Powersphere电力系统示范站

Conference Record of the Twenty-Eighth IEEE Photovoltaic Specialists Conference - 2000 (Cat. No.00CH37036) Pub Date : 2000-09-15 DOI:10.1109/PVSC.2000.916146

A. Prater, E. Simburger, Dennis A. Smith, J. Matsumoto, C. Truong, J. Ross, D. Scott

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引用次数: 1

摘要

PowerSphere电源系统，特别是其电源管理和分配(PMAD)架构被认为是为微卫星和纳米卫星航天器提供足够电力的解决方案。PowerSphere电源系统是在1999年IECEC航空航天电源管理会议上介绍的，它是一种在球体上以最小的重量部署大面积薄膜太阳能电池的方法，不需要指向，并且可以根据各种所需的功率水平进行调整。本文报道了用于PowerSphere电力系统的典型DC-DC变换器电性能表征的PMAD体系结构。开发站的太阳能电池阵列部分由32个五边形和六边形薄膜非晶硅太阳能电池组成，安装在直径约两英尺的铝巴基球上。巴基球球体安装在一个电动驱动机构上，提供一定程度的旋转运动，仅受线束的限制。太阳能电池是成对电连接的，这样相对面的太阳能电池就可以为单独的集成电路DC-DC转换器单元供电。

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Powersphere Power System demonstration station

The PowerSphere Power System, and in particular, its power management and distribution (PMAD) architecture was conceived to be a solution to provide adequate power for micro-satellite and nano-satellite spacecrafts. The PowerSphere Power System, which was introduced at the 1999 IECEC in the Aerospace Power Management Session, is a means to deploy a large area of thin film solar cells with minimum weight on a sphere that requires no pointing and that can be sized for various desired power levels. This paper reports on the PMAD architecture for the electrical property characterization of a typical DC-DC converter chosen for the PowerSphere Power System. The solar array portion of the development station consists of a combination of 32 pentagonal and hexagonal shaped thin-film amorphous silicon solar cells mounted on an aluminum buckyball sphere approximately two feet in diameter. The buckyball sphere is mounted on a motorized drive mechanism to provide some degree of rotational movement, limited only by the wiring harness. The solar cells are electrically connected in pairs so those on opposite faces feed an individual integrated circuit DC-DC converter unit.

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Conference Record of the Twenty-Eighth IEEE Photovoltaic Specialists Conference - 2000 (Cat. No.00CH37036)

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