Other aging machines

The High-Temperature Aging Chamber is designed to simulate high-temperature and harsh environmental conditions for high-performance electronic products, including computers, monitors, servers, cameras, automotive electronics, PCB boards, power supplies, motherboards, and chargers. You can use this chamber to evaluate thermal stability, product reliability, and overall durability, making it an essential tool for improving product quality, performance, and competitiveness in industrial production.

Applications

The High-Temperature Aging Chamber is a critical testing apparatus designed to simulate high-temperature and harsh environmental conditions for high-performance electronic products such as complete computers, monitors, terminals, servers, cameras, automotive electronics, PCBs, power supplies, motherboards, monitors, electrical appliances, and switch-mode chargers. It serves as an essential experimental device for enhancing product stability and reliability, and is a vital production process for improving product quality and competitiveness.

Standards

GB50052-95 Code for Design of Power Supply and Distribution

GB50054-95 Code for Design of Low-Voltage Distribution

GB50169-92 Code for Construction and Acceptance of Grounding Installations in Electrical Installation Engineering

Parameters

Features

1. Control system integration with aging function design. The control cabinet features functional design, enabling operation of aging duration, temperature, and various switches from a single unit. The cabinet panel boasts an aesthetically pleasing design and intuitive operation.

2. Fully automated aging process with partial anomaly self-handling capabilities, streamlining operations for simplicity and automation.

3. Multiple safety protections ensure reliable operation.

4. Electric heating prevents dry burning. Automatic power shutdown occurs during fan failure or excessive duct temperatures, accompanied by audible alarms.

5. Interlocked heating and fan operation: Heaters cannot activate independently if fans fail to start.

6. High-temperature resistant wiring (non-combustible at 300°C) connects all heating elements.

7. Equipped with a 40W high-temperature-resistant explosion-proof indoor light fixture, extending bulb lifespan and preventing bulb explosions.

8. Chamber body constructed with flame-retardant insulation material, offering excellent thermal performance and high safety margins.

9. Over-temperature audible/visual alarm function: During aging processes, the chamber automatically cuts power and triggers an alarm upon detecting over-temperature or overload conditions.

Accessories

Microcomputer PID temperature controller with digital display.

PT-100 platinum resistance sensors.

Stainless steel or galvanized ducting and high-performance axial fans.

Control panel with safety switches and indicators.

Explosion-proof internal lighting.

Optional exhaust system for temperature stabilization.

FAQ

1. What is the maximum operating temperature?

The chamber can reach up to +85℃, depending on your selected range and configuration.

2. How precise is temperature control?

Temperature fluctuation is ±1℃, with a deviation under no-load conditions ≤±2~5℃.

3. How does the chamber ensure safety during operation?

It includes over-temperature protection, dry-burn prevention, fan interlock, leakage protection, overcurrent protection, and audible-visual alarms.

4. Can the chamber be customized for different sizes?

Yes, chamber dimensions can be tailored according to customer site and product requirements.

5. How does the air circulation system work?

High-performance fans create forced vertical convection with adjustable wind ducts to ensure uniform temperature distribution.

6. Is the heating system energy-efficient?

Yes, the PID-controlled high-speed finned heaters optimize energy use, maintain high precision, and reduce power consumption.