Overview

With the increased efforts of the analog design community to integrate analog high-frequency front-ends for telecommunications, there has been heightened interest in the behaviour of nonlinear circuits since this can cause considerable degradation of signals. In analog integrated circuits at lower frequencies, such as filters, nonlinear behaviour limits the dynamic range. Analog integrated circuit designers often lack insight into nonlinear circuit behaviour. Indeed, designers are trained to reason in linear or linearized circuits but not in nonlinear ones. Numerical circuit simulations of nonlinear circuit behavior do not provide enough insight to the designer. Distortion Analysis of Analog Integrated Circuits, with a foreword by Robert G. Meyer, provides both qualitative and quantitative insight into the nonlinear behavior of analog integrated circuits at low and high frequencies. General techniques to suppress nonlinear behavior such as pre-distortion, linear and nonlinear feedback are explained in detail and illustrated with realistic examples. In this way the book fills the gap between the theory of nonlinear systems and practical analog integrated circuits. Distortion Analysis of Analog Integrated Circuits provides the reader with an in-depth analysis of elementary transistor stages, both CMOS and bipolar, as well as an analysis of several larger circuits. Hereby use is made of advanced transistor models that are also discussed in the book. The analyses take into account many more effects than in existing publications, thanks to the use of a calculation method that yields closed-form expressions for nonlinear behavior. These expressions are interpreted and illustrated with realistic numerical examples. Distortion Analysis of Analog Integrated Circuits is essential reading for practicing analog and mixed-signal design engineers and researchers in the field. It is also suitable as a text for an advanced course on the subject. From the foreword: 'I am sure that the analog circuit design community will [...] welcome this work by Dr. Wambacq and Prof. Sansen as a major contribution to the analog circuit design literature in the area of distortion analysis of electronic circuits. I am personally looking forward to having a copy readily available for reference when designing integrated circuits for communication systems.' Robert G. Meyer, Professor, Electrical Engineering and Computer Sciences, University of California, Berkeley.

Full Product Details

Author:   Piet Wambacq ,  Willy M.C. Sansen
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   Softcover reprint of the original 1st ed. 1998
Volume:   451
Dimensions:   Width: 15.50cm , Height: 2.70cm , Length: 23.50cm
Weight:   0.835kg
ISBN:  

9781441950444

ISBN 10:   1441950443
Pages:   501
Publication Date:   05 January 2011
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Awaiting stock  
The supplier is currently out of stock of this item. It will be ordered for you and placed on backorder. Once it does come back in stock, we will ship it out for you.

Table of Contents

1 Introduction.- 2 Basic terminology.- 3 Description of nonlinearities in analog integrated circuits.- 4 Volterra series and their applications to analog integrated circuit design.- 5 Calculation of harmonics and intermodulation products.- 6 Silicon bipolar transistor models for distortion analysis.- 7 MOS transistor models for distortion analysis.- 8 Weakly nonlinear behavior of basic analog building blocks.- 9 Measurements of basic nonlinearities of transistors.- Appendices.- A Useful trigonometric relationships.- B Basics of Volterra series.- B.1 Introduction.- B.2 Volterra series representation of a system.- B.3 Second-order Volterra systems.- B.3.1 The second-order operator.- B.3.2 The second-order Volterra operator.- B.3.3 Second-order kernel symmetrization.- B.4 The second-order kernel transform.- B.4.1 The two-dimensional Fourier and Laplace transform.- B.4.2 Sinusoidal response of a second-order Volterra system.- B.4.3 Response of a second-order system to a sum of two sinusoids.- B.5 Higher-order Volterra systems.- B.5.4 The p-dimensional Laplace and Fourier transforms.- C Derivation of the method for the direct computation of nonlinear responses.- C.1 Setup of basic equations.- C.2 First-order responses.- C.3 Second-order responses.- C.4 Higher-order responses.- D Nonlinearity coefficients for the description of the Early effect.- E Relation between source-referred and bulk-referred nonlinearity coefficients of a MOS transistor.- F Derivatives of the drain current with an implicit saturation voltage.- F.2 First-order derivatives.- F.3 Higher-order derivatives.- G Derivation of the MOS drain current in the presence of velocity saturation.- G.1 Derivation of the drain current with the simple velocity-field models.- G.2 Derivation of the drain current with the more accurate velocity-field model.- G.2.1 The rigorous approach.- G.2.2 Approximate approach.

Reviews

Author Information

Tab Content 6

Author Website:  

Customer Reviews

Recent Reviews

No review item found!

Add your own review!

Countries Available

All regions