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Nonlinear devices characterization and micromachining techniques for RF integrated circuits

Authors :
UCL - FSA/ELEC - Département d'électricité
Schreurs, Dominique
Wambacq, Piet
Vanhoenacker, Danielle
Cerdeira, Antonio
Legat, Jean-Didier
Raskin, Jean-Pierre
Flandre, Denis
Parvais, Bertrand
UCL - FSA/ELEC - Département d'électricité
Schreurs, Dominique
Wambacq, Piet
Vanhoenacker, Danielle
Cerdeira, Antonio
Legat, Jean-Didier
Raskin, Jean-Pierre
Flandre, Denis
Parvais, Bertrand
Publication Year :
2004

Abstract

The present work is dedicated to the development of high performance integrated circuits for wireless communications, by acting of three different levels: technologies, devices, and circuits. Silicon-on-Insulator (SOI) CMOS technology is used in the frame of this work. Micromachining technologies are also investigated for the fabrication of three-dimensional tunable capacitors. The reliability of micromachined thin-film devices is improved by the coating of silanes in both liquid- and vapor-phases. Since in telecommunication applications, distortion is responsible for the generation of spurious frequency bands, the linearity behavior of different SOI transistors is analyzed. The validity range of the existing low-frequency nonlinear characterization methods is discussed. New simple techniques valid at both low- and high-frequencies, are provided, based on the integral function method and on the Volterra series. Finally, the design of a crucial nonlinear circuit, the voltage-controlled oscillator, is introduced. The describing function formalism is used to evaluate the oscillation amplitude and is embedded in a design methodology. The frequency tuning by SOI varactors is analyzed in both small- and large-signal regimes.<br />(FSA 3)--UCL, 2004

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1130587303
Document Type :
Electronic Resource