Photonics Festival in Taiwan, International Solar Exposition – Booth D710, D712 APOLLO Steady-state AAA Class Solar Simulator, High Performance Full-circulation Light Soaking Test system are on display.
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Steady-state AAA Class Solar Simulator
High Performance Full-circulation Light Soaking Test system are on display
Apollo AAA Solar Simulato
APOLLO Solar Simulator is the world’s largest steady-state large area AAA solar simulator built with the latest technologies.
The solar simulator is used to measure the rate of efficiency achievable by photovoltaic modules under different solar exposure conditions. It conforms to IEC61215 (single crystal, polycrystalline photovoltaic module qualification), IEC61646 (thin-film photovoltaic module qualification), IEC60904-9 (solar simulator classification), and IEC61730 (photovoltaic system safety testing) etc. The multi-exposure testing function can also provide comprehensive I-V curve charts and present the full data for reference.
1.Conforms to IEC60904-9 standards
Spectral Match
A Class
Irradiance Non-uniformity
A Class
Temporal Instability
A Class
2.Special optical system that does not need adjustment.
3.Five irradiance tests of 200W/m2, 400W/m2, 600W/m2, 800W/m2, and 1000W/m2 can be completed within one hour.
4.World’s largest illuminated area 3m x 3m steady-state A classification solar simulator.
5.Fast and easy-to-use, applicable to hot-spot testing of single crystal, polycrystalline, and thin-film modules.
6.Conforms to the six optical tests (performance/low irradiance/temperature coefficient/light soaking test /hot-spot test) as specified in IEC61215 and IEC61646.
1.Light source: xenon lamp, each lamp module includes the optical focus system.
2.Guaranteed lamp lifespan up to 1000hr.
3.Maximum illumination of a single lamp within the effective area of exposure is capable of A classification evenness.
4.Light source adopted sideway design for highest level of system safety.
Other hardware:
1.
Testing for solar module (sliding mechanism at both sides to fit different dimensions of photovoltaic modules)
2.
Photovoltaic module cooling system:
Temperature sensor connection points for PID fan control to maintain temperature from 40 to 60℃ (solar module temperature is controlled to 50-60℃ in 25℃ ambient temperature), and the temperature data is returned to the main control system.
3.
Reference cell conforming to international standard units.
