//主函数执行
void main(){
//初始化
initial_LCD();//uc1701x 显示屏初始化
displayStr_5x7(0,0,"JKLMNOPQRSTUVWXYZ[\]^");
DelayXms(600);
// displayStr_5x7(0,0,"displayStr_5x7");
DelayXms(600);
displayStr_5x7(1,1,"displayStr_8x16");
DelayXms(600);
displayStr_8x16(4,0,"displayStr_5x7[\]^");
DelayXms(600);
while(1){
}
}
/********************************************************************
函数功能:USB断开连接函数。
入口参数:无。
返 回:无。
备 注:无。
********************************************************************/
void UsbDisconnect(void)
{
#ifdef DEBUG0
Prints("断开USB连接。\r\n");
#endif
UDCON=0x01; //Disconnect pull-up resistor
DelayXms(1000); //延迟1秒
}
/********************************************************************
函数功能:USB断开连接函数。
入口参数:无。
返 回:无。
备 注:无。
********************************************************************/
void UsbDisconnect(void)
{
#ifdef DEBUG0
Prints("断开USB连接。\r\n");
#endif
*AT91C_PIOA_SODR=(1<<16); //Disconnect pull-up resistor
DelayXms(1000); //延迟1秒
}
/********************************************************************
函数功能:USB断开连接函数。
入口参数:无。
返 回:无。
备 注:无。
********************************************************************/
void UsbDisconnect(void)
{
#ifdef DEBUG0
Prints("断开USB连接。\r\n");
#endif
D12WriteCommand(D12_SET_MODE); //写设置模式命令
D12WriteByte(0x06); //设置模式的第一字节
D12WriteByte(0x47); //设置模式的第二字节
DelayXms(1000); //延迟1秒
}
void Delay1ms(WORD wValue)
{
WORD wCount; // loop counter
extern void DelayXms(WORD td) ;
DelayXms(wValue);
return;
while (wValue--)
{
wCount = DELAY_1MS_PERIOD; // reset loop counter
//wCount = g_ucTestCnt; // reset loop counter
// WatchDogClear();
while (wCount--) ;
} // while
}
/*
************************************************************
* 函数名称: ADCx_GetValueTimes
*
* 函数功能: 获取多次ADCx的值,并求平均值
*
* 入口参数: ADCx:ADC设备
* ch:通道
* times:次数
*
* 返回参数: 电压平均值
*
* 说明: ADC_Channel_1~ADC_Channel_16
************************************************************
*/
unsigned short ADCx_GetValueTimes(ADC_TypeDef *ADCx, unsigned char ch, unsigned char times)
{
float adcValue = 0;
unsigned char i = 0;
for(; i < times; i++)
{
adcValue += (float)ADCx_GetValue(ADCx, ch);
DelayXms(5);
}
return (unsigned short)(adcValue / times);
}
void SwitchADport(BYTE adport)
{
if(F_ADOK == 0)return;
// DBG(printf("sw to Port( %bd )",g_CurrentADport));
if(adport == 0xff)
{
g_CurrentADport++;
if(g_CurrentADport >= MAXNUMBER_PORT_AD)
g_CurrentADport = MINNUMBER_PORT_AD;
}
else g_CurrentADport = adport;
adport = g_CurrentADport;
EIE1 &= ~0x08;
AD0INT = 0;
AD0EN = 0;
if(adport == ADPORT_TempaSensor)
{
ADC0MX = 0x10;
}
else if(adport == ADPORT_BAT)
{
ADC0MX = 0x08;
}
else if(adport == ADPORT_POWER)
{
ADC0MX = 0x07;
}
else if(adport == ADPORT_SENSOR)
{
ADC0MX = 0x0C;
}
DelayXms(1);
F_ADInit = 1;
F_ADOK = 0;
AD0EN = 1;
EIE1 |= 0x08;
}
void Init_LCD(void)
{
U8 i;
PO_LCD_POWER(P_LCD_ON);
DelayXms(20);
DisBuffer[0]=CHAR_DASH;
DisBuffer[1]=CHAR_DASH;
DisBuffer[2]=CHAR_DASH;
DisBuffer[3]=CHAR_DASH;
for(i=0;i<TBL_SIZE(LCD_buf);i++)LCD_buf[i]=0;
SendLCDByte(LCD_MODE);
SET_STB();
BUZZY_OFF();
}
/*
************************************************************
* 函数名称: ADXL345_Init
*
* 函数功能: ADXL345初始化配置
*
* 入口参数: 无
*
* 返回参数: 无
*
* 说明:
************************************************************
*/
void ADXL345_Init(void)
{
unsigned char devid = 0, val = 0;
DelayUs(300);
I2C_ReadByte(ADXL345_ADDRESS, 0x00, &devid); //读ID 且每次读写之前都需要读ID
DelayUs(300);
val = 0x2B;
I2C_WriteByte(ADXL345_ADDRESS, DATA_FORMAT_REG, &val); //低电平中断输出,13位全分辨率,输出数据右对齐,16g量程
DelayUs(50);
val = 0x0A;
I2C_WriteByte(ADXL345_ADDRESS, BW_RATE, &val); //数据输出速度为100Hz
DelayUs(50);
val = 0x28;
I2C_WriteByte(ADXL345_ADDRESS, POWER_CTL, &val); //链接使能,测量模式
DelayUs(50);
val = 0;
I2C_WriteByte(ADXL345_ADDRESS, INT_ENABLE, &val); //不使用中断
DelayUs(50);
DelayXms(20);
//软件偏移校准,视上电时为平放状态,x=0,y=0,z=1=====================
ADXL345_GetValue();
ofz_X = 0 - adxlInfo.incidence_X;
ofz_Y = 0 - adxlInfo.incidence_Y;
ofz_Z = 256 - adxlInfo.incidence_Z;
}
//对STC15系列的芯片进行数据下载程序
static int Firmware_Download(BYTE *pdat, long size)
{
BYTE arg;
BYTE cnt;
WORD addr;
Initial();
//握手
CommInit();
while (1)
{
if (UartRecvStep == 0)
{
UartSend(0x7f);
DelayXms(10);
}
if (UartReceived)
{
arg = RxBuffer[4];
if (RxBuffer[0] == 0x50)
break;
return eDownloadErrCodeHandshake;
}
if (TimeOut == 0) {
printf("waiting for mcu isp timeout\n");
return eDownloadErrCodeTimeout;
}
}
printf("set comm param\n");
//设置参数
TxBuffer[0] = 0x01;
TxBuffer[1] = arg;
TxBuffer[2] = 0x40;
TxBuffer[3] = HIBYTE(RL(MAXBAUD));
TxBuffer[4] = LOBYTE(RL(MAXBAUD));
TxBuffer[5] = 0x00;
TxBuffer[6] = 0x00;
TxBuffer[7] = 0xc3;
CommSend(8);
while (1)
{
if (TimeOut == 0) return eDownloadErrCodeTimeout;
if (UartReceived)
{
if (RxBuffer[0] == 0x01) break;
return eDownloadErrCodeSetCommParam;
}
}
printf("download prepare \n");
//准备
serialport_config(handle_download_port,MAXBAUD,8,1,'e');
DelayXms(10);
TxBuffer[0] = 0x05;
CommSend(1);
while (1)
{
if (TimeOut == 0) return eDownloadErrCodeTimeout;
if (UartReceived)
{
if (RxBuffer[0] == 0x05) break;
return eDownloadErrCodeSetCommParam;
}
}
printf("erase flash ...\n");
//擦除
DelayXms(10);
TxBuffer[0] = 0x03;
TxBuffer[1] = 0x00;
CommSend(2);
TimeOut = 100;
while (1)
{
if (TimeOut == 0) return eDownloadErrCodeTimeout;
if (UartReceived)
{
if (RxBuffer[0] == 0x03) break;
return eDownloadErrCodeEraseFlash;
}
}
printf("program flash size[0x%lx]...\n",size);
//写用户代码
DelayXms(10);
addr = 0;
TxBuffer[0] = 0x22;
while (addr < size)
{
TxBuffer[1] = HIBYTE(addr);
TxBuffer[2] = LOBYTE(addr);
cnt = 0;
while (addr < size)
{
TxBuffer[cnt+3] = pdat[addr];
addr++;
cnt++;
if (cnt >= 128) break;
}
CommSend(cnt + 3);
while (1)
{
if (TimeOut == 0) return eDownloadErrCodeTimeout;
if (UartReceived)
{
if ((RxBuffer[0] == 0x02) && (RxBuffer[1] == 'T')) break;
return eDownloadErrCodeProgramFlash;
}
}
TxBuffer[0] = 0x02;
}
printf("program hardware option ... skipped\n");
#if 0
//写硬件选项(如果不需要修改硬件选项,此步骤可直接跳过)
DelayXms(10);
for (cnt=0; cnt<128; cnt++)
{
TxBuffer[cnt] = 0xff;
}
//Do we know details of hardware options???
TxBuffer[0] = 0x04;
TxBuffer[1] = 0x00;
TxBuffer[2] = 0x00;
TxBuffer[34] = 0xfd;
TxBuffer[62] = arg;
TxBuffer[63] = 0x7f;
TxBuffer[64] = 0xf7;
TxBuffer[65] = 0x7b;
TxBuffer[66] = 0x1f;
CommSend(67);
while (1)
{
if (TimeOut == 0) return eDownloadErrCodeTimeout;
if (UartReceived)
{
if ((RxBuffer[0] == 0x04) && (RxBuffer[1] == 'T')) break;
return eDownloadErrCodeProgramOption;
}
}
#endif
//下载完成
return eDownloadErrCodeSuccess;
}
////////////////////////////////////////////////////////////////////////////
///////////////
// 函数名:
// 编写者:
// 参考资料:
// 功 能:
// 输入参数:
// 输出参数:
// 备 注:
////////////////////////////////////////////////////////////////////////////
///////////////
void Init_EPROM()
{ BYTE buf,retrycount=3;
_SYSINFO tmpsysinfo;//={0,0};
WORD sum;
BOOL eepok;
extern BYTE Jdispidx;
DelayXms(300);
Jiulist.idx=0-1;
for(buf=0;buf<MAX_JIULST;buf++ )Jiulist.Jvol[buf]=0xffff;
return;
#ifndef NVRAM_USE_EEP24CXX
do
{
FLASH_Read(&buf,(FLADDR)EEPROM_ID,1);
FLASH_Read((BYTE*)&tmpsysinfo,(FLADDR)(EEP_SYS_TBLSTART),EEP_SYS_LENTH) ;
sum= CalChkSum((BYTE*)&tmpsysinfo, EEP_SYS_LENTH);
if((buf==BOARD_ID_VER)&&(sum==tmpsysinfo.chksum)){eepok=1;break;}
DelayXms(300);
}while(retrycount--) ;
if(eepok)
#endif
{ //read from flash
FLASH_Read((BYTE*)&SysInfo,(FLADDR)(EEP_SYS_TBLSTART),EEP_SYS_LENTH) ;
FLASH_Read((BYTE*)&Jiulist,(FLADDR)(EEP_JIULST_TBLSTART),EEP_JIULST_LENTH) ;
}
#ifndef NVRAM_USE_EEP24CXX
else
{
DisplayCont=DISPLAY_ERR0;Display_All(); //显示初始错误
//初始数据
SysInfo.TRANCODE=0x5555;
SysInfo.ADJUST=0;
SysInfo.VA=(WORD)((DWORD)DEFAULT_NOCOAL_VA*1024/STANDARD_REF_VOLT); //校准
SysInfo.VB=(WORD)((DWORD )DEFAULT_NOCOAL_VB*1024/STANDARD_REF_VOLT); //校准
SysInfo.VC=(WORD)((DWORD)DEFALT_130PPM_VC*1024/STANDARD_REF_VOLT); //130PPM
SysInfo.chksum=CalChkSum((BYTE*)&SysInfo, EEP_SYS_LENTH);
FLASH_Update((FLADDR)EEP_SYS_TBLSTART,(BYTE*)&SysInfo,EEP_SYS_LENTH);
DPRINTF(printf("-----InitEPROM-----...\r\n")) ;
FLASH_Update((FLADDR)EEP_JIULST_TBLSTART,(BYTE*)&Jiulist,EEP_JIULST_LENTH);
buf= BOARD_ID_VER;
FLASH_Update((FLADDR)EEPROM_ID,(BYTE *)&buf,1) ;
}
#endif
//初始化变量
{
if(Jiulist.idx>=MAX_JIULST)Jiulist.idx=0-1;
Jdispidx=Jiulist.idx;
}
}
////////////////////////////////////////////////////////////////////////////
///////////////
// 函数名:
// 编写者:
// 参考资料:
// 功 能:
// 输入参数:
// 输出参数:
// 备 注:
////////////////////////////////////////////////////////////////////////////
///////////////
void main (void)
{ PCA0MD &= ~0x40; // Disable Watchdog timer
Init_VAR();
Init_Device();
Init_patch();
BUZZY_OFF();
Init_sensor();
P1MDOUT&=~0x06; //p11 p12 非推挽 LCD时钟数据和加密
P1MDOUT&=~0x40; //p16 非推挽 LCD选通
P1MDOUT&=~0x80; //p17 非推挽 LCD电源总开开关
P1MDOUT&=~0x20; //p15 非推挽 LCD选通
#ifdef SECURE_SPI
P0MDOUT&=~0x80; //p07 非推挽 //加密MCLK
P07=1;
#endif
P0MDOUT&=~0x20; //充满检测 ,高:充满或未冲 低:充电
P1|=0x46; //srb clk data
PO_LCD_POWER(P_LCD_ON);
Init_LCD();
Init_EPROM();
#ifdef SECURE_SPI
{extern void InitSPICom(void) ;
extern char TEST_SPI(char CMD_a);
BYTE tryc=3;
InitSPICom() ;
F_demo=1;
do
{
if(1==TEST_SPI(CMD_RD_ID))
{
F_demo=0;
break;
}
DelayXms(300);
}while(tryc--) ;
if(1==F_demo)
{
DisplayCont=DISPLAY_DEMO;
Display_All(); //显示初始错误
}
}
#endif
DPRINTF(printf("MAIN Program\n" )) ;
#if 0
if(PI_ADJUST_DET())
{
DelayXms(100);
if(PI_ADJUST_DET())
NEW_KEY= KEY_ADJUST;
}
#endif
#if 1
if(PWR_G2==0)
{
diaplay_std ();
DelayXms(3000);
}
#endif
while(1)
{
{
//WORD i ;extern BYTE StateSensor ;
// if(StateSensor==-1)
// LEDIO=!LEDIO;
}
if(F_5ms)
{
F_5ms=0;
if(PWR_G1==0) {StateSensor=0;}
{extern void TestACHOL();
TestACHOL();
}
}
// if(F_10ms)
// {
// F_10ms=0;
// }
if(F_50ms)
{ F_50ms=0;
Task_50ms();
}
if(F_100ms)
{
F_100ms=0;
/*
{extern void TestACHOL();
TestACHOL();
}
*/
{
extern WORD CountHeat;
if(CountHeat<=350)
{
CountHeat++;
}
}
DO_Key_Action() ;
Display_All();
{
extern void SendCycbuf(void);
SendCycbuf();
}
}
if(F_200ms)
{
F_200ms=0;
}
if(F_500ms)
{ F_500ms=0;
}
if(F_1000ms)
{
// DPRINTF(printf("time=%bd \n" ,sys_time.Time_1_sec)) ;
Task_500ms();
}
}
}
