DocumentCode
1665417
Title
Device simulation for advanced Si1-xGex HBTs
Author
Mastrapasqua, M. ; Pacelli, A. ; Palestri, P. ; King, C.A.
Author_Institution
Agere Syst., Murray Hill, NJ, USA
fYear
2001
fDate
6/23/1905 12:00:00 AM
Firstpage
42
Lastpage
51
Abstract
Accurate simulations of advanced Si1-xGex heterojunction bipolar transistors involve a range of different problems, whose solution demands different numerical approaches. In our simulation methodology, the complexity of each numerical method matches that of the problem at hand. We employ a 2D drift-diffusion solver for dc and ac characteristics, 1D full-band Monte Carlo for transport in the base-collector high electric field region, and a 3D heat-transport solver for device self-heating. Extrinsic parasitics are introduced as lumped circuit elements whose values are obtained from measurements. This approach not only reduces the computational cost of the simulation, but it also helps to differentiate the relevance of the intrinsic and extrinsic device parameters. Such information can then be used for device optimization and for guidance in generating compact models
Keywords
Ge-Si alloys; Monte Carlo methods; carrier mobility; heterojunction bipolar transistors; semiconductor device models; semiconductor materials; thermal resistance; 1D full-band Monte Carlo; 2D drift-diffusion solver; 3D heat-transport solver; Si1-xGex; Si1-xGex HBTs; ac characteristics; base-collector high electric field region; compact models; computational cost; cut-off frequency; dc characteristics; device optimization; device self-heating; device simulation; electron velocity profile; extrinsic parasitics; heterojunction bipolar transistors; lumped circuit elements; maximum oscillation frequency; numerical method complexity; simulation methodology; thermal resistance; Application specific integrated circuits; Bipolar integrated circuits; Bipolar transistors; Circuit simulation; Computational modeling; Heterojunction bipolar transistors; High speed integrated circuits; Integrated circuit technology; Monte Carlo methods; Photonic integrated circuits;
fLanguage
English
Publisher
ieee
Conference_Titel
Bipolar/BiCMOS Circuits and Technology Meeting, Proceedings of the 2001
Conference_Location
Minneapolis, MN
Print_ISBN
0-7803-7019-8
Type
conf
DOI
10.1109/BIPOL.2001.957854
Filename
957854
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