51步进电机驱动

  • hjfy168
    了解作者
  • C/C++
    开发工具
  • 1.8KB
    文件大小
  • rar
    文件格式
  • 0
    收藏次数
  • 2 积分
    下载积分
  • 0
    下载次数
  • 2022-09-01 02:06
    上传日期
本代码是用51单片机步进电机驱动,用LED显示
步进电机驱动.rar
  • 步进电机驱动.txt
    6.7KB
内容介绍
#include<reg.51> #define uint unsigned int #define uchar unsigned char #define ms *77 // f = 12 M #define LEDLen 4 #define Dj_star() {IE=0x81; pri_dj=0; } #define Dj_stop() {IE=0x00; pri_dj=1; P1=0xff; shache="0"; delay(800ms); delay(800ms);delay(400ms); shache = 1; } #define Chilun_Num 8 /* 齿轮数 8 个*/ #define set_display_num() { LEDBuf[0] = tmp / 1000; LEDBuf[1] = tmp / 100 % 10; \ LEDBuf[2] = tmp / 10 % 10; LEDBuf[3] = tmp % 10; } uchar LEDBuf[LEDLen] = {0,0,0,0}; void read_num (); /* 读播码盘 到 set_round_num * 8 */ void display (); void delay(uint delay_TIme) { uint i; for (i=0; i < delay_TIme ; i++) ; } void run (); void fx_run(); uint round_num = 0; /* 记录已转的 齿轮数 , 中断1次 加 1*/ uint set_round_num = 0; /* 播码盘设置 圈数 */ uint set_pwm_width = 0; /* 播码盘设置 步进电机 正向速度 */ bit one_round_flg = 0; sbit led_1000 = P0^7; //use for display sbit led_100 = P0^6; //use for display sbit led_10 = P0^5; //use for display sbit led_1 = P0^4; //use for display sbit key_start = P3^0; sbit key_puse = P3^0; sbit key_clear = P3^1; /* P3^2 接齿轮传感器 中断 */ sbit bujin_zx_stop = P3^3; /* 接步进电机 ,正向到位传感器 ,为 0 停机 */ sbit bujin_fx_stop = P3^4; /* 接步进电机 ,反向到位传感器 ,为 0 停机 */ sbit shache = P3^5; /* 接刹车控制继电器 0 电位有效 */ sbit pri_dj = P3^6; /* 接主电机控制继电器 0 电位有效 */ void main(){ TCON = 0x01; display(); while(1) { IE="0x00"; round_num = 0; display(); if ( bujin_fx_stop ) fx_run(); while ( key_start ); delay ( 8ms ); if(!key_start){ read_num(); //set_round_num = 8; while ( !key_start ); run (); fx_run(); } } } void zhengxangrun () { #define Delay_TIme 180 /* 转一圈 50 次循环,每循环 4 步 ,50 * 4 = 200 , 200 * 1。8 = 360 */ uchar i ; P1 = 0xff; set_pwm_width = 15 + set_pwm_width / 10; while ( 1 ) { while( !shache | !key_start ); Dj_star(); for ( i="0" ; bujin_zx_stop & !pri_dj;i++ ){ P1 = 0xf9; delay ( Delay_TIme ); // bujin_zx_stop = P3^3; P1 = 0xfc; // bujin_fx_stop = P3^4; delay ( Delay_time); // key_puse = P3^0; P1 = 0xf6; // key_clear = P3^1; delay ( Delay_time ); // shache = P3^5; P1 = 0xf3; // pri_dj = P3^6; delay ( Delay_time ); if( i == set_pwm_width ) { P1 = 0xff; i = 0; one_round_flg = 0; while ( !one_round_flg & key_puse );} if(!key_puse) { delay(4ms); if(!key_puse) break; } } P1 = 0xff; if ( pri_dj ) break; if ( !key_puse ) { delay ( 8ms ); if ( !key_puse ) { Dj_stop(); while ( !key_puse ); // next pree key while( !shache ); while(1){ while ( key_puse & key_clear ); delay ( 8ms ); if ( !key_clear ) { round_num = 0; display(); } if ( !key_puse ) break; } while( !key_puse ); delay(8ms); while( !key_puse ); } } } } void ext_int0(void) interrupt 0 { /* 主电机 齿轮 中断 */ uint tmp; EA = 0; if( !pri_dj ){ round_num ++; if (round_num % Chilun_Num == 0 ){ one_round_flg = 1; tmp = round_num / Chilun_Num ; set_display_num(); P0 = 0xf0; P0 = P0 | LEDBuf[0] ; led_1000 = 0; P0 |= 0xf0; P0 = 0xf0; P0 = P0 | LEDBuf[1] ; led_100 = 0; P0 |= 0xf0; P0 = 0xf0; P0 = P0 | LEDBuf[2] ; led_10 = 0; P0 |= 0xf0; P0 = 0xf0; P0 = P0 | LEDBuf[3] ; led_1 = 0; P0 |= 0xf0; P0 = 0xf0; } if ( round_num >= set_round_num ) Dj_stop(); } EA = 0x81; } void display(){ uchar i; uint tmp = 0; tmp = round_num / Chilun_Num ; set_display_num(); for(i = 0; i < LEDLen ; i ++){ P0 = 0xf0; P0 = P0 | LEDBuf[i] ; if(i==0) led_1000 = 0; //P0^4 if(i==1) led_100 = 0; //P0^5 if(i==2) led_10 = 0; //P0^6 if(i==3) led_1 = 0; //P0^7 P0 |= 0xf0; } P0 = 0xf0; } void read_num(){ /* 读播码盘 到 set_round_num ,set_pwm_width */ uchar tmp; P2 = 0xFF; P2 = 0xEF; // 1110 1111 delay ( 1ms ); tmp = ~(P2 | 0xF0); P2 = 0xDF; // 1101 1111 delay ( 1ms ); tmp = (~(P2 | 0xF0 )) * 10 + tmp; set_round_num = tmp; P2 = 0xBF; // 1011 1111 delay ( 1ms ); tmp = (~(P2 | 0xF0)); P2 = 0x7F; // 0111 1111 delay ( 1ms ); tmp = (~(P2 | 0xF0)) * 10 + tmp; set_round_num = set_round_num + tmp * 100; set_round_num = set_round_num * Chilun_Num; P2 = 0xFF; P1 = 0xbF; // 0111 1111 delay ( 1ms ); tmp = ~(P2 | 0xF0) ; P1 = 0xFF; P2 = 0xFF; P1 &= 0x7F; // 1011 1111 delay ( 1ms ); tmp = (~(P2 | 0xF0)) * 10 + tmp ; set_pwm_width = tmp ; P1 = 0xFF; P2 = 0xFF; } void fanxang_run(){ #define f_Delay_time 180 while ( bujin_fx_stop ) { /* 反向 回车 直到 传感器 动作*/ P1 = 0xf3; //0011 delay ( f_Delay_time ); P1 = 0xf6; //0110 delay ( f_Delay_time ); P1 = 0xfc; //1100 delay ( f_Delay_time ); P1 = 0xf9; //1001 delay ( f_Delay_time ); } P1 = 0xff; }
评论
    相关推荐