//上電時電機啟動,加減檔位,電機采用單雙八拍方式
//電機轉速一共10檔,通過按鍵調節轉速
#include<reg51.h>
#include <intrins.h>
#include <math.h>
#define uchar unsigned char
#define uint unsigned int
uchar receive=0;
uchar send=0xff;
sbit out1=P3^0;
sbit out2=P3^1;
sbit out3=P3^2;
sbit s1 = P1^0;
sbit s2 = P1^1;
//按鍵定義,s1正轉,s2反轉,s3加1,s4減1
sbit a = P2^7;sbit b = P2^6;sbit c = P2^5;sbit d = P2^4;//脈沖信號輸入端定義
uchar code time_counter[10][2]={{0xda,0x1c},{0xde,0xe4},{0xe1,0xec},{0xe5,0xd4},{0xe9,0xbc}, //9.7 ----1ms
{0xed,0xa4},{0xf1,0x8c},{0xf5,0x74},{0xf9,0x5c},{0xfc,0x18}};
uchar num1 = 0;//控制取勵磁信號變量
uchar num2 = 8;
char k=0;//加減檔位控制,1為最小檔
char pause=1;//暫停時保存之前的轉速,開機默認1
bit flag1 = 0;//初始正轉,正反轉標志
//================================定時器0/1初始化函數================================
void T0_T1_init()
{
TMOD = 0x11;//定時器0/1均工作于方式1,16位計時方式
TH1 = time_counter[k-1][0];
TL1 = time_counter[k-1][1];//定時器1,定時10ms用于步進電機轉速控制
TR1 = 0;
ET1= 1;//開定時器中斷
EA = 1;//開總中斷
}
//================================ms級延時函數=======================================
void delay1m(uint x)
{
uint i,j;
for(i=0;i<x;i++) //連數x次,約 x ms
for(j=0;j<120;j++); //數120 次,約1 ms
}
void Com_Init(void)
{
TMOD = 0x20;
PCON = 0x00;
SCON = 0x50;
TH1 = 0xfd; //設置波特率 9600
TL1 = 0xfd;
TR1 = 1; //啟動定時器1
ES = 1; //開串口中斷
EA = 1; //開總中斷
}
//開關操作函數,接收到一次數據改變一次狀態
void alloff()
{
P1=0xff;
}
void Delay_1ms(uint i)//1ms延時
{
uchar x,j;
for(j=0;j<i;j++)
for(x=0;x<=148;x++);
}
//================================主函數=============================================
void main()
{
Delay_1ms(100);
Com_Init();//串口初始化
while (1)
{
T0_T1_init();
a=b=c=d=0;
while(1)
{
if(s1 == 0)
{
delay1m(3);
if(s1 == 0)
{
flag1 = 0;//正轉
}
while(!s1);
}
if(s2 == 0 )
{
delay1m(3);
if(s2 == 0)
{
flag1 = 1;//反轉
}
while(!s2);
}
if(out1 == 0) //速度加1檔
{
delay1m(3);
if(out1 == 0)
{
k++;
TR1=1;
if(k > 10 )
{
k = 1;
}
}
while(!out1);
}
if(out2 == 0) //速度減1檔
{
delay1m(3);
if(out2 == 0)
{
k--;
TR1=1;
if(k <= 0)
{
k = 10;
}
}
while(!out2);
}
if(out3==0)
{
delay1m(3);
if(out3==0)
{
if(TR1==1)
{
pause=k;
k=0;
TR1=0;
a=b=c=d=0;
}
else if(TR1==0)
{
k=pause;
TR1=1;
}
while(!out3);
}
}
}
}
}
void Com_Int(void) interrupt 4
{
EA = 0;
if(RI == 1) //當硬件接收到一個數據時,RI會置位
{
receive = SBUF ; //
RI = 0;
switch (receive)
{
case 0x00: alloff();break;
case 0x10: out1=1;break;
case 0x11: out1=0;break;
case 0x20: out2=1;break;
case 0x21: out2=0;break;
case 0x30: out3=1;break;
case 0x31: out3=0;break;
default:break;
}
}
EA = 1;
}
//==================================定時器1中斷函數,用于脈沖頻率控制=====================================
void time1_interrupt()interrupt 3
{
static num1 = 0;
static num2 = 0;
TH1 = time_counter[k-1][0];
TL1 = time_counter[k-1][1];//定時器1,定時1 用于步進電機轉速控制
if(flag1 == 0)//正轉
{
switch(num1)
{
case 0:a = 1;b = 0;c = 0;d = 0;break;
case 1:a = 1;b = 1;c = 0;d = 0;break;
case 2:a = 0;b = 1;c = 0;d = 0;break;
case 3:a = 0;b = 1;c = 1;d = 0;break;
case 4:a = 0;b = 0;c = 1;d = 0;break;
case 5:a = 0;b = 0;c = 1;d = 1;break;
case 6:a = 0;b = 0;c = 0;d = 1;break;
case 7:a = 1;b = 0;c = 0;d = 1;break;
}
num1++;
if(num1 == 8)num1 = 0;
}
else //反轉
{
switch(num2)
{
case 0:a = 1;b = 0;c = 0;d = 1;break;
case 1:a = 0;b = 0;c = 0;d = 1;break;
case 2:a = 0;b = 0;c = 1;d = 1;break;
case 3:a = 0;b = 0;c = 1;d = 0;break;
case 4:a = 0;b = 1;c = 1;d = 0;break;
case 5:a = 0;b = 1;c = 0;d = 0;break;
case 6:a = 1;b = 1;c = 0;d = 0;break;
case 7:a = 1;b = 0;c = 0;d = 0;break;
}
num2++;
if(num2 == 8)num2 = 0;
}
}
s1,s2兩個按鍵不知道能不能用,求大神幫幫忙幫我看看。 |
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