Title :
High power S band limiter simulation with a physics-based accurate nonlinear PIN diode model
Author :
Gatard, Emmanuel ; Sommet, Raphaël ; Bouysse, Philippe ; Quéré, Raymond ; Stanislawiak, Michel ; Bureau, Jean-Marc
Author_Institution :
XLIM CNRS UMR, Brive-la-Gaillarde
Abstract :
This paper deals with the simulation and the design of an active dual stage high power S band limiter. The contribution of this work relies on an accurate nonlinear PIN diode model that has been used to predict the limiter performances. This model takes into account recombination phenomenon in the heavily doped region and include junctions effects. In the first section, the model is presented and validated by measurement results on two thin diodes. In the second section, the limiter output power and isolation characteristics are validated by power measurements up to +55 dBm and by spectrum measurements.
Keywords :
microwave limiters; p-i-n diodes; power measurement; heavily doped region; high power S band limiter simulation; isolation characteristics; physics-based accurate nonlinear PIN diode model; power measurement; spectrum measurement; Analytical models; Boundary conditions; Circuit simulation; Diodes; Impedance; Integrated circuit modeling; Microwave frequencies; Power amplifiers; Power generation; Power measurement; Circuit simulation; Index Terms; PIN diodes; design automation; microwave limiters; modeling;
Conference_Titel :
Microwave Integrated Circuit Conference, 2007. EuMIC 2007. European
Conference_Location :
Munich
Print_ISBN :
978-2-87487-002-6
DOI :
10.1109/EMICC.2007.4412650
