https://github.com/otvam/large_signal_ferrite_apec24

Large-Signal Properties in MnZn Ferrites: Code and Dataset
https://github.com/otvam/large_signal_ferrite_apec24

dielectric-losses dimensional-resonance eddy-currents electromagnetic-coupling ferrites magnetic-losses magnetic-materials modeling permittivity

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Large-Signal Properties in MnZn Ferrites: Code and Dataset

• Host: GitHub
• URL: https://github.com/otvam/large_signal_ferrite_apec24
• Owner: otvam
• License: mit
• Created: 2023-10-31T20:18:03.000Z (over 1 year ago)
• Default Branch: main
• Last Pushed: 2024-11-22T03:39:53.000Z (6 months ago)
• Last Synced: 2024-11-22T04:24:21.875Z (6 months ago)
• Topics: dielectric-losses, dimensional-resonance, eddy-currents, electromagnetic-coupling, ferrites, magnetic-losses, magnetic-materials, modeling, permittivity
• Language: MATLAB
• Homepage:
• Size: 5.62 MB
• Stars: 0
• Watchers: 1
• Forks: 0
• Open Issues: 0
• Metadata Files:
  • Readme: README.md
  • License: LICENSE.md

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README

        
# Large-Signal Properties in MnZn Ferrites: Code and Data

## Introduction

This repository contains the **datasets** and **code** related to the following **paper**:

* **Characterization and Impact of Large-Signal Dielectric Properties in MnZn Ferrites**

* **Thomas Guillod, William V. R. Roberts, and Charles R. Sullivan**

* **IEEE APEC 2024**

This code simulates the **magnetic-dielectric effects** in a infinitely long **cylindrical core**:

* The (average) flux density through the cross-section is imposed (excitation).

* The material parameters can be amplitude-dependent (locally linearized).

Two different **solvers** are available:

* **Quasi-static** approximation (no wave propagation and spatially independent material parameters).

* **Full wave** solution (with wave propagation and spatially dependent material parameters).

## Main Files

* [paper.pdf](paper.pdf) - PDF of the paper (IEEE copyright) 

* [slides.pdf](slides.pdf) - PDF of the slides (CC BY-ND 4.0) 

* [get_param.m](get_param.m) - Definition of the solver parameters

* [run_single.m](run_single.m) - Solve the electromagnetic problem in a core with a given cross-section 

* [run_sweep.m](run_sweep.m) - Solve the electromagnetic problem in cores with different cross-sections

## Datasets

* [N87_eps_small](dataset/N87_eps_small) - EPCOS TDK N87 - Small-Signal Permitivitty

* [N87_eps_large](dataset/N87_eps_large) - EPCOS TDK N87 - Large-Signal Permitivitty

* [N87_eps_temperature](dataset/N87_eps_temperature) - EPCOS TDK N87 - Temperature Permitivitty

* [N87_mu_small](dataset/N87_mu_small) - EPCOS TDK N87 - Small-Signal Permeability

* [N87_mu_large](dataset/N87_mu_large) - EPCOS TDK N87 - Large-Signal Permeability

## Compatibility

* Tested with MATLAB R2023a.

* The `pde_toolbox` is required.

## Author

* **Thomas Guillod**

* Email: [email protected]

* Website: https://otvam.ch

## Credits

This code was created at **Dartmouth College** by the research group of **Prof. Sullivan**:

* Dartmouth College, NH, USA: https://dartmouth.edu

* Dartmouth Engineering: https://engineering.dartmouth.edu

* PMIC: https://pmic.engineering.dartmouth.edu

## License

This project is licensed under the **MIT License**, see [LICENSE.md](LICENSE.md).