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Starting from the well known low-injection approximation, a closed form, analytical compact model is derived for the small-signal (SS) and forced quasi-periodic operation of junction diodes. The model determines the small-signal and conversion admittance matrix of the device as a function of the applied (dc or periodic-time varying) bias. Noise characteristics, in both the stationary (SS) and cyclostationary cases, are also evaluated by means of a Green’s function approach.

Compact conversion and cyclostationary noise modelling of pn junction diodes in low-injection - Part I: Model derivation / Bonani, Fabrizio; DONATI GUERRIERI, Simona; Ghione, Giovanni. - In: IEEE TRANSACTIONS ON ELECTRON DEVICES. - ISSN 0018-9383. - ED-51:(2004), pp. 467-476. [10.1109/TED.2003.821570]

Compact conversion and cyclostationary noise modelling of pn junction diodes in low-injection - Part I: Model derivation

BONANI, Fabrizio;DONATI GUERRIERI, Simona;GHIONE, GIOVANNI
2004

Abstract

Starting from the well known low-injection approximation, a closed form, analytical compact model is derived for the small-signal (SS) and forced quasi-periodic operation of junction diodes. The model determines the small-signal and conversion admittance matrix of the device as a function of the applied (dc or periodic-time varying) bias. Noise characteristics, in both the stationary (SS) and cyclostationary cases, are also evaluated by means of a Green’s function approach.
2004
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/1397437
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