Title :
An ultra-low power integrated T/R module for space-based radar technology
Author :
Kazemi, Hooman ; Hacker, Jonathan B. ; Xin, H. ; Grace, Mike ; Norvell, B. ; Higgins, Kevin ; Gilbert, Michael
Author_Institution :
Rockwell Sci. Co., Thousand Oaks, CA, USA
Abstract :
The choice of InP HEMT technology is discussed for a highly efficient integrated T/R module. The module includes a receive path comprising of a low noise amplifier, phase shifter and amplifier consuming only 5 mW of DC power at X-band. The transmit path combines phase shifters and amplifiers to provide 10 mW of power per module at an efficiency of 50%. This is achieved by increasing the cut-off frequency of InP HEMT devices and sacrificing their gain for lower DC power consumption. This provides both DC and RF performance criteria for the space based radar antenna design requirements. Future T/R module technologies are also discussed, based on the antimonide based material system, which have already shown a factor of 3-4 reduction in DC power consumption compared to InP HEMT technology.
Keywords :
HEMT integrated circuits; III-V semiconductors; MMIC amplifiers; MMIC phase shifters; indium compounds; low-power electronics; radar antennas; space vehicle electronics; spaceborne radar; 10 mW; 5 mW; 50 percent; DC power consumption; HEMT cut-off frequency; InP; MMIC; X-band; active lens antenna; low noise amplifier; phase shifter; power efficiency; space based radar antenna; space-based radar; ultra-low power integrated T/R module; Energy consumption; HEMTs; Indium phosphide; Low-noise amplifiers; Phase noise; Phase shifters; Power amplifiers; Radiofrequency amplifiers; Space technology; Spaceborne radar;
Conference_Titel :
Radar Conference, 2004. Proceedings of the IEEE
Print_ISBN :
0-7803-8234-X
DOI :
10.1109/NRC.2004.1316386
