Photovoltaics from Milliwatts to Gigawatts. Tim Bruton
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Название: Photovoltaics from Milliwatts to Gigawatts

Автор: Tim Bruton

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119130062

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СКАЧАТЬ for a Telstar cell at 28 °C at 100 mW/cm2[46]

      (Source Bell System Technical Journal)

      The satellite mission was successful, although radiation damage was extensive and the solar cell output decreased to 68% of its original value after 2 years in orbit. It was calculated that even with the state of the art, additional solar cells could be deployed to give a 20‐year life without significant weight penalties.

      The Telstar cell provided a basis for further silicon development. The n on p structure was readily manufactured and the diffusion range of 30–60 Ω/cm on a 1 Ω/cm silicon wafer became the standard for terrestrial solar cells for many years. The only significant difference between the Telstar cell and later terrestrial cells was that Telstar used (111) orientation wafers while the later cells used (100) orientation, which could be chemically textured as discussed in the next section.

      1.3.2 Continuing Research for Space

      (Courtesy Wiley) Source: M.A. Green: Progress in Photovoltaics‐Research and Applications 17 (2009) 183–189

Schematic illustration of randomly textured (100) monocrystalline silicon wafer.

      Source: Courtesy BP Archive

      This was all demonstrated in the mid‐1970s, by which time research for terrestrial applications had begun and further advances in efficiency were being made for terrestrial silicon cells, as described in Chapter 4. Meanwhile, developments in space cells turned toward III–V materials, as described in section 1.4.

      1.3.3 Solar Cell Manufacturing

      By 1972, there were a thousand satellites in space, with power requirements which varied from milliwatts for Vanguard 1 to kilowatts for Skylab A [55]. All the attendant solar cells had to be manufactured somewhere. Initially, Hoffman Semiconductor and Western Electric supplied some, but once the application had been established, new entrants rapidly appeared, not only in the United States but also in Germany and Japan.

      While manufacture of space cells continues today, it is now a relatively small market compared to the terrestrial one. However, the expertise gained in manufacturing СКАЧАТЬ