Gaas Solar Panel

All solar cells include the latest triple and quadruple junction technology where gainp gaas ge layers are grown on a germanium substrate and the whole product range benefits from many years experience on the space market.

Gaas solar panel.

Gallium arsenide solar cells can have roughly 25 efficiency rating with only one junction. This means that it can produce nearly twice as much power in a given surface area. Gallium arsenide is an important semiconductor material for high cost high efficiency solar cells and is used for single crystalline thin film solar cells and for multi junction solar cells. Gallium arsenide gaas is the highest performance solar material currently available boasting conversion efficiencies in excess of 40 nearly double those of crystalline silicon.

Spectrolab manufactures and tests fully integrated solar panels for commercial civil and defense missions. Spectrolab offers a range of gainp gaas ge lattice matched 3j solar cells with efficiencies reaching 32. This makes them a good candidate for a stacked type of solar panels used for collecting light from all across the spectrum. Unlike traditional solar panels gallium arsenide thin film solar cells have the advantages of flexibility flexibility light weight adjustable color and shape plasticity.

The average size of solar panels used in a rooftop solar installation is approximately 65 inches by 39 inches or 5 4 feet by 3 25 feet. These solar panels are then delivered to satellite prime contractors for integration onto spacecraft. Azur space has already delivered over 1 5 million triple junction gaas solar cells to a wide range of customers. The resulting efficiency level was 24 9 for a single junction.

22 the first known operational use of gaas solar cells in space was for the venera 3 mission launched in 1965. Spectrolab offers a range of gainp gaas ge lattice matched 3j solar cells with efficiencies reaching 32. This is a superior property of gallium arsenide. All 3j technologies are fully aiaa s111 and s112 qualified.

But they are unbeatable for their efficiency even at high temperatures and concentrated sunlight. Gaas circuits and devices are far more expensive than silicon and they require their own manufacturing process so you won t find them in typical consumer solar panels. When the limitations of silicon are highlighted gaas is a good direction.