Industrial Applications

Motors

Industrial motors (e.g., electric motors, servo motors, industrial drives) generate excessive heat in windings, bearings, and casings due to friction or current overload during continuous high-load operation, leading to reduced efficiency or even failure. Installing NTC thermistors on motor windings, bearings, or heat sinks enables precise temperature monitoring. Temperature feedback triggers the control system to adjust loads or activate cooling mechanisms, preventing overheating. Optimizing the operating temperature range minimizes thermal stress on insulation materials and mechanical structures. We also offer various encapsulation types (e.g., epoxy-coated, stainless steel housings) to meet diverse installation requirements.

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Power Systems

Industrial power equipment (e.g., high-frequency switching power supplies, UPS, industrial charging stations, inverters) generates heat in power components (IGBTs, MOSFETs) and transformers due to efficiency losses during energy conversion, affecting system stability. Thermistors are deployed on heat sinks, transformer windings, or PCB hotspots to collect real-time temperature data. The system integrates with fans or liquid cooling to dynamically adjust cooling efficiency based on temperature changes.

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Liquid Cooling Systems

Liquid cooling systems are widely used in high-power equipment (e.g., server clusters, laser cutters, power electronics) to achieve efficient heat dissipation via circulating coolant. Precise control of coolant temperature is critical. Thermistors embedded in cooling pipelines or reservoirs monitor inlet/outlet temperatures in real time. The system adjusts pump speed and radiator operation to dynamically regulate coolant flow and cooling intensity. Temperature anomalies (e.g., localized overheating) help detect blockages or leaks. Thermistor materials can be customized for extreme operating conditions.

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