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    • 12. 发明公开
    • SHINGLED SOLAR CELL MODULE
    • SOLARZELLENMODUL AUF SCHINDELN
    • EP3149775A2
    • 2017-04-05
    • EP15799148.0
    • 2015-05-26
    • SunPower Corporation
    • MORAD, RatsonALMOGY, GiladSUEZ, ItaiHUMMEL, JeanBECKETT, NathanLIN, YafuGANNON, JohnSTARKEY, Michael J.STUART, RobertLANCE, TamirMAYDAN, Dan
    • H01L31/0224H01L31/05H01L31/052
    • H01L31/042H01L31/0504H02S40/34Y02E10/50
    • A high efficiency configuration for a solar cell module comprises solar cells conductively bonded to each other in a shingled manner to form super cells, which may be arranged to efficiently use the area of the solar module, reduce series resistance, and increase module efficiency. The front surface metallization patterns on the solar cells may be configured to enable single step stencil printing, which is facilitated by the overlapping configuration of the solar cells in the super cells. A solar photovoltaic system may comprise two or more such high voltage solar cell modules electrically connected in parallel with each other and to an inverter. Solar cell cleaving tools and solar cell cleaving methods apply a vacuum between bottom surfaces of a solar cell wafer and a curved supporting surface to flex the solar cell wafer against the curved supporting surface and thereby cleave the solar cell wafer along one or more previously prepared scribe lines to provide a plurality of solar cells. An advantage of these cleaving tools and cleaving methods is that they need not require physical contact with the upper surfaces of the solar cell wafer. Solar cells are manufactured with reduced carrier recombination losses at edges of the solar cell, e.g., without cleaved edges that promote carrier recombination. The solar cells may have narrow rectangular geometries and may be advantageously employed in shingled (overlapping) arrangements to form super cells.
    • 用于太阳能电池模块的高效率配置包括以阻尼的方式彼此导电地结合的太阳能电池,以形成超电池,其可被布置为有效地使用太阳能模块的区域,降低串联电阻并提高模块效率。 太阳能电池上的前表面金属化图案可以被配置为能够实现单步骤模版印刷,其通过太阳能电池在超级电池中的重叠配置而被促进。 太阳能光伏系统可以包括彼此并联并连接到逆变器的两个或更多个这样的高压太阳能电池模块。 太阳能电池切割工具和太阳能电池切割方法在太阳能电池晶片的底表面和弯曲的支撑表面之间施加真空以使太阳能电池晶片抵靠弯曲的支撑表面,从而沿着一个或多个预先准备的划线切割太阳能电池晶片 线以提供多个太阳能电池。 这些切割工具和切割方法的优点在于它们不需要与太阳能电池晶片的上表面物理接触。 制造太阳能电池,其在太阳能电池的边缘处具有降低的载流子复合损失,例如没有促进载体复合的切割边缘。 太阳能电池可以具有窄的矩形几何形状,并且可以有利地用于带状(重叠)布置以形成超级电池。