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基于51单片机，采用DHT11湿度传感器检测湿度，DS18B20温度传感器检测温度，
采用滑动变阻器连接数模转换器模拟二氧化碳和氧气浓度检测，各项数值通过lcd1602显示屏显示，
如果各项参数超过阈值，则蜂鸣器报警；若温湿度超过阈值，则同时启动电机转动模拟风扇进行
降温或者除湿。

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

#include <REGX52.H>#include<intrins.h>#include<stdio.h>#include "Delay.h"#include "LCD1602.h"#define uchar unsigned char#define uint unsigned  inttypedef unsigned char u8;typedef unsigned int  u16;static uint temp;static float ftemp = 0.0f;//温度转变sbit 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 beep=P3^4;
sbit Temp_data=P2^6;  				//DHT11sbit DS=P2^4;                 //DS18B20温度传感器sbit ssmotor = P3^0;
sbit csmotor = P3^1;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,R ,u1,U1,R1;      //定义变量static uchar wd,sd;static int wdyz=37,sdyz=80,coyz=90,pmyz=120;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 tmpchange();uint tmp();void beep_warning();void ajpd();void dsreset(void)            //发出命令{uint i;DS=0;		              i=103;				   //将总线拉低480us~960uswhile(i>0)i--;DS=1;					   //然后拉高总线，若DS18B20做出反应会将在15us~60us后将总线拉低i=4;					   //15us~60us等待while(i>0)i--;  //while(DS);}bit tmpreadbit(void)          //读取数据{uint i;bit dat;DS=0;i++;          //i++ for delayDS=1;i++;i++;dat=DS;i=8;while(i>0)i--;   return (dat);
}uchar tmpread(void)           //读取数据{uchar i,j,dat;dat=0;  for(i=1;i<=8;i++){j=tmpreadbit();dat=(j<<7)|(dat>>1);   //读出的数据最低位在最前面，这样刚好一个字节在DAT里}  return(dat);
}void tmpwritebyte(uchar dat)  //传输数据给DS18B20{uint i;uchar j;bit testb;  for(j=1;j<=8;j++){testb=dat&0x01;dat=dat>>1;    if(testb)     //write 1{DS=0;i++;i++;DS=1;i=8;while(i>0)i--;}    else{DS=0;       //write 0i=8;while(i>0)i--;DS=1;i++;i++;}}
}void tmpchange(void)          //DS18B20开始工作{  dsreset();  Delay(1);  tmpwritebyte(0xcc);  tmpwritebyte(0x44);  
}					  
uint tmp()                    //获得温度{  float tt;uchar a,b;  dsreset();  Delay(1);  tmpwritebyte(0xcc);  tmpwritebyte(0xbe);a=tmpread();//低八位b=tmpread();//高八位temp=b;temp<<=8;             //two byte  compose a int variabletemp=temp|a;tt=temp*0.0625; //算出来的是测到的温度，数值可到小数点后两位temp=tt*10+0.5; //为了显示温度后的小数点后一位并作出四舍五入，因为取值运算不能取小数点后的数return temp;
}//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);	 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(ftemp>wdyz){beep = 1;ssmotor = 0;}		else{ssmotor = 1;}	if(sd>sdyz){beep = 1;csmotor = 0;}	else{csmotor = 1;}  if(R>coyz) //氧气{beep = 1;}		if(R1>pmyz)//二氧化碳{beep = 1;}	if(ftemp<=wdyz && sd<=sdyz && R<=coyz && R1<=pmyz )	{beep = 0;}
}void main()					  //主函数{	LCD_Init();         //显示屏初始化ssmotor = 1;csmotor = 1;beep = 0;	do{		 tmpchange();        //让18b20开始转换温度temp = tmp();       //读取温度ftemp = temp/10.0f; //转换温度cshq();  //参数获取dht11(); //温湿度获取xxpxs();  //显示屏显示beep_warning();    //状态判断}  while(1);
}void xxpxs()  //显示屏显示{//		LCD\_ShowString(1,1,"O2:");	//	  LCD\_ShowNum(1,4,R,3); //COLCD_ShowString(1,9,"CO2:");	LCD_ShowNum(1,13,R1,3);//PM2.5//湿度LCD_ShowString(2,1,"wd:");	LCD_ShowNum(2,4,ftemp,3);    //温度LCD_ShowString(2,9,"sd:");	LCD_ShowNum(2,12,sd,3);}void cshq()  //参数获取{u=get\_AD\_Res();U=(250*u)/128;     //此处将数字信号转化为模拟信号，要根据上拉电阻阻值来确定R=200*U/250;	   //O2u1=get\_AD\_Res1();U1=(250*u1)/128;     //此处将数字信号转化为模拟信号，要根据上拉电阻阻值来确定R1=200*U1/250;	   //CO2}

具体动态效果看B站演示视频：

基于单片机的书库环境监测_哔哩哔哩_bilibili

全部资料（源程序、仿真文件、安装包、原理图、演示视频）：