/*
定时器0控制LED的闪烁时间;计数器1来控制数码管的显示
*/
#include <reg52.h>
#define uint unsigned int
#define uchar unsigned char
sbit DULA = P2^6;
sbit WELA = P2^7;
sbit LED1 = P1^0;
void display(uint i);
void delay(uint z);
uchar code arry[] = {0x3f,0x06,0x5b,0x4f,0x66,0x6d,0x7d,0x07,0x7f,0x6f};
void delay(uint z)
{
uint a,b;
for(a = z;a > 0;a--){
for(b = 114;b > 0;b--);
}
}
void display(uint i)
{
uint one,two;//这里是两位,如果用三位数码管就设置一个百位,那么百位就是i/100;十位就是i%100/10;个位就是i%10
one = i / 10;
two = i % 10;
P0 = 0xff;
WELA = 1; //打开位选
P0 = 0xfe;
WELA = 0;
DULA = 1;//打开段选
P0 = arry[one];
DULA = 0;
delay(5);
P0 = 0xff;
WELA = 1; //打开位选
P0 = 0xfd;
WELA = 0;
DULA = 1;//打开段选
P0 = arry[two];
DULA = 0;
delay(5);
}
void main(void)
{
uchar a;
TR0 = 1;//打开定时器0
TR1 = 1;//打开定时器1
TMOD = 0x61;//设置T1为计数器,工作方式为2;T0为定时器,工作方式为1
TH0 = 0x4b;
TL0 = 0xfc;
TH1 = 0; //这是一个8位自动重装的寄存器
TL1 = 0; //当TL1记满,重新装入TH1的值
while(1){
if(TF0 == 1){
TH0 = 0x4b;//重新装入初值
TL0 = 0xfc;
TF0 = 0;
a++;
}
if(a == 20){
LED1 = ~LED1; //初始点亮LED,每次取反就是变换状态
a = 0;
}
display(TL1);//用杜邦线将P10口和外部引脚P35(T1)口连接;
//计数器是根据外部每来一个脉冲,计数器就会+1
//所以当LED1的状态变化一次,便会产生不同的电平信号,
//由杜邦线可以让T1口感知到,计数器就会+1了
}
}