Optimal design of minimal footprint high frequency transformer

Q3 Engineering

Serbian Journal of Electrical Engineering Pub Date : 2021-01-01 DOI:10.2298/sjee2103303b

Jeyapradha Ravichandran Banumathy, Rajini Veeraraghavalu

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引用次数: 1

Abstract

Transformer design procedure may vary essentially in respect of the transformer type and its operating frequency (ranging between 50/60 Hz and a few megahertz). This paper presents a simple and straightforward method based on the optimal choice of core geometry of a high frequency transformer (HFT) used in Solid State Transformer (SST) applications. The core of SST is the HFT which largely influences its size and overall performance. The proposed design procedure for HFT focuses on optimizing the core geometry coefficient (in cm5) with a constraint inflicted on loss density. The core geometry coefficient has direct impact on the regulation and copper loss and the procedure results in a robust overall design with minimal footprint. Also, the procedure intends to bring all the operating parameters like regulation, losses and temperature rise within permissible limits while retaining desired efficiency. Thus an energy-efficient design is achieved with minimal footprint. The optimization procedure is implemented using recently developed Moth-flame Optimization (MFO) algorithm. The results of the MFO algorithm are compared with the wellestablished PSO technique. An experimental prototype is built to validate the findings.

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小占地高频变压器的优化设计

变压器设计程序可能在变压器类型及其工作频率(范围在50/60 Hz和几兆赫之间)方面发生本质变化。本文提出了一种基于固态变压器(SST)应用中高频变压器(HFT)铁芯几何形状优化选择的简单直接的方法。海表温度的核心是高频交易，高频交易在很大程度上影响海表温度的大小和整体表现。提出的高频交易设计程序侧重于优化芯的几何系数(以cm5为单位)，并对损耗密度施加约束。岩心几何系数对调节和铜损耗有直接影响，该过程可实现坚固的整体设计和最小的占地面积。此外，该程序旨在将所有操作参数(如调节、损耗和温升)控制在允许的范围内，同时保持所需的效率。因此，以最小的足迹实现了节能设计。优化过程采用最新开发的飞蛾火焰优化算法(MFO)实现。将该算法的结果与已有的粒子群算法进行了比较。建立了一个实验原型来验证这些发现。

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

Serbian Journal of Electrical Engineering Energy-Energy Engineering and Power Technology

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

25 weeks

期刊介绍： The main aims of the Journal are to publish peer review papers giving results of the fundamental and applied research in the field of electrical engineering. The Journal covers a wide scope of problems in the following scientific fields: Applied and Theoretical Electromagnetics, Instrumentation and Measurement, Power Engineering, Power Systems, Electrical Machines, Electrical Drives, Electronics, Telecommunications, Computer Engineering, Automatic Control and Systems, Mechatronics, Electrical Materials, Information Technologies, Engineering Mathematics, etc.