***********************************************************
PRENTICE HALL ELECTRICAL ENGINEERING E-CATALOG -- June 1990
***********************************************************



We are pleased to be able to post this catalog of Electrical Engineering books. 
We have classified titles by major subject area.  To keep the file size down,
we only list the table of contents in one place.  Try a key word search to 
locate the full description, or to find titles in related fields.  
Because of space limits, some titles are not listed.  

In order to make this e-mail service work effectively, please follow these
instructions for ordering books:

                        **********

1. If you teach at a university in the U.S., and want to consider 
   TEXTBOOKS to adopt for a course:
    
   Send a request to books@prenhall.com or uunet!prenhal!books.  Make
   sure to tell us the course name, the enrollment, when you will 
   be teaching this course, what book you used the last time you taught the
   course, and whether our book will be required or recommended.
    
   Most REFERENCE books cannot be sent free.  
         
   Please don't forget your U.S. Mail (school) address so we can 
   ship the books.

   You may also call your local Prentice Hall representative or
   (800) 526-0485.

                         *  *  *                

2. If you teach at a university OUTSIDE OF THE UNITED STATES, and
   want to consider TEXTBOOKS to adopt for a course:

   Send a request to books@prenhall.com or uunet!prenhal!books.  Make
   sure to tell us the course name, the enrollment, when you will 
   be teaching this course, what book you used the last time you taught the
   course, and whether our book will be required or recommended.
 
   We will forward this information to the Prentice Hall representative
   in your area.  You may also call the PH offices in:

            Canada    (416) 293-3621
            UK, Europe, Africa, Middle East: (44) 442-231555 (London)
                      FAX:  (44) 442-57115
            Australia/NZ: (61) 02-939-1333
            S.E. Asia (65) 278-9611    (Singapore)
            Japan     (81) 3-238-1050
            India     (91) 11-332-9078  (New Delhi)
            Mexico    (201) 592-3158 (New Jersey)
            Carribean (at Heinemann Educational Books): (809) 927-6859
   
   Most of these titles are available worldwide, with a few exceptions.
   
        
                         *  *  *

3. If you want to PURCHASE single copies of books: 

    In the U.S., call (201) 767-5937. 
    Our Mail Order Billing Dept. will handle the details of pricing,
    shipping, and billing.

    Outside the U.S., call your local PH representative or one of the
    phone numbers listed above.  

    If you have trouble placing an order, send email to 
    books@prenhall.com or Henderson@cup.portal.com 
    or uunet!prenhal!books, and we will forward it to the proper office.

    In addition, these books are available at better bookstores.

4. For U.S. GOVERNMENT (domestic) orders, please contact:

    a. For Virginia, Maryland, Washington DC:

            Bob Johnson  at (703) 425-6242

    b. For the rest of the 50 states:

            Marcy Leif at (201) 767-5154

5. For U.S. CORPORATE orders (of more than 20 copies of one title), 
   please contact:

            Lorraine Longo at (201) 592-2498

                         *  *  *

We welcome comments on this service, and on our books.

Seth Reichlin
Director of Market Research

  



                         INTRODUCTION/CIRCUIT ANALYSIS



Basic Electric Circuit Analysis, 4th Edition

David E. Johnson, Birmingham-Southern College
John L. Hilburn,  Microcomputer Systems, Baton Rouge
Johnny R. Johnson University of North Alabama

For one- or two-semester sophomore-level courses in Circuit Analysis. Revision
features new problem material using SPICE, and all new problems.

@ 1990, 696pp., cloth (05981-6) 0-13-059817-8
STUDENT PROBLEM SET WITH SOLUTIONS (05982-4) 0-13-059825-9
SUPPLEMENTS PACKAGE (05983-2) 0-13-059833-X
TRANSPARENCY MASTERS (05984-0) 0-13-059841-0
SOLUTIONS MANUAL (05985-7) 0-13-059858-5



Foundations of Electrical Engineering

J. R. Cogdell, University of Texas, Austin

Introductory text for one or two-semester survey courses in Electrical
Engineering for non-EE's and EE majors. Longer and more in-depth than Cogdell's
previous book. In-depth treatment of electrical motors and power electronics.

@ 1990, 724pp., cloth (32952-4) 0-13-329525-7
SOLUTIONS MANUAL (32953-2) 0-13-329533-8



Engineering Design for Electrical Engineers

Alan D. Wilcox, Bucknell Univ
Lawrence P. Huelsman, Univ of Arizona
Stanley V. Marshall, Univ of Missouri, Rolla
Charles L. Phillips, Auburn Univ
Muhammad H. Rashid, Purdue Univ, Calumet
Manin S. Roden, California State Univ, Los Angeles

A supplementary book for a project or senior design course. It provides a
unified methodological approach to engineering design projects by first
examining project design principles, then illustrating their applications in
six modules in digital, analog, electromagnetics, control, communications, and
power.

CONTENTS: (NOTE: Chapters in Part I conclude with Summary, Exercises, and
Further Reading; Chapters in Part II begin with Introduction, Suggested Project
Topics, and Further Reading.) PART I: PRINCIPLES. 1. Engineering Design. Design
overview. Problem solving. Project planning. 2. Project Implementation. Project
Overview. Analysis. Synthesis. Technical design. Evaluation and decision.
Prototype construction. Evaluation and documentation. 3. Design Guidelines and
Implementation. Technical design rules. Design heuristics. Designing for
testability. Breadboarding. Troubleshooting the system. 4. Project
Communication. Basic project documentation. Written reports. Oral reports. PART
11: PRACTICE. 5. Digital Module. Example projects: Temperature monitor; Clock
board. 6. Analog Module. Example projects: Lowpass filter; Threephase analysis
program. 7. Electromagnetics Module. Example projects: Radio direction finder;
Vehicle detector. 8. Feedback Control Module. Example projects: PID digital
controller; Temperature control system. 9. Communication Module. Example
projects: Remote control device; Emergency communication system. 10. Power
Module. Example projects: DC motor drive; Single-phase inverter.

@ 1990, 208pp., paper (27813-5) 0-13-278136-0



Student Reference Manual for Electronic Instrumentation Laboratories

Stanley Wolf, California State Univ, Long Beach
Richard F. M. Smith, California State Polytechnic Univ, Pomona

Revision of Wolf's former Guide to Electronic Measurements and Lab Practice,
2E. New coauthor with expertise in instrumentation has thoroughly updated and
revised this book. New instruments are presented and more examples added.
Appropriate for all students taking required EE labs.

@ 1990,560pp., Paper (85577-5) 0-13-855776-4



SPICE for Circuits and Electronics Using PSpice@

Muhammad H. Rashid, Purdue Univ, Calumet

Supplementary book appropriate for undergraduate courses in Circuits and
Electronics. Examples simulate circuits that are taught in Basic Circuits and
Electronics courses.

CONTENTS: (Note: Each chapter begins with an Introduction.) 1. Introduction.
2. Circuit Descriptions.  3. Deferring Output Variables.  4. Voltage and
Current Sources.  5. Passive Elements.  6. DOT Commands.  7. Semiconductor
Diodes.  8. Bipolar Junction Transistors.  9. Field-Effect Transistors.  10.
Op-Amp Circuits.  11. Difficulties. Large circuits. Running multiple circuits.
Large outputs. Long transient runs. Convergence problems. Analysis accuracy.
Negative component values. Power switching circuits. Floating nodes. Nodes with
less than two connections. Voltage source and inductor loops. Running PSpice@
File on SPICE. Running SPICE File on PSpice@. Appendices: A. Running PSpice@ on
PCs. B. Noise Analysis. C. Non-linear Magnetic.

@ 1990, 240pp., Paper (83467-1) 0-13-834672-0



MICROELECTRONICS



Microelectronic Circuits and Devices

Mark N. Horenstein, Boston Univ

For junior-level required courses in Electronics. Emphasizes fundamental
circuit functions and their use in synthesizing larger electronic circuits and
systems. Includes detailed properties of electronic devices. Includes
SPICE-related problem material.

@ 1990,1104pp., Cloth (58317-9) 0-13-583170-9
STUDENT PROBLEM SET WITH SOLUTIONS (58318-7) 0-13-583188-7
INSTRUCTOR'S RESOURCE MANUAL (58322-9) 0-13-583220-9
LABORATORY MANUAL by Jerrold Krenz (58319-5) 0-13-583196-2



Design of Analog Filters: Passive, Active RC and Switched Capacitor

Rolf Schaumann, Portland State Univ
Mohammed S. Ghausi, Univ of California, Davis
Kenneth R. Laker, Univ of Pennsylvania

CONTENTS: (NOTE: Each chapter begins with an Introduction and concludes with a
Summary and Problems.) 1. Fundamental Concepts and Tools for the Design of
Linear Analog Filters. Classification of systems. Representations of linear
continuous time-invariant systems. Normalization. Types of filters.
Approximation methods. 2. The Design of LC Filters. Realization of LC immitance
functions. Derivation of the twoport parameters of LC filters. Realization of
LC ladders. Realization of LC allpass circuits. 3. Sensitivity.
Single-parameter sensitivity. Multiparameter sensitivity. Large-change
sensitivity. 4. Operational Amplifiers and Fundamental Active Building Blocks.
Op amp notation and characteristics. Active building blocks using op amps.
Active building blocks using transconductances. 5. Second-Order Active Filter
Sections. Single-amplifier biquad configurations. Multiamplifier circuits.
Circuits using transconductances. 6. Design of High-Order Filters. Cascade
realizations. Multiple loop feedback realizations. LC simulations. 7. FuRy
Integrated Continuous-Time Filters. Single-ended versus fully balanced designs.
Automatic tuning. Monolithic filters based on op amps. Monolithic filters based
on transconductances. 8. Switched-Capacitor Filters. The effect of parasitics
parasitics-insensitive building blocks. Discrete-time (sampled data) operation.
Design of switched-capacitor filters.  Some practical observations,
precautions, and limits. References. Appendices: I. Laplace Transforms. II.
Z-Transforms. III. Butterworth Functions; Chebyshev Functions; Elliptic
Functions; Bessel Functions.

@ 1990, 608pp. (20028-7) 013-200288-4
SOLUTIONS MANUAL (20029-5) 0-13-200296-5



Digital MOS Integrated Circuits: Design for Applications

Niantsu Wang, formerly with IBM

This timely introduction of the basic concepts in MOS circuit design focuses on
advanced digital applications. A complete, rigorous treatment to practical
product design, it is filled with accurate models and elaborate mathematical
analysis. It is oriented toward MOS products in today's market-with detailed
analysis of critical circuits and practical problems found in such products.
CONTENTS: characteristics and Operation of MOSFETs. MOS Technology Review.
Digital Inverters-DC Analysis. Digital Inverters--Transient Analysis. Receivers
and Drivers. MOS Memory Chip Designs. MOS Logic Chip Designs. Appendices.

@ 1990, 384 pp., cloth (21310-8) 0-13-213109-9



Oscillator Design and Computer Simulation

Randall W. Rhea

A stand-alone reference on oscillator design, this volume focuses on
fundamental concepts, a unified approach to the design of a wide variety of
oscillators, and verification of the design via computer simulation. Simple
equations are used to enhance fundamental understanding, determine component
values, or predict performance parameters.

CONTENTS: Analysis Fundamentals. Oscillator Fundamentals. Limiting and
Starting. Noise. Biasing. Computer Simulation. Circuits. L-Oscillators.
Distributed Oscillators. Saw Oscillator. Quartz Crystal Oscillators.
Appendices.

@ 1990, 224pp. (64251-2) 0-13-642513-5

DISK INCLUDED



Microprocessor Design for GaAs Technology

Veljko Milutinovic, ed., Purdue Univ.

CONTENTS: Microprocessor Design for GaAs Technology, B. Naused. GaAs Device
Physics and Circuit Design, L. Larson, R Greiling, T Jensen. Design Concepts
for Microprocessor-Based GaAs Systems, D. Fura, V Milutinovic. Overview of GaAs
Microprocessors and Related Designs, H. Vlahos, V Milutinovic. Case Study: A
32-bit GaAs Microprocessor by CDC, E. Fox, R. Heemeyer, K. Keifer, R. Vangen,
S. Whalen Case Study: A 32-bit Microprocessor Implemented in GaAs JFET, B.
Geideman, et Al. Case Study: A DCFL E/DMESFET GaAs Experimental RISC Machine,
W. Helbig, V Milutinovic.

@ 1990,368pp., Cloth (58147-0) 0-13-581471-5



Surface-Mount Devices: Troubleshooting and Repair

David L. Heiserman

Written specifically for technicians who already have a good understanding of
basic electronic skills, principles, and devices, this book demonstrates how
surface-mount technology is different from conventional feed-through
technology, and provides the basic fundamentals needed to troubleshoot, remove
and replace surface-mount devices.

@ 1990, 192pp., Cloth (BT795-1) 0-13-877952-X



Complete Guide to Active Filter Design, OP AMPS, and Passive Components

Z.H. Meiksin, Univ of Pittsburgh

CONTENTS: Understanding Filter Terminology. Designing First-Order Filters.
Designing Second-Order Filters. Designing Third-Order Filters. Designing Fourth
Order Filters. Designing Higher-Order Filters. Filter Performance and How to
Avoid Pitfalls. Understanding Operational Amplifier Characteristics. Dual and
Single-Power Supply Amplifiers, Low Voltage Amplifiers, Low Noise Amplifiers,
Wide Band Amplifiers, and transconductance Amplifiers. Amplifier Stability.
Amplifier Configurations. Design Examples and How to Avoid Pitfalls. Resistors.
Capacitors. Inductors. Transformers. Diodes. Component Value Measurement.
Component Identification. Comprehensive Design Examples. Appendices:
Manufacturers' Data Sheets. Passive Component Values and Identification.

@ 1990, 224pp., paper (15997-0) 0-13-159971-2



                            SOLID STATE ELECTRONICS



Solid State Electronic Devices, 3rd Edition

Ben G. Streetman, The University of Texas, Austin

A thorough revision of our best-selling undergraduate text on solid state
devices. Features new 2-color format and new material on gallium arsenide
devices and device modelling using SPICE.

@ 1990, 560pp., Cloth (82294-0) 0-13-822941-4
SOLUTIONS MANUAL (82295-7) 0-13-822958-9
TRANSPARENCY MASTERS (82478-9) 0-13-824780-3



Physics of Semiconductor Devices

Michael Shur, Univ of Virginia

Appropriate for senior or first-year graduate courses on Device Physics.
Theories and models presented in book are implemented in microcomputer programs
used for modelling these devices. Includes over 150 problems.

CONTENTS: (NOTE: Most chapters begin with an Introduction and conclude with
References and Problems.) List of symbols. Preface. 1. Basic Semiconductor
Physics.  2. P-n Junctions, Schottky Barrier Junctions, Heterojunctions and
Ohmic Contacts.  3. Bipolar Junction transistors.  4. Field Effect
Transistors.  5. Photonic Devices.  6. Transferred-Electron Devices and
Avalanche Diodes.  7. Novel Devices. Appendices: Physical constants. Greek
alphabet. Units. Magnitude prefixes. Unit conversion factors. Properties of
silicon. Properties of germanium. Properties of gallium arsenide. Properties of
aluminium gallium arsenide. Properties of InP. Properties of InAs and In GaAs.
Properties of HgCdTe. Properties of diamond. Properties of SiC. Properties of
ZnSe. Properties of ZnTe. Properties of amorphous silicon. Properties of SiO2.
properties Of Si3N4 Hyperbolic functions. Fermi integrals. Overlap factor and
scattering rates. Momentum relaxation times and low-field mobilities. Device
and circuit simulation programs. Relationsbip between h-parameters and
parameters of T-equivalent circuit and 7i equivalent circuit. Data sheets for
Motorola 2N2219A general purpose silicon n-p-n transistors. Periodic Table.

@ 1990, 638pp., Cloth (66649-5) 0-13-666496-2
SOLUTIONS MANUAL (66701-4) 0-13-667015-6
SOFTWARE AND MANUAL (66658-6) 0-13-666587-X



Physics of Engineering Materials

Daniel D. Pollock, Emeritus S.U.N.Y. At Buffalo

This book addresses in detail both the modern and classical views governing the
physical principles of materials. For senior/graduate courses in Modern Physics
of Materials and Introductory Solid State Physics.

CONTENTS: The Necessity for the Quantum Theory. Statistical Background. Wave
Functions, Atoms, and Bonds. Theories of Solids. Thermal Properties of Solids.
Electrical Conductivity. Thermoelectric and Galvomagnetic Effects. Factors
Affecting the Properties of Semiconductors. Basic Semiconductor Devices.
Magnetism. Appendix.

@ 1990,720pp., Cloth (66932-5) 0-13-669326-1



Kinetic Theory: Classical, Quantum, and Relativistic Descriptions

Richard L. Liboff, Cornell Univ

CONTENTS: The Liouville Equation. Analyses of the Liouville Equation. The
Boltzmann Equation, Fluid Dynamics and Irreversibility. Assorted Magnetic
Equations with Applications to Plasmas and Neutral Fluids. Elements of Quantum
Magnetic Theory. Relativistic Magnetic Theory.

@ 1990, 560 pp., cloth (51608-8) 0-13-516089-8



Materials Aspects of GaAs and INP Based Heterostructures

V. Swaminathan
A. T Macrander, both of AT&T Bell Labs

This book deals with the material aspects of two of the important III-V
compound semiconductors at the present time. It gives a comprehensive treatment
of materials preparation, characterization, and properties. For courses in
Microelectronic Materials in EE departments.

CONTENTS: Introduction. Crystal Growth and Doping. X-Ray Structural
Characterization. Electrical Characterization. Optical Characterization.
Impurities and Native Defects. Defects and Device Properties.

@ 1990, cloth (34682-5) 0-13-346826-7



VLSI



An Introduction to Application Specific Integrated Circuits

Malcolm M. Haskard, South Australian Institute of Technology

CONTENTS: Application Specific Integrated Circuits. Technologies. Arrays.
Standard Cells. Full Custom and Silicon Compilers. Software. Programmable Logic
Devices. Educational Gate Arrays. Appendices.

@ 1990,160pp., paper (47137-5) 0-13-471376-1



Systolic Algorithms and Architectures

Patrice Quinton
Yves Robert

CONTENTS: PART I: SYSTOLIC ALGORITHMS. Introduction. Convolution Arrays. Dense
Matrix-Matrix Product. Linear Systems. Band Matrices. Graph Algorithms.
Systolic Stacks and Applications. PART II: ARCHITECTURES AND METHODOLOGIES.
Systolic Chips and Architectures. Partitioning Techniques and Fault-Tolerance.
Languages. Systalizing Synchronous Circuits. Automatic Synthesis of Systolic
Architectures. Extensions of the Dependence Analysis Methodology.

@ 1990,353pp., Cloth (88079-9) 0-13-880790-6



Systolic Arrays, 1989

John V. McCanny, Queen's Univ of Belfast
John G. McWhiner, RSRE, Malvern, UK
Earl E. Swartzlander, TRW Defense Systems, California

Covers the latest research on Systolic Arrays and related Parallel Processing
Architectures suitable for VLSI.

CONTENTS: Introduction. Keynote Paper. Hardware Systems. Algorithms and
Architectures. Bit Level Systems. Matrix Algorithms. General Purpose
Architectures. VLSI Implementation. VLSI Architectures.  Fault Tolerance.
Design Tools/Synthesis. Software Issues.

@ 1990, 720pp., Cloth (47342-1) 0-13-473422-X



CMOS Devices and Technology for VLSI

John Y. Chen, Boeing Electronics High Technology Center

This book describes the device physics and the IC technology of CMOS which
currently is the dominant technology for VLSI. Details on the interactions
between device design, device modeling and process technology are provided.

CONTENTS: Introduction: CMOS-The VLSI Technology. CMOS Device Physics. MOS
Modeling. CMOS Operation. CMOS Process Technology. CMOS transistor Design. CMOS
Isolation. LatchUp in CMOS. CMOS Design Rules.

@ 1990,400pp., Cloth (13808-1) 0-13-138082-6



Digital MOS Integrated Circuits: Design for Applications

Niantsu Wang, formerly with IBM

This timely introduction of the basic concepts in MOS circuit design focuses on
advanced digital applications. A complete, rigorous treatment to practical
product design, it is filled with accurate models and elaborate mathematical
analysis. It is oriented toward MOS products in today's market-with detailed
analysis of critical circuits and practical problems found in such products.

CONTENTS: Characteristics and Operation of MOSFET. MOS Technology Review.
Digital Inverters-DC Analysis. Digital Inverters-Transient Analysis. Receivers
and Drivers. MOS Memory Chip Designs. MOS Logic Chip Designs. Appendices.

@ 1990, 384pp., Cloth (21310-8) 0-13-213109-9



Fundamentals of Digital Logic Design: With VLSI Circuit Applications

Douglas Pucknell, Univ of Adelaide, Australia

Comprehensive coverage of the field of Digital Logic Design extending into the
design of logic and common subsystems in silicon. One of the first texts to
effectively combine digital design with implementation in silicon. Numerous
carefully constructed figures and diagrams reinforce and illustrate the text.
Appropriate for senior-level courses.

CONTENTS: An Introduction to Digital Systems Engineering Semiconductors. Number
Systems and Arithmetic. Some Basic Techniques for Handling Problems in
Designing Logic Circuitry. The Design of Combinational Logic. Combinational
Logic in Silicon. Asynchronous (Fundamental Mode) Sequential Logic. Clocked
Sequential Circuits and Memory-Basic Techniques. Some Commonly Applied Clocked
Subsystems. Characteristics and Applications Equations-A Difference Equation
Approach to Clocked Sequential Circuit Design and Analysis. Basic
Microprocessor Architecture and Organization with Interfacing Techniques.

@ 1990, 320pp., Cloth (33269-2) 0-13-332693-4
INSTRUCTOR'S MANUAL (33287-4) 0-13-332875-9



                             LASERS/OPTOELECTRONICS



Optoelectronics: An Introduction, Second Edition

J. Wilson
J.F.B. Hawkes, both of the School of Physics, Newcastle Politechnic, England

This volume offers readers a broad introduction to the field of
optoelectronics, including a solid overview of fundamental physics and coverage
of fiber optics and optical communication systems.  For senior and
graduate-level classes on Optoelectronics in physics and electronic engineering
departments.

CONTENTS: Light. Elements of Solid State Physics. Modulation of Light. Display
Devices. Lasers 1. Lasers II. Photodetectors. Fiber Optical Waveguides. Optical
Communication Systems. Non-Communications Applications of Fibers. Appendices.

@ 1989, 464pp., Cloth (63846-0) 0-13-638461-7
TEACHER'S MANUAL (63847-8) 0-13-638479-X



Laser Technology: Laser Driven Processes

Stjepan Lugomer

A unique treatment of the laser-driven processes and the corresponding
processing system. It has a multidisciplinary approach which covers a broad
range of many fields in a coherent presentation.

CONTENTS: Laser Chemical Technology. Laser Semiconductors Technology. Laser
Metals Technology. Laser Mechanical Technology. Architecture of the Laser
Processing System. Laser Power Technology. Surface Topographic Structures
Generated in Laser-Driven Processes.

@ 1990, 416pp., Cloth (52367-0) 0-13-523671 -1



Fiber Optics and Optoelectronics, Second Edition

Peter K. Cheo, United Technologies Research Center and The Hartford Graduate
Center

Using a rigorous, mathematical approach, this new edition presents new material
on dispersion-free single-made fibers, long wavelengths, low current threshold
and high power semiconductor lasers, among other topics. For graduate courses
in Fiber Optical Communications.

CONTENTS: Introduction. Field Relations for Dielectric Waveguides. Planar
Dielectric Waveguides.  Cylindrical Dielectric Waveguides. Dispersion. Mode
Coupling, and Loss Mechanisms. Single Mode Fibers. Glass Materials. Fiber
Fabrication, and Characterization Techniques. Light-Emission Processes in
Semiconductors. Properties and Growth of Semiconductor Heterojunctions.
Semiconductor Lasers. Optical Transmitters. Photodetectors. Optical Receivers.
Optical Fiber Systems.

@ 1990, 496pp., Cloth (31504-4) 0-13-315045-3




                                ELECTROMAGNETICS



Electromagnetic Concepts and Applications, Third Edition

Stanley V. Marshall
Gabriel G. Skitek, both of the Univ of Missouri, Rolla

Thorough revision of best-selling mainstream text in electromagnetics for
junior level required courses. Revision contains many new problems and
examples. Transmission lines chapter has been completely revised.

CONTENTS: (NOTE: Each chapter begins with an Introduction and ends with Review
Questions and Problems.) 1. Vector Analysis. 2. Charge, Charge Densities,
Coulomb's Law, and Electric Field Intensity.  3. Electric Flux, Electric Flux
Density, Gauss's Law, Divergence, and Divergence Theorem.  4. Energy Exchanges,
Potential Difference, Gradient, and Energy in a System of Charges.  5. Moving
Charges (Current), Conductors, Ohm's Law, Resistance, Semiconductors,
Dielectrics, and Capacitance.  6. Uniqueness Theorem, Solution of Laplace's
Equation, and Solution of Poisson's Equation.  7. Graphical Solution
(Curvilinear Squares), Numerical Solution (Iteration), Image Solution, Analog
Solution, and Experimental Solution.  8. Biot-Savart Law, Ampere's Circuital
Law, Curl, Stokes' Theorem, Magnetic Flux Density Vector, Vector Magnetic
Potential, and Maxwell's Equations. 9. Magnetic Forces, Magnetic Polarization,
Magnetic Material, Reluctance, Magnetic Circuits, and Inductance.  10.
Faraday's Law, Time-Varying Fields, Potential Functions, and Boundary
Relations.  11. Propagation and Reflection of Plane Waves. 12. Transmission
Lines.  13. Waveguides. 14. Antennas.

@ 1990, 544pp., Cloth (25096-9) 0-13-250960-1
  SOLUTIONS MANUAL (25144-7) 0-13-251448-6



                                   MICROWAVES



Microwave Devices and Circuits, Third Edition

Samuel Y Liao, California State Univ, Fresno

For senior/graduate-level courses on Active and Passive Microwave Circuits.
Revision includes treatment of new devices such as HEMIS, HBT'S, CMOS, and NMOS
devices. All topics brought up-to-date.

CONTENTS: (NOTE: Chapters begin with an Introduction and end with References,
Suggested Readings, and Problems.)  1. Interactions Between Electrons and
Fields.  2. Electromagnetic Plane Waves.  3. Microwave Transmission Lines.  4.
Microwave Waveguides and Components. 5. Microwave Transistors and Tunnel
Diodes.  6. Microwave Field-Effect Transistors.  7. Transferred Electron
Devices (TEDs).  8. Avalanche Transit-Time Devices.  9. Microwave Linear-Beam
Tubes (O Type). 10. Microwave Cross-Field Tubes (M type).  11. Strip Lines.
12. Monolithic Microwave Integrated Circuits (MMCs).

@ 1990, 592pp., Cloth (58320-3) 0-13-583204-7
  SOLUTIONS MANUAL (58321-1) 0-13-583212-8



Microwave Engineering Using Microstrip Circuits

E. Henry Fooks
Ramutis A. Zakarevicius, both of The Univ of New South Wales

For junior and senior-level courses on Microwave Circuits, Microwave
Communication, Communications Circuits in schools of electrical engineering,
communication and physics. Explains and develops the principles of microstrip
circuits. Develops students' knowledge from basic transmission theory through
to microwave subsystems. Concentrates on principles with an emphasis on the
physical point of view. An outstanding teaching and reference book. Wide
selection of chapter-end problems.

CONTENTS: Transmission Line Theory. Two-Port Parameters. Microstrip
Transmission Lines-Basic Theory. Microstrip Transmission Lines-Further
Considerations. Discontinuities. The Smith Chart and Its Uses. Hybrid-Line
Couplers. Parallel-Coupled Lines and Directional Couplers. Filters.
Miscellaneous Components. Active Circuit Characterization. Microstrip Circuits
and Subsystems. Microstrip Experiments. Appendices.

@ 1990, 448pp., Cloth (69165-9) 0-13-691650-3
  INSTRUCTOR'S MANUAL (69183-2) 0-13-691833-6



                                 POWER SYSTEMS



Basic Electric Machines

Vincent Del Toro

For core courses in Electric Machinery. Focuses on all aspects of steady-state
performance, control and applications.

CONTENTS: (NOTE: Each chapter concludes with Problems.) PART 1: BASIC TOPICS.
1. Magnetic Theory and Circuits.  2. Transformers.  3. Fundamentals of
Electromechanical Energy Conservation.  4. Three-Phase Induction Motors.  5.
Three-Phase Synchronous Generators.  6. Three-Phase Synchronous Motors.  7.
Direct-Current Generators.  8. Direct Current Motors.  9. Single-Phase
Induction Motors. 10. Unbalanced Two-Phase Motors: Servomotors.  11. Stepper
Motors.  12. Synchros.  13. Dynamics of Electric Machines.  APPENDICES: A.
Units and Conversion Factors. B. Pitch and Distribution Factors for Machine
Windings. C. Derivation of the Peak MMF per Pole of a Polyphase Winding. D.
Reduction Factors for Polyphase Windings. E. Saturated Synchronous Reactance
Method Based on Resultant Flux. F. Slip Test for Salient-Pole Synchronous
Machines.

@ 1990,704pp., Cloth (06014-5) 0-13-060146-2
  SOLUTIONS MANUAL (06020-2) 0-13-060203-5



Principles of Wind Energy Conversion Systems

L. L. Freris, Imperial College of Science and Technology, London

A state-of-the-art, multidisciplinary approach to the theory, design, operation
and control of Wind Frequency Conversion Systems. Stresses the practical
implementation of theory.

CONTENTS: Introduction. Wind Structure and Statistics. Wind
Resource-Anemometry. Wind Tube Aerodynamics. Forces and Dynamics of Horizontal
Aids Wind Turbines. Dynamics of Vertical Aids Wind Turbines. Effects of
Turbulence on WECS Dynamics. Basic Control Aspects of VATECS. Generation of
Electricity. Modeling of Wind Energy Conversion Systems. Control System Design.
Horizontal Axis WECS Design. Vertical Aids WECS Design. Performance Testing and
Modelling. WECS Field Testing-Instrumentation. Wind Diesel Systems. System
Integration of Wind Power. Economics. References.

@ 1990,512pp., Cloth (96052-6) 0-13-960527-4



Fluid Power Systems: Modeling, Simulation and Microcomputer Control

J. Wafton, Univ of Wales, College of Cardiff

CONTENTS: Introduction. System Components and Their Steady-State
Characteristics. Dynamic Modeling of a Lumped System Components. Techniques of
Dynamic System Analysis. Dynamic Modeling of transmission Lines. Response,
Stability, and Control of Electrohydraulic Systems. Microcomputer-Controlled
Systems. Some More Advanced Component and System Studies. Appendices. Problems.
References.

@ 1989,509pp., Cloth (32319-6) 0-13-323197-6



Automating Electric Utility Distribution Systems: The Athens Automation and
Control Experiment

P. A. Gnadt
J. S. Lawler, Editors

E. W. Whitfield, Technical Editor

This volume describes the results of the Athens Automation and Control
Experiment (AACE) which provided the research and development required for
installing a completely integrated automation and load control electronic
system on an urban/rural electric distribution system typical of those that
exist throughout the U.S. The project began with the major substation equipment
and followed each system component down to individual residential appliances by
installing computer-controlled and -integrated hardware and software to
monitor, evaluate and ultimately control every aspect of an electric
distribution system. The volume presents design philosophy, detailed design
information, information from technical papers delivered during the
experimental phase of the project, and descriptions of software developed
during the course of the project.

@ 1990, 272pp., Cloth (05373-6) 0-13-053737-3



Basics of Electrical Power Transmission

Anthony J. Pansini, Engineering and Management Consulant

Using non-technical language, this text explores the distinctive features,
problems and solutions associated with the planning, design, construction,
operation and maintenance of power transmission lines. It details the material
and equipment that make up these lines, their function and operation, and the
measures taken to ensure worker and public safety.

@ 1990, 240 pp., cloth (05986-5) 0-13-059866-6



Modern Electric/Electronic Motors

Martin Clifford

CONTENTS: Development of the Motor. Physical and Electrical Characteristics. DC
Motors. AC Motors. Synchros. Electronics for Motors. Brushless DC Motors.
Stepping Motors. Couplings, Belts, and Gears. Index.

@ 1990, 352pp., Cloth (59333-5) 0-13-593336-6