查看SKU:RB-02S160 DS18B20 水温传感器的源代码
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SKU:RB-02S160 DS18B20 水温传感器
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[[文件:02S16001.jpg|500px|缩略图|右]] ==产品概述== DS18B20是常用的数字温度传感器,其输出的是数字信号,具有体积小,硬件开销低,抗干扰能力强,精度高的特点。 DS18B20数字温度传感器接线方便,封装成后可应用于多种场合,如管道式,螺纹式,磁铁吸附式,不锈钢封装式等。主要根据应用场合的不同而改变其外观。<br/> DS18B20水温水温传感器采用的是不锈钢封装,防水防潮。封装后的DS18B20可用于电缆沟测温,高炉水循环测温,锅炉测温,机房测温,农业大棚测温,洁净室测温,弹药库测温等各种非极限温度场合,适用于各种狭小空间设备数字测温和控制领域。<br/> ==产品参数== ===基本参数=== # 品名:DS18B20水温传感器 # 货号:RB-02S160 # 品牌:奥松机器人 # 产地:哈尔滨 # 固定孔:M3*4 # 电缆长度:90cm # 传感器:直径6mm,长30mm ===电气参数=== 1.接口类型:3P防插反接口<br/> 2.信号类型:数字信号<br/> 3.工作电压:3V - 5.5V<br/> 4.引脚定义:<br/> * +:电源正极 * -:电源负极 * S:信号端 5.传感器接口:KF2510-3P防插反接口<br/> 6.测试范围:-55℃~+125℃(-67°F至+ 257°F)<br/> 7.测量精度:在-10~+85℃范围内精确度为±5℃<br/> 8.测量分辨率:温度计分辨率可以被使用者选择为9~12位<br/> [[文件:02S16002.png|500px|缩略图|居中]] ==使用方法== ===example1_Arduino=== * 主要硬件 :Arduino UNO 控制器 :传感器扩展板 V5.0 :DS18B20 温度传感器 :单头防插反 3P 传感器连接线 :USB 数据线 * 硬件连接 [[文件:02S16004.png|500px|缩略图|居中]] * 示例程序 <pre style='color:blue'> #define Skip_ROM 0xCC #define Convert_T 0x44 #define Read_scratchpad 0xBE #define Port_18B20 7 #define Tx_18B20 pinMode(Port_18B20, OUTPUT) #define Rx_18B20 pinMode(Port_18B20, INPUT) #define Set_Port_18B20_High digitalWrite(Port_18B20, HIGH) #define Set_Port_18B20_Low digitalWrite(Port_18B20, LOW) #define Read_Port_18B20 digitalRead(Port_18B20) unsigned char DS18B20_reset(); void DS18B20_write(char WRT); unsigned char DS18B20_read(); unsigned short tempL = 0; unsigned short tempH = 0; void setup() { Serial.begin(9600); } void loop() { unsigned int temp = 0; float Temperature = 0.0; if(!DS18B20_reset()) { DS18B20_write(Skip_ROM); DS18B20_write(Convert_T); delay(750); DS18B20_reset(); DS18B20_write(Skip_ROM); DS18B20_write(Read_scratchpad); tempL = DS18B20_read(); tempH = DS18B20_read(); temp = ((unsigned int)tempH << 8) + (unsigned int)tempL; temp = (float)temp * 6.25; Temperature = (float)temp/100; Serial.print("Temperature: "); Serial.println(Temperature); } } unsigned char DS18B20_reset() { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(480); Rx_18B20; delayMicroseconds(60); if(Read_Port_18B20 == 0) { delayMicroseconds(480); return 0; } else { delayMicroseconds(480); return 1; } } void DS18B20_write(char WRT) { char i = 0, Cmd = 0; Cmd = WRT; Rx_18B20; for(i = 0; i< 8; i++) { if((Cmd & (1<<i)) != 0) { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(1); Rx_18B20; delayMicroseconds(60); } else { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(60); Rx_18B20; } } } unsigned char DS18B20_read() { char i = 0, result = 0; Rx_18B20; for(i = 0; i < 8; i++) { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(2); Rx_18B20; if(Read_Port_18B20 != 0) result |= 1<<i; delayMicroseconds(60); } return result; }</pre> * 程序效果 [[文件:02S16003.png|500px|缩略图|居中]] ===example2_Arduino=== * 主要硬件 :Arduino UNO 控制器 :传感器扩展板 V5.0 :DS18B20 水温传感器 :IIC1602 LCD 液晶显示器 * 硬件连接 [[文件:02S16005.png|500px|缩略图|居中]] * 示例程序 <pre style='color:blue'>#include <Wire.h> #include <LiquidCrystal_I2C.h> LiquidCrystal_I2C lcd(0x27,16,2); #define Skip_ROM 0xCC #define Convert_T 0x44 #define Read_scratchpad 0xBE #define Port_18B20 7 #define Tx_18B20 pinMode(Port_18B20, OUTPUT) #define Rx_18B20 pinMode(Port_18B20, INPUT) #define Set_Port_18B20_High digitalWrite(Port_18B20, HIGH) #define Set_Port_18B20_Low digitalWrite(Port_18B20, LOW) #define Read_Port_18B20 digitalRead(Port_18B20) unsigned char DS18B20_reset(); void DS18B20_write(char WRT); unsigned char DS18B20_read(); unsigned short tempL = 0; unsigned short tempH = 0; void setup() { Serial.begin(9600); lcd.init(); lcd.backlight(); } void loop() { unsigned int temp = 0; float Temperature = 0.0; if(!DS18B20_reset()) { DS18B20_write(Skip_ROM); DS18B20_write(Convert_T); delay(750); DS18B20_reset(); DS18B20_write(Skip_ROM); DS18B20_write(Read_scratchpad); tempL = DS18B20_read(); tempH = DS18B20_read(); temp = ((unsigned int)tempH << 8) + (unsigned int)tempL; temp = (float)temp * 6.25; Temperature = (float)temp/100; Serial.println(Temperature); lcd.setCursor(0, 0); lcd.print("Temperature ="); lcd.setCursor(0,1); lcd.print(Temperature); lcd.setCursor(6,1); lcd.print("Celsius"); } } unsigned char DS18B20_reset() { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(480); Rx_18B20; delayMicroseconds(60); if(Read_Port_18B20 == 0) { delayMicroseconds(480); return 0; } else { delayMicroseconds(480); return 1; } } void DS18B20_write(char WRT) { char i = 0, Cmd = 0; Cmd = WRT; Rx_18B20; for(i = 0; i< 8; i++) { if((Cmd & (1<<i)) != 0) { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(1); Rx_18B20; delayMicroseconds(60); } else { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(60); Rx_18B20; } } } unsigned char DS18B20_read() { char i = 0, result = 0; Rx_18B20; for(i = 0; i < 8; i++) { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(2); Rx_18B20; if(Read_Port_18B20 != 0) result |= 1<<i; delayMicroseconds(60); } return result; }</pre> * 程序效果 [[文件:02S16006.png|500px|缩略图|居中]] ===example3_arduino=== * 主要硬件 :Arduino UNO 控制器 :传感器扩展板V5.0 :LED发光模块-红/绿/黄 :蜂鸣器发声模块 :继电器模块 :潜水泵 :DC2.1 电源接线端子 :7.4V 1300mAh 锂电池 * 硬件连接 [[文件:02S16007.png|900px|缩略图|居中]] * 示例程序 <pre style='color:blue'> #define Skip_ROM 0xCC #define Convert_T 0x44 #define Read_scratchpad 0xBE #define Port_18B20 12 //温度传感器 #define Tx_18B20 pinMode(Port_18B20, OUTPUT) #define Rx_18B20 pinMode(Port_18B20, INPUT) #define Set_Port_18B20_High digitalWrite(Port_18B20, HIGH) #define Set_Port_18B20_Low digitalWrite(Port_18B20, LOW) #define Read_Port_18B20 digitalRead(Port_18B20) #define LED1 9 //G #define LED2 10 //Y #define LED3 11 //R #define buzzer 7 //蜂鸣器 #define relay 8 //继电器 unsigned char DS18B20_reset(); void DS18B20_write(char WRT); unsigned char DS18B20_read(); unsigned short tempL = 0; unsigned short tempH = 0; void setup() { Serial.begin(9600); pinMode(LED1,OUTPUT); pinMode(LED2,OUTPUT); pinMode(LED3,OUTPUT); pinMode(buzzer,OUTPUT); pinMode(relay,OUTPUT); digitalWrite(LED1,LOW); digitalWrite(LED2,LOW); digitalWrite(LED3,LOW); digitalWrite(buzzer,HIGH); digitalWrite(relay,LOW); } void loop() { unsigned int temp = 0; float Temperature = 0.0; if(!DS18B20_reset()) { DS18B20_write(Skip_ROM); DS18B20_write(Convert_T); delay(50); DS18B20_reset(); DS18B20_write(Skip_ROM); DS18B20_write(Read_scratchpad); tempL = DS18B20_read(); tempH = DS18B20_read(); temp = ((unsigned int)tempH << 8) + (unsigned int)tempL; temp = (float)temp * 6.25; Temperature = (float)temp/100; Serial.println(Temperature); int val = int(Temperature); if(val>= 30 && val <= 40) { digitalWrite(LED1,LOW); digitalWrite(LED2,HIGH); digitalWrite(LED3,LOW); digitalWrite(buzzer,HIGH); digitalWrite(relay,LOW); } else if(val > 40) { digitalWrite(LED1,LOW); digitalWrite(LED2,LOW); digitalWrite(LED3,HIGH); digitalWrite(buzzer,LOW); digitalWrite(relay,HIGH); } else if(val < 30) { digitalWrite(LED1,HIGH); digitalWrite(LED2,LOW); digitalWrite(LED3,LOW); digitalWrite(buzzer,HIGH); digitalWrite(relay,LOW); } else { digitalWrite(LED1,LOW); digitalWrite(LED2,LOW); digitalWrite(LED3,LOW); digitalWrite(buzzer,HIGH); digitalWrite(relay,LOW); } } } unsigned char DS18B20_reset() { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(480); Rx_18B20; delayMicroseconds(60); if(Read_Port_18B20 == 0) { delayMicroseconds(480); return 0; } else { delayMicroseconds(480); return 1; } } void DS18B20_write(char WRT) { char i = 0, Cmd = 0; Cmd = WRT; Rx_18B20; for(i = 0; i< 8; i++) { if((Cmd & (1<<i)) != 0) { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(1); Rx_18B20; delayMicroseconds(60); } else { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(60); Rx_18B20; } } } unsigned char DS18B20_read() { char i = 0, result = 0; Rx_18B20; for(i = 0; i < 8; i++) { Tx_18B20; Set_Port_18B20_Low; delayMicroseconds(2); Rx_18B20; if(Read_Port_18B20 != 0) result |= 1<<i; delayMicroseconds(60); } return result; }</pre> * 程序效果 此例程可模拟控温系统<br/> :若水温在大于40摄氏度时,LED 红灯亮起、蜂鸣器发出报警声、水泵开始抽水降温,直到温度降低40摄氏度以下后,停止抽水。 :若水温在30摄氏度和40摄氏度之间时,LED 黄灯亮起、蜂鸣器停止报警、水泵停止抽水。 :若水温在30摄氏度以下时,LED 绿灯亮起、蜂鸣器停止报警、水泵停止抽水。 ===example_Raspberry Pi=== * 使用软件 :编程软件:Python 2.7.13 :操作系统:Linux raspberrypi 4.14.50 :前提:PC 端已通过 SSH 软件登陆到 RaspberryPi 控制器 * 主要硬件 :Raspberry Pi 3B+ :16G SD卡 :5V 2.5A 适配器 :杜邦线-公母头 :GPIO 扩展板 :大面包板 * 硬件连接 [[文件:02S16008.png|500px|缩略图|居中]] * 示例程序 树莓派控制器配置步骤<br/> 1.编辑 config.txt 文件,启用单线接口,默认为 BCM4 接口<br/> sudo nano /boot/config.txt <br/> 2.加入语句<br/> dtoverlay=w1-gpio<br/> 3.重新启动树莓派控制器<br/> sudo reboot<br/> 4.列出 Raspberry Pi 通过 1-Wire 总线(默认为BCM4)发现的设备<br/> ls /sys/bus/w1/devices/<br/> 如图所示,所列出的 28-xxx 为连接的 1-Wire 设备<br/> [[文件:02S16009.png|500px|缩略图|居中]] 5.进入设备文件夹,获取温度数值<br/> cd /sys/bus/w1/devices/28-0213169dceaa<br/> cat w1_slave<br/> [[文件:02S16010.png|500px|缩略图|居中]]<br/> Python 代码<br/> <pre style='color:blue'>import os import glob import time os.system('modprobe w1-gpio') os.system('modprobe w1-therm') base_dir = '/sys/bus/w1/devices/' device_folder = glob.glob(base_dir + '28*')[0] device_file = device_folder + '/w1_slave' def read_temp_raw(): f = open(device_file, 'r') lines = f.readlines() f.close() return lines def read_temp(): lines = read_temp_raw() while lines[0].strip()[-3:] != 'YES': time.sleep(0.2) lines = read_temp_raw() equals_pos = lines[1].find('t=') if equals_pos != -1: temp_string = lines[1][equals_pos+2:] temp_c = float(temp_string) / 1000.0 temp_f = temp_c * 9.0 / 5.0 + 32.0 return temp_c, temp_f while True: print(read_temp()) time.sleep(1) </pre> * 程序效果 在登陆窗口会打印出当前的水温,分别为摄氏温度和华氏温度 [[文件:02S16011.png|600px|缩略图|居中]] ==相关资料== [[文件:erweima.png|230px|无框|右]] * DS18B20 温度传感器 datasheet & 示例程序 下载链接:https://pan.baidu.com/s/1_xxfMSav58bU4mb3hD4dgA 密码:t6hz <br/> * 相关资料 [https://datasheets.maximintegrated.com/en/ds/DS18B20.pdf DS18B20 datasheet] <br/> [https://pinout.xyz/pinout/1_wire W1-GPIO - One-Wire Interface] <br/> * 产品购买链接:http://www.alsrobot.cn/goods-870.html
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SKU:RB-02S160 DS18B20 水温传感器
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