Title :
Nonlinear behavioral modeling of oscillators in VHDL-AMS using Artificial Neural Networks
Author :
Kraemer, M. ; Dragomirescu, D. ; Plana, R.
Author_Institution :
LAAS-CNRS, Toulouse Univ., Toulouse
fDate :
June 17 2008-April 17 2008
Abstract :
In this paper an approach to behavioral modeling of microwave oscillators is described. The presented model takes into account start-up, steady state behavior and phase noise. To describe the nonlinearities, an artificial neural network (ANN) is employed. The dynamic behavior of the oscillator is described by a system of differential equations that are solved in VHDL-AMS. As opposed to input-output models of microwave devices, this paper presents a self sustaining oscillation, which starts from a small injected excitation (e.g. noise) and ends in a stable limit cycle. Additionally, the phase noise characteristics of the oscillator in the 1/f2 and flat region are emulated.
Keywords :
electronic engineering computing; hardware description languages; microwave oscillators; neural nets; phase noise; ANN; VHDL-AMS; artificial neural networks; microwave devices; microwave oscillators; nonlinear behavioral modeling; phase noise; self sustaining oscillation; small injected excitation; steady state behavior; Artificial neural networks; Circuit simulation; Differential equations; Integrated circuit modeling; Microwave oscillators; Nonlinear dynamical systems; Nonlinear equations; Phase noise; State-space methods; Transceivers; VHDL-AMS; artificial neural network; behavioral modeling; black box model; oscillator;
Conference_Titel :
Radio Frequency Integrated Circuits Symposium, 2008. RFIC 2008. IEEE
Conference_Location :
Atlanta, GA
Print_ISBN :
978-1-4244-1808-4
Electronic_ISBN :
1529-2517
DOI :
10.1109/RFIC.2008.4561531
