Title :
Diversity gain from a single-port adaptive antenna using switched parasitic elements illustrated with a wire and monopole prototype
Author :
Scott, Neil L. ; Leonard-Taylor, Miles O. ; Vaughan, Rodney G.
Author_Institution :
New Zealand Inst. for Ind. Res. Ltd., Lower Hutt, New Zealand
fDate :
6/1/1999 12:00:00 AM
Abstract :
A new concept in single-port adaptive antennas using parasitic elements with switched terminating impedances is presented including results from a concept prototype. Each parasitic element can be effectively terminated in three impedance values. The antenna concept provides multiple radiation patterns with a single RF signal port without the need for RF switches or phase shifters in the direct RF signal path. Impedance variations in the active antenna element are minimized by use of only rotationally symmetric configurations. Measured patterns are used to demonstrate the performance improvement expected using switched diversity combining in a simulated uniform scattering scenario. The concept prototype having one active element and four parasitic elements, is shown to have equivalent diversity performance to between three and four uncorrelated branches
Keywords :
UHF antennas; active antenna arrays; adaptive antenna arrays; antenna accessories; antenna radiation patterns; diversity reception; electric impedance; land mobile radio; monopole antenna arrays; wire antennas; 851 MHz; RF signal port; active antenna element; diversity gain; impedance variations; monopole prototype; radiation patterns; rotationally symmetric configurations; simulated uniform scattering scenario; single-port adaptive antenna; switched diversity combining; switched parasitic elements; switched terminating impedances; wire prototype; Adaptive arrays; Antenna measurements; Antenna radiation patterns; Diversity methods; Diversity reception; Impedance; Phase shifters; Prototypes; Radio frequency; Switches;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
