Overview

Gallium Arsenide technology has come of age. GaAs integrated circuits are available today as gate arrays with an operating speed in excess of one Gigabits per second. Special purpose GaAs circuits are used in optical fiber digital communications systems for the purpose of regeneration, multiplexing and switching of the optical signals. As advances in fabrication and packaging techniques are made, the operat­ ing speed will further increase and the cost of production will reach a point where large scale application of GaAs circuits will be economical in these and other systems where speed is paramount. This book is written for students and engineers who wish to enter into this new field of electronics for the first time and who wish to embark on a serious study of the subject of GaAs circuit design. No prior knowledge of GaAs technology is assumed though some previous experience with MOS circuit design will be helpful. A good part of the book is devoted to circuit analysis, to the extent that is possible for non­ linear circuits. The circuit model of the GaAs transistor is derived from first principles and analytic formulas useful in predicting the approxi­ mate circuit performance are also derived. Computer simulation is used throughout the book to show the expected performance and to study the effects of parameter variations.

Full Product Details

Author:   Omar Wing
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   Softcover reprint of the original 1st ed. 1990
Volume:   109
Dimensions:   Width: 15.50cm , Height: 1.10cm , Length: 23.50cm
Weight:   0.324kg
ISBN:  

9781461288268

ISBN 10:   1461288266
Pages:   188
Publication Date:   03 October 2011
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

1: Introduction.- 1.1 Gallium Arsenide.- 1.2 Electronic properties of GaAs.- 1.3 Velocity-field relation.- 1.4 GaAs transistor structures, MESFET, HFET, HBT.- 1.5 Scope.- References.- 2: Circuit Models of the MESFET.- 2.1 Introduction.- 2.2 Schottky junction.- 2.3 Drain current.- 2.4 Gate current.- 2.5 Capacitive currents.- 2.6 Charge-based model for circuit simulation.- 2.7 Capacitance-based model.- 2.8 Parasitic elements.- 2.9 Small signal model.- 2.10 Empirical model.- 2.11 Summary.- References.- 3: Enhancement-Depletion Logic Circuits.- 3.1 Introduction.- 3.2 Simplified device model for circuit design.- 3.3 E-D logic.- 3.4 Noise margin analysis.- 3.5 Pull-up delay.- 3.6 Pull-down delay.- 3.7 Fan-out and fan-in.- 3.8 NOR, NAND.- 3.9 Flip flops.- 3.10 Remarks.- References.- 4: Transmission-Gate Logic.- 4.1 Introduction.- 4.2 Analysis.- 4.3 Allowable range of VG.- 4.4 Shift register.- 4.5 Cross point switch.- 5: Buffered ED Logic Circuits.- 5.1 Source follower.- 5.2 EDSF logic.- 5.3 EDSFD logic.- 5.4 EDSB logic.- 5.5 SPED logic.- 5.6 Split-phase super buffer.- 5.7 Ring oscillator.- 5.8 Summary.- References.- 6: Source-Coupled Logic Circuits.- 6.1 Source-coupled differential pair.- 6.2 Observations.- 6.3 Noise margins and delays.- 6.4 Threshold variation.- 6.5 Source-coupled logic.- 6.6 Cascode differential pair.- 6.7 Summary.- Reference.- 7: Subsystems Design.- 7.1 Introduction.- 7.2 Lightwave communications system.- 7.3 Pulse width preservation.- 7.4 Time-multiplexer/demultiplexer.- 7.5 Cross-point switch.- 7.6 Time- and Time-space-switches.- 7.7 Static random access memory.- 7.8 O/E-E/O repeater.- 7.9 Remarks.- References.

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