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This NTC temperature probe offers precise temperature monitoring from -40°C to 300°C. Its 304 stainless steel housing features a double compression ring design, ensuring water resistance and durability. SUCH probe’s high-precision NTC thermistor and easy installation make it ideal for long-distance temperature control in various environments. Corrosion-resistant and designed to withstand high temperatures, it’s perfect for both home and industrial use.
An NTC (Negative Temperature Coefficient) temperature probe is an electronic component used for temperature measurement, typically made from a thermistor material (usually a semiconductor). The key characteristic of an NTC probe is that its resistance decreases as temperature increases, and vice versa. This property makes NTC temperature probes widely used in various electronic devices, home appliances, industrial systems, and more, to precisely monitor temperature changes.
An NTC temperature probe works based on the property of its thermistor material, which changes resistance in response to temperature variations. As the temperature increases, the resistance of the thermistor decreases. Conversely, as the temperature decreases, the resistance increases. This change in resistance is then measured, and using known temperature-resistance relationships, the temperature can be calculated. NTC probes typically work with external circuits that measure voltage changes in a voltage divider configuration to detect resistance changes and determine the temperature.
NTC temperature probes offer several advantages. They are highly sensitive, which makes them ideal for applications that require precise temperature monitoring. Additionally, NTC probes respond quickly to temperature changes, making them suitable for fast temperature response applications. They are also cost-effective compared to other types of temperature sensors, offering good value for money, especially for large-scale applications. Moreover, NTC probes are durable and can perform well in harsh environments, including industrial settings where temperatures and vibrations may vary.
