Title :
A C-band beam-forming matrix for phased-array antenna applications
Author :
Estep, G. ; Gupta, Rajesh ; Hampsch, T. ; Zaharovits, M. ; Pryor, L. ; Chen, Ci ; Zaghloul, A. ; Assal, F.
Author_Institution :
COMSAT Lab., Clarksburg, MD, USA
Abstract :
A design description and measured performance of a modular beam-forming matrix (BFM) are presented. Advanced GaAs monolithic microwave integrated circuit (MMIC) phase shifter and attenuator designs ensure repeatable performance and small size. A novel BFM integration approach is used which ensures state-of-the-art performance, low mass, and high reliability, as well as low-risk/low-cost assembly. The 8/spl times/8 BFM shelf includes 192 GaAs MMICs, 200 silicon ICs, and 16 eight-way power dividers/combiners in an assembly measuring only 21/spl times/16/spl times/1.5 cm. While the design presented is for an eight-beam C-band phased array, the modular architecture easily accommodates other array configurations at different frequency bands with different numbers of beams and elements.<>
Keywords :
MMIC phase shifters; antenna phased arrays; microwave antenna arrays; microwave antennas; multibeam antennas; C-band; MMIC attenuator; MMIC phase shifter; beam-forming matrix; eight-way power dividers/combiners; modular architecture; multibeam antenna; phased-array antenna applications; reliability; Antenna measurements; Assembly; Attenuators; Gallium arsenide; Integrated circuit measurements; MMICs; Microwave integrated circuits; Monolithic integrated circuits; Phase shifters; Phased arrays;
Conference_Titel :
Microwave Symposium Digest, 1995., IEEE MTT-S International
Conference_Location :
Orlando, FL, USA
Print_ISBN :
0-7803-2581-8
DOI :
10.1109/MWSYM.1995.406192
