High-Q flexible spiral inductive coils

David C. Ng; Clive Boyd; Shun Bai; Gordana Felic; Mark Halpern; Efstratios Skafidas

doi:10.1109/EMCSA.2010.6141509

High-Q flexible spiral inductive coils

David C. Ng, Clive Boyd, Shun Bai, Gordana Felic, Mark Halpern, Efstratios Skafidas

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

8 Citations (Scopus)

Abstract

A limitation on the optimal design of inductive coils for wireless power transfer is its physical size. We investigated the effect of varying width and spacing of conductive trace of spiral inductive coils in order to improve its quality factor and hence power transfer efficiency between two coils. These spiral coils have inner and outer diameter of 23 mm and 36.5 mm, respectively. We found that for the same number of turns, quality factor Q increases with an increase in spacing. This is attributed to proximity effects in adjacent conductive tracks of the coil. An increase of Q at 6.78 MHz by 121% from the minimum value was achieved by systematically varying the different topologies. We conclude that an optimal topology of choice for a spiral coil is larger spacing and smaller number of turns.

Original language	English
Title of host publication	2010 Electromagnetic Compatibility Symposium - Melbourne, EMC Melbourne 2010
DOIs	https://doi.org/10.1109/EMCSA.2010.6141509
Publication status	Published - 2010
Externally published	Yes
Event	2010 Electromagnetic Compatibility Symposium - Melbourne, EMCSA 2010 - Melbourne, VIC, Australia Duration: 8 Sept 2010 → 10 Sept 2010

Publication series

Name	2010 Electromagnetic Compatibility Symposium - Melbourne, EMC Melbourne 2010

Conference

Conference	2010 Electromagnetic Compatibility Symposium - Melbourne, EMCSA 2010
Country/Territory	Australia
City	Melbourne, VIC
Period	8/09/10 → 10/09/10

Keywords

inductive
spiral coils
wireless power

ASJC Scopus subject areas

Electrical and Electronic Engineering

Access to Document

10.1109/EMCSA.2010.6141509

Cite this

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title = "High-Q flexible spiral inductive coils",

abstract = "A limitation on the optimal design of inductive coils for wireless power transfer is its physical size. We investigated the effect of varying width and spacing of conductive trace of spiral inductive coils in order to improve its quality factor and hence power transfer efficiency between two coils. These spiral coils have inner and outer diameter of 23 mm and 36.5 mm, respectively. We found that for the same number of turns, quality factor Q increases with an increase in spacing. This is attributed to proximity effects in adjacent conductive tracks of the coil. An increase of Q at 6.78 MHz by 121% from the minimum value was achieved by systematically varying the different topologies. We conclude that an optimal topology of choice for a spiral coil is larger spacing and smaller number of turns.",

keywords = "inductive, spiral coils, wireless power",

author = "Ng, {David C.} and Clive Boyd and Shun Bai and Gordana Felic and Mark Halpern and Efstratios Skafidas",

year = "2010",

doi = "10.1109/EMCSA.2010.6141509",

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Ng, DC, Boyd, C, Bai, S, Felic, G, Halpern, M & Skafidas, E 2010, High-Q flexible spiral inductive coils. in 2010 Electromagnetic Compatibility Symposium - Melbourne, EMC Melbourne 2010., 6141509, 2010 Electromagnetic Compatibility Symposium - Melbourne, EMC Melbourne 2010, 2010 Electromagnetic Compatibility Symposium - Melbourne, EMCSA 2010, Melbourne, VIC, Australia, 8/09/10. https://doi.org/10.1109/EMCSA.2010.6141509

TY - GEN

T1 - High-Q flexible spiral inductive coils

AU - Ng, David C.

AU - Boyd, Clive

AU - Bai, Shun

AU - Felic, Gordana

AU - Halpern, Mark

AU - Skafidas, Efstratios

PY - 2010

Y1 - 2010

N2 - A limitation on the optimal design of inductive coils for wireless power transfer is its physical size. We investigated the effect of varying width and spacing of conductive trace of spiral inductive coils in order to improve its quality factor and hence power transfer efficiency between two coils. These spiral coils have inner and outer diameter of 23 mm and 36.5 mm, respectively. We found that for the same number of turns, quality factor Q increases with an increase in spacing. This is attributed to proximity effects in adjacent conductive tracks of the coil. An increase of Q at 6.78 MHz by 121% from the minimum value was achieved by systematically varying the different topologies. We conclude that an optimal topology of choice for a spiral coil is larger spacing and smaller number of turns.

AB - A limitation on the optimal design of inductive coils for wireless power transfer is its physical size. We investigated the effect of varying width and spacing of conductive trace of spiral inductive coils in order to improve its quality factor and hence power transfer efficiency between two coils. These spiral coils have inner and outer diameter of 23 mm and 36.5 mm, respectively. We found that for the same number of turns, quality factor Q increases with an increase in spacing. This is attributed to proximity effects in adjacent conductive tracks of the coil. An increase of Q at 6.78 MHz by 121% from the minimum value was achieved by systematically varying the different topologies. We conclude that an optimal topology of choice for a spiral coil is larger spacing and smaller number of turns.

KW - inductive

KW - spiral coils

KW - wireless power

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SN - 9781424486953

T3 - 2010 Electromagnetic Compatibility Symposium - Melbourne, EMC Melbourne 2010

BT - 2010 Electromagnetic Compatibility Symposium - Melbourne, EMC Melbourne 2010

T2 - 2010 Electromagnetic Compatibility Symposium - Melbourne, EMCSA 2010

Y2 - 8 September 2010 through 10 September 2010

ER -

High-Q flexible spiral inductive coils

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

Access to Document

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