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单片机学习——用ds1302制作一个精密电子钟,按键调节

时间:11-23 来源:互联网 点击:
题目:用ds1302制作一个精密的电子时钟,且实现按键调节时间

解决方案:

#include
#include
#define uchar unsigned char
#define uint unsigned int
#define DEC2BCD(X) ((X/10)<4 | (X%10)) //用于将十进制转成BCD码的宏
#define BCD2DEC(X) (((X&0x70)>>4)*10 + (X&0x0F)) //用于将BCD码转成十进制的宏
void write_com(uchar com);
void write_data(uchar dat);
void init();
void write_time(uchar add,uchar dat);
void write_riqi(uchar add,uchar dat);
void write_xingqi(uchar dat);
void write_byte(uchar dat);
uchar read_byte();
void s_write(uchar add,uchar dat);
void s_write(uchar add,uchar dat);
uchar s_read(uchar add);
void set_ds1302(uchar *pClock);
void rw_ds1302();
void keyscan();

uchar data table[]="2009-01-01 Mon.";
uchar data table1[]=" 00:00:00";
uchar code xingqi[]="Mon. Tue. Wed. Thu. Fri. Sat. Sun.";
uchar code time[]={0x00,0x00,0x00,0x06,0x09,0x07,0x09};//sec,min,hour,date,month,week,year
uchar data time1[]={0x00,0x00,0x00,0x06,0x09,0x07,0x09};//sec,min,hour,date,month,week,year
uchar hour,min,sec,week,day,month,year,num,sfcount,flag;
sbit ds1302_sclk=P1^4;
sbit ds1302_io=P1^5;
sbit ds1302_ce=P2^2;
sbit acc0=ACC^0;
sbit acc7=ACC^7;
sbit lcdrs=P1^7; //端口定义
sbit lcdrw=P1^6;
sbit lcde=P2^4;
sbit le=P3^6;
sbit leden=P2^5;
sbit dkle=P3^7;
sbit beep=P2^7;
sbit sf=P1^0;
sbit sup=P1^1;
void delay(uint a);
void keyscan();

void main()//main函数
{
s_write(0x8e,0x80);
init();
P0=0xff;
while(1)
{
keyscan();
if(flag==0){
rw_ds1302();
}


}
}

void write_byte(uchar dat)//写入一个字节
{
uchar i;
ACC=dat;
for(i=8;i>0;i--)
{
ds1302_io=acc0;
ds1302_sclk=1;
ds1302_sclk=0;
ACC=ACC>>1;
}
}
uchar read_byte() //读出一个字节
{
uchar i;
for(i=8;i>0;i--)
{
ACC=ACC>>1;
acc7=ds1302_io;
ds1302_sclk=1;
ds1302_sclk=0;
}
return(ACC);
}

void s_write(uchar add,uchar dat)//单字节写入子函数
{
ds1302_ce=0;
ds1302_sclk=0;
ds1302_ce=1;
write_byte(add);
write_byte(dat);
ds1302_sclk=1;
ds1302_ce=0;
}
uchar s_read(uchar add) //单字节读出子函数
{
uchar temp;
ds1302_ce=0;
ds1302_sclk=0;
ds1302_ce=1;
write_byte(add);
temp=read_byte();
ds1302_sclk=1;
ds1302_ce=0;

temp=BCD2DEC(temp);

return(temp);
}
void set_ds1302(uchar *pClock)//设置ds1302的时间
{
uchar i;
uchar add=0x80;
EA=0;
s_write(0x8e,0x00);
for(i=7;i>0;i--)
{
s_write(add,*pClock);
pClock++;
add+=2;
}
s_write(0x8e,0x80);
EA=1;
}
void rw_ds1302() //读写ds1302
{
EA=0;
sec=s_read(0x81);
write_time(8,sec);
write_com(0x80+0x40+9);
min=s_read(0x83);
write_time(5,min);
write_com(0x80+0x40+6);
hour=s_read(0x85);
write_time(2,hour);
write_com(0x80+0x40+3);
week=s_read(0x8b);
write_xingqi(week);
write_com(0x80+0x0d);
day=s_read(0x87);
write_riqi(8,day);
write_com(0x80+9);
month=s_read(0x89);
write_riqi(5,month);
write_com(0x80+6);
year=s_read(0x8d);
write_riqi(2,year);
write_com(0x80+3);
EA=1;
}
void write_com(uchar com) //写命令子函数
{
lcde=0;
lcdrw=0;
lcdrs=0;
delay(1);
lcde=1;
delay(1);
P0=com;
delay(1);
lcde=0;
}
void write_data(uchar dat)//写数据子函数
{
lcde=0;
lcdrw=0;
lcdrs=1;
delay(1);
lcde=1;
delay(1);
P0=dat;
delay(1);
lcde=0;
}
void init()
{
s_write(0x90,0xa5);
set_ds1302(time);
delay(5);
lcde=0; //LCD1602初始化
le=0;
leden=0;
write_com(0x38);
delay(100);
write_com(0x38);
delay(50);
write_com(0x38);
delay(10);
write_com(0x08);
write_com(0x01);
write_com(0x0c);
write_com(0x80);

for(num=0;num<15;num++) //在第一行显示“ 2000-00-00 Mon.”
{
write_data(table[num]);
}
write_com(0x80+0x40);
for(num=0;num<10;num++) //在第二行末尾显示“ 00:00:00”
{
write_data(table1[num]);
}

}
void write_time(uchar add,uchar dat) //写入时间子函数
{
uchar shi,ge;
shi=dat/10;
ge=dat%10;
write_com(0x80+0x40+add);
write_data(0x30+shi);
write_data(0x30+ge);
}
void write_riqi(uchar add,uchar dat) //写入日期子函数
{
uchar shi,ge;
shi=dat/10;
ge=dat%10;
write_com(0x80+add);
write_data(0x30+shi);
write_data(0x30+ge);
}
void write_xingqi(uchar dat) //写入星期子函数
{
write_com(0x80+0x0b);
switch(dat)
{
case 1: for(num=0;num<4;num++)
{
write_data(xingqi[num]);
};break;
case 2: for(num=5;num<9;num++)
{
write_data(xingqi[num]);
};break;
case 3: for(num=10;num<14;num++)
{
write_data(xingqi[num]);
};break;
case 4: for(num=15;num<19;num++)
{
write_data(xingqi[num]);
};break;
case 5: for(num=20;num<24;num++)
{
write_data(xingqi[num]);
};break;
case 6: for(num=25;num<29;num++)
{
write_data(xingqi[num]);
};break;
case 7: for(num=30;num<34;num++)
{
write_data(xingqi[num]);
};break;

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