Title :
An efficient approach to noise analysis through multidimensional physics-based models
Author :
Bonani, Fabrizio ; Ghione, Giovanni ; Pinto, Mark R. ; Smith, R. Kent
Author_Institution :
Dipt. di Elettronica, Politecnico di Torino, Italy
fDate :
1/1/1998 12:00:00 AM
Abstract :
The paper presents a general approach to numerically simulate the noise behavior of bipolar solid-state electron devices through a physics-based multidimensional device model. The proposed technique accounts for noise sources due to carrier velocity and population fluctuations. The power and correlation spectra of the external current or voltage fluctuations are evaluated through a Green´s function, linear perturbation theory equivalent to the classical Impedance Field Method for noise analysis and its generalizations. The numerical implementation of the method is performed through an efficient technique, which allows noise analysis to be carried out with negligible overhead with respect to the small-signal simulation. Some case studies are analyzed in order to compare the present approach with theoretical results from the classical noise theory of p-n junctions and bipolar transistors
Keywords :
Green´s function methods; bipolar transistors; fluctuations; perturbation techniques; semiconductor device models; semiconductor device noise; semiconductor diodes; Green function; bipolar solid-state electron devices; bipolar transistors; carrier population fluctuations; carrier velocity fluctuations; correlation spectra; external current fluctuations; external voltage fluctuations; impedance field method; linear perturbation theory; multidimensional physics-based models; n-p-n BJT; noise analysis; numerical simulation; p-n junction diode; power spectra; small-signal simulation; Analytical models; Electron devices; Green´s function methods; Impedance; Multidimensional systems; Numerical simulation; Performance analysis; Solid modeling; Solid state circuits; Voltage fluctuations;
Journal_Title :
Electron Devices, IEEE Transactions on
