Introduction to Electronic Circuit Design

Name: Introduction to Electronic Circuit Design
Price: 17.95 USD
Availability: InStock
ISBN: 9780201361834

ISBN-10: 0201361833

ISBN-13: 9780201361834

Edition: 2003

Authors: Richard Spencer, Mohammed Ghausi

List price: $219.99

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Description:

This book provides a thorough and rigorous explanation of circuit design with a focus on the underlying principles of how different circuits work. It features a topical organization rather than a sequential one, emphasizing the models and types of analyses used so they are less confusing to readers. Simulation files are available on the CD-ROM.

Book details

List price: $219.99
Copyright year: 2003
Publisher: Prentice Hall PTR
Publication date: 8/9/2002
Binding: Paperback
Pages: 1152
Size: 8.50" wide x 10.50" long x 1.50" tall
Weight: 4.950
Language: English




The Foundations of Electronic Circuit Design



Electronic Circuit Design


The Process of Design


Analysis for Design


Electronic Systems


Notation



Semiconductor Physics and Electronic Devices


Material Properties


Conduction Mechanisms


Conductor-to-Semiconductor Contacts


pn-Junction Diodes


Bipolar Junction Transistors (BJTs)


Metal-Oxide Semiconductor Field-Effect Transistors (MOSFETs)


Junction Field-Effect Transistors (JFET's)


Metal-Semiconductor FET's (MOSFET's)


Silicon Controlled Rectifier and Power Handling Devices


Comparison of Devices



Solid-State Device Fabrication


CMOS Technology


Bipolar Technology



Computer-Aided Design: Tools and Techniques


Overview of Simulation Techniques


Circuit Simulation Using SPICE


Circuit Elements and Models for SPICE


Macro Models in SPICE


II



Operational Amplifiers


Basic Op Amp Circuits


Frequency-Dependent Op Amp Circuits


Nonlinear Op Amp Circuits


Nonideal Characteristics of Op Amps



Small-Signal Linearity and Amplification


Linear Time-Invariant Networks


Nonlinear Circuit Analysis


Small-Signal Analysis


Small-Signal Amplifiers


Types of Amplifiers



DC Biasing


DC and Large-Signal Low-Frequency Models for Design


Biasing of Single-Stage Amplifiers


Biasing of Multi-Stage Amplifiers


Biasing for Integrated Circuits


Biasing of Differential Amplifiers


Worst-Case Analysis and Parameter Variation



Low-Frequency Small-Signal AC Analysis and Amplifiers


Low-Frequency Small-Signal Models for Design


Stages with Voltage and Current Gain


Voltage Buffers


Current Buffers


Integrated Amplifiers


Differential Amplifiers


Multi-Stage Amplifiers


Comparison of BJT and FET Amplifiers



Amplifier Frequency Response


High-Frequency Small-Signal Models for Design


Stages with Voltage and Current Gain


Voltage Buffers


Current Buffers


Comparison of Single-Stage Amplifiers


Multi-Stage Amplifiers


Differential Amplifiers



Feedback


Negative Feedback


Positive Feedback and Oscillators



Filters and Tuned Amplifiers


Filters


Tuned Amplifiers


Phase-Locked Loops



Low-Frequency Large-Signal AC Analysis


Diode Circuits


Amplifiers


Output Stages



Data Converters


Overview


Digital-to-Analog Converters


Analog-to-Digital Converters



Digital Electronic Circuit Design



Gate-Level Digital Circuits


Background and Binary Logic


Flip-Flops


Shift Registers and Counters


Reflections on Transmission Lines



Transistor-Level Digital Circuits


Device Modeling for Digital Design


Specification of Logic G