A HF/VHF direction finding antenna with optimised radar cross section

“…However, the added PIN diodes and the accompanying bias networks increase the complexity and manufacturing cost of the system [12,13]. A low radar cross-section (RCS) antenna with an improved receiving antenna performance has been reported, but the complicated antenna structure required to minimise the RCS is not suitable for a mobile DF system [14].…”

Design of a small antenna for wideband mobile direction finding systems

“…However, the added PIN diodes and the accompanying bias networks increase the complexity and manufacturing cost of the system [12,13]. A low radar cross-section (RCS) antenna with an improved receiving antenna performance has been reported, but the complicated antenna structure required to minimise the RCS is not suitable for a mobile DF system [14].…”

Design of a small antenna for wideband mobile direction finding systems

“…In this paper, an ultrabroadband DF antenna array covering the whole UHF frequency range from 0.3 GHz to 3 GHz is introduced. Unlike the common antenna designs using dipols [1,2] the new design consists of ten vivaldi-type antenna elements to cover the UHF frequency range fully. The direction finding antenna array (figure 1) consists of ten vivaldi-type antenna elements, which are mounted in a circular array with an outer diameter of approx.…”

A UHF ultrabroadband vivaldi-type direction finding antenna

A conformal UHF slot type direction finding antenna with optimized Radar Cross Section