Quiet zone evaluation method for offset single reflector CATR of separated transmitting-receiving feeds

Wang Hui; Bai Ming; Zhao Xin; Miao Jungang

Volume 35 Issue 8

Aug. 2009

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Journal of Beijing University of Aeronautics and Astronautics > 2009 > 35(8): 953-956.

Wang Hui, Bai Ming, Zhao Xin, et al. Quiet zone evaluation method for offset single reflector CATR of separated transmitting-receiving feeds[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(8): 953-956. (in Chinese)

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Wang Hui, Bai Ming, Zhao Xin, et al. Quiet zone evaluation method for offset single reflector CATR of separated transmitting-receiving feeds[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(8): 953-956. (in Chinese)

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Quiet zone evaluation method for offset single reflector CATR of separated transmitting-receiving feeds

School of Electronics and Information Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China

Received Date: 02 Jul 2008
Publish Date: 31 Aug 2009

Abstract

Abstract

Based on the Lorentz reciprocity theorem, an evaluation method was proposed for the quiet zone of offset single reflector compact antenna test range (CATR) with separated transmitting-receiving feeds. Two feeds and reflector compose two separate and measured-mutually antenna systems, and there are two antenna apertures in the same quiet zone position. The electromagnetic characteristics of transmitting-receiving systems can be obtained respectively after the electromagnetic fields in the plane of two equal antenna systems were tested. The equal quiet zone fields can be obtained based on antenna acceptance theorem by transmitting-receiving antennas respective electromagnetic fields. The bistatic equal quiet zone is symmetrical and has narrower ranges, less ripple and less taper than those of monostatic. The equal quiet zone electromagnetic fields were calculated by physical optics. And this quiet zone evaluation method was verified with experiment test.
- antennas,
- electromagnetic fields,
- physical optics

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