Product application:
The Photovoltaic PV module UV test chamber primarily specifies the test for evaluating the resistance to UV irradiation of PV modules when exposed to a UV radiation environment.
This test is applicable for assessing the UV irradiation resistance of materials such as storage polymers and protective layers.
Chamber structure:
The Photovoltaic PV module UV test chamber adopts a pioneering domestic exterior design, giving the device an overall aesthetically pleasing and generous appearance.
The interior chamber material uses brushed SUS304B steel plate, which is acid-resistant, corrosion-resistant, and easy to clean.
The sample holder can be adjusted for its vertical position as needed.
With years of experience in professionally designing experimental equipment, it features a rational air circulation system, which ensures the highest uniformity of temperature and humidity inside the chamber.
The distance between the test piece and the lamp surface is in parallel, meeting the sample test wavelength requirements (the test piece platform height is adjustable).
Control system:
The temperature control system of the photovoltaic (PV) module UV aging test chamber employs a balanced temperature control method (BTC) through forced air circulation.
In this method, the control system adjusts the output of the heater based on the results calculated by the PID algorithm according to the set temperature point, ultimately achieving a dynamic equilibrium.
The air heating method utilizes high-quality nickel-chromium wire heaters, which are made of superior materials and have corrosion-resistant and moisture-resistant properties.
Additionally, the response speed of these heaters is significantly faster than that of conventional heating tubes, resulting in higher heating efficiency.
Compliance with standards:
The photovoltaic (PV) module UV aging test chamber can meet the following standards:
GB/T 19394—2003/IEC 61345:998: This standard specifies the UV test method for photovoltaic (PV) modules.
GB/T 2423.24-9: This standard outlines the test method for simulating solar radiation on the ground for PV components.
These standards ensure that the test chamber is capable of accurately simulating the UV exposure and solar radiation conditions that PV modules may encounter, providing reliable and standardized testing for evaluating the UV resistance and durability of PV components.
Model | Effective irradiation area (D*W)mm | Dimension(D*W*H)mm | |
LRHS-S-NGF | 600×1270 | 750×1880×800 | |
LRHS-H-NGF | 1820×1000 | 1400×2500×1500 |
Module surface temperature | 60℃ | ||||||
Temperature fluctuation | ±0.5℃ (at no load) | ||||||
Distance from the center of the lamp | 70mm | ||||||
illumination | Module test surface produces ±15% uniformity | ||||||
wind speed | 0.5~1.0m/s | ||||||
light source | 6 pcs (Q-Lab USA famous brand) | ||||||
longitudinal | 280~320nm(UVA-340)和313~340nm(UVB-313) | ||||||
Distance between sample and lamp parallel plane | Ultimate wavelength requirement for sample testing (height-adjustable specimen stage) | ||||||
Outer case material | High quality A3 steel plate electrostatic spraying | ||||||
Inner box material | Acid-resistant, corrosion-resistant and easy-to-clean SUS304B brushed plate | ||||||
Humidity Sensor | STT-R Platinum Resistors | ||||||
circulatory system | Imported Worm Blower | ||||||
Handheld Irradiometer | Beijing Normal University | ||||||
standard configuration | 1 sample shelf, 8 imported lamps, 1 hand-held irradiator | ||||||
security protection | Fan overheating, overall equipment phase / reverse phase, over-temperature protection, test timing, leakage protection Distribution control cabinet open power failure protection, running instructions, fault alarm automatic shutdown and other protection |
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Supply Voltage | AC380V±10% 50Hz | ||||||
Power | 3.0kW | ||||||
operating environment | 5℃~+28℃ ≤85% RH | ||||||
Note: 1、Can be customized according to the specific requirements of the user non-standard photovoltaic PV module UV test chamber etc |