New Designs for a Feed Fence to Reduce the Direct Coupling to the Quiet Zone on Compact Ranges

Authors: Vince Rodriguez, Mark Ingerson, Anil Tellakula, Daniël Janse van Rensburg
Publication: AMTA 2023
Copyright Owner: NSI-MI Technologies

Absorber fences have been used on compact ranges since their first implementations. The purpose of this fence is to hide the feed positioner and reduce the direct coupling between the feed and the device under test (DUT). A known problem caused by such a fence is that it diffracts the plane wave generated by the reflector, creating an interfering ripple on the illumination of the DUT in the quiet zone. Traditionally, fences have serrated edges to direct this diffracted signal away from the quiet zone. However, this redirection is not always achievable or even repeatable from one facility to the next. Often low frequency requirements drive absorber physical size, leading to very large absorbing surfaces that cannot be optimized to reduce this interfering signal. In this paper, the fence design presented in a recent publication [1] is further optimized by modifying its shape and absorbing material parameters. The performance of this new design is compared with traditional fences.

View the paper