Title :
Thermally stable AlGaAs/GaAs microwave power HBT´s
Author :
Bayraktaroglu, B. ; Barrette, J. ; Fitch, R. ; Kehias, L. ; Huang, C.I. ; Neidhard, R. ; Scherer, Rafal
Author_Institution :
Wright Lab., Wright-Patterson AFB, OH
fDate :
11/1/1993 12:00:00 AM
Abstract :
Summary form only given. Novel thermal shunt and thermal lens techniques have been used in the design of multiple-emitter AlGaAs/GaAs power HBTs (heterojunction bipolar transistors). Thermal stabilization was achieved by the use of a thick metal bridge connecting all emitters. The thickness of the bridge was designed to assure a virtual thermal short between emitters. The use of such a thermal shunt element redistributes temperature-dependent internal device currents to force an equalization of device junction temperature. The bridge further serves to spread heat from each emitter over a larger GaAs surface (thermal lens), thereby reducing overall device thermal resistance. Multiemitter devices with 2 μm and 3 μm minimum emitter feature sizes were fabricated and tested at microwave frequencies to demonstrate the thermally stable operation
Keywords :
III-V semiconductors; aluminium compounds; gallium arsenide; heterojunction bipolar transistors; power transistors; solid-state microwave devices; stability; thermal resistance; 2 micron; 3 micron; AlGaAs-GaAs; device junction temperature; device thermal resistance; heterojunction bipolar transistors; microwave frequencies; multiemitter devices; multiple-emitter; power HBTs; temperature-dependent internal device currents; thermal lens techniques; thermal shunt; thermally stable operation; thick metal bridge; Bridges; Electromagnetic heating; Gallium arsenide; Heterojunction bipolar transistors; Lenses; Optical design; Surface resistance; Thermal force; Thermal lensing; Thermal resistance;
Journal_Title :
Electron Devices, IEEE Transactions on
