Model: GMKP2800-32IBY
Category: Temperature sensor
Finish: New/not new
Delivery time: from stock
Warranty: One year
Model: GMKP2800-32IBY
Category: Temperature sensor
Finish: New/not new
Delivery time: from stock
Warranty: One year
The GMKP2800-32IBY temperature sensor is a sensor that can sense the temperature and convert it into a usable output signal, which is the core part of the temperature measurement instrument. It has a wide variety of varieties, and has developed rapidly in the direction of high precision, multi-function, bus standardization, high reliability and safety, the development of virtual sensors and network sensors, and the development of monolithic temperature measurement systems.
There are four main types of GMKP2800-32IBY temperature sensors: thermocouple, thermistor, resistance temperature detector (RTD) and IC temperature sensor. Thermocouple is a kind of temperature sensing element, which directly measures the temperature and converts the temperature signal into the thermoelectric motive force signal. The main component of thermistor sensor is thermistor. When there is thermal radiation around the thermistor material, its resistance value will change with temperature; Typically using platinum, copper or nickel, RTDS are the most accurate and stable temperature sensors available, but they are slower to respond and more expensive. IC temperature sensors include analog output and digital output two types.
The operating principle of the GMKP2800-32IBY temperature sensor is mainly based on thermal expansion and thermal resistance effect. For example, the metal will produce a corresponding extension after the ambient temperature changes, and the sensor can signal the conversion of this reaction in different ways. A bimetallic sheet sensor consists of two pieces of metal with different expansion coefficients. As the temperature changes, the sheet of metal bends, and the curvature of the bend can be converted into an output signal.
Temperature sensors have a wide range of applications in various fields, such as industrial automation, medical diagnostics, home appliances, and so on. For example, in industrial automation, temperature sensors can be used to monitor the temperature of machines and equipment to ensure that they are operating within a safe operating temperature range; In medical diagnosis, temperature sensors can be used to measure a patient's body temperature and help doctors judge the condition. In the field of home appliances, temperature sensors are often used to control the temperature of air conditioners, refrigerators and other equipment.
