F030C8T6_Kbus_MIX.git

			@@ -17,7 +17,7 @@
			int sprintftime = 0;
			int putstrtime = 0;
			const unsigned char buf1[16]={0x11,0x22,0x33,0x44,0x55,0x66,0x77,0x88,0x99,0xaa,0xbb,0xcc,0xdd,0xee,0xff,0x00};
			char str1[256];
			char str1[128];
			int LineCount=0;
			int Uart1baudval=0;
			int Uart2baudval=0;
			@@ -54,69 +54,12 @@

			int ShowInitInfo()
			{
			/*
			int len1=0;
			clearscreen();
			uint32_t us1,us2,us3,us4,us5,us6;

			// Locate(1,1);

			/*
			LoadFlashDatas();

			LoadAndUpdateStoreCfg();

			HAL_StatusTypeDef res;
			stStoreCfg * pFCfg = (stStoreCfg *) GetCurStoreCfgAddr();
			stStoreCfg * pFCfg2 = GetNextStoreCfgAddr(pFCfg);

			int t11=GetuS();

			for (int i=0;i<20;i++)
			{
			tims[i]=GetuS();
			}
			clearscreen();
			len1+=sprintf(str1+len1," Ver 001 \r\n");
			len1+=sprintf(str1+len1," Uart1Baud %d Uart2Baud %d UID %08x %08x %08x \r\n",Uart1Baud,Uart2Baud,pUID[0],pUID[1],pUID[2]);
			len1+=sprintf(str1+len1," Flash = %d %d %d %d res = %d ",FlashDatas[0],FlashDatas[1],FlashDatas[2],FlashDatas[3],res);
			len1+=sprintf(str1+len1,"flash operation = %u %u %u\r\n",t11-t10,t10,t11);
			PutStr(str1,len1);
			len1=0;
			len1+=sprintf(str1+len1,"%08X %X %X , PowerOn %X UpTime %X %X %X %X \r\n",
			(uint32_t)pFCfg,pFCfg[0].Sign1,pFCfg[0].SN1,pFCfg[0].PowerCount,pFCfg[0].UpTime,pFCfg[0].UserData1,pFCfg[0].CRC1,pFCfg[0].EndSign1);
			len1+=sprintf(str1+len1,"%08X %X %X , PowerOn %X UpTime %X %X %X %X \r\n",
			(uint32_t)pFCfg2,Cfg2.Sign1,Cfg2.SN1,Cfg2.PowerCount,Cfg2.UpTime,Cfg2.UserData1,Cfg2.CRC1,Cfg2.EndSign1);
			PutStr(str1,len1);
			*/
			len1=0;
			/*
			for (int i=0;i<8;i++)
			{
			len1=0;
			len1+=sprintf(str1+len1,"%02X:",i*32);
			for (int j=0;j<8;j++)
			{
			len1+=sprintf(str1+len1," %02X",pFlash1[i*32+j]);
			}
			len1+=sprintf(str1+len1," %02X",pFlash1[i*32+8]);
			for (int j=9;j<16;j++)
			{
			len1+=sprintf(str1+len1," %02X",pFlash1[i*32+j]);
			}
			len1+=sprintf(str1+len1," \| %02X",pFlash1[i*32+16]);
			for (int j=17;j<24;j++)
			{
			len1+=sprintf(str1+len1," %02X",pFlash1[i*32+j]);
			}
			len1+=sprintf(str1+len1," %02X",pFlash1[i*32+24]);
			for (int j=25;j<32;j++)
			{
			len1+=sprintf(str1+len1," %02X",pFlash1[i*32+j]);
			}
			len1+=sprintf(str1+len1,"\r\n");
			PutStr(str1,len1);
			}
			*/
			us1=GetuS();
			int crc1 = crc_check(buf1,16); //7us
			us2=GetuS();
			@@ -162,6 +105,7 @@
			// RunTimer(0,1000);
			// StartTimer(2,1000);
			Locate(13,1);LineCount=3;
			*/
			return 0;
			}

			@@ -191,8 +135,8 @@
			int timeus1;
			int timeus2;

			len1=sprintf((char *)str1," N %8d Tk %8d %9u CFG %02X R %d M %d S %d %4d IN %04X OUT %04X \r\n",
			KMem.nRunCount, haltick, theUs, KMem.EffJumperSW, bKBusRepeater, bKBusMaster, bKBusSlave, Clk2, KMem.WX[0],KMem.WY[0]);
			// len1=sprintf((char *)str1," N %8d Tk %8d %9u CFG %02X R %d M %d S %d %4d IN %04X OUT %04X \r\n",
			// KMem.nRunCount, haltick, theUs, KMem.EffJumperSW, bKBusRepeater, bKBusMaster, bKBusSlave, Clk2, KMem.WX[0],KMem.WY[0]);
			//len1=sprintf((char *)str1,"U%02X%02XA",x2,x2);
			// Locate(10,1);
			timeus1=GetuS();
			@@ -216,6 +160,10 @@
			return 0;
			}

			#define AVGCount 8

			int nCount5 = 0;
			unsigned short ADC_TEMP[16] ={0};

			int ADCProcess()
			{
			@@ -233,7 +181,9 @@
			// 16 -- Temp --> 6
			// 17 -- Vref --> 7

			uint16_t ADC_ConvertedValue=0;


			uint16_t ADC_ConvertedValue=0;
			static int CurChannel=LL_ADC_CHANNEL_0;
			//static int waitcount = 0;

			@@ -250,17 +200,45 @@
			if ((channels & LL_ADC_CHANNEL_0) == LL_ADC_CHANNEL_0)
			{
			KMem.ADCValues[0] = ADC_ConvertedValue;
			nextchannel = LL_ADC_CHANNEL_8;
			if (KMem.ADCValues[0] < 2200)
			nextchannel = LL_ADC_CHANNEL_7;
			if (KMem.ADCValues[0] < 1500)
			{
			PowerDownEvent=1;
			PowerDownFlag=1;
			}else
			{
			PowerDownEvent=0;
			PowerDownFlag=0;
			}
			}else if ((channels & LL_ADC_CHANNEL_8) == LL_ADC_CHANNEL_8)
			}
			else if ((channels & LL_ADC_CHANNEL_7) == LL_ADC_CHANNEL_7)
			{
			KMem.ADCValues[2] = ADC_ConvertedValue;
			ADC_TEMP[0] += ADC_ConvertedValue;


			nextchannel = LL_ADC_CHANNEL_8;
			}
			else if ((channels & LL_ADC_CHANNEL_8) == LL_ADC_CHANNEL_8)
			{
			ADC_TEMP[1] += ADC_ConvertedValue;

			nCount5++;

			if (nCount5 >= AVGCount) {

			KMem.ADCValues[3] = ADC_TEMP[0]/AVGCount;

			KMem.ADCValues[4] = ADC_TEMP[1]/AVGCount;
			ADC_TEMP[0]=0;
			ADC_TEMP[1]=0;
			nCount5 = 0 ;

			}
			// KMem.ADCValues[3] = 255;//ADC_TEMP[0]/16;
			// KMem.ADCValues[4] = 768; //ADC_TEMP[1]/16;
			nextchannel = LL_ADC_CHANNEL_9;

			}else if ((channels & LL_ADC_CHANNEL_9) == LL_ADC_CHANNEL_9)
			{
			KMem.ADCValues[5] = ADC_ConvertedValue;
			nextchannel = LL_ADC_CHANNEL_TEMPSENSOR;

			}else if ((channels & LL_ADC_CHANNEL_16) == LL_ADC_CHANNEL_16)
			@@ -270,7 +248,7 @@
			}else if ((channels & LL_ADC_CHANNEL_17) == LL_ADC_CHANNEL_17)
			{
			KMem.ADCValues[7] = ADC_ConvertedValue;
			KMem.ADCValues[5] = ((unsigned short )ADCrefAddr);
			KMem.ADCValues[8] = ((unsigned short )ADCrefAddr);

			nextchannel = LL_ADC_CHANNEL_0;
			}else