Title :
Submillimeter-wave InP HEMT amplifiers with current-reuse topology
Author :
Sato, Mitsuhisa ; Shiba, S. ; Matsumura, Hiroshi ; Takahashi, Tatsuro ; Suzuki, Takumi ; Nakasha, Yasuhiro ; Hara, Naoya
Author_Institution :
Fujitsu Ltd., Kawasaki, Japan
Abstract :
This paper describes the use of InP HEMT technology to develop submillimeter-wave amplifier circuits. The amplifiers are designed using common-gate amplifiers with series inductors, which achieve both high gain and wide bandwidth. Two submillimeter-wave amplifiers are designed. One is a D-band amplifier that achieves a small-signal gain of 15 dB at 160 GHz and a -3 dB bandwidth of 89 GHz between 105 and 194 GHz. The other is a G-band amplifier that achieves a small signal gain of 10 dB at 200 GHz and a -3 dB bandwidth of 80 GHz between 130 and more than 220 GHz. These results demonstrate the design methodology is one of the best candidates for developing submillimeter-wave amplifiers.
Keywords :
III-V semiconductors; high electron mobility transistors; indium compounds; inductors; low noise amplifiers; submillimetre wave amplifiers; D-band amplifier; G-band amplifier; InP; InP HEMT technology; common-gate amplifiers; current-reuse topology; frequency 105 GHz to 194 GHz; frequency 160 GHz; frequency 200 GHz; frequency 80 GHz; frequency 89 GHz; gain 10 dB; gain 15 dB; series inductors; submillimeter-wave amplifier circuits; Bandwidth; Gain; HEMTs; Indium phosphide; Inductors; Logic gates; Power demand; D-band; G-band; HEMT; common-gate amplifier; current reuse topology; low noise amplifier; spiral inductor; thin film microstrip line;
Conference_Titel :
Biomedical Wireless Technologies, Networks, and Sensing Systems (BioWireleSS), 2013 IEEE Topical Conference on
Conference_Location :
Austin, TX
Print_ISBN :
978-1-4673-2930-9
DOI :
10.1109/BioWireleSS.2013.6613679
