543 lines
15 KiB
C
543 lines
15 KiB
C
#include "MAIN.H"
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#include "RTC.H"
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#include "temperature.H"
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#include <string.h>
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//can信息
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UnInfCan UnInfCan_1 = {0};
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UnSwOut UnSwOut_1 = {0};
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//CAN发送周期
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uword CntCan_1 = 0;
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bit FlgCan_1 = 0;
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//第一次采集到有效数据指示
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bit FlgOneTime = 0;
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uword RgCanPerid = 1000;
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UnTimeOutput sleeptime = {0};
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UnTimeOutput waketime = {0};
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UnTimeOutput currenttime = {0};
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UnTimeOutput un_time_output1 = {0};//接收设定时间
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UnInfCanKGFOutput un_inf_can_kgf_output2 = {0};//kgf输出
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UnInfCanKGFOutput un_inf_can_kgf_output1 = {0};//kgf输出
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UnTimeOutput waketimelast = {0};
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UnTimeOutput wake_time_10min = {0};
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SystemState sleepstate = STATE_INIT;
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//PWM 20181227
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ubyte PwmH[16] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
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ubyte powerstate = 0;//电源状态
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ubyte vcu_can_cnt = 0; // 帧累加器
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ubyte vcu_can_last = 0; // 帧累加器过去值
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bool flg_wake_ecu = 0; //控制器唤醒标志
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bool flg_KGF = 0;//KGF唤醒标志
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ubyte can_error_cnt = 0;
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ubyte can_error_flg = 0;
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//-----------------------------------------------------------------------
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//RTC定时器
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//-----------------------------------------------------------------------
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void RTCProcess(void)
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{
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//************************************************************************
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//////CAN发送周期
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if(FlgCan_1){CntCan_1++;if(CntCan_1 >= RgCanPerid){FlgCan_1=0; CntCan_1=0;}}else{CntCan_1=0;}
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//************************************************************************
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}
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//can错误处理
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void CanErrorProcess(void)
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{
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ubyte ubNSRL;
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ubyte ubNSRH;
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ubyte ubResetLEC = 0x3F;
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//-------------------------------------------
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EA = 0;
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CAN_pushAMRegs(); // push the CAN Access Mediator Registers
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SFR_PAGE(_su0, SST0); // switch to page 0
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CAN_vWriteCANAddress(CAN_NSR0);
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CAN_vReadEN();
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ubNSRL = CAN_DATA0;
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ubNSRH = CAN_DATA1;
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if (ubNSRL & 0x20) // if ALERT
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{
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CAN_vInit();
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}
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if (ubNSRL & 0x07) // if LEC
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{
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ubResetLEC = 0x38;
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}
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//// Reset LEC, TXOK, RXOK, ALERT, EWRN, BOFF, LLE, LOE (if set)
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CAN_vWriteCANAddress(CAN_NSR0); // Addressing CAN_NSR0
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CAN_DATA0 = ~(ubNSRL & ubResetLEC); // load CAN_NSR0 status register[7-0]
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CAN_DATA1 = ~(ubNSRH); // load CAN_NSR0 status register[15-8]
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CAN_vWriteEN(D0_VALID+D1_VALID); // Data0 and Data1 are Valid for
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SFR_PAGE(_su0, RST0); // restore the old SCU page
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CAN_popAMRegs(); // restore the CAN Access Mediator Registers
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EA = 1;
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}
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void CanTransmit(void)
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{
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//----------------- --------
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// 装载数据
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if(1 == flg_KGF)//等待KGF唤醒后再发送数据
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{
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CAN_waitTransmit(DF_SwTx);//发送前等待上一帧发送完毕,这样不会丢帧
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CAN_vLoadData(DF_SwTx, (ulong *)(&UnInfCan_1.ArrData.Arr[0][0]));
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CAN_vTransmit(DF_SwTx);
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}
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}
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void canSendTo(ubyte index,ubyte *buf)
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{
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ubyte CanTransmitbuf[8] = {0,0,0,0,0,0,0,0};
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//----------------- --------
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CanTransmitbuf[2] = buf[0];
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CanTransmitbuf[3] = buf[1];
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CanTransmitbuf[0] = buf[2];
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CanTransmitbuf[1] = buf[3];
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CanTransmitbuf[6] = buf[4];
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CanTransmitbuf[7] = buf[5];
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CanTransmitbuf[4] = buf[6];
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CanTransmitbuf[5] = buf[7];
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CAN_waitTransmit(index);//发送前等待上一帧发送完毕,这样不会丢帧
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CAN_vLoadData(index, (ulong *)CanTransmitbuf);// 装载数据
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CAN_vTransmit(index);
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}
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//CAN发送一帧
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void CanTX(void)
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{
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//-----------------------------------
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UnInfCan_1.ArrData.Arr[0][3] = currenttime.bit_data.year;
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UnInfCan_1.ArrData.Arr[0][2] = currenttime.bit_data.month;
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UnInfCan_1.ArrData.Arr[0][1] = currenttime.bit_data.day;
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UnInfCan_1.ArrData.Arr[0][0] = currenttime.bit_data.hour;
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UnInfCan_1.ArrData.Arr[0][7] = currenttime.bit_data.week;
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UnInfCan_1.ArrData.Arr[0][6] = currenttime.bit_data.minute;
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UnInfCan_1.ArrData.Arr[0][5] = currenttime.bit_data.second;
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UnInfCan_1.ArrData.Arr[0][4] = sleepstate;
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CanTransmit();
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}
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//休眠处理函数
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//------------------------------------------------------------------
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void SystemStateMachine(SystemState *RgSTT)
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{
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ubyte i = 0;
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//----------------------------------------------
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switch (*RgSTT)
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{
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//-------------------------------------------
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case STATE_INIT:
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if(NORMAL == flg_wake_ecu)//控制器唤醒
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{
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if(STOP_PIN == ON) //急停开关唤醒
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{
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*RgSTT = STATE_ON; // 引脚为ON,进入工作状态
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wake_time_10min.bit_data.day = 0;
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wake_time_10min.bit_data.hour = 0;
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wake_time_10min.bit_data.week = 0;
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wake_time_10min.bit_data.minute = 10;
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bm8563ClearAlarmFlag(); //先清0
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bm8563SetAlarm(&wake_time_10min);//设置10分钟
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}
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else
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{
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*RgSTT = STATE_OFF; // RTC唤醒,直接进入休眠准备
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}
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}
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else
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{
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*RgSTT = STATE_INIT;
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}
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break;
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//-------------------------------------------
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case STATE_ON:
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if(bm8563CheckAlarmFlag() || ( (STOP_PIN == OFF) && (POWER_STANDBY == powerstate) ) || (WAKE_UP_PIN == OFF) )//10分钟到了或者按下急停且休眠或者关闭总开关
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{
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// 处理定时唤醒
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bm8563ClearAlarmFlag();
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bm8563SetAlarm(&sleeptime);
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KGF_PIN = 0; //KGF休眠
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CAN_PIN = 1; //can芯片休眠
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BATTERY_PIN = 0;//电池休眠
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*RgSTT = STATE_ON; // 保持状态(唤醒后由中断处理)
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PS_vSetPowerDown();//休眠
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}
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else if( (POWER_WORKING == powerstate) || (POWER_EMERGENCY == powerstate) )//等于工作状态
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{
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*RgSTT = STATE_ON2; // 进入STATE_ON2
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}
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else
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{
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*RgSTT = STATE_ON; // 保持
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}
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// 保持ON状态无需额外操作
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break;
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//-------------------------------------------
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case STATE_ON2:
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if(POWER_STANDBY == powerstate)//下低压电就进入ON定时判断
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{
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*RgSTT = STATE_ON; //
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wake_time_10min.bit_data.day = 0;
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wake_time_10min.bit_data.hour = 0;
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wake_time_10min.bit_data.week = 0;
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wake_time_10min.bit_data.minute = 10;
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bm8563ClearAlarmFlag(); //先清0
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bm8563SetAlarm(&wake_time_10min);//设置10分钟
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}
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else if(WAKE_UP_PIN == OFF)//总开关关闭直接休眠
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{
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bm8563ClearAlarmFlag();
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bm8563SetAlarm(&sleeptime);
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KGF_PIN = 0; //KGF休眠
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CAN_PIN = 1; //can芯片休眠
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BATTERY_PIN = 0;//电池休眠
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*RgSTT = STATE_ON2; // 保持状态(唤醒后由中断处理)
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PS_vSetPowerDown();//休眠
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}
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else
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{
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*RgSTT = STATE_ON2; // 保持
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}
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break;
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//-------------------------------------------
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case STATE_OFF:
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// 并设置下次唤醒
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bm8563ClearAlarmFlag();
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bm8563SetAlarm(&waketime);
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memcpy(&waketimelast,&waketime,sizeof(UnTimeOutput));
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*RgSTT = STATE_OFF2; // 进入休眠监控
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break;
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//-------------------------------------------
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case STATE_OFF2:
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if (STOP_PIN == ON) //退出休眠条件
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{
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*RgSTT = STATE_ON; // 引脚为ON,进入工作状态
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wake_time_10min.bit_data.day = 0;
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wake_time_10min.bit_data.hour = 0;
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wake_time_10min.bit_data.week = 0;
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wake_time_10min.bit_data.minute = 10;
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bm8563ClearAlarmFlag(); //先清0
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bm8563SetAlarm(&wake_time_10min);//设置10分钟
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}
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else if(POWER_WORKING == powerstate)//等于工作状态
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{
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*RgSTT = STATE_ON2; // 保持状态
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}
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else if(0 != memcmp(&waketimelast,&waketime,sizeof(UnTimeOutput)))//比较值是否一样,不一样的话立马更新
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{
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memcpy(&waketimelast,&waketime,sizeof(UnTimeOutput));
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bm8563SetAlarm(&waketime);
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*RgSTT = STATE_OFF2; // 保持状态(唤醒后由中断处理)
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}
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else if(bm8563CheckAlarmFlag()) //唤醒时间到
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{
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// 处理定时唤醒
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bm8563ClearAlarmFlag();
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bm8563SetAlarm(&sleeptime);
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KGF_PIN = 0; //KGF休眠
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CAN_PIN = 1; //can芯片休眠
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BATTERY_PIN = 0;//电池休眠
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*RgSTT = STATE_OFF2; // 保持状态(唤醒后由中断处理)
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PS_vSetPowerDown();//休眠
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}
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else
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{
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*RgSTT = STATE_OFF2; // 外部唤醒
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}
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break;
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default:break;
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}
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// switch (*RgSTT)
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// {
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// //-------------------------------------------
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// case STATE_INIT:
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// if(1 == flgwakeecu)//控制器唤醒
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// {
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// if (WAKE_UP_PIN == ON) {
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// *RgSTT = STATE_ON; // 引脚为ON,进入工作状态
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// } else {
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// *RgSTT = STATE_OFF; // 引脚为OFF,直接进入休眠准备
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// }
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// }
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// else
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// {
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// *RgSTT = STATE_INIT;
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// }
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// break;
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// //-------------------------------------------
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// case STATE_ON:
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// if( (WAKE_UP_PIN == OFF) || ( (STOP_PIN == OFF) && (POWER_STANDBY == powerstate) ) )//休眠条件:总开关断开或者急停开关按下且处于下电模式
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// {
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// // 并设置下次唤醒
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// bm8563SetAlarm(&sleeptime);
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// *RgSTT = STATE_OFF; // 引脚为OFF,直接进入休眠准备
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// KGF_PIN = 0; //KGF休眠
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// CAN_PIN = 1; //can芯片休眠
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// PS_vSetPowerDown();//休眠
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// }
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// else
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// {
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// *RgSTT = STATE_ON; // 引脚为ON,进入工作状态
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// }
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// // 保持ON状态无需额外操作
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// break;
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// //-------------------------------------------
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// case STATE_OFF:
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// if (WAKE_UP_PIN == ON) {
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// *RgSTT = STATE_ON; // 外部唤醒
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// } else {
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// // 并设置下次唤醒
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// bm8563SetAlarm(&waketime);
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//
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// memcpy(&waketimelast,&waketime,sizeof(UnTimeOutput));
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//
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// *RgSTT = STATE_OFF2; // 进入休眠监控
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// }
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// break;
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// //-------------------------------------------
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// case STATE_OFF2:
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// if (WAKE_UP_PIN == ON) //退出休眠条件
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// {
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// *RgSTT = STATE_ON; // 外部唤醒
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// }
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// else if(0 != memcmp(&waketimelast,&waketime,sizeof(UnTimeOutput)))//比较值是否一样,不一样的话立马更新
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// {
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// memcpy(&waketimelast,&waketime,sizeof(UnTimeOutput));
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// bm8563SetAlarm(&waketime);
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// *RgSTT = STATE_OFF2; // 保持状态(唤醒后由中断处理)
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// }
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// else if (bm8563CheckAlarmFlag())
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// {
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// // 处理定时唤醒
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// bm8563ClearAlarmFlag();
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//
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// bm8563SetAlarm(&sleeptime);
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// KGF_PIN = 0; //KGF休眠
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// CAN_PIN = 1; //can芯片休眠
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// *RgSTT = STATE_OFF2; // 保持状态(唤醒后由中断处理)
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// PS_vSetPowerDown();//休眠
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// }
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// else
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// {
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// *RgSTT = STATE_OFF2; // 外部唤醒
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// }
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// break;
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// default:break;
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// }
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}
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//CAN发送接收
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void CanRXTX(void)
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{
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stCAN_SWObj StrCanRx = {0};
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uword tmp = 0;
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ubyte i = 0,j = 0;
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uword TimeTemp = 0;
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uword HoursTemp = 0;
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uword DaysTemp = 0;
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//------------------------------------
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if(CAN_ubNewData(DF_RXTIME))
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{
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CAN_vGetMsgObj(DF_RXTIME, &StrCanRx);
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un_time_output1.arr[3] = StrCanRx.ulDATAL.ubDB[0];
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un_time_output1.arr[2] = StrCanRx.ulDATAL.ubDB[1];
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un_time_output1.arr[1] = StrCanRx.ulDATAL.ubDB[2];
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un_time_output1.arr[0] = StrCanRx.ulDATAL.ubDB[3];
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un_time_output1.arr[7] = StrCanRx.ulDATAH.ubDB[0];
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un_time_output1.arr[6] = StrCanRx.ulDATAH.ubDB[1];
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un_time_output1.arr[5] = StrCanRx.ulDATAH.ubDB[2];
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un_time_output1.arr[4] = StrCanRx.ulDATAH.ubDB[3];
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CAN_vReleaseObj(DF_RXTIME);
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bm8563SetTime(&un_time_output1);
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}
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if(CAN_ubNewData(DF_SwRxKGF2))//等待KGF唤醒
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{
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CAN_vGetMsgObj(DF_SwRxKGF2, &StrCanRx);
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CAN_vReleaseObj(DF_SwRxKGF2);
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flg_KGF = 1;
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}
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//----------------------------------------------------------
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if(CAN_ubNewData(DF_SwRx))
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{
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CAN_vGetMsgObj(DF_SwRx, &StrCanRx);
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UnInfCan_1.ArrData.ArrRX[0][3] = StrCanRx.ulDATAL.ubDB[0];
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UnInfCan_1.ArrData.ArrRX[0][2] = StrCanRx.ulDATAL.ubDB[1];
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UnInfCan_1.ArrData.ArrRX[0][1] = StrCanRx.ulDATAL.ubDB[2];
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UnInfCan_1.ArrData.ArrRX[0][0] = StrCanRx.ulDATAL.ubDB[3];
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UnInfCan_1.ArrData.ArrRX[0][7] = StrCanRx.ulDATAH.ubDB[0];
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UnInfCan_1.ArrData.ArrRX[0][6] = StrCanRx.ulDATAH.ubDB[1];
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UnInfCan_1.ArrData.ArrRX[0][5] = StrCanRx.ulDATAH.ubDB[2];
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UnInfCan_1.ArrData.ArrRX[0][4] = StrCanRx.ulDATAH.ubDB[3];
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CAN_vReleaseObj(DF_SwRx);
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vcu_can_cnt ++;//节点在线检测累加
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powerstate = UnInfCan_1.ArrData.ArrRX[0][4];//整车电源状态
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//设定休眠时间
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TimeTemp = UnInfCan_1.ArrData.ArrRX[0][0] + ((ulong)UnInfCan_1.ArrData.ArrRX[0][1] << 8) ;//唤醒时间
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// 分钟 → 小时
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HoursTemp = TimeTemp / 60;
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sleeptime.bit_data.minute = TimeTemp % 60;
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// 小时 → 天
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DaysTemp = HoursTemp / 24;
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sleeptime.bit_data.hour = HoursTemp % 24;
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if(DaysTemp >= 31)//月超过范围
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{
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sleeptime.bit_data.day = 31;
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}
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else
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{
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sleeptime.bit_data.day = DaysTemp;
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}
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//设定唤醒时间
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TimeTemp = UnInfCan_1.ArrData.ArrRX[0][2] + ((ulong)UnInfCan_1.ArrData.ArrRX[0][3] << 8);//唤醒时间
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// 分钟 → 小时
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HoursTemp = TimeTemp / 60;
|
||
waketime.bit_data.minute = TimeTemp % 60;
|
||
|
||
// 小时 → 天
|
||
DaysTemp = HoursTemp / 24;
|
||
waketime.bit_data.hour = HoursTemp % 24;
|
||
|
||
if(DaysTemp >= 31)//月超过范围
|
||
{
|
||
waketime.bit_data.day = 31;
|
||
}
|
||
else
|
||
{
|
||
waketime.bit_data.day = DaysTemp;
|
||
}
|
||
}
|
||
|
||
UnSwSample_1.arr[2] = waketime.bit_data.minute;
|
||
UnSwSample_1.arr[1] = sleeptime.bit_data.minute;
|
||
|
||
//休眠处理
|
||
SystemStateMachine(&sleepstate);
|
||
|
||
|
||
//1000ms发送一帧
|
||
if(!FlgCan_1)
|
||
{
|
||
FlgCan_1 = 1;
|
||
|
||
bm8563GetTime(¤ttime);//1s更新一次时钟
|
||
// CanTX();
|
||
|
||
UnSwSample_1.bit_data.temperature[1] = 0;
|
||
UnSwSample_1.bit_data.temperature[0] = 0;
|
||
|
||
if(vcu_can_cnt == vcu_can_last)//数据一样表示故障
|
||
{
|
||
flg_wake_ecu = FAULT;
|
||
|
||
un_inf_can_kgf_output2.bit_data.KGF01 = 0x01;// 计算机
|
||
un_inf_can_kgf_output2.bit_data.KGF02 = 0x01;// 计算机
|
||
// un_inf_can_kgf_output2.bit_data.KGF15 = 0x01;// 计算机
|
||
// un_inf_can_kgf_output2.bit_data.KGF16 = 0x01;// 计算机
|
||
|
||
un_inf_can_kgf_output2.bit_data.KGF03 = 0x01;// 遥控器
|
||
|
||
un_inf_can_kgf_output2.bit_data.KGF05 = 0x01;// 网络交换机
|
||
un_inf_can_kgf_output2.bit_data.KGF06 = 0x01;// 网络交换机
|
||
un_inf_can_kgf_output1.bit_data.KGF09 = 0x01;// 交换机2
|
||
|
||
un_inf_can_kgf_output2.bit_data.KGF04 = 0x01;//KGF20接的主控
|
||
un_inf_can_kgf_output1.bit_data.KGF13 = 0x01;// 低压充电
|
||
|
||
|
||
if(1 == flg_KGF)//等待KGF唤醒后再发送数据
|
||
{
|
||
canSendTo(DF_SwTxKGF2,(ubyte *)&un_inf_can_kgf_output2.arr[0]);
|
||
canSendTo(DF_SwTxKGF1,(ubyte *)&un_inf_can_kgf_output1.arr[0]);
|
||
}
|
||
}
|
||
else
|
||
{
|
||
flg_wake_ecu = NORMAL;
|
||
vcu_can_last = vcu_can_cnt;//数据更新
|
||
}
|
||
|
||
GetTemp();//1s采集一次温度
|
||
UnSwSample_1.bit_data.emergency_stop_switch = STOP_PIN;
|
||
UnSwSample_1.bit_data.High_voltage_switch = ~WAKE_UP_PIN;
|
||
UnSwSample_1.bit_data.CH03 = flg_wake_ecu;
|
||
|
||
if(1 == flg_KGF)//等待KGF唤醒后再发送数据
|
||
{
|
||
canSendTo(DF_SwTxTemp,(ubyte *)&UnSwSample_1);
|
||
}
|
||
|
||
}
|
||
|
||
if( (0x40 == can_error_cnt) || (0x80 == can_error_cnt) )//20250625判断是否出现总线错误
|
||
{
|
||
can_error_flg = can_error_cnt;
|
||
CAN_vInit();
|
||
can_error_cnt = 0;
|
||
}
|
||
|
||
|
||
}
|
||
|
||
|
||
|
||
|
||
|