Design Optimization of a Planar Spiral Inductor Using Space Mapping (poster)

Leal-Romo, Felipe J.; Cabrera-Gómez, Marisol; Rayas-Sánchez, José E.; García-Mora, Daniel M.

Design Optimization of a Planar Spiral Inductor Using Space Mapping (poster)

Archivos

EPEPS_Spiral_inductor_opt_by_SM_poster.pdf (948.17 KB)

Fecha

2017-10

Autores

Leal-Romo, Felipe J.

Cabrera-Gómez, Marisol

Rayas-Sánchez, José E.

García-Mora, Daniel M.

Editor

IEEE

Descripción

This paper addresses the implementation of a computationally efficient optimization technique for designing structures simulated in 3D electromagnetic field solvers. A probe of concept is done by the EM-based optimization of a planar spiral inductor for high-power applications. The optimization technique employed is based on space mapping (SM) methods, more specifically on the Broyden-based input space mapping algorithm. Our optimization results confirm the efficiency of the proposed approach.

Palabras clave

Aggressive Space Mapping, APLAC, Coarse Model, Fine Model, Full Wave Simulator, Lumped Elements, Optimization, PowerSI 3D EM

Citación

F.J. Leal-Romo, M. Cabrera-Gómez, J.E. Rayas-Sánchez and D.M. García-Mora. “Design optimization of a planar spiral inductor using space mapping,” in Int. Conf. Electrical Performance of Electronic Packaging and Systems (EPEPS 2017), San Jose, CA, Oct. 2017 (poster).

URI

http://hdl.handle.net/11117/5953

Colecciones

DESI - Artículos y ponencias con arbitraje

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Design Optimization of a Planar Spiral Inductor Using Space Mapping (poster)

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