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Thoroughly revised and updated, this highly successful textbook
guides students through the analysis and design of transistor
circuits. It covers a wide range of circuitry, both linear and
switching.
Transistor Circuit Techniques: Discrete and Integrated provides
students with an overview of fundamental qualitative circuit
operation, followed by an examination of analysis and design
procedure. It incorporates worked problems and design examples to
illustrate the concepts. This third edition includes two additional
chapters on power amplifiers and power supplies, which further
develop many of the circuit design techniques introduced in earlier
chapters.
Part of the Tutorial Guides in Electronic Engineering series, this
book is intended for first and second year undergraduate courses. A
complete text on its own, it offers the added advantage of being
cross-referenced to other titles in the series. It is an ideal
textbook for both students and instructors.
Synthetic Aperture Radar Processing simply and methodically presents principles and techniques of Synthetic Aperture Radar (SAR) image generation by analyzing its system transfer function. The text considers the full array of operation modes from strip to scan, emphasizes processing techniques, enabling the design of operational SAR codes. A simple example then follows. This book will be invaluable to all SAR scientists and engineers working in the field. It may be used as the basis for a course on SAR image generation or as a reference book on remote sensing. It contains a wide spectrum of information presented with clarity and rigor.
Wideband Circuit Design starts at a foundational level and proceeds
at a carefully gauged pace to advanced topics, providing a
self-sufficient text for specialization in wideband analog circuit
design for the fields of telecommunications and related areas.
Basic theory and comprehensive circuit analysis methods (oriented
for application to general network computer programs) are detailed
and then extended to applicational topics such as filters, delay
structures, equalizers, matching networks, broadband amplifiers,
and microwave components.
Novel and simplified approaches to such fundamental topics as
linear circuit time domain response, synthesis of cascaded
networks, and the construction of Chebychev and elliptic transfer
functions are given. For the first time in book form a unified
presentation of analytic matching and gain-bandwidth theory,
integrated with the numerical Real Frequency design technique
(originally published by the authors), is delineated. Wideband
Circuit Design presents all the concepts, techniques, and
procedures you need to gain the broad understanding necessary for
finding creative solutions to wideband circuit design problems.
Thoroughly revised and updated, this highly successful textbook
guides students through the analysis and design of transistor
circuits. It covers a wide range of circuitry, both linear and
switching. Transistor Circuit Techniques: Discrete and Integrated
provides students with an overview of fundamental qualitative
circuit operation, followed by an examination of analysis and
design procedure. It incorporates worked problems and design
examples to illustrate the concepts. This third edition includes
two additional chapters on power amplifiers and power supplies,
which further develop many of the circuit design techniques
introduced in earlier chapters. Part of the Tutorial Guides in
Electronic Engineering series, this book is intended for first and
second year undergraduate courses. A complete text on its own, it
offers the added advantage of being cross-referenced to other
titles in the series. It is an ideal textbook for both students and
instructors.
Circuit Simulation Methods and Algorithms provides a step-by-step theoretical consideration of methods, techniques, and algorithms in an easy-to-understand format. Many illustrations explain more difficult problems and present instructive circuits. The book works on three levels: o The simulator-user level for practitioners and students who want to better understand circuit simulators. o The basic theoretical level, with examples, dedicated to students and beginning researchers. o The thorough level for deep insight into circuit simulation based on computer experiments using PSPICE and OPTIMA. Only basic mathematical knowledge, such as matrix algebra, derivatives, and integrals, is presumed.
This book presents the design of active RC filters in continuous time. Topics include: o filter fundamentals o active elements o realization of functions using opamps o LC ladder filters o operational transconductance amplifier circuits (OTACs) o MOSFET-C filters Continuous-Time Active Filter Design uses wave variables to enable the reader to better understand the introduction of more complex variables created through linear transformations of voltages and currents. Intended for undergraduate students in electrical engineering, Continuous-Time Active Filter Design provides chapters as self-contained units, including introductory material leading to active RC filters.
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