High-efficiency class-B push-pull amplifying array for microwave transmitting front end

L. Chiu; T. Y. Yum; C. H K Chin; Q. Xue; C. H. Chan

doi:10.1049/ip-map:20050089

High-efficiency class-B push-pull amplifying array for microwave transmitting front end

L. Chiu, T. Y. Yum, C. H K Chin, Q. Xue, C. H. Chan

Research output: Journal Publications and Reviews › RGC 22 - Publication in policy or professional journal

6 Citations (Scopus)

Abstract

The authors present a novel push-pull amplifying array using quadruple antenna-patch couplers and dual-feed antennas. It exploits the advantages of both class-B push-pull amplifiers and active integrated antennas (AIAs), resulting in a high-efficiency, linear and yet compact design. A state-of-the-art heterojunction FET power amplifier of 50% peak power-added efficiency (PAE) is achieved at 10GHz. A three-element array prototype was successfully built, achieving a peak antenna gain of 19.6dBi. This is 5.7 and 10.4dB better than amplifying arrays using the antenna-patch coupler approach and the conventional parallel feeding network, respectively.

Original language	English
Pages (from-to)	25-28
Journal	IEE Proceedings: Microwaves, Antennas and Propagation
Volume	153
Issue number	1
DOIs	https://doi.org/10.1049/ip-map:20050089
Publication status	Published - Feb 2006

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title = "High-efficiency class-B push-pull amplifying array for microwave transmitting front end",

abstract = "The authors present a novel push-pull amplifying array using quadruple antenna-patch couplers and dual-feed antennas. It exploits the advantages of both class-B push-pull amplifiers and active integrated antennas (AIAs), resulting in a high-efficiency, linear and yet compact design. A state-of-the-art heterojunction FET power amplifier of 50% peak power-added efficiency (PAE) is achieved at 10GHz. A three-element array prototype was successfully built, achieving a peak antenna gain of 19.6dBi. This is 5.7 and 10.4dB better than amplifying arrays using the antenna-patch coupler approach and the conventional parallel feeding network, respectively.",

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T1 - High-efficiency class-B push-pull amplifying array for microwave transmitting front end

AU - Chiu, L.

AU - Yum, T. Y.

AU - Chin, C. H K

AU - Xue, Q.

AU - Chan, C. H.

PY - 2006/2

Y1 - 2006/2

N2 - The authors present a novel push-pull amplifying array using quadruple antenna-patch couplers and dual-feed antennas. It exploits the advantages of both class-B push-pull amplifiers and active integrated antennas (AIAs), resulting in a high-efficiency, linear and yet compact design. A state-of-the-art heterojunction FET power amplifier of 50% peak power-added efficiency (PAE) is achieved at 10GHz. A three-element array prototype was successfully built, achieving a peak antenna gain of 19.6dBi. This is 5.7 and 10.4dB better than amplifying arrays using the antenna-patch coupler approach and the conventional parallel feeding network, respectively.

AB - The authors present a novel push-pull amplifying array using quadruple antenna-patch couplers and dual-feed antennas. It exploits the advantages of both class-B push-pull amplifiers and active integrated antennas (AIAs), resulting in a high-efficiency, linear and yet compact design. A state-of-the-art heterojunction FET power amplifier of 50% peak power-added efficiency (PAE) is achieved at 10GHz. A three-element array prototype was successfully built, achieving a peak antenna gain of 19.6dBi. This is 5.7 and 10.4dB better than amplifying arrays using the antenna-patch coupler approach and the conventional parallel feeding network, respectively.

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M3 - RGC 22 - Publication in policy or professional journal

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JO - IEE Proceedings: Microwaves, Antennas and Propagation

JF - IEE Proceedings: Microwaves, Antennas and Propagation

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High-efficiency class-B push-pull amplifying array for microwave transmitting front end

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