Add to ORKGA noise analysis procedure for microwave devices based on Langevin approach is presented. The device is represented by its equivalent circuit with the internal noise sources included as stochastic processes. Fromthe circuit network analysis a stochastic integral equation for the output voltage is derived and fromits power spectrumthe noise figure as a function of the operating frequency is obtained. The theoretical results have been compared with experimental data obtained by the characterization of an HEMT transistor series (NE20283A, by NEC) from6 to 18 GHz at a low noise bias point. The reported procedure exhibits good accuracy, within the typical uncertainty range of any experimental determination. The approach allows to extract all the...
Phase noise in microwave transistors is studied both theoretically and experimentally using residual...
The experimental procedures and laboratory set-ups aimed at the characterisation and empirical model...
The additive noise (i.e., noise figure) in the 1-Hz-1-GHz range and multiplicative noise (i.e., gain...
A noise analysis procedure for microwave devices based on Langevin approach is presented. The devic...
Noise parameters are an electrical representation of the noise performance of transistors which is w...
Abstract—We introduce a stochastic model for the determi-nation of phase noise in optoelectronic osc...
International audienceWe introduce a stochastic model for the determination of phase noise in optoel...
Abstract — This paper is a summary of our research in the field of noise in oscillators. An origina...
In this paper a new approach of thermal noise analysis of electronic oscillators is presented. Altho...
A technology-independent, inherently nonlinear approach is proposed for the compact modelling of hig...
This thesis has two parts. The first part discuss noise model extraction methods for FETs. The secon...
International audiencePhase noise in microwave transistors is studied both theoretically and experim...
Theoretical thesis.Bibliography: pages 54-57.1 Introduction -- 2 Modelling noise in FETs -- 3 Noise ...
International audienceInvited paper The modeling of microwave transistors in the field of RF and Mic...
The purpose of this paper is to develop an analytical method in order to model the noise parameters ...
Phase noise in microwave transistors is studied both theoretically and experimentally using residual...
The experimental procedures and laboratory set-ups aimed at the characterisation and empirical model...
The additive noise (i.e., noise figure) in the 1-Hz-1-GHz range and multiplicative noise (i.e., gain...
A noise analysis procedure for microwave devices based on Langevin approach is presented. The devic...
Noise parameters are an electrical representation of the noise performance of transistors which is w...
Abstract—We introduce a stochastic model for the determi-nation of phase noise in optoelectronic osc...
International audienceWe introduce a stochastic model for the determination of phase noise in optoel...
Abstract — This paper is a summary of our research in the field of noise in oscillators. An origina...
In this paper a new approach of thermal noise analysis of electronic oscillators is presented. Altho...
A technology-independent, inherently nonlinear approach is proposed for the compact modelling of hig...
This thesis has two parts. The first part discuss noise model extraction methods for FETs. The secon...
International audiencePhase noise in microwave transistors is studied both theoretically and experim...
Theoretical thesis.Bibliography: pages 54-57.1 Introduction -- 2 Modelling noise in FETs -- 3 Noise ...
International audienceInvited paper The modeling of microwave transistors in the field of RF and Mic...
The purpose of this paper is to develop an analytical method in order to model the noise parameters ...
Phase noise in microwave transistors is studied both theoretically and experimentally using residual...
The experimental procedures and laboratory set-ups aimed at the characterisation and empirical model...
The additive noise (i.e., noise figure) in the 1-Hz-1-GHz range and multiplicative noise (i.e., gain...