Pt100 S Waterproof 1Meter
Rs. 98.00 Rs. 118.00
- Product Code: SEN-TEMP
- SKU -
- Availability: In Stock
- Price in reward points: 1
- For Bulk Order
9962060070
Quick support on WhatsApp (+919962060070) only between morning 11am-4pm, no call will be answered
SPECIFICATIONS:
Temperature Range(°C) :-200 to 420
Probe Material :Stainless Steel
Probe Diameter(mm) :4
Probe Length(mm) :30
Cable Length :1.05 Meter
Accuracy :±(0.3°C+0.5%|t|)
Response Time(s) :<0.5
Shipment Weight :0.095 kg
Shipment Dimensions :8 × 6 × 2 cm
| OVERVIEW: | |
| Model number | FTARP05 series |
| Mounting form Polish rod probe | |
| The Probe material | Stainless steel |
| Probe diameter | 4mm |
| Length of the probe | 30mm |
| Caleb material Silver plated copper (not insulated), PTFE Silver plated copper (Waterproof, insulated) | |
| Accuracy ±(0.3°C+0.5%|t|) | |
| Thermal response time | <0.5s₹ 150.00 (inc GST) |
| ₹ 127.12 (+18% GST extra) |
PACKAGE INCLUDES:
1 PCS x Pt100 S Waterproof 1Meter
/* SOURCE CODE TAKEN FROM BELOW LINK
//https://github.com/RonanB96/Read-Temp-From-PT100-With-Arduino/blob/master/Temp_From_PT100/Temp_From_PT100.ino
This code calculates the temperature using a PT100,
* circuit diagram can be found here:https://circuits.io/circuits/2962051-reading-temperature-from-pt100#schematic
* The circuit has a temperature range of -51.85 to 129.87 degrees C
* or -61.33 to 265.73 degree Fahrenheit.
*
* As the temperature equation fro the PT100 requires you to know the
* resistance of it, you'll need to convert the voltage to a resistance
* and this can be done by using y=mx+c formula(Rx=m*V+Roff) Rx is the pt100
* resistance, m is the slope(ohms/volt), v is the voltage read into the analog pin
* and Roff is the offset resistance(should be close to the real value you use when calculated.
*
* To calculate the slope, you need to have the PT100 at steady state(settle at one temp)
* and measure its resistance then measure the voltage at analog pin, do this for again at a different
* temp.
* Now we can find m: m=(R2-R1)/(V2-V1) eg from simulator (150-80)/(4.97-0.036)
* m = 14.187 ohms/volt
* to find c just fill one of the values into the Rx=m*V+c
* c = 150-14.187*4.97 = 79.489ohms
*
* Written by Robot
* Github: https://github.com/RonanB96/Read-Temp-From-PT100-With-Arduino
* Circuit: https://circuits.io/circuits/2962051-reading-temperature-from-pt100/edit#breadboard
* Blog: https://roboroblog.wordpress.com
* Instrustable Post:http://www.instructables.com/id/Reading-Temperature-From-PT100-Using-Arduino/
*/
// You'll need to download this timer library from here
// http://www.doctormonk.com/search?q=timer
#include "Timer.h"
// Define Variables
float V;
float temp;
float Rx;
// Variables to convert voltage to resistance
float C = 79.489;
float slope = 14.187;
// Variables to convert resistance to temp
float R0 = 100.0;
float alpha = 0.00385;
int Vin = A0; // Vin is Analog Pin A0
Timer t; // Define Timer object
void setup() {
Serial.begin(9600); // Set Barbiturate at 9600
pin Mode(Vin,INPUT); // Make Vin Input
t.every(100,takeReading); // Take Reading Every 100ms
}
void loop() {
t.update(); // Update Timer
}
void takeReading(){
// Bits to Voltage
V = (analogRead(Vin)/1023.0)*5.0; // (bits/2^n-1)*Vmax
// Voltage to resistance
Rx = V*slope+C; //y=mx+c
// Resistance to Temperature
temp= (Rx/R0-1.0)/alpha; // from Rx = R0(1+alpha*X)
// Uncommon to convey Celsius to Fahrenheit
// temp = temp*1.8+32;
Serial.println(temp);
}
© 2021 GitHub, Inc.
15 days