一种具有新型漏感控制的移相全桥变换器

M. Abu Bakar, F. Alam, K. Bertilsson
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引用次数: 3

摘要

由于电子系统小型化和智能化的要求,电子工业正朝着高密度电路板解决方案发展。为了满足工业需求,对电力系统提出了高功率密度的要求。本文提出了一种提高中功率应用中功率密度的解决方案。在移相全桥变换器中,主变压器的本征漏感不够高,无法实现整个工作状态下电源开关的零电压开关。附加的垫片电感通常与主变压器的初级绕组串联,以增加总漏感。这个附加的薄片电感降低了转换器的功率密度。提出了一种在主变压器内部嵌入和控制谐振电感的方法。除了增加绕组间距外,本文还提出了一种实用的方法,将铁氧体棒集成在主变压器内部,以进一步增加漏感。利用建立的漏感估计方程,构造了一个电力变压器,并对其进行了研究。为了研究该变压器的性能,还开发了一个移相全桥变换器原型。该变换器设计的开关频率为400kHz,在200Vdc输入电压下测试输出功率可达600w。并与采用外置电感的变换器进行了性能比较。研究表明,除了提高功率密度外,采用该变压器的变换器比采用传统变压器的变换器效率更高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A phase shifted full bridge converter with novel control over the leakage inductance
The electronics industry is progressing towards the high density board solutions due to the requirement of compact and intelligent electronic systems. In order to meet the industry demands, the power system is required to be of high power density. This article proposes one of the solution to improve the power density for the medium power applications. In phase shifted full bridge converter, the intrinsic leakage inductance of the main transformer is not high enough to obtain the zero voltage switching of the power switches for the entire operating conditions. An additional shim inductor is usually connected in series with the primary winding of the main transformer to increase the collective leakage inductance. This additional shim inductor degrades the power density of the converter. This paper proposes a method to embed and control the resonance inductance inside the main transformer. In addition to the increased inter-winding spacing, this paper proposes a practical approach to integrate the ferrite rods inside the main transformer for further increase in the leakage inductance. A power transformer is constructed and investigated by using the modelled equations to estimate the leakage inductance. A prototype phase shifted full bridge converter is also developed to investigate the performance of the proposed transformer. The converter is designed for the switching frequency of 400kHz, and tested up to 600watts output power at the input voltage of 200Vdc. The performance of the proposed converter is also compared with the converter of using an external inductor. The investigations show that, in addition to the improved power density, the converter with the proposed transformer is more efficient than the converter with the traditional transformer.
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