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KY-001 Temperature sensor module

Original price was: R$ 39,37.Current price is: R$ 32,81.

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0000000012195
SKU: 10560-H7 Categoria:

Descrição

IntroductionThe Arduino has many uses, one op the more popular is use of temperature sensors. For this the Dallas Onewire DS18820 is most used. In this example we go to use this onewire chip and make a scatch for reading the temperature.With this temperature sensor you can get the temperature in your room, car, whatever.ProductAs in the past the temperature sensor output is analog, we need to add additional A / D And D / A chip into Line conversion, for Arduino resources are not abundant external interface is a big challenge at the same time Utilization is not high. The new DS18B20 Temperature Sensor Module is a good solution for this, it use a unique bus line and economic package that make this sensor a good DIY component,Specificationsthe module uses a single-bus digital temperature sensor DS18B20, the external power supply voltage Range is 3.0 V to 5.5 V, No standby power. Measurement temperature range of -55 ° C to +125 ℃, Fahrenheit equivalent 67 ° F to 257 ° F, -10 °C to +85 ° C range accuracy of ± 0.5 ° C.the temperature sensor is a programmable resolution of 9 to 12 temperature conversion to 12-bit digital format With a maximum of 750 milliseconds formula User definable nonvolatile temperature alarm settings.each DS18B20 contains a unique serial number, can be with a plurality ds18b20s Exists in a bus. Temperature sensor can be placed at different places in the detected temperature.Notesbecause the ordinary transistor DS18B20 and looks similar, we’ll be sure to note when using Be careful not to regard it as a generalPass transistor used to avoid damage;in order to prevent damage to the DS18B20 and makes it does not work, we should ensure that the powerLine and ground not reversed.the relevant technical data on the bus did not mention a single number that can be linked to how much DS18B20, But in practical applications are not as many, and we should pay attention to.there is a connection DS18B20 bus length limitations that should be taken in the long-distance communication Consider bus distributed capacitance and resistance Impact resistant.instructions for use Identify DS18B20 Temperature Sensor Module power lines, ground, and data Lines, power lines, ground points connected to the Arduino test board +5 V, GND port number Data bus connected to the digital port.PreparationArduino controller × 1DS18B20 Temperature Sensor Module × 1USB data cable × 1download and install the OneWire libaryConnectingPin – = connect to Arduino GNDPin (middel) = connect to arduino +5VPin S = Signal, in this example connect to Arduino Digital port 10When everything is right connected on the module there is a led that blinks if the sensor is read.——————————————————————————————————————-Example Code—————————————————————————————————————–#include // DS18S20 Temperature chip i/oOneWire ds(10); // on pin 10 void setup(void) { // initialize inputs/outputs // start serial port Serial.begin(9600);} void loop(void) { //For conversion of raw data to C int HighByte, LowByte, TReading, SignBit, Tc_100, Whole, Fract; byte i; byte present = 0; byte data[12]; byte addr[8]; if ( !ds.search(addr)) { Serial.print(“No more addresses.n”); ds.reset_search(); return; } Serial.print(“R=”); for( i = 0; i < 8; i++) { Serial.print(addr[i], HEX); Serial.print(" "); } if ( OneWire::crc8( addr, 7) != addr[7]) { Serial.print("CRC is not valid!n"); return; } if ( addr[0] == 0x10) { Serial.print("Device is a DS18S20 family device.n"); } else if ( addr[0] == 0x28) { Serial.print("Device is a DS18B20 family device.n"); } else { Serial.print("Device family is not recognized: 0x"); Serial.println(addr[0],HEX); return; } ds.reset(); ds.select(addr); ds.write(0x44,1); // start conversion, with parasite power on at the end delay(1000); // maybe 750ms is enough, maybe not // we might do a ds.depower() here, but the reset will take care of it. present = ds.reset(); ds.select(addr); ds.write(0xBE); // Read Scratchpad Serial.print("P="); Serial.print(present,HEX); Serial.print(" "); for ( i = 0; i < 9; i++) { // we need 9 bytes data[i] = ds.read(); Serial.print(data[i], HEX); Serial.print(" "); } Serial.print(" CRC="); Serial.print( OneWire::crc8( data, 8), HEX); Serial.println(); //Conversion of raw data to C LowByte = data[0]; HighByte = data[1]; TReading = (HighByte << 8) + LowByte; SignBit = TReading & 0x8000; // test most sig bit if (SignBit) // negative { TReading = (TReading ^ 0xffff) + 1; // 2's comp } Tc_100 = (6 * TReading) + TReading / 4; // multiply by (100 * 0.0625) or 6.25 Whole = Tc_100 / 100; // separate off the whole and fractional portions Fract = Tc_100 % 100; if (SignBit) // If its negative { Serial.print("-"); } Serial.print(Whole); Serial.print("."); if (Fract < 10) { Serial.print("0"); } Serial.print(Fract); Serial.print("n"); //End conversion to C}

Informação adicional

Peso 0,0000 kg
Dimensões 0,0000 × 0,0000 cm