Impedance formulas for planar magnetic structures with spiral windings

W. G. Hurley; M. C. Duffy; S. O'Reilly; S. C. O'Mathuna

Impedance formulas for planar magnetic structures with spiral windings

W. G. Hurley
, M. C. Duffy
, S. O'Reilly
, S. C. O'Mathuna

Electrical & Electronic Engineering

University of Galway

Research output: Contribution to a Journal (Peer & Non Peer) › Conference article › peer-review

4 Citations (Scopus)

Abstract

It is well established that magnetic components may be reduced in size by operating at high frequency. Miniaturization of magnetic components is ideally suited to microelectronics technologies such as thick film which lend themselves to planar geometries. This paper describes new analytical models which predict inductance and frequency dependent eddy current losses in magnetic substrates. Prototype devices were fabricated by a thick film process; with 4 layers of conductors on a single ferrite substrate and in a sandwich configuration, consisting of conductors between ferrite slabs. The prototype devices were tested in the frequency range 10 kHz-100 MHz. The measurements confirm the validity of the analytical models. Simulation with Finite Element Analysis was employed to identify different sources of losses: eddy current losses in ferrite substrates, proximity effect losses in conductors and dielectric losses.

Original language	English
Pages (from-to)	627-633
Number of pages	7
Journal	PESC Record - IEEE Annual Power Electronics Specialists Conference
Volume	1
Publication status	Published - 1997
Event	Proceedings of the 1997 28th Annual IEEE Power Electronics Specialists Conference, PESC. Part 1 (of 2) - St.Louis, CA, USA Duration: 23 Jun 1997 → 26 Jun 1997

Cite this

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title = "Impedance formulas for planar magnetic structures with spiral windings",

abstract = "It is well established that magnetic components may be reduced in size by operating at high frequency. Miniaturization of magnetic components is ideally suited to microelectronics technologies such as thick film which lend themselves to planar geometries. This paper describes new analytical models which predict inductance and frequency dependent eddy current losses in magnetic substrates. Prototype devices were fabricated by a thick film process; with 4 layers of conductors on a single ferrite substrate and in a sandwich configuration, consisting of conductors between ferrite slabs. The prototype devices were tested in the frequency range 10 kHz-100 MHz. The measurements confirm the validity of the analytical models. Simulation with Finite Element Analysis was employed to identify different sources of losses: eddy current losses in ferrite substrates, proximity effect losses in conductors and dielectric losses.",

author = "Hurley, \{W. G.\} and Duffy, \{M. C.\} and S. O'Reilly and O'Mathuna, \{S. C.\}",

year = "1997",

language = "English",

volume = "1",

pages = "627--633",

journal = "PESC Record - IEEE Annual Power Electronics Specialists Conference",

issn = "0275-9306",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

note = "Proceedings of the 1997 28th Annual IEEE Power Electronics Specialists Conference, PESC. Part 1 (of 2) ; Conference date: 23-06-1997 Through 26-06-1997",

}

TY - JOUR

T1 - Impedance formulas for planar magnetic structures with spiral windings

AU - Hurley, W. G.

AU - Duffy, M. C.

AU - O'Reilly, S.

AU - O'Mathuna, S. C.

PY - 1997

Y1 - 1997

N2 - It is well established that magnetic components may be reduced in size by operating at high frequency. Miniaturization of magnetic components is ideally suited to microelectronics technologies such as thick film which lend themselves to planar geometries. This paper describes new analytical models which predict inductance and frequency dependent eddy current losses in magnetic substrates. Prototype devices were fabricated by a thick film process; with 4 layers of conductors on a single ferrite substrate and in a sandwich configuration, consisting of conductors between ferrite slabs. The prototype devices were tested in the frequency range 10 kHz-100 MHz. The measurements confirm the validity of the analytical models. Simulation with Finite Element Analysis was employed to identify different sources of losses: eddy current losses in ferrite substrates, proximity effect losses in conductors and dielectric losses.

AB - It is well established that magnetic components may be reduced in size by operating at high frequency. Miniaturization of magnetic components is ideally suited to microelectronics technologies such as thick film which lend themselves to planar geometries. This paper describes new analytical models which predict inductance and frequency dependent eddy current losses in magnetic substrates. Prototype devices were fabricated by a thick film process; with 4 layers of conductors on a single ferrite substrate and in a sandwich configuration, consisting of conductors between ferrite slabs. The prototype devices were tested in the frequency range 10 kHz-100 MHz. The measurements confirm the validity of the analytical models. Simulation with Finite Element Analysis was employed to identify different sources of losses: eddy current losses in ferrite substrates, proximity effect losses in conductors and dielectric losses.

UR - https://www.scopus.com/pages/publications/0030646904

M3 - Conference article

AN - SCOPUS:0030646904

SN - 0275-9306

VL - 1

SP - 627

EP - 633

JO - PESC Record - IEEE Annual Power Electronics Specialists Conference

JF - PESC Record - IEEE Annual Power Electronics Specialists Conference

T2 - Proceedings of the 1997 28th Annual IEEE Power Electronics Specialists Conference, PESC. Part 1 (of 2)

Y2 - 23 June 1997 through 26 June 1997

ER -

Impedance formulas for planar magnetic structures with spiral windings

Abstract

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