RTD Pt100 sensors are one such device, which are known for measuring temperature accurately in different environments. These are widely used in several nations such as factories, laboratories and other. The Pt part denotes the materials that are used in making such sensors. Their platinum is a metal that has excellent characteristics in temperature sensing. They have a 100 ohm resistance at a temperature of 0°C. RTDs (resistance temperature detectors) are named for their working principle,
These sensors work based on the principle of measuring the change in resistance of platinum with respect to temperature. As the temperature increases or decreases, it also changes the amount of resistance in this sensor. Hence, RTD Pt100 sensors are known to be very stable and accurate that is the reason why many individuals and industries choose these sensors for temperature measurement.
Wait for a while after placing the sensor in the temperature checking area as it needs time to measure the temperature. After the sensor is placed, the wires attached to it have to be connected to a measuring device such as a digital thermometer. This device will measure the resistance of the sensor and then convert that data into a human-readable temperature reading.
If you are looking for a method to measure temperature, here in this article we cover the several advantages of RTD Pt100 sensors. Their greatest strength is accuracy. This is crucial in a number of applications but gives you very accurate temperature readings. They are also reliable, which means you can rely on them to deliver consistent results in the long run. They also help prevent rust, and are strong enough to resist heat.
The disadvantage RTD Pt100 sensor Their most significant drawback is that they are generally more costly than many other market available temperature sensors. Not every budget is going to be able to afford this extra cost. Additionally, the RTD Pt100 sensors cover a limited temperature range, so they are not able to measure temperatures out of a high-intensity field. Finally, they may be slightly slower than other types of temperature sensor we have previously discussed. Which means, it may take some more time to reflect the change in temperature.
Various methods are used to calibrate RTD Pt100 sensors as mentioned below. Thus, some approaches are referred to as in-ice calibration. This approach is mounting the sensor inside the ice box. It lets us verify how precisely the sensor is able to read a predetermined cold temperature. A second approach is called dry-block calibration, in which the sensor is placed into a special heater known as a dry-block heater. The ideal temperature measuring operations are designed to verify that the sensor can read higher temperatures. This calibration can be either conducted within your team or it could also be done by a Professional service dedicated towards the calibration of temperature sensors.
RTD Pt100 sensors are used in the food and beverage industry to monitor the temperature of products in process or storage. This means food items are held at safe temperatures to avoid spoilage. In pharmaceutical industry, these sensors are used to keep track of the temperature on everything from drugs to vaccines, which is crucial for their potency. Further, in HVAC systems they are used to monitor the temperature of air and water maintaining heating and cooling systems in operation effectively.