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SOLAR PANEL TESTING & INSPECTION EQUIPMENT
Verify Photovoltaic (PV) Modules
As the solar industry continues to expand, the need for reliable, accurate, and automated testing of photovoltaic modules has become critical. Our solar panel testing and inspection equipment is designed to help manufacturers verify safety, durability, and electrical performance before modules are deployed in the field.
All testing systems can be customized to meet specific safety, functional, and performance requirements while maintaining compliance with international standards such as UL 61730-1 and UL 61730-2. Each system includes advanced safety features and ergonomic design for secure and efficient operation.
Wet or Dry High Potential (HIPOT) Testing System
The Wet and Dry HIPOT Testing System is used to evaluate the electrical insulation integrity of PV modules. This test ensures that modules can safely withstand high voltage stress without insulation breakdown or leakage.
The system supports both wet leakage current testing and dry voltage testing, enabling complete electrical safety verification. Automated controls and built-in safety interlocks ensure accurate results while protecting operators during high-voltage testing.
Mechanical Load Test System (Static & Dynamic)
The Mechanical Load Test System is designed to measure the structural durability and long-term performance of photovoltaic panels under real-world stress conditions such as wind pressure, snow load, and mechanical fatigue.
The system uses pneumatically powered cylinders with suction mechanisms that securely attach to the module surface. Load parameters including force, speed, and duration are precisely controlled through a programmable test schedule.
Zone-based testing allows selective evaluation of specific areas of the panel. The system supports module sizes up to 2009 mm × 1232 mm and complies with IEC 61215-1-1 requirements.
Module Breakage & Hail Impact Test System
This system evaluates the resistance of photovoltaic modules against extreme environmental conditions such as hailstorms and sudden impact forces, ensuring long-term safety and operational reliability.
The module breakage test applies controlled mechanical impact to assess glass strength and structural integrity in accordance with IEC 61730-2 standards.
The hail impact test uses a pneumatically powered launcher to fire pre-formed ice spheres at the module, accurately simulating real hailstorm conditions. The system supports module sizes up to 2009 mm × 1232 mm.
