并联DC-DC变换器负载电流自动分担方案及其在航天器电源系统中的应用

2020 IEEE International Conference on Technology, Engineering, Management for Societal impact using Marketing, Entrepreneurship and Talent (TEMSMET) Pub Date : 2020-12-10 DOI:10.1109/TEMSMET51618.2020.9557506

A. Anand, B. Shivaprakash, K. Gupta

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引用次数: 0

摘要

本文提出并实现了一种在并联非隔离(Buck) DC-DC变换器之间实现相等负载电流分担的简单方案。同样的方案可用于隔离DC-DC变换器。该方案采用平均电流模式控制实现，并在50V的输出电压和高达700W的高输出功率下进行了测试。两个50V/7A Buck转换器并联实现700W (50V/14A)输出功率。该方案简单、自动化，不需要额外的电路来保证它们之间的负载电流均等。该方案利用已有的控制回路元件来实现目标。本设计可方便地用于卫星电源系统中的辅助母线稳压器(abr)，将70V母线降压至40V。所有负载都可以直接连接到并联(n+1) DC/DC转换器。在一个DC/DC(从)故障的情况下，其他' n '转换器(包括主)可以接管负载的共享，从而在系统中提供冗余。就负载而言，它们不会看到任何变化，并将保持在同一点连接。冗余可以提供电压误差放大器放置在“主”转换器。本设计也可以升级为1.4KW (350V/4A)的大功率阳极电源，用于高温高压推进器。在dc-dc变换器的批量生产过程中，实现了一种电流传感方案来检测“无误差”电感电流波形。

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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An Automatic Load Current Sharing Scheme in Parallel Connected DC-DC converters and its Application in Spacecraft Power System

A simple scheme has been proposed and implemented to achieve equal load current sharing between parallel connected non-isolated (Buck) DC-DC converters. The same scheme can be used for isolated DC-DC converters. The scheme is implemented using Average current mode control and has been tested for output voltage of 50V & high output power of up to 700W. Two nos. of 50V/7A Buck converters have been implemented in parallel so as to achieve 700W (50V/14A) output power. The scheme is simple and automatic, in the sense that no additional circuit is required to ensure equal load current sharing between them. The scheme utilizes the already existing components of control loop to achieve the objective. This design can easily be used for Auxillary Bus Regulators (ABRs) in Satellite Power system, to step down 70V bus to 40V. All the loads can be connected directly to the paralleled (n+1) DC/DC converters. In case of one DC/DC (Slave) failure other ‘n’ converters (including Master) can take over the sharing of load and thus provide redundancy in the system. As far as the loads are concerned, they will not see any change and will remain connected at the same point. Redundancy can be provided for Voltage Error Amplifier placed in ‘Master’ Converter. This design can also be upgraded to make high power Anode supply of 1.4KW (350V/4A) for HET thruster. A current sensing scheme has been implemented to sense ‘error free’ inductor current waveform during mass production of dc-dc converters.

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2020 IEEE International Conference on Technology, Engineering, Management for Societal impact using Marketing, Entrepreneurship and Talent (TEMSMET)

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