____________________________________________ 功能:反转法循环扫描,通过数码管显示数据 时间:2010—7—18 ____________________________________________ #include<reg52.h> #define uchar unsigned char #define uint unsigned int unsigned char const dofly[]= {0x3f,0x06,0x5b,0x4f,0x66,0x6d,0x7d,0x07,0x7f,0x6f, 0x77,0x7c,0x39,0x5e,0x79,0x71}; //0-F uchar keyscan(void); void delay(uint i); void main() { uchar key; P2=0x00; while(1) { key=keyscan(); switch(key) { case 0x7e:P0=dofly[0];break; //0 case 0x7d:P0=dofly[1];break; //1 case 0x7b:P0=dofly[2];break; //2 case 0x77:P0=dofly[3];break; //3 case 0xbe:P0=dofly[4];break; //4 case 0xbd:P0=dofly[5];break; //5 case 0xbb:P0=dofly[6];break; //6 case 0xb7:P0=dofly[7];break; //7 case 0xde:P0=dofly[8];break; //8 case 0xdd:P0=dofly[9];break; //9 case 0xdb:P0=dofly[10];break; //a case 0xd7:P0=dofly[11];break; //b case 0xee:P0=dofly[12];break; //c case 0xed:P0=dofly[13];break; //d case 0xeb:P0=dofly[14];break; //e case 0xe7:P0=dofly[15];break; //f } } } uchar keyscan(void) { uchar cord_h,cord_l; P3=0x0f; cord_h=P3&0x0f; if(cord_h!=0x0f) { delay(100); if(cord_h!=0x0f) { cord_h=P3&0x0f; P3=cord_h|0xf0; cord_l=P3&0xf0; return(cord_h+cord_l); } } return(0xff); } void delay(uint i) { while(i--); }
/*
解释:
矩阵键盘就是扫描检测端口电平的高低来进行操作,P3的8个IO口可以做输入也可作输出,根据矩阵键盘的焊接方式,有8个接出端。16个按键,标一下号都有自己的坐标,扫描的时候分别扫描行和列,确定哪一行哪一列的那个按键被按下。行接低四位、列街高四位,IO口做输出来用:P3=0x0f;行被置高电平,列低电平,首先进行行扫描;cord_h=P3&0x0f,cord_h=0000 1111&0000 1110=0000 1110;(假设第一行第一列的被按下,此时P3=0000 1110)再进行列扫描,首先重新为P3赋值,P3=0xf0,cord_l=P3&0xf0,cord_l=0111 0000&1111 0000=0111 0000;最后return(cord_h+cord_l==0111 1110)
*/