18th IEEE Workshop on Nonlinear Dynamics of Electronic Systems

Kelber, Kristina, Schwarz, Wolfgang, Tetzlaff, Ronald

03 August 2010

Proceedings of the 18th IEEE Workshop on Nonlinear Dynamics of Electronic Systems, which took place in Dresden, Germany, 26 – 28 May 2010.

nichtlineare Dynamik

nichtlineare Schaltungen & Systeme

nichtlineare Netzwerkanalyse

neuronale Netze

nonlinear dynamics

nonlinear circuits & systems

nonlinear network analysis

neural netzworks

ddc:620

rvk:ZN 2000

18th IEEE Workshop on Nonlinear Dynamics of Electronic Systems: Proceedings

Kelber, Kristina, Schwarz, Wolfgang, Tetzlaff, Ronald

03 August 2010

Proceedings of the 18th IEEE Workshop on Nonlinear Dynamics of Electronic Systems, which took place in Dresden, Germany, 26 – 28 May 2010.:Welcome Address ........................ Page I Table of Contents ........................ Page III Symposium Committees .............. Page IV Special Thanks ............................. Page V Conference program (incl. page numbers of papers) ................... Page VI Conference papers Invited talks ................................ Page 1 Regular Papers ........................... Page 14 Wednesday, May 26th, 2010 ......... Page 15 Thursday, May 27th, 2010 .......... Page 110 Friday, May 28th, 2010 ............... Page 210 Author index ............................... Page XIII

info:eu-repo/classification/ddc/620

ddc:620

Effect of the voltage dependency of the device-level gate-source capacitance in the linearity of a common-gate amplifier

Eduardo A. Garcia (5929682)

19 July 2022

<p>Most work on amplifier linearity has focused on the transconductance (gm) linearity, but there is increasing evidence that the voltage-dependence of the gate-source capacitance (Cgs) plays an important role in the linearity of emerging devices. This work addresses the capacitance contribution by incorporating the nonlinearities attributed to the voltage dependency of Cgs of a general FET on a circuit-level Cg amplifier model.</p> <p>An amplifier model including a voltage-dependent Cgs, and a voltage-dependent gm is studied using harmonic analysis and Volterra series. A closed form expression for the  third-order intercept point (IP3) of the amplifier, which depends on the nonlinear coefficients of Cgs, is obtained. A simple design rule, and a formula for the reduction of the IP3 due to the voltage-dependent Cgs are also presented. </p> <p>As application examples, the linearity of an amplifier based on a specific device is analyzed for two cases by extracting the nonlinear circuit parameters of the device. First for an analytic model of a bulk mosfet. Second for a one-dimensional, ballistic, coaxially gated Si nanowire. For low frequencies of design, the distortion introduced by gm is predominant, but for high frequencies it is obscured by the distortion coming from Cgs.</p> <p>We conclude that taking into account the voltage-dependence of Cgs is crucial when predicting the linearity behavior of a Cg amplifier, either designed for high-frequency operation, or based on a device operating near the quantum capacitance limit. </p>

Circuits and systems

Electrical circuits and systems

Analog electronics and interfaces

Microelectronics

Radio frequency engineering

Nanoelectronics

Intermodulation distortion

Linearity

Nonlinear distortion

Nonlinear network analysis

Volterra series

Third-Order Intercept Point

Quantum capacitance

Nanowire