下面是電路圖:
51單片機+8255芯片的鍵盤掃描函數(shù),只做了簡單的輸入輸出,利用P1口控制發(fā)光二極管亮,鍵值為7的話鍵碼是0x07;
源程序:
#include<reg51.h>
#include<absacc.h>
#define uchar unsigned char
#define uint unsigned int
#define LScan XBYTE[0x7f00] //列掃描地址
#define HScan XBYTE[0x7f02] //行掃描地址
//延時函數(shù)
void delay(uint i)
{uint j;
for(j=i;j>0;j--)
{ ; }
}
//檢測有無按鍵按下的函數(shù)
uchar CheckKey() //有按鍵按下返回0xff,無則返回0
{ uchar i;
LScan =0x00;
i=(HScan & 0x0f);
if(i==0x0f) return(0);
else return(0xff);
}
//********鍵盤掃描子函數(shù)***********
uchar KeyScan()
{ //無按鍵返回oxff,有則返回鍵碼
uchar ScanCode;
uchar CodeValue;
uchar k;
uchar i,j;
if(CheckKey()==0) return(0xff); //無按鍵,返回0xff
else
{
delay(200); //延時
if(CheckKey()==0)
return(0xff); //無按鍵,返回0xff
else
{
ScanCode=0x01; //設置列掃描碼,初始值最低位為0
for(i=0;i<8;i++) //逐列掃描8次
{
k=0x01; //行掃描碼賦初值
LScan=~ScanCode; //送列掃描碼
CodeValue=i; //鍵碼就是i的值,第零行的每列鍵碼為0,1,2,……7,和i值一致
for(j=0;j<4;j++)
{
if((HScan & k) ==0) //是否在當前列,
{
while(CheckKey()!=0); //若是,則等待按鍵釋放
return(CodeValue); //返回鍵碼
}
else //否則,鍵碼加8,同一列的每一行上的鍵碼恰好相差8
{ //列掃描碼k右移一位,掃描下一行
CodeValue+=8;
k<<=1;
}
}
ScanCode<<=1; //每一行都掃描完,列掃描碼右移一位,掃描下一列
}
}
}
}
main()
{ uchar Key;
P1=0x00;
//初始,先關閉數(shù)碼管
XBYTE[0x7f03]=0x81; //8255初始化,設置A口輸出,C口低4位輸入
while(1)
{ Key=KeyScan();
if(Key!=0xff)
P1=Key;
}
}