Solar batteries for use as the power source of unattended UHF repeaters.

Nec Research & Development Pub Date : 1959-05-01 DOI:10.1049/PI-B-2.1959.0136

M. Kobayashi

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引用次数: 1

Abstract

An array of solar batteries for use as the power source of unattended u.h.f. repeaters has recently been established at the top of Mt. Shinobu in Fukushima Prefecture. The equipment consists of two pairs of transmitter-receivers, each of which is partly transistorized. The entire equipment takes approximately 4.5 watts. The silicon solar batteries are used to convert solar energy directly into electrical energy to feed the equipment and simultaneously to charge a set of nickel-cadmium batteries in a floating circuit arrangement as a provision for unfavourable weather. After a series of careful investigations, it became clear that to keep the equipment operating during a long rainy season such as prevails in the Fukushima area, the total capacity of the solar batteries must be designed to be ten times the power actually consumed by the entire equipment. Consequently, the maximum output available from the solar batteries was designed to be about 70 watts. A total of 4320 units were connected to generate 6.5, 60 and 130 volts to supply the transistors, valve heaters and valve anodes respectively. The operating conditions and the reliability of the entire repeater system are discussed in the paper.

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无人值守超高频中继器的电源太阳能电池。

最近，在福岛县Shinobu山顶建立了一组太阳能电池，用作无人值守的超高频中继器的电源。该设备由两对收发器组成，每对都部分经过晶体管处理。整个设备大约需要4.5瓦。硅太阳能电池用于将太阳能直接转化为电能，为设备供电，同时为一组悬浮电路中的镍镉电池充电，以应对恶劣天气。经过一系列仔细的调查，很明显，为了在福岛地区普遍存在的漫长雨季保持设备运行，太阳能电池的总容量必须设计为整个设备实际消耗功率的十倍。因此，太阳能电池的最大输出功率被设计为大约70瓦。总共连接了4320个单元，分别产生6.5伏、60伏和130伏电压，为晶体管、阀加热器和阀阳极供电。本文讨论了整个中继器系统的工作条件和可靠性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nec Research & Development

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