The Pico is engineered to meet or exceed international standards like and ASTM E927 . Specification Illumination Area 2.5 cm x 2.5 cm square Spectral Range 350 nm – 1500 nm (depending on model) Spectral Match Class A+ (< 5% mismatch), exceeding standard requirements Spatial Uniformity Class A (< 2% non-uniformity) Temporal Stability < 0.1% (short-term) and < 1% (long-term) Light Intensity 0 to 1.1 suns (AM1.5G) Lifespan 10,000+ hours with no bulb replacements 2. Key Features & Technologies
The Pico isn’t just "on" or "off." It allows users to tune specific wavelengths. If a researcher wants to test how a material reacts only to UV light, or only to infrared, the Pico can be programmed to output only those bands. g2v pico
It is specifically engineered for testing small-area devices, making it an ideal choice for testing experimental solar cells, such as: Organic Solar Cells (OSCs) Multijunction/Tandem Solar Cells Photocatalytic Materials The Pico is engineered to meet or exceed
The shift toward LED-based simulators is driven by the demand for higher accuracy and better simulation of specific spectra. The G2V Pico offers several advantages: 1. High Spectral Match The G2V Pico, often in combination with other
As the market shifts towards bifacial modules, testing the back-side efficiency is crucial. The G2V Pico, often in combination with other illumination systems, allows researchers to simulate rear illumination and calculate the bifaciality of modern solar cells. Underwater Photovoltaic Characterization