#include#define SEG P2 sbit P1_0 = P1^0; sbit P1_1 = P1^1; sbit P1_2 = P1^2; sbit P1_3 = P1^3; sbit P1_4 = P1^4; unsigned char code tab[]={ 0x3f,0x06,0x5b,0x4f,0x66,0x6d,0x3c,0x07,0x7f,0x37}; //共阴极 void delay(int x); void main(){ while(1) //2015 { P1_0 =0; //573 低电平使能 SEG =tab[2]; //送段位 P1_1 = 0; //点亮数码管 P1_0 = 1; //关闭锁存 P1_1 = 1; //关闭数码管 P1_0 =0; //573 低电平使能 SEG =tab[0]; P1_2 = 0; P1_0 = 1; P1_2 = 1; P1_0 =0; //573 低电平使能 SEG =tab[1]; P1_3 = 0; P1_0 = 1; P1_3 = 1; P1_0 =0; //573 低电平使能 SEG =tab[5]; P1_4 = 0; P1_0 = 1; P1_4 = 1; } }void delay(int x) //6ms*x 23MHZ晶振{ int i,j; for( i=0;i
#include#define SEG P2 sbit P1_0 = P1^0; sbit P1_1 = P1^1; sbit P1_2 = P1^2; sbit P1_3 = P1^3; sbit P1_4 = P1^4; unsigned char code tab[]={ 0x3f,0x06,0x5b,0x4f,0x66,0x6d,0x3c,0x07,0x7f,0x37}; void delay(int x); void main(){ while(1) //521 1314 { P1_0 =0; //573 低电平使能 SEG =tab[5]; //送段位 P1_1 = 0; //点亮数码管 delay(166); //延时 P1_0 = 1; //关闭锁存 P1_1 = 1; //关闭数码管 P1_0 =0; //573 低电平使能 SEG =tab[2]; P1_2 = 0; delay(166); P1_0 = 1; P1_2 = 1; P1_0 =0; //573 低电平使能 SEG =tab[1]; P1_3 = 0; delay(166); P1_0 = 1; P1_3 = 1; //// 1314 P1_0 =0; //573 低电平使能 SEG =tab[1]; //送段位 P1_1 = 0; //点亮数码管 delay(166); //延时 P1_0 = 1; //关闭锁存 P1_1 = 1; //关闭数码管 P1_0 =0; //573 低电平使能 SEG =tab[3]; P1_2 = 0; delay(166); P1_0 = 1; P1_2 = 1; P1_0 =0; //573 低电平使能 SEG =tab[1]; P1_3 = 0; delay(166); P1_0 = 1; P1_3 = 1; P1_0 =0; //573 低电平使能 SEG =tab[4]; P1_4 = 0; delay(166); P1_0 = 1; P1_4 = 1; } }void delay(int x) //6ms*x 23MHZ晶振{ int i,j; for( i=0;i
