//#include <Servo.h>
int Left_motor_back=8; //左电机后退(IN1)
int Left_motor_go=9; //左电机前进(IN2)
int Right_motor_go=10; // 右电机前进(IN3)
int Right_motor_back=11; // 右电机后退(IN4)
int key=7;//定义按键 数字7 接口
int beep=12;//定义蜂鸣器 数字12 接口
const int SensorRight = 3; //右循迹红外传感器(P3.2 OUT1)
const int SensorLeft = 4; //左循迹红外传感器(P3.3 OUT2)
int SL; //左循迹红外传感器状态
int SR; //右循迹红外传感器状态
int Echo = A1; // Echo回声脚(P2.0)
int Trig =A0; // Trig 触发脚(P2.1)
int Distance = 0;
void setup()
{
//初始化电机驱动IO为输出方式
pinMode(Left_motor_go,OUTPUT); // PIN 8 (PWM)
pinMode(Left_motor_back,OUTPUT); // PIN 9 (PWM)
pinMode(Right_motor_go,OUTPUT);// PIN 10 (PWM)
pinMode(Right_motor_back,OUTPUT);// PIN 11 (PWM)
pinMode(key,INPUT);//定义按键接口为输入接口
pinMode(beep,OUTPUT);
pinMode(SensorRight, INPUT); //定义右循迹红外传感器为输入
pinMode(SensorLeft, INPUT); //定义左循迹红外传感器为输入
Serial.begin(9600); // 初始化串口
pinMode(Echo, INPUT); // 定义超声波输入脚
pinMode(Trig, OUTPUT); // 定义超声波输出脚
}
//=======================智能小车的基本动作=========================
//void run(int time) // 前进
void run()
{
digitalWrite(Right_motor_go,HIGH); // 右电机前进
digitalWrite(Right_motor_back,LOW);
analogWrite(Right_motor_go,125);//PWM比例0~255调速,左右轮差异略增减
analogWrite(Right_motor_back,0);
digitalWrite(Left_motor_go,HIGH); // 左电机前进
digitalWrite(Left_motor_back,LOW);
analogWrite(Left_motor_go,125);//PWM比例0~255调速,左右轮差异略增减
analogWrite(Left_motor_back,0);
//delay(time * 100); //执行时间,可以调整
}
//void brake(int time) //刹车,停车
void brake()
{
digitalWrite(Right_motor_go,LOW);
digitalWrite(Right_motor_back,LOW);
digitalWrite(Left_motor_go,LOW);
digitalWrite(Left_motor_back,LOW);
//delay(time * 100);//执行时间,可以调整
}
//void left(int time) //左转(左轮不动,右轮前进)
void left()
{
digitalWrite(Right_motor_go,HIGH); // 右电机前进
digitalWrite(Right_motor_back,LOW);
analogWrite(Right_motor_go,125);
analogWrite(Right_motor_back,0);//PWM比例0~255调速
digitalWrite(Left_motor_go,LOW); //左轮后退
digitalWrite(Left_motor_back,LOW);
analogWrite(Left_motor_go,0);
analogWrite(Left_motor_back,0);//PWM比例0~255调速
//delay(time * 100); //执行时间,可以调整
}
void spin_left(int time) //左转(左轮后退,右轮前进)
{
digitalWrite(Right_motor_go,HIGH); // 右电机前进
digitalWrite(Right_motor_back,LOW);
analogWrite(Right_motor_go,200);
analogWrite(Right_motor_back,0);//PWM比例0~255调速
digitalWrite(Left_motor_go,LOW); //左轮后退
digitalWrite(Left_motor_back,HIGH);
analogWrite(Left_motor_go,0);
analogWrite(Left_motor_back,200);//PWM比例0~255调速
delay(time * 100); //执行时间,可以调整
}
//void right(int time) //右转(右轮不动,左轮前进)
void right()
{
digitalWrite(Right_motor_go,LOW); //右电机后退
digitalWrite(Right_motor_back,LOW);
analogWrite(Right_motor_go,0);
analogWrite(Right_motor_back,0);//PWM比例0~255调速
digitalWrite(Left_motor_go,HIGH);//左电机前进
digitalWrite(Left_motor_back,LOW);
analogWrite(Left_motor_go,125);
analogWrite(Left_motor_back,0);//PWM比例0~255调速
//delay(time * 100); //执行时间,可以调整
}
void spin_right(int time) //右转(右轮后退,左轮前进)
{
digitalWrite(Right_motor_go,LOW); //右电机后退
digitalWrite(Right_motor_back,HIGH);
analogWrite(Right_motor_go,0);
analogWrite(Right_motor_back,200);//PWM比例0~255调速
digitalWrite(Left_motor_go,HIGH);//左电机前进
digitalWrite(Left_motor_back,LOW);
analogWrite(Left_motor_go,200);
analogWrite(Left_motor_back,0);//PWM比例0~255调速
delay(time * 100); //执行时间,可以调整
}
//void back(int time) //后退
void back(int time)
{
digitalWrite(Right_motor_go,LOW); //右轮后退
digitalWrite(Right_motor_back,HIGH);
analogWrite(Right_motor_go,0);
analogWrite(Right_motor_back,150);//PWM比例0~255调速
digitalWrite(Left_motor_go,LOW); //左轮后退
digitalWrite(Left_motor_back,HIGH);
analogWrite(Left_motor_go,0);
analogWrite(Left_motor_back,150);//PWM比例0~255调速
delay(time * 100); //执行时间,可以调整
}
//==========================================================
void keysacn()//按键扫描
{
int val;
val=digitalRead(key);//读取数字7 口电平值赋给val
while(!digitalRead(key))//当按键没被按下时,一直循环
{
val=digitalRead(key);//此句可省略,可让循环跑空
}
while(digitalRead(key))//当按键被按下时
{
delay(10); //延时10ms
val=digitalRead(key);//读取数字7 口电平值赋给val
if(val==HIGH) //第二次判断按键是否被按下
{
digitalWrite(beep,HIGH); //蜂鸣器响
while(!digitalRead(key)) //判断按键是否被松开
digitalWrite(beep,LOW); //蜂鸣器停止
}
else
digitalWrite(beep,LOW); //蜂鸣器停止
}
}
void Distance_test() // 量出前方距离
{
digitalWrite(Trig, LOW); // 给触发脚低电平2μs
delayMicroseconds(2);
digitalWrite(Trig, HIGH); // 给触发脚高电平10μs,这里至少是10μs
delayMicroseconds(10);
digitalWrite(Trig, LOW); // 持续给触发脚低电
float Fdistance = pulseIn(Echo, HIGH); // 读取高电平时间(单位:微秒)
Fdistance= Fdistance/58; //为什么除以58等于厘米, Y米=(X秒*344)/2
// X秒=( 2*Y米)/344 ==》X秒=0.0058*Y米 ==》厘米=微秒/58
Serial.print("Distance:"); //输出距离(单位:厘米)
Serial.println(Fdistance); //显示距离
Distance = Fdistance;
}
void loop()
{
keysacn();//调用按键扫描函数
while(1)
{
Distance_test();//测试前方距离
//有信号为LOW 没有信号为HIGH
SR = digitalRead(SensorRight);//有信号表明在白色区域,车子底板上L3亮;没信号表明压在黑线上,车子底板上L3灭
SL = digitalRead(SensorLeft);//有信号表明在白色区域,车子底板上L2亮;没信号表明压在黑线上,车子底板上L2灭
if((Distance < 10)||(Distance > 400))//如果距离小于10cm或大于400cm(小于2cm数值也大于400)距离都可自行调节,另跑道比较空旷,可去掉Distance > 400这一条件
brake();//停车
else
{
if (SL == LOW&&SR==LOW)
run(); //调用前进函数
else if (SL == HIGH & SR == LOW)// 左循迹红外传感器,检测到信号,车子向右偏离轨道,向左转
left();
else if (SR == HIGH & SL == LOW) // 右循迹红外传感器,检测到信号,车子向左偏离轨道,向右转
right();
else // 都是黑色, 停止
brake();
}
}
}
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