并联DC/DC降压变换器的网络化控制

2015 IEEE Jordan Conference on Applied Electrical Engineering and Computing Technologies (AEECT) Pub Date : 2015-12-21 DOI:10.1109/AEECT.2015.7360557

A. Khalil, O. Mohamed, Jihong Wang

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引用次数: 12

摘要

微电网和混合动力汽车依靠并联DC/DC转换器发电。DC/DC转换器并联连接，以共享相同的负载。控制信号通过电线传送。布线增加了复杂性，降低了可靠性。共享无线网络的最新进展使其成为直接布线的可行且廉价的替代方案。将控制信号分布在共享网络中，降低了布线的复杂性，提高了可靠性。通过共享网络传输控制信号会产生时间延迟和数据丢失，从而导致系统不稳定。这些缺陷使得系统是随机的，在许多情况下，这些缺陷可以用马尔可夫链来建模。研究了用马尔可夫链表示的随机不确定性网络上并联DC/DC变换器的镇定问题。

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Networked control of parallel DC/DC buck converters

Microgrids and Hybrid Electric Vehicles rely on parallel DC/DC converters for power generation. DC/DC converters are connected in parallel to share the same load. The control signals are distributed through wires. The wiring increases the complexity and reduces the reliability. The recent advances in shared wireless networks made them viable and cheap alternative to direct wiring. Distributing the control signals over shared networks reduces the complexity in the wiring and enhances the reliability. Transmitting control signals through shared network induces time delay and data loss which may destabilize the system. These imperfections make the system stochastic and in many cases these imperfection can be modeled using Markov chains. This paper presents the stabilization of parallel DC/DC converters over stochastic nondeterministic network represented by Markov chains.

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2015 IEEE Jordan Conference on Applied Electrical Engineering and Computing Technologies (AEECT)

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