树莓派开发—继电器
1.继电器接口:
继电器驱动电压为 3.3v
继电器 NC 为常闭端(normal close),COM 为公共端,NO 为常开端(即断路状态),也就是说,在没有任何上电之类的动作时,NC 和 COM 端相当于已经连通,而 NO 和 COM 是断开的
向继电器的 IN 引脚输入高电平时,NC 和 COM 断开,而 COM 和 NO 连接,向 IN 输入低电平时,恢复为 NC 和 COM 连通,NO 和 COM 断开
2.树莓派接口:
gpio readall // 输入指令查看树莓派 io 口+-----+-----+---------+------+---+---Pi 3B--+---+------+---------+-----+-----+| BCM | wPi | Name | Mode | V | Physical | V | Mode | Name | wPi | BCM |+-----+-----+---------+------+---+----++----+---+------+---------+-----+-----+| | | 3.3v | | | 1 || 2 | | | 5v | | || 2 | 8 | SDA.1 | IN | 1 | 3 || 4 | | | 5v | | || 3 | 9 | SCL.1 | IN | 1 | 5 || 6 | | | 0v | | || 4 | 7 | GPIO. 7 | IN | 1 | 7 || 8 | 1 | ALT0 | TxD | 15 | 14 || | | 0v | | | 9 || 10 | 1 | ALT0 | RxD | 16 | 15 || 17 | 0 | GPIO. 0 | IN | 0 | 11 || 12 | 0 | IN | GPIO. 1 | 1 | 18 || 27 | 2 | GPIO. 2 | IN | 0 | 13 || 14 | | | 0v | | || 22 | 3 | GPIO. 3 | IN | 0 | 15 || 16 | 0 | IN | GPIO. 4 | 4 | 23 || | | 3.3v | | | 17 || 18 | 0 | IN | GPIO. 5 | 5 | 24 || 10 | 12 | MOSI | IN | 0 | 19 || 20 | | | 0v | | || 9 | 13 | MISO | IN | 0 | 21 || 22 | 0 | IN | GPIO. 6 | 6 | 25 || 11 | 14 | SCLK | IN | 0 | 23 || 24 | 1 | IN | CE0 | 10 | 8 || | | 0v | | | 25 || 26 | 1 | IN | CE1 | 11 | 7 || 0 | 30 | SDA.0 | IN | 1 | 27 || 28 | 1 | IN | SCL.0 | 31 | 1 || 5 | 21 | GPIO.21 | IN | 1 | 29 || 30 | | | 0v | | || 6 | 22 | GPIO.22 | IN | 1 | 31 || 32 | 0 | IN | GPIO.26 | 26 | 12 || 13 | 23 | GPIO.23 | IN | 0 | 33 || 34 | | | 0v | | || 19 | 24 | GPIO.24 | IN | 0 | 35 || 36 | 0 | IN | GPIO.27 | 27 | 16 || 26 | 25 | GPIO.25 | IN | 0 | 37 || 38 | 0 | IN | GPIO.28 | 28 | 20 || | | 0v | | | 39 || 40 | 0 | IN | GPIO.29 | 29 | 21 |+-----+-----+---------+------+---+----++----+---+------+---------+-----+-----+| BCM | wPi | Name | Mode | V | Physical | V | Mode | Name | wPi | BCM |+-----+-----+---------+------+---+---Pi 3B--+---+------+---------+-----+-----+
3.接线:
继电器正极接到树莓派 3.3v,继电器负极接到树莓派 0v,继电器 GPIO 口接到树莓派 GPIO 口
接好后继电器灯亮起(红灯为断开,绿灯为闭合):
4.代码实现:
#include <stdio.h>
#include <wiringPi.h>#define GPIO7 7int main()
{int cmd;if(wiringPiSetup() == -1){ // 硬件初始化printf("硬件初始化失败!\n");return -1;}pinMode(GPIO7, OUTPUT); // 配置引脚的 IO 模式,此处我们连接了树莓派 GPIO.7,配置 7 号引脚为输出模式while(1){printf("请输入0或1,0--断开,1--闭合:\n");scanf("%d",&cmd);if(cmd == 0){digitalWrite(GPIO7, HIGH); // 引脚 GPIO.7 输出高电平printf("开关断开!\n");}else if(cmd == 1){digitalWrite(GPIO7, LOW); // 引脚 GPIO.7 输出低电平printf("开关闭合!\n");}else{printf("输入错误,");}}return 0;
}
5.多继电器:
使用 5v 驱动电压:
亮灯时为闭合状态,不亮时为断开状态
#include <stdio.h>
#include <wiringPi.h>#define GPIO1 1
#define GPIO2 2
#define GPIO3 3
#define GPIO4 4int main()
{int no,cmd;if(wiringPiSetup() == -1){ // 硬件初始化printf("硬件初始化失败!\n");return -1;}pinMode(GPIO1, OUTPUT); // 配置引脚的 IO 模式,配置 1 号引脚为输出模式pinMode(GPIO2, OUTPUT); // 配置引脚的 IO 模式,配置 2 号引脚为输出模式pinMode(GPIO3, OUTPUT); // 配置引脚的 IO 模式,配置 3 号引脚为输出模式pinMode(GPIO4, OUTPUT); // 配置引脚的 IO 模式,配置 4 号引脚为输出模式while(1){while(1){printf("请输入需要控制的继电器的序号(1~4):\n");scanf("%d",&no);if(no==1 || no==2 || no==3 || no==4){break;}else{printf("输入错误!\n");}}while(1){printf("%d号继电器——请输入0或1,0--断开,1--闭合:\n",no);scanf("%d",&cmd);if(cmd==0 || cmd==1){break;}else{printf("输入错误!\n");}}switch(no){case 1:if(cmd == 0){digitalWrite(GPIO1, HIGH); // 引脚 GPIO.1 输出高电平printf("%d号继电器——开关断开!\n",no);}else if(cmd == 1){digitalWrite(GPIO1, LOW); // 引脚 GPIO.1 输出低电平printf("%d号继电器——开关闭合!\n",no);}break;case 2:if(cmd == 0){digitalWrite(GPIO2, HIGH); // 引脚 GPIO.2 输出高电平printf("%d号继电器——开关断开!\n",no);}else if(cmd == 1){digitalWrite(GPIO2, LOW); // 引脚 GPIO.2 输出低电平printf("%d号继电器——开关闭合!\n",no);}break;case 3:if(cmd == 0){digitalWrite(GPIO3, HIGH); // 引脚 GPIO.3 输出高电平printf("%d号继电器——开关断开!\n",no);}else if(cmd == 1){digitalWrite(GPIO3, LOW); // 引脚 GPIO.3 输出低电平printf("%d号继电器——开关闭合!\n",no);}break;case 4:if(cmd == 0){digitalWrite(GPIO4, HIGH); // 引脚 GPIO.4 输出高电平printf("%d号继电器——开关断开!\n",no);}else if(cmd == 1){digitalWrite(GPIO4, LOW); // 引脚 GPIO.4 输出低电平printf("%d号继电器——开关闭合!\n",no);}break;}}return 0;
}
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