Modeling and optimization of thick film solenoid-bar type inductors and transformers

The most popular geometries for thick film inductors and transformers have been meander types or spiral types, whereas most macro-scale inductors and transformers are solenoid types. In order to achieve the desired electrical characteristics for the inductors, several types of solenoid-bar structure...

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Published in:Compel 2000-01, Vol.19 (2), p.615-621
Main Authors: Desnica, V D, Zivanov, Lj D, Aleksic, O S, Jenei, S M
Format: Article
Language:English
Subjects:
Algorithms
CAD
Computer aided design
Electrical engineering
Geometry
Mathematical models
Optimization
Studies
Transformers
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Zivanov, Lj D
Aleksic, O S
Jenei, S M
description The most popular geometries for thick film inductors and transformers have been meander types or spiral types, whereas most macro-scale inductors and transformers are solenoid types. In order to achieve the desired electrical characteristics for the inductors, several types of solenoid-bar structures are considered. In this research, a modified geometry of a solenoid-type transformer is proposed. A fast and accurate approach for modeling solenoid-bar type inductors and transformers is presented. An algorithm that extracts the complete circuit is presented in detail and special attention is paid to inductance calculations. A comparison between conventional and modified transformers occupying the same area is performed. A custom CAD tool is described which is used for the design and optimization of inductors and transformers.
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source ABI/INFORM Global; Emerald:Jisc Collections:Emerald Subject Collections HE and FE 2024-2026:Emerald Premier (reading list)
subjects Algorithms
CAD
Computer aided design
Electrical engineering
Geometry
Mathematical models
Optimization
Studies
Transformers
title Modeling and optimization of thick film solenoid-bar type inductors and transformers
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