A solar simulator is a device that simulates sunlight for the purpose of testing solar cells, photovoltaic panels and other solar electric devices. By enabling reproducible results and testing under controlled conditions, sun simulators play a crucial role in the development and testing of photovoltaic technologies. There are different types of sun simulators that vary in their design, components and applications. In this article, we will explore the features and uses of global solar simulators.
Components of a Global Solar Simulator
A global sun simulator contains an illumination system that Global Solar Simulator the entire solar spectral irradiance and distribution. At the heart of the illumination system is a xenon lamp which produces a continuous spectrum similar to natural sunlight. The lamp is housed inside a water-cooled lamp housing to dissipate heat. A filter wheel is placed before the lamp and holds different filters to tune the spectral match to sunlight. Quartz or synthetic silica windows allow transmission of wavelengths from 280 to 2500 nm.
An integrating sphere provides spatial uniformity of light emitted by the lamp. The inner surface of the sphere is coated with a diffuse reflectance material like barium sulfate. As light enters the sphere through the lamp port, it gets multiple reflected within the sphere resulting in uniform angular irradiance distribution. Optical sensors placed at reference ports and a control system regulate the light intensity to track the standard solar spectrum.
Matching the Solar Spectrum
The filter wheel of a global solar simulator holds different Longpass, Shortpass and Bandpass filters to merge the xenon lamp spectrum with the standard air mass 1.5 global (AM1.5G) solar spectrum specified by ASTM E490. Class AAA simulators try to match the absolute irradiance within a deviation of less than 2% of AM1.5G at every wavelength. Continuous feedback from the sensors helps achieve rapid stabilization of light intensity over time. Global simulators offer flexibility in selecting different light sources and tune the spectrum for diverse applications.
Applications in PV Testing and Calibration
Global solar simulators find widespread use in testing solar cells, modules as well as system components. Manufacturer rely on them for module certification under standard test conditions (STC). Key performance parameters like current, voltage, fill factor and efficiency can be measured quickly while eliminating dependence on outdoor conditions. Temperature controlled testing enables characterization under non-STC conditions. Simulators are also indispensable tools for reliability studies and accelerated life testing of modules.
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