Monopoles loaded with coils: A comparison of measured and computed results

Shawn D. Rogers; John C. Young; Chalmers M. Butler

doi:10.1163/156939301X01057

Monopoles loaded with coils: A comparison of measured and computed results

Shawn D. Rogers, John C. Young, Chalmers M. Butler

Producción científica: Article › revisión exhaustiva

4 Citas (Scopus)

Resumen

Loading coils are useful for turning multi-band and broadband wire antennas. Methods for designing coils of desired inductance and for predicting coil-loaded antenna performance are needed to facilitate realization of such antennas. This paper addresses these needs. Expressions for the inductance of a series of loops of constant current are used for approximating the inductance of helical coils. The electric field integral equation is solved in order to model the antennas, and the loads are treated as delta-gap impedances. The input impedance and voltage standing wave ratio (VSWR) of monopole antennas loaded with helical coils were measured over the frequency range 50-1200 MHz. The corroboration of computed results by measurement is excellent in most cases. However, it must not be taken for granted that any coil may be treated as a lumped- load inductor in the antenna model. For further investigation of the properties of coils for which the lumped-load model results do not agree with measurements, the coil-loaded antenna is modeled with curved- wire integral equation solution techniques.

Idioma original	English
Páginas (desde-hasta)	833-857
Número de páginas	25
Publicación	Journal of Electromagnetic Waves and Applications
Volumen	15
N.º	6
DOI	https://doi.org/10.1163/156939301X01057
Estado	Published - 2001

Nota bibliográfica

Funding Information:
The authors gratefully acknowledge support of this work US Army Research Office through grants DAAH04-95-1-0247 DAAG55-98-1-0009 and by the Office of Naval Research through grant N00014-00-1-0565. This material is also based upon work supported under two National Science Foundation Graduate Fellowships. The efforts of Jeremy Rudbeck who assisted during the antenna construction and measurements are sincerely appreciated.

Financiación

The authors gratefully acknowledge support of this work US Army Research Office through grants DAAH04-95-1-0247 DAAG55-98-1-0009 and by the Office of Naval Research through grant N00014-00-1-0565. This material is also based upon work supported under two National Science Foundation Graduate Fellowships. The efforts of Jeremy Rudbeck who assisted during the antenna construction and measurements are sincerely appreciated.

Financiadores	Número del financiador
National Science Foundation (NSF)
Office of Naval Research	N00014-00-1-0565
Army Research Office	DAAH04-95-1-0247 DAAG55-98-1-0009

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
General Physics and Astronomy
Electrical and Electronic Engineering

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title = "Monopoles loaded with coils: A comparison of measured and computed results",

abstract = "Loading coils are useful for turning multi-band and broadband wire antennas. Methods for designing coils of desired inductance and for predicting coil-loaded antenna performance are needed to facilitate realization of such antennas. This paper addresses these needs. Expressions for the inductance of a series of loops of constant current are used for approximating the inductance of helical coils. The electric field integral equation is solved in order to model the antennas, and the loads are treated as delta-gap impedances. The input impedance and voltage standing wave ratio (VSWR) of monopole antennas loaded with helical coils were measured over the frequency range 50-1200 MHz. The corroboration of computed results by measurement is excellent in most cases. However, it must not be taken for granted that any coil may be treated as a lumped- load inductor in the antenna model. For further investigation of the properties of coils for which the lumped-load model results do not agree with measurements, the coil-loaded antenna is modeled with curved- wire integral equation solution techniques.",

author = "Rogers, \{Shawn D.\} and Young, \{John C.\} and Butler, \{Chalmers M.\}",

note = "Funding Information: The authors gratefully acknowledge support of this work US Army Research Office through grants DAAH04-95-1-0247 DAAG55-98-1-0009 and by the Office of Naval Research through grant N00014-00-1-0565. This material is also based upon work supported under two National Science Foundation Graduate Fellowships. The efforts of Jeremy Rudbeck who assisted during the antenna construction and measurements are sincerely appreciated.",

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AU - Young, John C.

AU - Butler, Chalmers M.

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PY - 2001

Y1 - 2001

N2 - Loading coils are useful for turning multi-band and broadband wire antennas. Methods for designing coils of desired inductance and for predicting coil-loaded antenna performance are needed to facilitate realization of such antennas. This paper addresses these needs. Expressions for the inductance of a series of loops of constant current are used for approximating the inductance of helical coils. The electric field integral equation is solved in order to model the antennas, and the loads are treated as delta-gap impedances. The input impedance and voltage standing wave ratio (VSWR) of monopole antennas loaded with helical coils were measured over the frequency range 50-1200 MHz. The corroboration of computed results by measurement is excellent in most cases. However, it must not be taken for granted that any coil may be treated as a lumped- load inductor in the antenna model. For further investigation of the properties of coils for which the lumped-load model results do not agree with measurements, the coil-loaded antenna is modeled with curved- wire integral equation solution techniques.

AB - Loading coils are useful for turning multi-band and broadband wire antennas. Methods for designing coils of desired inductance and for predicting coil-loaded antenna performance are needed to facilitate realization of such antennas. This paper addresses these needs. Expressions for the inductance of a series of loops of constant current are used for approximating the inductance of helical coils. The electric field integral equation is solved in order to model the antennas, and the loads are treated as delta-gap impedances. The input impedance and voltage standing wave ratio (VSWR) of monopole antennas loaded with helical coils were measured over the frequency range 50-1200 MHz. The corroboration of computed results by measurement is excellent in most cases. However, it must not be taken for granted that any coil may be treated as a lumped- load inductor in the antenna model. For further investigation of the properties of coils for which the lumped-load model results do not agree with measurements, the coil-loaded antenna is modeled with curved- wire integral equation solution techniques.

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Monopoles loaded with coils: A comparison of measured and computed results

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Nota bibliográfica

Financiación

ASJC Scopus subject areas

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