Optimized topology for high efficiency battery discharge regulator

Ejea J.B.; Ferreres A.; Sanchis-Kilders E.; Maset E.; Esteve V.; Jordan J.; Garrigos A.

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Optimized topology for high efficiency battery discharge regulator

机译：针对高效电池放电调节器的优化拓扑

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In the following years power levels of 20 kW to 50 kW will be demanded by the telecommunication satellites. It is not possible to keep 0.5 kW modules with up to 100 modules in parallel and, therefore, higher power modules must be used. A higher bus voltage seems also necessary and any voltage below 150 V and above 100 V could meet the needs. In addition, new optimized topologies that process only a part of the total power delivery can be employed to improve the efficiency. In this article, design guidelines and experimental results of a high efficiency battery discharge regulator (BDR) module based on parallel power processing are given.

机译：在接下来的几年中，电信卫星将需要20 kW至50 kW的功率水平。不能将0.5 kW模块与最多100个模块并联，因此必须使用功率更高的模块。似乎也需要更高的总线电压，任何低于150 V和高于100 V的电压都可以满足需求。另外，可以采用仅处理总功率传输的一部分的新的优化拓扑来提高效率。在本文中，给出了基于并行功率处理的高效电池放电调节器（BDR）模块的设计指南和实验结果。

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《IEEE Transactions on Aerospace and Electronic Systems》 |2008年第4期|1511-1521|共11页
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Ejea J.B.; Ferreres A.; Sanchis-Kilders E.; Maset E.; Esteve V.; Jordan J.; Garrigos A.;
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Optimized topology for high efficiency battery discharge regulator

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