The NASA/CIT Jet Propulsion Laboratory deep-space network will utilize Ka-band communication systems (32-GHz downlink, 34-GHz uplink) for deep-space missions in the mid-1990s. For the spaceborne segment, a small Ka-band planar phased array with approximately 25 elements can be used to feed a 4-m dual-reflector system. The beam scanning capability of the phased-array allows the narrow beam ( approximately 0.2 degrees ) of the large reflector to perform fine beam pointing toward Earth. A 32-GHz transmitting phased array is currently under development utilizing MMIC (monolithic microwave integrated circuit) devices. As a first step, a linear array composed of six subarrays of microstrip radiators, six modules of power amplifiers, and phase shifters has been fabricated and tested. The results indicate that this MMIC phased array has adequate beam scanning capability.<<ETX>>
[1]
Y. Lo,et al.
An Improved Theory for Microstrip Antennas and Applications. Part I.
,
1979
.
[2]
A. Contolatis,et al.
30 GHz Multi-Bit Monolithic Phase Shifters
,
1985,
Microwave and Millimeter-Wave Monolithic Circuits.
[3]
J. Huang,et al.
The finite ground plane effect on the microstrip antenna radiation patterns
,
1983
.
[4]
Vladimir Sokolov,et al.
A GaAs Monolithic Phase Shifter for 30 GHz Application
,
1983
.
[5]
N. Camilleri,et al.
A high efficiency Ka-band monolithic GaAs FET amplifier
,
1988,
10th Annual IEEE (GaAs IC) Symposium, Gallium Arsenide Integrated Circuit. Technical Digest 1988..