It adopts a high-precision PID fuzzy control algorithm and imported temperature and humidity sensors, achieving a temperature uniformity of ±0.3℃ and a humidity uniformity of ±1.5%RH, which far exceeds the control accuracy of similar products. The double-layer low-emissivity glass door is equipped with automatic defogging function, ensuring visualization during testing without fog obstruction. It adopts an energy-efficient inverter compressor system, which saves about 30% energy compared with traditional fixed compressor equipment, reducing operating costs. It is equipped with cloud data synchronization function, which can upload test data to the laboratory management system in real time, supporting remote parameter adjustment and fault diagnosis. It also has an automatic calibration function, which can regularly calibrate the temperature and humidity sensors automatically to ensure the accuracy of test data. Compared with similar high-precision equipment, it has a more user-friendly operating interface and lower maintenance difficulty.
Overall dimensions: 1000mm (W) × 1200mm (D) × 1800mm (H); Internal dimensions: 600mm (W) × 700mm (D) × 595mm (H); Net weight: 320kg; Gross weight: 360kg; Refrigeration system: Inverter air-cooled fully enclosed compressor; Heating power: 2200W; Humidification power: 1200W; Noise level: ≤58dB(A); Working environment temperature: 10℃ to 32℃; Relative humidity: ≤75%RH; Rated power: 4.5kW.
It is suitable for environmental reliability testing of semiconductor chips, performance verification of precision medical devices, testing of aerospace precision components, testing of new materials in scientific research institutions, and aging testing of high-precision electronic components. It can help R&D teams obtain accurate environmental test data, optimize product design and process parameters, accelerate the R&D cycle of new products, and improve the market competitiveness and reliability of products.
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