Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation

J. Sosa-Pedroza; S. Pena-Ruiz; F. Martínez-Zúniga

doi:10.1109/PIERS.2017.8261882

Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation

J. Sosa-Pedroza, S. Pena-Ruiz, F. Martínez-Zúniga

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Zacatenco

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

1 Scopus citations

Abstract

We present a technique to define far field radiation pattern of an antenna. Methodology applies the discrete Pocklington equation to transform the surface field data into a current distribution along the antenna, defining virtual currents over its surface and then through array theory obtain far field patterns. We apply the method over a 1.5 m diameter parabolic reflector, using Finite Difference Time Domain Method (FDTD), to geometricaly acquire magnitude and phase of field over the surface, where the electric field must be known; the acquired electric field is transformed into a current vector using the discrete Pocklington equation, and then we apply array theory, defining an array factor to obtain the field pattern in the Fraunhofer region. To validate our results, we compare them measuring an actual reflector at 2.45 GHz.

Original language	English
Title of host publication	2017 Progress in Electromagnetics Research Symposium - Spring, PIERS 2017
Editors	Weng Cho Chew, Sailing He, Sailing He
Publisher	Electromagnetics Academy
Pages	958-964
Number of pages	7
ISBN (Electronic)	9781509062690
DOIs	https://doi.org/10.1109/PIERS.2017.8261882
State	Published - 2017
Event	2017 Progress In Electromagnetics Research Symposium - Spring, PIERS 2017 - St. Petersburg, Russian Federation Duration: 22 May 2017 → 25 May 2017

Publication series

Name	Progress in Electromagnetics Research Symposium
ISSN (Print)	1559-9450
ISSN (Electronic)	1931-7360

Conference

Conference	2017 Progress In Electromagnetics Research Symposium - Spring, PIERS 2017
Country/Territory	Russian Federation
City	St. Petersburg
Period	22/05/17 → 25/05/17

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10.1109/PIERS.2017.8261882

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Sosa-Pedroza, J., Pena-Ruiz, S., & Martínez-Zúniga, F. (2017). Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation. In W. C. Chew, S. He, & S. He (Eds.), 2017 Progress in Electromagnetics Research Symposium - Spring, PIERS 2017 (pp. 958-964). (Progress in Electromagnetics Research Symposium). Electromagnetics Academy. https://doi.org/10.1109/PIERS.2017.8261882

Sosa-Pedroza, J. ; Pena-Ruiz, S. ; Martínez-Zúniga, F. / Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation. 2017 Progress in Electromagnetics Research Symposium - Spring, PIERS 2017. editor / Weng Cho Chew ; Sailing He ; Sailing He. Electromagnetics Academy, 2017. pp. 958-964 (Progress in Electromagnetics Research Symposium).

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abstract = "We present a technique to define far field radiation pattern of an antenna. Methodology applies the discrete Pocklington equation to transform the surface field data into a current distribution along the antenna, defining virtual currents over its surface and then through array theory obtain far field patterns. We apply the method over a 1.5 m diameter parabolic reflector, using Finite Difference Time Domain Method (FDTD), to geometricaly acquire magnitude and phase of field over the surface, where the electric field must be known; the acquired electric field is transformed into a current vector using the discrete Pocklington equation, and then we apply array theory, defining an array factor to obtain the field pattern in the Fraunhofer region. To validate our results, we compare them measuring an actual reflector at 2.45 GHz.",

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Sosa-Pedroza, J, Pena-Ruiz, S & Martínez-Zúniga, F 2017, Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation. in WC Chew, S He & S He (eds), 2017 Progress in Electromagnetics Research Symposium - Spring, PIERS 2017. Progress in Electromagnetics Research Symposium, Electromagnetics Academy, pp. 958-964, 2017 Progress In Electromagnetics Research Symposium - Spring, PIERS 2017, St. Petersburg, Russian Federation, 22/05/17. https://doi.org/10.1109/PIERS.2017.8261882

Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation. / Sosa-Pedroza, J.; Pena-Ruiz, S.; Martínez-Zúniga, F.
2017 Progress in Electromagnetics Research Symposium - Spring, PIERS 2017. ed. / Weng Cho Chew; Sailing He; Sailing He. Electromagnetics Academy, 2017. p. 958-964 (Progress in Electromagnetics Research Symposium).

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

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T1 - Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation

AU - Sosa-Pedroza, J.

AU - Pena-Ruiz, S.

AU - Martínez-Zúniga, F.

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N2 - We present a technique to define far field radiation pattern of an antenna. Methodology applies the discrete Pocklington equation to transform the surface field data into a current distribution along the antenna, defining virtual currents over its surface and then through array theory obtain far field patterns. We apply the method over a 1.5 m diameter parabolic reflector, using Finite Difference Time Domain Method (FDTD), to geometricaly acquire magnitude and phase of field over the surface, where the electric field must be known; the acquired electric field is transformed into a current vector using the discrete Pocklington equation, and then we apply array theory, defining an array factor to obtain the field pattern in the Fraunhofer region. To validate our results, we compare them measuring an actual reflector at 2.45 GHz.

AB - We present a technique to define far field radiation pattern of an antenna. Methodology applies the discrete Pocklington equation to transform the surface field data into a current distribution along the antenna, defining virtual currents over its surface and then through array theory obtain far field patterns. We apply the method over a 1.5 m diameter parabolic reflector, using Finite Difference Time Domain Method (FDTD), to geometricaly acquire magnitude and phase of field over the surface, where the electric field must be known; the acquired electric field is transformed into a current vector using the discrete Pocklington equation, and then we apply array theory, defining an array factor to obtain the field pattern in the Fraunhofer region. To validate our results, we compare them measuring an actual reflector at 2.45 GHz.

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BT - 2017 Progress in Electromagnetics Research Symposium - Spring, PIERS 2017

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Sosa-Pedroza J, Pena-Ruiz S, Martínez-Zúniga F. Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation. In Chew WC, He S, He S, editors, 2017 Progress in Electromagnetics Research Symposium - Spring, PIERS 2017. Electromagnetics Academy. 2017. p. 958-964. (Progress in Electromagnetics Research Symposium). doi: 10.1109/PIERS.2017.8261882

Parabolic reflector near-field to far-field transformation using FDTDM and pocklington equation

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