Solar Power Technologies
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From large scale solar power plants to tiny children’s toys, solar power technologies have a great variety of applications both large and small. The use of photovoltaic energy has grown dramaticaly for several years and will likely continue as demand for clean energy self-sustaining electrical devices increases.
Through a vertically integrated manufacturing process, SPI produces a broad range of solar power technologies. SPI always works to reduce the environmental impact of all manufacturing equipment and focuses on recycling materials. We use state-of-the-art Direction Solidification System (DSS) furnaces to produce ingots that are sawn into wafers for use in the solar cell manufacturing process. Then, our high tech process turns the wafers into quality solar cells with precise efficiency. Additionally, our design team can create custom modules and complete array systems for site-specific projects. SPI specializes in solar power technologies that implement multicrystalline solar cells. As opposed to amorphous cells, which employ one thin film of silicon for an entire module, crystalline cells are wired in a series to create a solar module. Monocrystalline cells are created from one large crystal of silicon and theoretically produce a higher efficiency than multicrystalline cells. However, the practical output is essentially equal and multicrystalline cell production is a more efficient process. Consequently, SPI’s manufacturing process results in the highest quality cost efficient solar power products for our customers. Discover More Solar Power Technologies: |
 (DSS) Direct Solidification System Furnaces
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