Design of PCB Litz Coils for Improved Skin and Proximity Effects

2022 IEEE Ninth International Conference on Communications and Electronics (ICCE) Pub Date : 2022-07-27 DOI:10.1109/ICCE55644.2022.9852073

Thi Duyen Nguyen, G. Byun

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Abstract

Using a higher operating frequency range (from 20 kHz-150 kHz), the penetrating depth of the vessel is smaller, which is beneficial for both heating time and required power. However, the challenge of this trend compromises the coil’s efficiency due to higher conduction loss. Conventional inductors for domestic induction heating applications are made of multi-stranded litz wires, which reduce considerable losses. Therefore, developing a litz wire structure for printed circuit board (PCB) windings is interesting. Developing a technique to implement litz wire in a standard PCB is a priority objective of this work. This research analysis on two main factors was causing the losses heating based on the comparison between three types of PCB coils: solid, stranded, litz wires, and then comparing the factor to the power of the heating system. Three-dimensional finite element modeling (FEM) was performed for a straightforward method of designing and analyzing PCB litz coil with electromagnetic, transient, and thermal simulation. Finally, a prototype of the PCB is fabricated and measured to verify the manufacturing and modeling process.

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改善趋肤和接近效应的PCB Litz线圈设计

使用更高的工作频率范围(从20 kHz-150 kHz)，容器的穿透深度较小，这有利于加热时间和所需的功率。然而，这种趋势的挑战妥协线圈的效率，由于更高的传导损失。家用感应加热应用的传统电感器是由多股利兹线制成的，这减少了相当大的损耗。因此，开发用于印刷电路板(PCB)绕组的利兹线结构是很有趣的。开发一种在标准PCB中实现litz线的技术是本工作的首要目标。本研究通过对三种PCB线圈:实心线、绞合线和绞合线的比较，分析了造成损耗加热的两个主要因素，并将其与加热系统的功率进行了比较。通过电磁、瞬态和热仿真，对PCB线圈的设计和分析进行了三维有限元建模。最后，制作了PCB的原型并进行了测量，以验证制造和建模过程。

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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2022 IEEE Ninth International Conference on Communications and Electronics (ICCE)

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