Teh-Hong Lee scite author profile

Compact range reflector edge diffraction can be reduced by using an R-card fence. Well-designed R-cards placed in front of reflector edges reduce the field variations in the test zone. The keys to successful R-card design are proper choices of both the geometry and resistance profile. In this paper, a two-dimensional (2-D) version of the problem is attacked to show the basic concepts and essential considerations in designing R-cards. The complexity of a design is simplified by separating the different mechanisms associated with R-cards. Undesired mechanisms can be visualized by ray tracing and then eliminated by choosing the correct R-card geometry. The useful impact of this treatment is illustrated as it controls the transmitted energy level through the R-card; thus, the resistance of the R-card is defined based on an optimum aperture taper. Excellent performance in both the cross-range and downrange directions is presented, and the validity of the design is verified over a wide band of frequencies. The simplicity, flexibility, and low cost of this R-card fence concept provides a viable alternative to other edge treatments.Index Terms-Compact range, R-card, reflector edge, test zone.

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Compact range reflector edge treatment impact on antenna and scattering measurements

Lee

Burnside

1997

IEEE Trans. Antennas Propagat.

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Expansion of existing EM workbench for multiple computational electromagnetics codes

Paynter¹,

Lee²,

Burnside³

2003

IEEE Antennas Propag. Mag.

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Teh-Hong Lee

Adaptive sampling for fast physical optics numerical integration

Shaped Circularly Symmetric Dual Reflector Antennas by Combining Local Conventional Dual Reflector Systems

Enhanced compact range reflector concept using an R-card fence: two-dimensional case

Compact range reflector edge treatment impact on antenna and scattering measurements

Expansion of existing EM workbench for multiple computational electromagnetics codes

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