MSP430和實(shí)時(shí)時(shí)鐘HT1381的接口程序

發(fā)布時(shí)間:2008-11-6 21:48    發(fā)布者:MSP430
HT1381是臺灣HT公司的一款串行實(shí)時(shí)時(shí)鐘IC,工作電壓: 2.0V~5.5V,最大輸入串行時(shí)鐘500kHz ( VDD=2V),2MHz(VDD=5V) ;工作電流:2V時(shí)小于300nA,5V時(shí)小于1mA。串行I/O 傳送,二種數據傳送方式:?jiǎn)巫止澔蚨嘧止潱˙urst方式),所有寄存器以BCD碼格式存儲具有接口簡(jiǎn)單、功耗低、工作電壓范圍寬、計時(shí)精確、功能全、成本低等優(yōu)點(diǎn),因此在實(shí)際應用中被廣泛采用。該芯片提供秒、分、時(shí)、日、日期、月和年的信息。對于小于31天的月的月末日期能自動(dòng)進(jìn)行調整,還包括閏年校正功能。低功耗設計且時(shí)鐘的運行可以采用24小時(shí)格式或帶AM/PM指示的12小時(shí)的格式。 以下是接口程序,430測試頻率為4M。 #define NOP _NOP();_NOP() #define NowSec cNowTime[0] #define NowMin cNowTime[1] #define NowHour cNowTime[2] #define NowDate cNowTime[3] #define NowMonth cNowTime[4] #define NowYear cNowTime[5] #define SetSec cSetTime[0] #define SetMin cSetTime[1] #define SetHour cSetTime[2] #define SetDate cSetTime[3] #define SetMonth cSetTime[4] #define SetYear cSetTime[5] uchar Temp_Count; uchar cSetTime[6]; uchar cNowTime[6]; void Timer_Out_Byte(uchar OutByte); uchar Timer_In_Byte(void); void ReadRealtime(void) { NOP; HT1381_OUTPORT &=~Timer_SCL; //Timer_SCL=0; NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0xBF); //Read, Burst Mode for(TimeCount=0;TimeCount<6;TimeCount++) { if (TimeCount==5) Timer_In_Byte(); //dummy read. cNowTime[TimeCount]=Timer_In_Byte(); //change BCD to uchar cNowTime[TimeCount]=(cNowTime[TimeCount]/0x10)*10+(cNowTime[TimeCount]%0x10); } NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; } void WriteRealtime(void) { NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; //for sure to close rest. NOP; HT1381_OUTPORT &=~Timer_SCL; //Timer_SCL=0; NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0x8E); //Write,Single Mode Timer_Out_Byte(0x00); //Write, Protect Byte=0, Disable protect NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0x80); //Write,Single Mode Timer_Out_Byte(0x00); //Write, OSC enalbe, old second distroied NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; for(TimeCount=0;TimeCount<6;TimeCount++) { //change uchar to BCD cSetTime[TimeCount]=(cSetTime[TimeCount]/10)*0x10+(cSetTime[TimeCount]%10); } NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0XBE); //Write,Burst Mode Timer_Out_Byte(SetSec & 0x7F); //OSC enable for sure. Timer_Out_Byte(SetMin); Timer_Out_Byte(SetHour & 0x7F); //24 Hour Mode Timer_Out_Byte(SetDate); Timer_Out_Byte(SetMonth); Timer_Out_Byte(0x00); Timer_Out_Byte(SetYear); Timer_Out_Byte(0x00); NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0x8E); //Write,Single Mode Timer_Out_Byte(0x80); //Write, Protect Byte=0, enable protect NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; } void Timer_Out_Byte(uchar OutByte) { uchar Timer_Count; for (Timer_Count=0;Timer_Count<8;Timer_Count++) { HT1381_DIRPORT |= Timer_SDA; //output if ((OutByte & 0x01) == 0) HT1381_OUTPORT &=~Timer_SDA; else HT1381_OUTPORT |= Timer_SDA; NOP; HT1381_OUTPORT |= Timer_SCL; NOP; HT1381_OUTPORT &=~Timer_SCL; //Timer_SCL=0; utByte = OutByte >> 1; } } uchar Timer_In_Byte(void) { uchar InByte,Timer_Count; InByte=0x00; HT1381_DIRPORT &=~Timer_SDA; //Timer_SDA=1;//input for (Timer_Count=0;Timer_Count<8;Timer_Count++) { InByte >>= 1; NOP; HT1381_OUTPORT |= Timer_SCL; if(HT1381_INPORT&Timer_SDA) InByte |= 0x80; else InByte &= 0x7F; NOP; HT1381_OUTPORT &=~Timer_SCL; //Timer_SCL=0; } return(InByte); } #define NOP _NOP();_NOP() #define NowSec cNowTime[0] #define NowMin cNowTime[1] #define NowHour cNowTime[2] #define NowDate cNowTime[3] #define NowMonth cNowTime[4] #define NowYear cNowTime[5] #define SetSec cSetTime[0] #define SetMin cSetTime[1] #define SetHour cSetTime[2] #define SetDate cSetTime[3] #define SetMonth cSetTime[4] #define SetYear cSetTime[5] uchar Temp_Count; uchar cSetTime[6]; uchar cNowTime[6]; void Timer_Out_Byte(uchar OutByte); uchar Timer_In_Byte(void); void ReadRealtime(void) { NOP; HT1381_OUTPORT &=~Timer_SCL; //Timer_SCL=0; NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0xBF); //Read, Burst Mode for(TimeCount=0;TimeCount<6;TimeCount++) { if (TimeCount==5) Timer_In_Byte(); //dummy read. cNowTime[TimeCount]=Timer_In_Byte(); //change BCD to uchar cNowTime[TimeCount]=(cNowTime[TimeCount]/0x10)*10+(cNowTime[TimeCount]%0x10); } NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; } void WriteRealtime(void) { NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; //for sure to close rest. NOP; HT1381_OUTPORT &=~Timer_SCL; //Timer_SCL=0; NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0x8E); //Write,Single Mode Timer_Out_Byte(0x00); //Write, Protect Byte=0, Disable protect NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0x80); //Write,Single Mode Timer_Out_Byte(0x00); //Write, OSC enalbe, old second distroied NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; for(TimeCount=0;TimeCount<6;TimeCount++) { //change uchar to BCD cSetTime[TimeCount]=(cSetTime[TimeCount]/10)*0x10+(cSetTime[TimeCount]%10); } NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0XBE); //Write,Burst Mode Timer_Out_Byte(SetSec & 0x7F); //OSC enable for sure. Timer_Out_Byte(SetMin); Timer_Out_Byte(SetHour & 0x7F); //24 Hour Mode Timer_Out_Byte(SetDate); Timer_Out_Byte(SetMonth); Timer_Out_Byte(0x00); Timer_Out_Byte(SetYear); Timer_Out_Byte(0x00); NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; NOP; HT1381_OUTPORT |= Timer_Rest; //Timer_Rest=1; Timer_Out_Byte(0x8E); //Write,Single Mode Timer_Out_Byte(0x80); //Write, Protect Byte=0, enable protect NOP; HT1381_OUTPORT &=~Timer_Rest; //Timer_Rest=0; } void Timer_Out_Byte(uchar OutByte) { uchar Timer_Count; for (Timer_Count=0;Timer_Count<8;Timer_Count++) { HT1381_DIRPORT |= Timer_SDA; //output if ((OutByte & 0x01) == 0) HT1381_OUTPORT &=~Timer_SDA; else HT1381_OUTPORT |= Timer_SDA; NOP; HT1381_OUTPORT |= Timer_SCL; NOP; HT1381_OUTPORT &=~Timer_SCL; //Timer_SCL=0; utByte = OutByte >> 1; } } uchar Timer_In_Byte(void) { uchar InByte,Timer_Count; InByte=0x00; HT1381_DIRPORT &=~Timer_SDA; //Timer_SDA=1;//input for (Timer_Count=0;Timer_Count<8;Timer_Count++) { InByte >>= 1; NOP; HT1381_OUTPORT |= Timer_SCL; if(HT1381_INPORT&Timer_SDA) InByte |= 0x80; else InByte &= 0x7F; NOP; HT1381_OUTPORT &=~Timer_SCL; //Timer_SCL=0; } return(InByte); }
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