Underfloor Heating System

Sensor accuracy: Sensor types: Different types of temperature sensors, such as thermistors, thermocouples, etc., have different accuracy and response characteristics. For example, in some high-precision temperature control systems, using a constant current source circuit to drive a thermistor as a temperature sensor can improve measurement accuracy. Thermistors have high sensitivity, but may be affected by environmental factors. Thermocouples are suitable for high-temperature measurement, but their accuracy is relatively low. Control algorithm: PID control algorithm: The PID control algorithm is a commonly used Intelligent temperature controller control algorithm. The adjustment of PID parameters directly affects the accuracy and stability of the temperature controller. For example, in an analog PID circuit, by calculating the error signal to drive the temperature control element, such as a thermoelectric cooler (TEC), precise closed-loop temperature control can be achieved. Reasonable adjustment of PID parameters enables the temperature controller to respond quickly to temperature changes while maintaining stable control accuracy. Environmental factors: External temperature fluctuations: Fluctuations in external temperature can affect the accuracy and stability of the temperature controller. Therefore, designing a high-precision temperature control box to control the temperature of the environment where the absorption cell is located can reduce the impact of environmental temperature on the measurement results. Humidity: Humidity may also affect the accuracy and stability of the temperature controller. In some application scenarios, such as greenhouse management systems, it is necessary to comprehensively consider factors such as the temperature outside the greenhouse, wind speed, solar radiation intensity, and indoor humidity, and adopt a fuzzy PID control method to establish a high-precision temperature control method. Equipment Components: Performance of Temperature Control Elements: The performance of temperature control elements directly affects the accuracy and stability of the temperature controller. For instance, the response speed, cooling/heating capacity, and other performance parameters of a thermoelectric cooler (TEC) as a temperature control element will influence the temperature control effect of the temperature control system. Selecting high-performance temperature control elements can enhance the accuracy and stability of the temperature controller. Circuit Design: The rationality of the circuit design also impacts the accuracy and stability of the temperature controller. For example, isolating the core analog circuit from the heat-generating components can improve the stability of the temperature control module. Utilizing a high-power constant current source drive circuit to drive the TEC can ensure the stable operation of the temperature control element.