基于下垂系数刷新法的并联级联功率升压变换器负载共享快速稳压实现

2017 9th International Conference on Computational Intelligence and Communication Networks (CICN) Pub Date : 2017-09-01 DOI:10.1109/CICN.2017.8319384

Davood Ghaderi, M. Celebi

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引用次数: 3

摘要

下垂控制由于其固有的模块化和易于实现，在直流变换器的并联结构中得到了广泛的应用。在这类具有电阻配电线路的变换器中，升压变换器的P-V下垂是最常用的负载分担方法。电流或负载分担是变流器并联运行中最关键的参数。大多数保证相等负荷分担的方法都利用单元之间某种形式的通信。这增加了复杂性和对噪声的敏感性。本文考虑的方法是P-V控制选项。P-V压降根据直流电压控制直流电流。在这种技术中，每10微秒，下垂系数将通过负载电流采样来刷新。利用MATLAB/SIMULINK和CADENCE对该电路进行了仿真，为教学做准备，仿真结果证实了理论设计。该设计在实验室规模上实现了两个级联升压转换器的并联结构。

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Implementation of load sharing with fast voltage regulation in parallel connected cascaded power boost converters based on droop coefficients refreshing method

Droop control has been widely implemented in Parallel structures of DC DC converters due to its inherent modularity and ease of implementation. In this kind of converters with resistive distribution lines, the P-V droop with boost converters is the most common method for load sharing. Current or load sharing is the most critical parameter in parallel operation of converters. Most of the methods to guarantee equal load sharing utilize some form of communication between the units. This increases the complexity and sensitivity to noise. The method that has been considered in this paper is P-V control option. P-V droop controls the dc current depending on the dc voltage. In this technique, per 10 microseconds, droop coefficients will be refreshing by sampling by load current. This circuit is simulated by MATLAB/SIMULINK and CADENCE for preparing to instruction and the results of the simulation confirmed the theoretical design. This design has implemented on a parallel structure with two blocks of cascaded boost converters at laboratory scales.

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2017 9th International Conference on Computational Intelligence and Communication Networks (CICN)

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