Implementation of Control Strategy for Step-down DC-DC Converter Based on Piezoelectric Resonator

2020 22nd European Conference on Power Electronics and Applications (EPE'20 ECCE Europe) Pub Date : 2020-09-01 DOI:10.23919/EPE20ECCEEurope43536.2020.9215910

Mustapha Touhami, G. Despesse, F. Costa, B. Pollet

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引用次数: 9

Abstract

With the growth in demand for miniaturization in power electronics, the current solutions are starting to display their limits in dimensions, power densities and efficiency. To meet the previous demands, the new piezoelectric materials achieving high power densities and efficiency could be the solution to ensuring the requirements. The piezoelectric resonators (PRs) and the piezoelectric transformers (PTs) have been used previously. Unlike the PTs, the use of PRs in power electronics has not been fully explored, and their use has been limited to operating as switched capacitors. However, a new operating principle using PRs based on energy and electrical balance exhibits good performances in steady state. In this paper, our motivation is to investigate in the capability to control a dc-dc converter based on PRs using this operating principle. Indeed, this paper presents the control strategy of a new step-down DC-DC converter based on a piezoelectric resonator (PR), which is used as an energy storage element. The operating principle of the converter is also presented. Moreover, the control algorithm has been implemented in field programmable gate array (FPGA) to regulate the output voltage. The control principle is validated experimentally for input-output voltages 120 - 48 V, and achieving an efficiency up to 94% for large operating power range.

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基于压电谐振器的降压DC-DC变换器控制策略的实现

随着电力电子小型化需求的增长，目前的解决方案开始在尺寸、功率密度和效率方面显示出其局限性。为了满足以往的需求，具有高功率密度和高效率的新型压电材料可能是确保要求的解决方案。压电谐振器(PRs)和压电变压器(PTs)的应用比较广泛。与pt不同，pr在电力电子中的应用尚未得到充分的探索，它们的使用仅限于作为开关电容器。然而，一种新的基于能量和电平衡的pr工作原理在稳态下表现出良好的性能。在本文中，我们的动机是研究利用这种工作原理控制基于pr的dc-dc变换器的能力。实际上，本文提出了一种基于压电谐振器(PR)的新型降压DC-DC变换器的控制策略，该变换器用作储能元件。文中还介绍了该变换器的工作原理。并在现场可编程门阵列(FPGA)中实现了对输出电压的控制算法。实验验证了该控制原理在输入输出电压120 ~ 48v范围内的有效性，在大工作功率范围内效率可达94%。

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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来源期刊

2020 22nd European Conference on Power Electronics and Applications (EPE'20 ECCE Europe)

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