Title :
Microscopic noise modeling and macroscopic noise models: how good a connection? [FETs]
Author :
Danneville, François ; Happy, Henri ; Dambrine, Gilles ; Belquin, Jean-Maxence ; Cappy, Alain
Author_Institution :
Dept. Hyperfrequences et Semicond., Inst. d´´Electron. et de Microelectron. du Nord, Villeneuve d´´Ascq, France
fDate :
5/1/1994 12:00:00 AM
Abstract :
Based on the active line concept, a novel approach for the calculation of the high frequency noise performance of field effect transistors (FET) is proposed. By using a simple analytical theory, the FET small signal equivalent circuit as well as the macroscopic noise sources and their correlation are calculated for different two-port terminations. Values of the usual dimensionless noise parameters P, R, C, gate noise temperature Tg and drain noise temperature T d are then given and discussed. By comparison with a more realistic numerical modeling of the noise performance, the validity of the analytical noise model is discussed. The validity of Pospieszalski´s noise model and its relations with Pucel´s one is emphasized
Keywords :
equivalent circuits; field effect transistors; semiconductor device models; semiconductor device noise; solid-state microwave devices; FET small signal equivalent circuit; active line concept; analytical noise model; dimensionless noise parameters; drain noise temperature; field effect transistors; gate noise temperature; high frequency noise performance; macroscopic noise models; microscopic noise modeling; microwave transistors; noise sources; two-port terminations; Active noise reduction; Circuit noise; Equivalent circuits; FETs; Frequency; Microscopy; Numerical models; Performance analysis; Signal analysis; Temperature;
Journal_Title :
Electron Devices, IEEE Transactions on
