Temperature Sensor Probe
Thermistor – (NTC, PTC, PT100, PT1000) Thermistors are made of semiconductor materials, and most of them have negative temperature coefficients, that is, the resistance decreases as the temperature increases. Temperature changes cause large resistance changes, so it is the most sensitive temperature sensor.
2 / 3 wire PT100 Temperature Sensor Probe
RS pro rtd 2/3/4 wire pt100 ohm Temperature Sensor Wiring harness, resistance temperature detector. 2 npt platinum resistance thermometer stainless steel probe, Fast response, high temperature resistance, waterproof characteristics.
Digital DS18B20 Temperature Sensor Cable Assembly
custom made waterproof multiple display esp32 lcd breadboard, arduino mega nano ds18b20 sensor Cable Assembly datasheet.
DS18B20 is a digital temperature sensor with a wide range of applications. It outputs digital signals and has the characteristics of small size, low hardware resource consumption, strong anti-interference ability and high precision.
How to select High Accuracy ntc temperature sensor?
NTC is Negative NTC is the abbreviation for Negative Temperature Coefficient. YAXUN is a leading designer and manufacturer of High Accuracy discrete NTC thermistors, probes and connectors, and wire harness accessories. NTC thermistors are temperature sensors that use the resistive properties of ceramic/metal composite materials to measure temperature. Our full line of NTC sensors offer many temperature sensing benefits, including small size, excellent long-term stability, and high precision and accuracy.
NTC Thermistor Sensor Probe Assembly
The NTC Thermistor sensor system uses NTC sensor elements 1K, 2K, 5K, 10K, 100K, 1000K; B values 3375k, 3470K, 3950K, 3700k, 3935k, 3380k, 3450k, 3550k, 3600k, 3977k, 3950k. Housings and integrated connectors with mechanical protection properties for various packaging technologies. Our NTC probes are suitable for surface temperature, air-gas, HVAC/refrigeration system, liquid and patient monitoring applications and are available in a variety of housings and styles in both standard and custom designs.
Temperature Sensor for Electrical Appliances
Temperature sensors are sensing devices that detect and measure the heat and coldness used in electrical appliances and convert them into electrical signals. There are many types of temperature sensors, which are mainly divided into four categories: thermocouple sensors, thermistor sensors, resistance temperature detectors and IC temperature sensors. Among them, IC temperature sensors include analog output and digital output.
Thermistor Sensor Wire Harness & Cable Assembly
Thermistor sensors are heat-sensitive semiconductor resistors designed for temperature measurement and compensation. Its portfolio covers the NTC thermistor series with excellent long-term stability in high-temperature and high-humidity environments, such as ultra-small products for smartphones and tablet terminals, automotive applications, LED modules, and industrial applications. High-precision resistor tolerances and B-values give chip NTC thermistors extremely precise temperature sensing capabilities.
Waterproof 1/3-Wire DS18B20 Digital temperature sensor
DS18B20 is a commonly used digital temperature sensor probe (arduino, raspberry pi, multiple esp8266 DS18B20). Its output is a digital signal, which has the characteristics of small size, low hardware overhead, strong anti-interference ability and high precision.
However, the linearity of the thermistor is extremely poor and has a lot to do with the production process. The manufacturer cannot give a standardized thermistor curve. Thermistors are very small and respond quickly to temperature changes. But the thermistor requires a current source, and its small size also makes it extremely sensitive to self-heating errors. The thermistor measures absolute temperature on two lines and has better accuracy, but it is more expensive than a thermocouple and its measurable temperature range is smaller than a thermocouple. A commonly used thermistor has a resistance of 5kΩ at 25°C, and every 1°C temperature change causes a resistance change of 200Ω. Note that the 10Ω lead resistance only causes a negligible 0.05°C error. It is ideally suited for current control applications requiring fast and sensitive temperature measurements. The small size is advantageous for applications with space requirements, but care must be taken to prevent self-heating errors. Thermistors also have their own measurement techniques. The advantage of the thermistor is that it is small and can stabilize quickly without causing thermal load. However, it is also very fragile, and large currents can cause self-heating. Since the thermistor is a resistive device, any current source will cause heat to be generated by power across it. Power is equal to the square of the current times the resistance. Therefore use a small current source. If the thermistor is exposed to high heat, permanent damage will occur. Through the introduction of two temperature probes, I hope it will be helpful to everyone’s work and study.