Lighting Equipment Rapid Temperature Change Test Equipment

I. Core Functions and Testing Principles of Rapid Temperature Change Test Equipment for Lighting Fixtures

Functional Positioning

Rapid temperature change test equipment is used to simulate the performance of lighting fixtures under extreme alternating temperature environments, evaluating the reliability of their materials, structure, and electronic components. The test range typically covers -70°C to +150°C, supporting rapid heating and cooling rates of 5°C/min to 30°C/min, meeting high-demand scenarios such as military, aerospace, and automotive electronics.

Testing Principle

Based on the physical phenomenon of thermal expansion and contraction, the equipment detects the expansion/contraction stress of internal materials in lighting fixtures through rapid switching between high and low temperatures. If the stress exceeds the material's tolerance limit, it may cause deformation, cracking, or circuit failure, thereby validating the rationality of the product design.

II. Key Technical Parameters of the Equipment

Temperature Control Capability

Range: -70°C to +150°C.

Rate: Heating/cooling rates up to 10°C/min to 30°C/min, meeting rapid temperature change testing requirements.

Uniformity: Temperature uniformity ≤ ±2°C, fluctuation ≤ ±0.5°C, ensuring testing accuracy.

Structure and Materials

Chamber: Inner chamber made of SUS304 stainless steel, exterior of cold-rolled steel plate with spray coating, insulation layer thickness ≥120mm, flame-retardant rigid polyurethane foam + ultra-fine glass fiber.

Observation Window: Double-layer conductive film tempered insulating glass, equipped with voltage heating wire to prevent frosting, supporting real-time observation of sample status.

Test Port: Diameter 50mm or 100mm, equipped with silicone plug, supporting powered testing of samples.

Refrigeration System

Compressor: Imported brands (e.g., Copeland, Bitzer), environmentally friendly refrigerants (R404A, R23).

Cooling Method: Water-cooled two-stage cascade refrigeration, supporting independent control of high-temperature zone (RT～150°C) and low-temperature zone (RT～-40°C).

Protection Devices: High and low pressure control, overpressure, overload protection, ensuring system safety.

Control System

Operation Interface: 7-inch to 10-inch color LCD touchscreen, supporting program editing (up to 20 programs, 10,000 steps per program).

Communication Functions: RS-232, RS-485, Ethernet interface, supporting remote monitoring and data export.

Self-Diagnosis Function: Automatic fault alarm and power cutoff, displaying fault codes and possible causes.

III. Application Scenarios of Rapid Temperature Change Test Equipment for Lighting Fixtures

Material Adaptability Testing

Evaluating the weather resistance of materials such as LED chips, phosphors, and encapsulants under rapid temperature changes to prevent issues like cracking and discoloration.

Structural Reliability Verification

Testing the thermal expansion compatibility of components such as lamp housings, heat sinks, and connectors to avoid structural failure due to stress concentration.

Electronic Component Performance Screening

Detecting parameter stability of components such as drive power supplies, capacitors, and resistors under extreme temperatures to ensure circuit reliability.

Optical Performance Stability Assessment

Monitoring changes in parameters such as luminous flux, color temperature, and color rendering index of lamps during temperature changes to optimize optical design.

IV. Equipment Selection Recommendations

Temperature Change Rate Selection

Electronics Industry: Prioritize equipment with ≥10°C/min to meet rapid stress screening requirements.

Military/Aerospace Sector: Choose ultra-high-speed temperature change equipment with ≥20°C/min to simulate extreme environments.

Temperature Range Matching

Conventional Lighting Testing: Equipment with -40°C to +120°C can cover most requirements.

Special Applications: For automotive headlight testing, choose equipment with a wide temperature range of -70°C to +150°C.

Uniformity and Accuracy Requirements

Precision Testing (e.g., Chip-Level Lighting): Choose equipment with temperature uniformity ≤ ±0.5°C.

Industrial Applications: Temperature uniformity ≤ ±1°C can meet requirements.