目录
一、主要功能
二、硬件资源
三、程序编程
四、实现现象
一、主要功能
基于51单片机,采用DHT11温湿度传感器检测温湿度,滑动变阻器连接ADC0832数模转换器转换模拟,光敏传感器,采用GP2D12红外传感器,通过LCD1602显示屏显示各项参数,如果红外检测有人靠近,则电机顺时针转动片刻打开窗帘,人离开;如果温湿度超过阈值,则电机转动片刻打开窗帘,用按键替代语音模块,控制窗帘的打开关闭;一个模式切换按键用来切换手动/自动模式,手动模式下,两个按键负责窗帘的开关;自动模式下,则是靠红外,语音,温湿度来控制窗帘打开.并且串口可以远程操控控制窗帘的打开和关闭
二、硬件资源
基于KEIL5编写C++代码,PROTEUS8.15进行仿真,全部资源在页尾,提供安装包。
编辑
三、程序编程
#include <REGX52.H>#include <intrins.h>#include <stdio.h>#include "oled.h"#define uchar unsigned char#define uint unsigned intsbit CS=P1^0; //adc0832引脚sbit CLK=P1^1;
sbit DIO=P1^2;
sbit CS1=P1^3; //adc0832引脚sbit CLK1=P1^4;
sbit DIO1=P1^5;
sbit Temp_data=P2^6; //DHT11sbit out1=P3^6;
sbit out2=P3^7;
sbit key1=P1^6;
sbit key2=P1^7;
sbit key3=P3^2;
sbit key4=P3^3;
sbit key5=P3^4;unsigned char rec\_dat\_lcd0\[6\];unsigned char rec\_dat\_lcd1\[6\];unsigned char rec\_dat\_lcd2\[6\];unsigned char rec\_dat\_lcd3\[6\];unsigned int rec\_dat\[4\];static uchar u,U; //定义变量static flagpeople=0,flagwd=0,flagsd=0,flaggz=0;static uchar wd,sd;static int wdyz=37,sdyz=80,gzyz=100;static int flag=0;static char Dat\_rxd;static int flag1 = 0;static int num=0;static int flag2 = 0;void DHT11\_delay\_us(unsigned char n);void DHT11\_delay\_ms(unsigned int z);void DHT11\_start();unsigned char DHT11\_rec\_byte();void DHT11\_receive();void beep_warning();void cshq();void xxpxs();void ajjc();void ckjs();void Delay(unsigned int xms){ unsigned char i, j; while(xms--){i = 2;j = 239; do{ while (--j);} while (--i);}
}//延时msvoid DHT11\_delay\_ms(unsigned int z){ unsigned int i,j; for(i=z; i>0; i--) for(j=110; j>0; j--);
}//延时us --2*n+5usvoid DHT11\_delay\_us(unsigned char n){ while(--n);
}//DHT11起始信号void DHT11_start(){Temp\_data=1; DHT11\_delay_us(10);Temp\_data=0; DHT11\_delay_ms(50);//这个延时不能过短,18ms以上,实际在仿真当中要想读到数据延时要在延时参数要在40以上才能出数据Temp\_data=1; DHT11\_delay\_us(30);//这个延时不能过短}//接收一个字节unsigned char DHT11\_rec_byte(){ unsigned char i,dat=0; for(i=0; i<8; i++){ while(!Temp\_data); DHT11\_delay_us(8);dat <<=1; if(Temp_data==1){dat +=1;} while(Temp_data);} return dat;
}//接收温湿度数据void DHT11\_receive(){ unsigned int R\_H,R\_L,T\_H,T\_L; unsigned char RH,RL,TH,TL,revise; DHT11\_start();Temp\_data=1; if(Temp\_data==0){ while(Temp_data==0); //等待拉高DHT11\_delay\_us(40); //拉高后延时80usR\_H=DHT11\_rec_byte(); //接收湿度高八位R\_L=DHT11\_rec_byte(); //接收湿度低八位T\_H=DHT11\_rec_byte(); //接收温度高八位T\_L=DHT11\_rec_byte(); //接收温度低八位revise=DHT11\_rec\_byte(); //接收校正位DHT11\_delay\_us(25); //结束if((R\_H+R\_L+T\_H+T\_L)==revise) //校正{RH=R_H;RL=R_L;TH=T_H;TL=T_L;} /*数据处理,方便显示*/rec_dat\[0\]=RH;rec_dat\[1\]=RL;rec_dat\[2\]=TH;rec_dat\[3\]=TL;}}void dht11(){ DHT11\_delay\_ms(150); DHT11\_receive(); sprintf(rec\_dat\_lcd0,"%d",rec\_dat\[0\]); sprintf(rec\_dat\_lcd1,"%d",rec\_dat\[1\]); sprintf(rec\_dat\_lcd2,"%d",rec\_dat\[2\]); sprintf(rec\_dat\_lcd3,"%d",rec\_dat\[3\]); DHT11\_delay_ms(100);wd = rec\_dat\[3\]*10 + rec\_dat\[2\];sd = rec\_dat\[1\]*10 + rec\_dat\[0\];}uchar get\_AD\_Res() //ADC0832启动读取函数{uchar i, data1=0, data2=0;CS=0;CLK=0;DIO=1;\_nop\_();CLK=1;\_nop\_();CLK=0;DIO=1;\_nop\_(); CLK=1;\_nop\_();CLK=0;DIO=0;\_nop\_();CLK=1;\_nop\_();CLK=0;DIO=1;\_nop\_(); for(i=0; i<8; i++){CLK=1;\_nop\_();CLK=0;\_nop\_();data1=(data1<<1)|(uchar)DIO; } for(i=0; i<8; i++){data2=data2|(uchar)DIO<<i;CLK=1;\_nop\_();CLK=0;\_nop\_();}CS=1; return(data1 == data2)?data1:0;
}uchar get\_AD\_Res1() //ADC0832启动读取函数{uchar i, data1=0, data2=0;CS1=0;CLK1=0;DIO1=1;\_nop\_();CLK1=1;\_nop\_();CLK1=0;DIO1=1;\_nop\_(); CLK1=1;\_nop\_();CLK1=0;DIO1=0;\_nop\_();CLK1=1;\_nop\_();CLK1=0;DIO1=1;\_nop\_(); for(i=0; i<8; i++){CLK1=1;\_nop\_();CLK1=0;\_nop\_();data1=(data1<<1)|(uchar)DIO1; } for(i=0; i<8; i++){data2=data2|(uchar)DIO1<<i;CLK1=1;\_nop\_();CLK1=0;\_nop\_();}CS1=1; return(data1 == data2)?data1:0;
}void beep_warning()//蜂鸣器警报并且电机转动{ if(U<100){ OLED_ShowCHinese(48,6,6);//有OLED_ShowCHinese(64,6,7);//人} else{ OLED_ShowCHinese(48,6,8);//无OLED_ShowCHinese(64,6,7);//人} if(flag == 0) //自动模式{ if(flagpeople == 0) //可以判断有人{ if(U<100) //有人{out1 = 1;out2 = 0; Delay(1000);out1 = 0;flagpeople = 1;}} if(U>=100){flagpeople = 0;} if(flagwd == 0){ if(wd>wdyz){out1 = 1;out2 = 0; Delay(1000);out1 = 0;flagwd = 1;}} if(wd<=wdyz){flagwd = 0;} if(flagsd == 0){ if(sd>sdyz){out1 = 1;out2 = 0; Delay(1000);out1 = 0;flagsd = 1;}} if(sd<=sdyz){flagsd = 0;} if(flaggz == 0){ if(u>gzyz){out1 = 1;out2 = 0; Delay(1000);out1 = 0;flaggz = 1;}} if(u<=gzyz){flaggz = 0;}}}void main() //主函数{ out1 = 0;out2 = 0; OLED_Init(); //初始化OLED OLED_Clear(); OLED_ShowCHinese(0,0,0);//温 横坐标11, 纵坐标0,第0个汉字OLED_ShowCHinese(16,0,1);//度OLED_ShowCHinese(0,2,4);//湿OLED_ShowCHinese(16,2,5);//度OLED_ShowCHinese(0,4,2);//光OLED_ShowCHinese(16,4,3);//照while(1){ cshq(); //参数获取dht11(); //温湿度获取ajjc(); //按键检测xxpxs(); //显示屏显示beep_warning(); //状态判断if(flag2==0){ OLED_ShowCHinese(0,6,9);//自OLED_ShowCHinese(16,6,10);//动} else{ OLED_ShowCHinese(0,6,11);//手OLED_ShowCHinese(16,6,10);//动}}
}void ajjc() //按键检测{ if(flag == 0){ if(!key1) //打开{out1 = 1;out2 = 0; Delay(1000);out1 = 0; while(!key1);} if(!key2) //关闭{out1 = 0;out2 = 1; Delay(1000);out2 = 0; while(!key2);}} if(!key3) //切换{flag++;flag2++; if(flag > 1){flag = 0;} if(flag2>1){flag2 = 0;} while(!key3);} if(flag==1) //手动 { if(!key4) //打开{out1 = 1;out2 = 0; Delay(1000);out1 = 0; while(!key4);} if(!key5) //关闭{out1 = 0;out2 = 1; Delay(1000);out2 = 0; while(!key5);}}
}void xxpxs() //显示屏显示{ OLED_ShowNum(32,0,wd,2,16);//温度OLED_ShowNum(32,2,sd,2,16);//湿度OLED_ShowNum(32,4,u,3,16);//光强}void cshq() //参数获取{u=get\_AD\_Res(); U=get\_AD\_Res1(); //红外}
四、实现现象
具体动态效果看B站演示视频:
B站演示视频
32-基于单片机的智能窗帘控制系统
全部资料(源程序、仿真文件、安装包、演示视频):
百度网盘资料下载
https://pan.baidu.com/s/1BqLxyhSoRrfVfWj1RaY1cg?pwd=fv3a
炉石传说卡牌设计1)
充电器原理 线性电源 开关电源 反激电源原理)
