;
		BMS_Cell_TempN[38] = 0xFF;
		BMS_Cell_TempN[39] = 0xFF;
		break;
	case 0x18A4FBF4:
		BMS_Cell_TempN[40] = 0xFF;
		BMS_Cell_TempN[41] = 0xFF;
		BMS_Cell_TempN[42] = 0xFF;
		BMS_Cell_TempN[43] = 0xFF;
		BMS_Cell_TempN[44] = 0xFF;
		BMS_Cell_TempN[45] = 0xFF;
		BMS_Cell_TempN[46] = 0xFF;
		BMS_Cell_TempN[47] = 0xFF;
		break;
	case 0x18A5FBF4:
		BMS_Cell_TempN[48] = 0xFF;
		BMS_Cell_TempN[49] = 0xFF;
		BMS_Cell_TempN[50] = 0xFF;
		BMS_Cell_TempN[51] = 0xFF;
		BMS_Cell_TempN[52] = 0xFF;
		BMS_Cell_TempN[53] = 0xFF;
		BMS_Cell_TempN[54] = 0xFF;
		BMS_Cell_TempN[55] = 0xFF;
		break;
	case 0x18A6FBF4:
		BMS_Cell_TempN[56] = 0xFF;
		BMS_Cell_TempN[57] = 0xFF;
		BMS_Cell_TempN[58] = 0xFF;
		BMS_Cell_TempN[59] = 0xFF;
		BMS_Cell_TempN[60] = 0xFF;
		BMS_Cell_TempN[61] = 0xFF;
		BMS_Cell_TempN[62] = 0xFF;
		BMS_Cell_TempN[63] = 0xFF;
		break;
	case 0x18E1EFF4:
		break;
	case 0x18E2EFF4:
		BMS21_RateCap = 0xFFFF;
		BMS21_RateHVolt = 0xFFFF;
		BMS21_RatePower = 0xFFFF;
		BMS21_BattType = 0xFF;
		BMS21_CoolType = 0xFF;
		BMS21_Manufacture = 0xFF;
		BMS21_ProtocolEditionH = 0xFF;
		BMS21_ProtocolEditionL = 0xFF;
		break;
	case 0x18E3EFF4:
		BMS9_TotCSCNum = 0xFF;
		BMS9_PackTotCellNum = 0xFFFF;
		BMS9_PackTotTempNum = 0xFF;
		BMS9_HVBranchNum = 0xFF;
		BMS9_SingleHVBranchCellNum = 0xFF;
		BMS9_BattSysNum = 0xFF;
		BMS9_BattSysSeqNum = 0xFF;
		break;
	case 0x18E4EFF4:
		BMS22_PackAvaiMaxVolt = 0xFFFF;
		BMS22_PackAvaiMinVolt = 0xFFFF;
		BMS22_AvaiMaxSOC = 0xFF;
		BMS22_AvaiMinSOC = 0xFF;
		BMS22_AvaiMaxTemp = 0xFF;
		BMS22_AvaiMinTemp = 0xFF;
		break;
	case 0x18FEDAF4:
		BMS_SoftwareVersion = 0xFFFF;
		BMS_HardwareVersion = 0xFFFF;
		break;
	case 0x18FF23F4:
		BMS3_MaxDischgPow = 0xFFFF;
		BMS3_MaxChgPow = 0xFFFF;
		BMS3_MaxInstantDischgPow = 0xFFFF;
		BMS3_MaxiInstantChgPow = 0xFFFF;
		break;
	case 0x18FF24F4:
		BMS10_SubSysEncodingLen = 0xFF;
		BMS10_SubSysIdx = 0xFF;
		BMS10_SubSysErrNum = 0xFF;
		break;
	case 0x18FF25F4:
		BMS5_DischgCurMaxAllw = 0xFFFF;
		BMS5_ChrgCurMaxAllw = 0xFFFF;
		BMS5_InstChrgCurMaxAllw = 0xFFFF;
		BMS5_InstDischrgCurMaxAllw = 0xFFFF;
		break;
	case 0x18FF30F4:
		BMS26_Bat_InstantConsume = 0xFFFF;
		BMS26_Bat_TotalConsume = 0xFFFF;
		BMS26_ChgReqVoltage = 0xFFFF;
		BMS26_ChgReqCurrent = 0xFFFF;
		break;
	case 0x18FF45F4:
		BMS28_ReqMode = 0xFF;
		BMS28_HVCmd = 0xFF;
		BMS28_ChgSts = 0xFF;
		BMS28_HVRelaySts = 0xFF;
		BMS28_HVVolt = 0xFFFF;
		BMS28_SetTemp = 0xFF;
		BMS28_Life = 0xFF;
		BMS28_CRC = 0xFF;
		break;
	case 0x18FFC13A:
		TMS_WorkStatus = 0xFF;
		TMS_HVRelayST = 0xFF;
		TMS_OutletTemp = 0xFF;
		TMS_InletTemp = 0xFF;
		TMS_Version = 0xFF;
		TMS_ReqPow = 0xFFFF;
		TMS_ErrCode = 0xFF;
		TMS_FaultLevel = 0xFF;
		break;
	case 0x18FFD4F4:
		BMS14_TotalChargeAh = 0xFFFFFFFF;
		BMS14_TotalDischargeAh = 0xFFFFFFFF;
		break;
	case 0x18FFD5F4:
		BMS15_TotalChargeKwh = 0xFFFFFFFF;
		BMS15_TotalDischargeKwh = 0xFFFFFFFF;
		break;
	case 0x18FFD6F4:
		BMS16_TotalEneryECOChargeAh = 0xFFFFFFFF;
		BMS16_TotalEneryECOChargeKwh = 0xFFFFFFFF;
		break;
	case 0x18FFD7F4:
		BMS17_TotalStationChargeAh = 0xFFFFFFFF;
		BMS17_TotalStationChargeKwh = 0xFFFFFFFF;
		break;
	case 0x18FFD8F4:
		BMS18_TotalPoleChargeAh = 0xFFFFFFFF;
		BMS18_TotalPoleChargeKwh = 0xFFFFFFFF;
		break;
	case 0x18FFD9F4:
		BMS19_SingleChargeAh = 0xFFFFFFFF;
		BMS19_SingleChargeKwh = 0xFFFFFFFF;
		break;
	default:
		break;
	}
}

/**
 * @brief : Bcu缂栫爜鍑芥暟
 * @param {UINT32} ID
 * @param {UINT8} *rawData
 * @return {*}
 */
void BcuEncodeFunction(UINT32 ID, UINT8 *rawData)
{
	switch (ID)
	{
	case 0x1802F4EF:
		// VCU_Life = ;
		VCU_ReqHV = VCU_HvOnOff; // C
		VCU_DCDCSts = 0x03;		 // VCU涓嶅彂锛屾棤鏁�
		VCU_DCACSts = 0x03;		 // VCU涓嶅彂锛屾棤鏁�
		VCU_DCAPSts = 0x03;		 // VCU涓嶅彂锛屾棤鏁�
		// VCU_VehicleSpeed  //淇″彿瀛樺湪锛岄噸澶嶄娇鐢�
		VCU_PosRlySts = VCU_MainPosRlySts; // C TBD
		VCU_PosRlyErrSts = 0x03;
		VCU_PTCRlSts = 0x03;
		VCU_PTCRlErrSts = 0x03;
		VCU_StopChgCmd = 0x03;
		VCU_HVInterlock = 0x03;
		VCU_AssistRlySts = 0x03;
		VCU_AssistRlyErrSts = 0x03;
		VCU_ACRlySts = 0x03;
		VCU_ACRlyErrSts = 0x03;
		*(UINT8 *)(rawData + 0) = *(UINT8 *)(rawData + 0) | ((VCU_Life << 0) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((VCU_ReqHV << 0) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((VCU_DCDCSts << 2) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((VCU_DCACSts << 4) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((VCU_DCAPSts << 6) & 0xFF);
		*(UINT8 *)(rawData + 2) = *(UINT8 *)(rawData + 2) | ((VCU_VehicleSpeed << 0) & 0xFF);
		*(UINT8 *)(rawData + 3) = *(UINT8 *)(rawData + 3) | ((VCU_PosRlySts << 0) & 0xFF);
		*(UINT8 *)(rawData + 3) = *(UINT8 *)(rawData + 3) | ((VCU_PosRlyErrSts << 2) & 0xFF);
		*(UINT8 *)(rawData + 3) = *(UINT8 *)(rawData + 3) | ((VCU_PTCRlSts << 4) & 0xFF);
		*(UINT8 *)(rawData + 3) = *(UINT8 *)(rawData + 3) | ((VCU_PTCRlErrSts << 6) & 0xFF);
		*(UINT8 *)(rawData + 4) = *(UINT8 *)(rawData + 4) | ((VCU_StopChgCmd << 0) & 0xFF);
		*(UINT8 *)(rawData + 4) = *(UINT8 *)(rawData + 4) | ((VCU_HVInterlock << 2) & 0xFF);
		*(UINT8 *)(rawData + 5) = *(UINT8 *)(rawData + 5) | ((VCU_AssistRlySts << 4) & 0xFF);
		*(UINT8 *)(rawData + 5) = *(UINT8 *)(rawData + 5) | ((VCU_AssistRlyErrSts << 6) & 0xFF);
		*(UINT8 *)(rawData + 6) = *(UINT8 *)(rawData + 6) | ((VCU_ACRlySts << 0) & 0xFF);
		*(UINT8 *)(rawData + 6) = *(UINT8 *)(rawData + 6) | ((VCU_ACRlyErrSts << 2) & 0xFF);
		break;
	case 0x1803F4EF:
		ISO_WorkStatus = 0x0F;
		ISO_FaultLevel = 0x0F;
		ISO_PosResis = 0xFFFF;
		ISO_NegResis = 0xFFFF;
		*(UINT8 *)(rawData + 0) = *(UINT8 *)(rawData + 0) | ((ISO_WorkStatus << 0) & 0xFF);
		*(UINT8 *)(rawData + 0) = *(UINT8 *)(rawData + 0) | ((ISO_FaultLevel << 4) & 0xFF);
		*(UINT8 *)(rawData + 1) = ISO_PosResis;
		*(UINT8 *)(rawData + 2) = ISO_PosResis>>8;
		*(UINT8 *)(rawData + 3) = ISO_NegResis;
		*(UINT8 *)(rawData + 4) = ISO_NegResis>>8;
		break;
	case 0x18E1F4EF:
		if (EBC_VinMsgFlag == 0x07)
		{
			*(UINT8 *)(rawData + 0) = *(UINT8 *)(rawData + 0) | (((VIN_FrameNo + 1) << 0) & 0xFF); // VIN_FrameNo = 1,2,3;
			for (UINT8 i = 0; i < 7; i++)
			{
				if ((i + 7 * (VIN_FrameNo)) < sizeof(VCU_VIN))
				{
					*(UINT8 *)(rawData + i + 1) = (VCU_VIN[i + 7 * (VIN_FrameNo)] << 0) & 0xFF;
				}
				else
				{
					*(UINT8 *)(rawData + i + 1) = 0x00;
					VIN_FrameNo = 0;
				}
			}
			VIN_FrameNo++;
		}
		break;
	case 0x18FF11F1:
	{
		static UINT8 Life = 0;
		Life = Life + 1;
		EBC_State = ebcd_st_ebcWork;
		EBC_ForbidHVOn = ebcd_flg_forbidHVOn;
		EBC_RequestHVOff = ebcb_flg_reqHvOff;
		EBC_ChgFaultFlag = 0x03;
		EBC_LockupFaultFlag = ebcd_flg_LockErr;
		EBC_ChgCnctOverTemp = 0x01;
		EBC_DischgHIVLFlag = ebcd_flg_dChrgLockErr;
		EBC_ChargeHIVLFlag = ebcd_flg_chrgLockErr;
		EBC_DChgCnctOverTemp = ebcd_flg_dChgCnctOverTemp;
		EBC_FaultLevel = ebcd_Nr_errMax;
		EBC_FaultCode = ebcd_Num_faultCode;
		EBC_ChargingStatus = ebcd_st_chargingMod;
		EBC_ActiveHeatReq = 0x03;
		EBC_AirPressure = ebcd_P_airSensor;
		*(UINT8 *)(rawData + 0) = *(UINT8 *)(rawData + 0) | ((EBC_State << 0) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_ForbidHVOn << 0) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_RequestHVOff << 1) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_ChgFaultFlag << 2) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_LockupFaultFlag << 3) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_ChgCnctOverTemp << 4) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_DischgHIVLFlag << 5) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_ChargeHIVLFlag << 6) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_DChgCnctOverTemp << 7) & 0xFF);
		*(UINT8 *)(rawData + 2) = *(UINT8 *)(rawData + 2) | ((EBC_FaultLevel << 0) & 0xFF);
		*(UINT8 *)(rawData + 3) = *(UINT8 *)(rawData + 3) | ((EBC_FaultCode << 0) & 0xFF);
		*(UINT8 *)(rawData + 5) = *(UINT8 *)(rawData + 5) | ((EBC_ChargingStatus << 0) & 0xFF);
		*(UINT8 *)(rawData + 5) = *(UINT8 *)(rawData + 5) | ((EBC_ActiveHeatReq << 2) & 0xFF);
		*(UINT8 *)(rawData + 6) = *(UINT8 *)(rawData + 6) | ((EBC_AirPressure << 0) & 0xFF);
		*(UINT8 *)(rawData + 7) = *(UINT8 *)(rawData + 7) | ((Life << 0) & 0xFF);
		break;
	}
	case 0x18FF12F1:
		EBC_DchgPos1Temp = ebcd_T_plugin[0];
		EBC_DchgNeg1Temp = ebcd_T_plugin[1];
		EBC_DchgPos2Temp = ebcd_T_plugin[2];
		EBC_DchgNeg2Temp = ebcd_T_plugin[3];
		EBC_ChgPos1Temp = 0xFF; //淇濈暀鍊硷紝瀹氫箟涓烘棤鏁�
		EBC_ChgNeg1Temp = 0xFF; //淇濈暀鍊硷紝瀹氫箟涓烘棤鏁�
		EBC_ChgPos2Temp = 0xFF; //淇濈暀鍊硷紝瀹氫箟涓烘棤鏁�
		EBC_ChgNeg2Temp = 0xFF; //淇濈暀鍊硷紝瀹氫箟涓烘棤鏁�
		*(UINT8 *)(rawData + 0) = *(UINT8 *)(rawData + 0) | ((EBC_ChgPos1Temp << 0) & 0xFF);
		*(UINT8 *)(rawData + 1) = *(UINT8 *)(rawData + 1) | ((EBC_ChgNeg1Temp << 0) & 0xFF);
		*(UINT8 *)(rawData + 2) = *(UINT8 *)(rawData + 2) | ((EBC_ChgPos2Temp << 0) & 0xFF);
		*(UINT8 *)(rawData + 3) = *(UINT8 *)(rawData + 3) | ((EBC_ChgNeg2Temp << 0) & 0xFF);
		*(UINT8 *)(rawData + 4) = *(UINT8 *)(rawData + 4) | ((EBC_DchgPos1Temp << 0) & 0xFF);
		*(UINT8 *)(rawData + 5) = *(UINT8 *)(rawData + 5) | ((EBC_DchgNeg1Temp << 0) & 0xFF);
		*(UINT8 *)(rawData + 6) = *(UINT8 *)(rawData + 6) | ((EBC_DchgPos2Temp << 0) & 0xFF);
		*(UINT8 *)(rawData + 7) = *(UINT8 *)(rawData + 7) | ((EBC_DchgNeg2Temp << 0) & 0xFF);
		break;
	default:
		break;
	}
}