Title :
Ultra-wideband MMIC active power splitters with arbitrary phase relationships
Author :
Kamitsuna, Hideki ; Ogawa, Hiroyo
Author_Institution :
ATR Opt. & Radio Commun. Res. Labs., Kyoto, Japan
fDate :
9/1/1993 12:00:00 AM
Abstract :
Novel MMIC active power splitters, which allow arbitrary phase division over wide frequency ranges exceeding an octave in bandwidth, are proposed. An FET´s inherent phase inversion properties together with phase adjustment circuits, e.g., common drain FETs followed by phase-shift transmission lines, can be successfully combined for broadband, arbitrary phase division. As an example of this technique, an MMIC active quadrature splitter has been designed and fabricated in a 1.1 mm×0.7 mm chip area. A phase error of less than 5° with a magnitude imbalance of less than 1 dB has been demonstrated over a double-octave frequency range of 7.2-21.6 GHz. The MMIC active power splitter promises to make possible miniaturized, full MMIC signal processing components
Keywords :
MMIC; active networks; field effect integrated circuits; 7.2 to 21.6 GHz; FET; MMIC; SHF; active power splitters; active quadrature splitter; arbitrary phase relationships; broadband; common drain FETs; double-octave frequency range; monolithic microwave IC; phase adjustment circuits; phase division; phase error; phase-shift transmission lines; ultra-wideband; Bandwidth; Coplanar transmission lines; Couplers; Distributed parameter circuits; FETs; Frequency; MMICs; Phase shifters; Power transmission lines; Ultra wideband technology;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
