论文信息 - HB-based CAD-oriented dynamic stability analysis of circuits and devices: Application to the assessment of thermal instabilities in multifinger HBTs

HB-based CAD-oriented dynamic stability analysis of circuits and devices: Application to the assessment of thermal instabilities in multifinger HBTs

We present a novel CAD-oriented approach to the analysis of thermal instabilities in power HBTs. The stability analysis is carried out in time-periodic dynamic conditions, by calculating the Floquet multipliers of the limit cycle representing the HBT working point. Such a computation is performed directly in the frequency domain, one the sole basis of the Jacobian of the Harmonic Balance problem yielding the limit cycle. The corresponding stability assessment is therefore rigorous, and the efficient calculation method makes it readily implementable in CAD tools allowing for circuit and device optimization. Results on 3- and 4-finger layouts are shown, including the assessment of popular stabilization techniques such as emitter ballasting and thermal shunt, thus demonstrating the possible use of the approach as an optimization tool.

G. Ghione | F. Bonani | F. Cappelluti | F.L. Traversa

[1] R. H. Winkler. Thermal properties of high-power transistors , 1967 .

[2] Chien-Ping Lee,et al. Optimum design for a thermally stable multifinger power transistor , 2002 .

[3] Christopher M. Snowden,et al. Analysis of thermal instability in multi-finger power AlGaAs/GaAs HBT's , 1996 .

[4] S. Nelson,et al. Current gain collapse in microwave multifinger heterojunction bipolar transistors operated at very high power densities , 1993 .

[5] F. Bonani,et al. A rigorous assessment of electro-thermal device instabilities via Harmonic Balance modeling , 2008, 2008 European Microwave Integrated Circuit Conference.

[6] Paolo Maffezzoni,et al. Electro-thermal analysis of paralleled bipolar devices , 2000 .

[7] Almudena Suarez,et al. Stability Analysis of Nonlinear Microwave Circuits , 2003 .

[8] V. d'Alessandro,et al. Theory of electrothermal behavior of bipolar transistors: Part I -single-finger devices , 2005, IEEE Transactions on Electron Devices.

[9] R. Burton,et al. Characterization and modeling of InGaP HBT low-frequency oscillations , 2004, IEEE Transactions on Electron Devices.

[10] G. Ghione,et al. A novel, rigorous approach to the dynamic, large-signal stability analysis of semiconductor devices and circuits under electro-thermal interaction , 2008, 2008 IEEE International Electron Devices Meeting.