@misc{10481/107784,
year = {2025},
month = {10},
url = {https://hdl.handle.net/10481/107784},
abstract = {In this work, we present a model for describing the
thermal noise performance of a general linear time invariant
(LTI) passive 1-port by means of two partially correlated noise
sources. The inclusion of an additional source compared to the
conventional 1-source noise representation of 1-ports, allows for
a more complete description of the thermal noise description
not only at the external terminals of the considered admittance,
but also in terms of the internal noise through its real part,
guaranteeing the independence of the latter from the external
circuit connected to it when thermodynamic equilibrium is considered. The results of the model demonstrate that the proposed
noise modeling for linear 1-ports features an additional degree
of freedom in the form of the level of correlation between both
sources. We propose that this finding might be of application for
maintaining a linear circuit modeling of the noise generated by a
resistor with a small nonlinear resistive behavior by transferring
this nonlinearity to the correlation between the sources.},
organization = {Universidad de Granada/CBUA (Grant Number: U23A20279)},
organization = {FPU Program through Spanish Ministry of Science and Innovation (Grant Number: FPU21/04904 and FPU21/04905)},
publisher = {IEEE},
keywords = {Thermal noise},
keywords = {circuit noise modeling},
keywords = {partially correlated noise sources},
title = {Thermal Noise Modeling in Passive LTI One-Ports: A Potential Approach for Nonlinear Resistor Noise Circuit Modeling},
doi = {10.1109/tcsi.2025.3619145},
author = {Pardo, Mari Carmen and Pérez Ávila, Antonio Javier and Padilla De la Torre, José Luis},
}