Title :
A Miniaturized Unit Cell for Ultra-Broadband Active Millimeter-Wave Frequency Multiplication
Author :
Lewark, U.J. ; Diebold, Sebastian ; Wagner, Steffen ; Tessmann, A. ; Leuther, A. ; Zwick, T. ; Kallfass, I.
Author_Institution :
Inst. fur Hochfrequenztech. und Elektron., Karlsruhe Inst. of Technol., Karlsruhe, Germany
Abstract :
A compact broadband unit cell for the design of broadband frequency multipliers is presented. Based on design methods from moderate frequencies, a novel integrated balanced field-effect transistor architecture is introduced, pushing ultra-broadband balanced frequency multiplication into the high millimeter-wave range. The realized microwave monolithic integrated circuits (MMICs) using this topology provide second harmonic generation over several decades using only a single integrated transistor unit cell. The circuits are fabricated in a metamorphic HEMT technology for convenient integration into multifunctional MMICs and achieve relative bandwidths of 199% from 60 MHz to 80 GHz and 70.1% in D- and G-band (110-170 and 140-220 GHz).
Keywords :
MIMIC; MMIC; frequency multipliers; harmonic generation; high electron mobility transistors; millimetre wave frequency convertors; D-band; G-band; compact broadband unit cell; frequency 60 MHz to 80 GHz; integrated balanced field-effect transistor architecture; metamorphic HEMT technology; microwave monolithic integrated circuits; miniaturized unit cell; multifunctional MMICs; second harmonic generation; single integrated transistor unit cell; ultra-broadband active millimeter-wave frequency multiplication; Field effect transistors; Harmonic analysis; Logic gates; MMICs; Millimeter wave transistors; Topology; GaAs frequency multipliers; III–V devices; microwave and millimeter-wave devices and circuits; microwave monolithic integrated circuit (MMIC) multipliers; millimeter-microwave and millimeter-wave integrated circuits;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2014.2318272
