Title :
An overview of high frequency circuit design on the GMMT GaAs HBT process
Author :
McCullagh, Michael ; Moult, Jonathan ; Davies, Richard ; Wallis, Bob ; Wadsworth, Steve
Author_Institution :
GEC-Marconi Mater. Technol. Ltd., Towcester, UK
Abstract :
A new GaAs HBT process has been developed at GMMT for the implementation of high performance microwave and optical sub-systems. Two versions of the process exist: B20 for small signal and digital applications and B20P for microwave power applications. 1/2 static frequency dividers have been designed on the process which toggle at frequencies up to 17 GHz. X-band power MMICs operating over a bandwidth of 9 to 12 GHz deliver an output power of 2 W with a power added efficiency of 30% and associated gain of 14 dB. The unique characteristics of excellent power performance, low 1/f noise and wideband operation will ensure that GaAs HBTs act as a key enabling technology for meeting the ever increasing demands of wireless and optical systems
Keywords :
1/f noise; III-V semiconductors; bipolar MMIC; bipolar analogue integrated circuits; bipolar digital integrated circuits; frequency dividers; gallium arsenide; heterojunction bipolar transistors; integrated circuit noise; power integrated circuits; 1/f noise; 14 dB; 2 W; 30 percent; 9 to 17 GHz; B20 process; B20P process; GMMT HBT process; GaAs; X-band power MMICs; digital applications; enabling technology; high frequency circuit design; high performance microwave sub-systems; microwave power applications; optical sub-systems; output power; power added efficiency; small signal applications; static frequency dividers; wideband operation; Circuit synthesis; Frequency conversion; Gallium arsenide; Heterojunction bipolar transistors; MMICs; Optical frequency conversion; Optical noise; Process design; Signal design; Signal processing;
Conference_Titel :
High Performance Electron Devices for Microwave and Optoelectronic Applications, 1995. EDMO., IEEE 1995 Workshop on
Conference_Location :
London
Print_ISBN :
0-7803-2537-0
DOI :
10.1109/EDMO.1995.493711
