Title :
94-GHz pulsed silicon IMPATT oscillator modeling
Author :
Beaussart, Stéphane ; Perrin, Olivier ; Friscourt, Marie-Renée ; Dalle, Christophe
Author_Institution :
IEMN-DHS, CNRS, Villeneuve d´´Ascq, France
fDate :
10/1/1998 12:00:00 AM
Abstract :
A new type of 94-GHz pulsed silicon impact avalanche and transit time (IMPATT) oscillator numerical modeling is described. It consists of a set of three models of increasing complexity; namely, a pure sine model, time-domain isothermal model, and time-domain electro-thermal model, which basically rely on a diode one-dimensional bipolar drift-diffusion model embedded in a time-domain circuit modeling. In this paper, they are first used to investigate the 94-GHz diode intrinsic operation and performance. Secondly, the load-impedance level has been optimized. In each case, the thermal behavior is especially considered. Thirdly, pulse-operation-simulation results are compared with experiments performed at Thomson CSF, Radars et Contre-Mesures, Elancourt, France. Finally, some improvements of the present modeling are discussed in Section VI
Keywords :
IMPATT oscillators; elemental semiconductors; millimetre wave oscillators; semiconductor device models; silicon; 94 GHz; Si; diode one-dimensional bipolar drift diffusion model; load impedance; numerical model; pulsed silicon IMPATT oscillator; sine model; time domain circuit model; time domain electrothermal model; time domain isothermal model; Circuits; Isothermal processes; Numerical models; Oscillators; Radar; Radio frequency; Semiconductor diodes; Silicon; Temperature; Time domain analysis;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
