带DC/DC转换器的直流电动弹簧

Qingsong Wang, M. Cheng, Yunlei Jiang, Zhe Chen, F. Deng, Zheng Wang
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引用次数: 13

摘要

为了解决间歇性可再生能源(RESs)与直流微电网集成所带来的稳定性问题,近年来提出了直流电弹簧(DCES)的概念。本文提出了一种基于DC/DC变换器的新型DCES拓扑结构。该DCES由一个双向并联降压升压转换器(BBCs)、一个双向移相全桥转换器(PSFBC)和一个h桥电路组成。该DCES可实现三种基本工作模式,即升压模式、电压平衡模式和电压抑制模式。采用电池恒充/恒放策略,分析了正充电、负充电、正放电和负放电四种工作模式。另外还设计了快速充电或快速放电的机制,以确保电池的正常运行。利用本文提出的DCES,由于间歇性RESs引起的功率波动可以传递给非关键负载和电池,而关键负载的功率保持稳定。这可能是第一次尝试设计只有DC/DC转换器的DCES。仿真结果验证了该控制系统及其控制的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DC electric springs with DC/DC converters
The concept of DC electric spring (DCES) was recently proposed to solve the stability issue caused by integrating intermittent renewable energy sources (RESs) to DC microgrids. In this paper, a new topology of DCES is proposed based on DC/DC converters. The proposed DCES consists of a bi-directional paralleled buck-boost converters (BBCs), a bi-directional phase-shift full-bridge converter (PSFBC) and an H-bridge circuit. Three basic operating modes of the proposed DCES can be achieved, and namely voltage boosting mode, voltage balancing mode and voltage suppression mode. Strategy of constant charging and/or constant discharging for batteries is adopted and four operating modes are analyzed as charging-positive, charging-negative, discharging-positive and discharging-negative modes. An additional mechanism for fast charging or fast discharging is also designed to secure normal operation of batteries. With the proposed DCES, the power fluctuations due to intermittent RESs can be passed to non-critical loads (NCLs) and batteries while power on critical loads (CLs) is kept stable. This is possibly the first attempt to design a DCES with only DC/DC converters. The performances of the proposed DCES are simulated, which validate the effectiveness of the proposed DCES and its control.
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