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Main Authors: Zhou, Duanyutian, Katsuya, Nomura, Yamasaki, Shintaro
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.18459
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author Zhou, Duanyutian
Katsuya, Nomura
Yamasaki, Shintaro
author_facet Zhou, Duanyutian
Katsuya, Nomura
Yamasaki, Shintaro
contents Electromagnetic interference (EMI) filters are used to reduce electromagnetic noise. It is well known that the performance of an EMI filter in reducing electromagnetic noise largely depends on its conductor layout. Therefore, if a conductor layout optimization method with a high degree of freedom is realized, a drastic performance improvement is expected. Although there are a few design methods based on topology optimization for this purpose, these methods have some difficulties originating from topology optimization. In this paper, we therefore propose a conductor layout design method for EMI filters on the basis of data-driven topology design (DDTD), which is a high degree of freedom structural design methodology incorporating a deep generative model and data-driven approach. DDTD was proposed to overcome the intrinsic difficulties of topology optimization, and we consider it suitable for the conductor layout design problem of EMI filters. One significant challenge in applying DDTD to the conductor layout design problem is maintaining the topology of the circuit diagram during the solution search. For this purpose, we propose a simple yet efficient constraint. We further provide numerical examples to confirm the usefulness of the proposed method.
format Preprint
id arxiv_https___arxiv_org_abs_2410_18459
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Data-driven topology design for conductor layout problem of electromagnetic interference filter
Zhou, Duanyutian
Katsuya, Nomura
Yamasaki, Shintaro
Optimization and Control
Electromagnetic interference (EMI) filters are used to reduce electromagnetic noise. It is well known that the performance of an EMI filter in reducing electromagnetic noise largely depends on its conductor layout. Therefore, if a conductor layout optimization method with a high degree of freedom is realized, a drastic performance improvement is expected. Although there are a few design methods based on topology optimization for this purpose, these methods have some difficulties originating from topology optimization. In this paper, we therefore propose a conductor layout design method for EMI filters on the basis of data-driven topology design (DDTD), which is a high degree of freedom structural design methodology incorporating a deep generative model and data-driven approach. DDTD was proposed to overcome the intrinsic difficulties of topology optimization, and we consider it suitable for the conductor layout design problem of EMI filters. One significant challenge in applying DDTD to the conductor layout design problem is maintaining the topology of the circuit diagram during the solution search. For this purpose, we propose a simple yet efficient constraint. We further provide numerical examples to confirm the usefulness of the proposed method.
title Data-driven topology design for conductor layout problem of electromagnetic interference filter
topic Optimization and Control
url https://arxiv.org/abs/2410.18459