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发表于 2025-1-23 16:22:27
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第11集 矩阵按键,已手敲代码,测试通过
#include "io.h"
u8 State1 = 0; //LED1初始状态
u8 State2 = 0; //LED2初始状态
u8 State3 = 0; //LED3初始状态
u16 Key_Vol ; //按键按下持续时间
u8 SEG_NUM[]=
{
0x3F, /*'0', 0*/
0x06, /*'1', 1*/
0x5B, /*'2', 2*/
0x4F, /*'3', 3*/
0x66, /*'4', 4*/
0x6D, /*'5', 5*/
0x7D, /*'6', 6*/
0x07, /*'7', 7*/
0x7F, /*'8', 8*/
0x6F, /*'9', 9*/
0x77, /*'A', 10*/
0x7C, /*'B', 11*/
0x39, /*'C', 12*/
0x5E, /*'D', 13*/
0x79, /*'E', 14*/
0x71, /*'F', 15*/
0x40, /*'-', 16*/
0x00, /*' ', 17*/
0x80, /*'.', 18*/
};
u8 T_NUM[8] =
{
0X01,0X02,0X04,0X08,0X10,0X20,0X40,0X80
};
void LED0_Blink(void)
{
State1 = !State1;
P00 = State1;
}
void LED1_Blink(void)
{
State2 = !State2;
P01 = State2;
}
void LED2_Blink(void)
{
State3 = !State3;
P02 = State3;
}
void KEY_Task(void)
{
if( P32 == 0 )
{
Key_Vol++;
if( Key_Vol==5 )
{
//按键按下的任务
printf( "按键单击\r\n" );
}
}
else
{
Key_Vol = 0;
}
}
/*
#define ROW1 P06 //端口定义
#define ROW2 P07
#define COL1 P00
#define COL2 P01
#define COL3 P02
#define COL4 P03
*/
u8 key_num = 0xff;
//任务1:数码管显示当前的按键号
void Task_1(void)
{
//①第一步:现将P0.0-P0.3输出低电平,P0.6-P0.7输出高电平,如果有按键按下,按下的那一行的IO就会变成低电平,就可以判断出哪一行按下了。
COL1 = 0;
COL2 = 0;
COL3 = 0;
COL4 = 0;
ROW1 = 1;
ROW2 = 1;
if(( ROW1 == 0 ) || ( ROW2 == 0 )) //如果行按键有按下
{
if(( ROW1 ==0 ) && ( ROW2 ==0 )) //如果两行都有按键按下,不处理
{
}
else if((( ROW1 ==1 )&&( ROW2 ==0 )) || (( ROW1 ==0 )&&( ROW2 ==1 ))) //如果有按键按下,而且只有一颗
{
if( ROW1 ==0 ) //判断哪一行,输出行开始的序号
key_num = 0;
else if( ROW2 ==0 )
key_num = 4;
//②第二步:现将P0.0-P0.3输出高电平,P0.6-P0.7输出低电平,如果有按键按下,按下的那一列的IO就会变成低电平,就可以判断出哪一列按下了。
COL1 = 1;
COL2 = 1;
COL3 = 1;
COL4 = 1;
ROW1 = 0;
ROW2 = 0;
if( COL1 ==0 ) //判断哪一列,叠加按键的序号
{
// key_num = key_num ;
}
else if( COL2 ==0 )
{
key_num = key_num + 1;
}
else if( COL3 ==0 )
{
key_num = key_num + 2;
}
else if( COL4 ==0 )
{
key_num = key_num + 3;
}
}
COL1 = 0;
COL2 = 0;
COL3 = 0;
COL4 = 0;
ROW1 = 1;
ROW2 = 1;
}
else
{
key_num = 0xff;
}
//③第三步:行列组合一下就可以判断出是哪个按键按下了。
}
void Init_595(void)
{
HC595_SER = 0;
HC595_RCK = 0;
HC595_SCK = 0;
}
void Send_595( u8 dat )
{
u8 i;
for( i=0;i<8;i++ )
{
dat <<= 1; //DAT = (DAT<<1); //CY
HC595_SER = CY; //先把数据写到引脚上
HC595_SCK = 1; //输出上升沿的时钟信号
HC595_SCK = 0;
}
}
void Display_Seg(u8 HC595_1,u8 HC595_2)
{
Send_595(HC595_1); //数码管段码输出 高电平点亮
Send_595(HC595_2); //数码管位码 低电平点亮
HC595_RCK = 1; //数据输出
HC595_RCK = 0;
}
//void SEG_Task(void)
//{
// if( key_num == 255 )
// Display_Seg( SEG_NUM[17] , ~T_NUM[0]); //数码管刷段码和位码
// else
// Display_Seg( SEG_NUM[key_num] , ~T_NUM[0]); //数码管刷段码和位码
//}
u8 passward[8] = { 16,16,16,16,16,16,16,16 };
u8 Seg_no = 0;
void SEG_Task(void)
{
u8 num = 0;
if( Seg_no ==0 ) //小时十位
{
Display_Seg( SEG_NUM[passward[0]] , ~T_NUM[0]); //数码管刷段码和位码
}
else if( Seg_no ==1 ) //小时的个位
{
Display_Seg( SEG_NUM[passward[1]] , ~T_NUM[1]); //数码管刷段码和位码
}
else if( Seg_no ==2 ) //第一个横杠
{
Display_Seg( SEG_NUM[passward[2]] , ~T_NUM[2]); //数码管刷段码和位码
}
else if( Seg_no ==3 ) //分钟的十位
{
Display_Seg( SEG_NUM[passward[3]] , ~T_NUM[3]); //数码管刷段码和位码
}
else if( Seg_no ==4 )
{
Display_Seg( SEG_NUM[passward[4]] , ~T_NUM[4]); //数码管刷段码和位码
}
else if( Seg_no ==5 )
{
Display_Seg( SEG_NUM[passward[5]] , ~T_NUM[5]); //数码管刷段码和位码
}
else if( Seg_no ==6 )
{
Display_Seg( SEG_NUM[passward[6]] , ~T_NUM[6]); //数码管刷段码和位码
}
else if( Seg_no ==7 )
{
Display_Seg( SEG_NUM[passward[7]] , ~T_NUM[7]); //数码管刷段码和位码
}
else
{
}
Seg_no ++;
if( Seg_no>7 )
Seg_no=0;
}
u8 Key_Vol3 = 0;
u8 key_no =0 ;
void PW_write_Task(void)
{
if( key_num <0xff )
{
Key_Vol3 ++;
if( Key_Vol3 == 5 )
{
if( key_no == 0 )
{
passward[0] = 16;
passward[1] = 16;
passward[2] = 16;
passward[3] = 16;
passward[4] = 16;
passward[5] = 16;
passward[6] = 16;
passward[7] = 16;
}
passward[ key_no] = key_num ;
key_no ++;
// passward[7] = 17;
if( key_no == 8 ) //密码输入到了八位
{
if((passward[0]==1) && (passward[1]==2) && (passward[2]==3) && (passward[3]==4) && (passward[4]==5) && (passward[5]==6) && (passward[6]==7) &&(passward[7]==0) )
{
passward[0] = 17;
passward[1] = 17;
passward[2] = 17;
passward[3] = 17;
passward[4] = 17;
passward[5] = 17;
passward[6] = 17;
passward[7] = 1;
}
else
{
passward[0] = 16;
passward[1] = 16;
passward[2] = 16;
passward[3] = 16;
passward[4] = 16;
passward[5] = 16;
passward[6] = 16;
passward[7] = 16;
}
key_no = 0;
}
}
}
else
{
Key_Vol3 = 0;
}
}
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