Title :
Predictive microwave device design by coupled electro-thermal simulation based on a fully physical thermal model
Author :
Batty, W. ; Christoffersen, C.E. ; David, S. ; Panks, A. J J ; Johnson, R.G. ; Snowden, C.M. ; Steer, M.B.
Author_Institution :
Sch. of Electron. & Electr. Eng., Leeds Univ., UK
Abstract :
Coupled electro-thermal simulations are performed to demonstrate predictive design of microwave devices. These simulations are based on an original, fully physical, thermal impedance matrix approach, capable of describing `nearly exactly´ time-dependent heat flow in complex 3-dimensional systems, whilst requiring no model reduction for electro-thermal CAD. This thermal model is validated by thermal imaging of passive grid arrays representative of spatial power combining architectures. Electro-thermal transient, single-tone, two-tone and multi-tone harmonic balance simulations are presented for a MESFET amplifier, by implementing the thermal impedance matrix approach in microwave circuit simulator, Transim (NCSU)
Keywords :
MESFET circuits; circuit simulation; impedance matrix; microwave amplifiers; microwave field effect transistors; power combiners; semiconductor device models; MESFET amplifier; Transim; coupled electro-thermal simulation; electro-thermal CAD; harmonic balance simulation; microwave circuit; microwave device; passive grid array; predictive design; spatial power combining architecture; thermal imaging; thermal impedance matrix model; three-dimensional system; time-dependent heat flow; Circuit simulation; Cogeneration; Design automation; Electromagnetic heating; Impedance; Microwave devices; Microwave imaging; Power system modeling; Predictive models; Reduced order systems;
Conference_Titel :
High Performance Electron Devices for Microwave and Optoelectronic Applications, 2000 8th IEEE International Symposium on
Conference_Location :
Glasgow
Print_ISBN :
0-7803-6550-X
DOI :
10.1109/EDMO.2000.919042
