Extended Bucking Range Fifth-Order Buck-Boost Converter

2020 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES) Pub Date : 2020-12-16 DOI:10.1109/PEDES49360.2020.9379378

Vasudha Khubchandani, M. Veerachary

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Abstract

An extended bucking range buck-boost converter of order five, suitable for standalone applications is presented in this paper. It has the attribute of providing finely tuned bucking range with more degree of freedom on duty ratio. The converter provides successful buck-boost conversion with low source current ripple which results in reduced source side filtering requirements. The key feature of this converter is the extended bucking duty-ratio range. State-space and steady-state analysis is presented to identify the performance features of the proposed converter. For arriving at the voltage gain transformation ratio, continuous inductor current mode of operation is considered. L, C component equations are derived thereafter. Small-signal transfer function derived after state-space analysis is then obtained and controller designing is performed. A 24 to 42 Watt, 50 kHz prototype of the proposed converter is also built for experimentation. Load voltage adopted is either 15 or 42 V. For powering the converter prototype, a dc source supplying 24 V is used for both simulation and experimentation. Proposed converter's effectiveness is also verified experimentally.

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扩展buck范围五阶Buck-Boost变换器

本文提出了一种适用于单机应用的扩展抗压范围的五阶buck-boost变换器。它具有提供精细调谐的屈曲范围和更大的占空比自由度的特性。该转换器提供了低源电流纹波的降压升压转换，从而降低了源侧滤波要求。该变换器的主要特点是扩展了buck占空比范围。提出了状态空间分析和稳态分析来确定所提出的变换器的性能特征。为了得到电压增益变换比，考虑了电感电流的连续工作模式。然后推导出L、C分量方程。通过状态空间分析得到小信号传递函数，并进行控制器设计。一个24至42瓦，50千赫的原型提出的转换器也建立了实验。负载电压为15v或42v。为了给变换器原型供电，模拟和实验都使用了一个24 V的直流电源。实验验证了该变换器的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES)

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