Electronics Letters (Feb 2021)
Impact of bandwidth on antenna‐array noise matching
Abstract
Abstract This letter expands the treatments of wideband noise analysis of antenna arrays by including bandwidth effects on beam‐equivalent receiver noise temperature, Trec, and the active reflection coefficient, Γact. The particular focus of the letter is on receiver noise decorrelation in wideband systems having noise bandwidth fB≫1 Hz. The new analysis and simulations show increase in Trec and the departure of Γact from that obtained using contemporary analyses for fB=1 Hz. Although the paper also shows that for many applications over moderate bandwidths and close connection between the receiver and array the influence of fB on Trec is not significant, the simulations of a 71‐element array demonstrate that the noise decorrelation due to wide fB can result in tens of percent (as much as 45.5% in simulations described in this letter) increase in Trec above the low‐noise amplifier minimum noise temperature, which should be taken into account at the design stage of ultra‐wide band systems, such as those under investigation by, for example, the Defense Advanced Research Project Agency (DARPA) in its wideband adaptive RF protection (WARP) program and ultra‐sensitive active electronically scanned array (AESA) radars for tracking stealth objects.
Keywords
