ElectricalEngee&CompSci

01 electrical engineering

03 circuits and components

05 basic electronics/electronic devices and circuits

07 industrial and power electronics

08 microprocessors and embedded systems

11 electromagnetics engineering/ communication engineering

15 VLSI

16 mobile computing

17 computer networking

18 control and instrumentation

19 artificial intelligence and expert systems

21 software engineering

23 programming

27 data mining and warehousing

28 numerical methods/engineering mathematics

29 discrete mathematics/matlab/labview

30 soft skills/professional ethics

33 highlights

35 author index

37 title index

contentsTo find the information that you are looking for quickly and easily, please refer to the author index on page 35 and title index on page 37

Oxford University Press is a department of the University of Oxford. It furthers the Universitys objective of excellence in research, scholarship, and education by publishing worldwide.

www.oup.com

The specifications in this catalogue, without limitation price, page extent, jacket images and month of publication were as accurate as possible at the time the catalogue went to press.

In this catalogue

highlights

page1

page8

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1www.oup.co.in www.oupinheonline.com

Second Edition

Basic Electrical Engineering T K Nagsarkar, Formerly, Professor and Head, Punjab Engineering College, Chandigarh; M S Sukhija, Formerly, Founder Principal, Guru Nanak Dev Engineering College, Bidar, Karnataka.

New sections on electrostatics, Biot-Savart law, and synchronous generator connected to an infinite bus bar

New chapter on single-phase induction motors and special machines

Learning Objectives in the beginning of every chapter Many new illustrations to supplement the text Several additional solved examples to enhance the

understanding of new concepts

Numerous new end-chapter exercises with answers and MCQs to stimulate student interest

Continuing on the lines of the well-received first edition, this revision of Basic Electrical Engineering provides a lucid exposition of the principles of electrical engineering for both electrical as well as non-electrical undergraduate students of engineering. Students pursuing diploma courses as well as those appearing for AMIE examinations would find this book extremely useful.

Beginning with the fundamental concepts of electricity and electrical elements, the book provides an exhaustive coverage of network theory and analysis, magnetic circuits and energy conversion, alternating and direct current machines, basic analogue instruments, and ends with a brief introduction to power systems.

Contents: 1. Introduction to Electrical Engineering; 2. Network Analysis and Network Theorems; 3. Magnetic Circuits; 4. Alternating Quantities; 5. Three-phase Systems; 6. Transformer Principles; 7. Synchronous Machines; 8. Induction Motors; 9. Direct Current Machines; 10. Single-phase Induction Motors and Special Machines; 11. Basic Analogue Instruments; 12. Power Systems

Online Resource

For Lecturers : Solution Manual

April 2011

` 350 | 9780198068907 | Paperback | 700 Pages | Indian Original

Basic Electrical EngineeringFor UP Technical University T K Nagsarkar, Formerly, Professor and Head, Punjab Engineering College, Chandigarh; M S Sukhija, Formerly, Founder Principal, Guru Nanak Dev Engineering College, Bidar, Karnataka.

Coverage of topics exactly as per the 20082009 UPTU syllabus

Overview of topics and recapitulation of important formulae in every chapter

Plenty of chapter-end problems and multiple choice questions with answers

Numerous solved examples in the text Intellectual capability tests to enable students to test their

understanding of the concepts

Basic Electrical Engineering is a textbook designed specially for undergraduate students of engineering at UP Technical University. Beginning with the fundamentals of electricity and electrical elements, the book provides an exhaustive coverage measuring instruments, power systems, magnetic circuits, transformers, and alternating and direct current machines.

Contents: 1. Introduction to Electrical Engineering; 2. Direct-current Circuit Network Analysis and Network Theorems; 3. Single-phase AC Circuits; 4. Three-phase AC Circuits; 5. Measuring Instruments; 6. Power Systems; 7. Magnetic Circuits; 8. Single-phase Transformers; 9. Direct-current Machines; 10. Induction Motors; 11. Three-phase Synchronous; Machines; Appendix Intellectual Capability Test

August 2008


Revised Edition

Basic Electrical and Electronics EngineeringT K Nagsarkar, Formerly, Professor and Head, Punjab Engineering College, Chandigarh; M S Sukhija, Formerly, Founder Principal, Guru Nanak Dev Engineering College, Bidar, Karnataka.

Provides an in-depth and all-inclusive coverage of the different parts of electrical and electronics engineering.

Includes separate chapters on Transducers, Telecommunication Systems, Digital Systems, and Control Systems

Provides a large number of solved examples, multiple choice questions, and review questions

Provides plenty of end chapter numerical problems with answers to provide students adequate practice for examinations

Includes carefully written chapter summaries to assist quick revisionBasic Electrical and Electronics Engineering has been written primarily for the first year undergraduate students of engineering to help them understand the basic principles of electrical and electronics engineering.

Contents: 1. Introduction to Electrical Engineering; 2. Network Analysis and Network theorems; 3. Magnetic Circuits; 4. Alternating Quantities; 5. Three-phase Systems; 6. Transformer Principles; 7. Induction Motor; 9. Direct Current Machines; 10. Measuring Instruments; 11. Power Systems; 12. Semiconductor Theory and Diode Principles; 13. Basics of Bipolar Junction Transistors; 14. Basics of Field Effect Transistors; 15. Oscillators; 16. Operational Amplifiers; 17. Transducers; 18. Telecommunication Systems and Information Technology; 19. Fundamentals of Digital Systems; 20. Fundamentals of Control Systems

July 2012


Basic Electrical Engineering Revised Second EditionT K Nagsarkar, Formerly, Professor and Head, Punjab Engineering College, Chandigarh; M S Sukhija, Formerly, Founder Principal, Guru Nanak Dev Engineering College, Bidar, Karnataka.

Coverage of topics exactly as per the latest JNTU syllabus Provides chapter overview and recapitulation of important

formulae in every chapter.

Plenty of review questions and multiple choice questions at the end of the chapters

Includes intellectual capability tests to enable students to test their understanding of the concepts

Provides JNTU April/ May 2007, May/June 2008, and June 2009 question papers with solutions

Contents: 1. Introduction to Electrical Engineering; 2. Network Analysis and Network Theorems; 3. Magnetic Circuits; 4. Alternating Quantities; 5. Three-phase Systems ; 6. Transformers; 7. Direct-Current Machines; 8. Synchronous Machines; 9. Induction Motors; 10. Basic Instruments; Appendix: Intellectual Capability Test; Solved Question Papers

September 2009


UPTU

JNTU

electrical engineering

New

2 www.oup.co.in www.oupinheonline.com

Second Edition

Basic Electrical and Electronics EngineeringB.R. Patil, Professor, Department of Electrical Engineering, Lokmanya Tilak College of Engineering, Navi Mumbai.

Provides plenty of end-chapter exercises to encourage self-study

Presents step-wise procedure for drawing phasor diagrams

Includes University of Mumbai Question PapersNew to the Second Edition

Revised according to the latest curriculum of the University of Mumbai

Includes a number of new solved examples and unsolved problems on DC and AC circuits

The second edition of Basic Electrical and Electronics Engineering is specially designed for the first year engineering students of the University of Mumbai.

Beginning with the basics of electricity, the book provides an exhaustive coverage of topics such as dc and ac circuits, three-phase circuits, single-phase transformers, and semiconductor devices. The subject matter in each chapter is developed systematically from the basic principles and is supplemented with several solved examples. In addition, there are appendices at the end of the book, which would prove useful in understanding the fundamental concepts of electricity, capacitor, magnetic circuit, electromagnetism, and electromagnetic induction.

Contents: 1. DC Circuits; 2. AC Circuits; 3. Three-Phase Circuits; 4. Single-Phase Transformer; 5. Semiconductor Devices; Appendix A: Fundamentals of Electricity; Appendix B: Capacitor; Appendix C: Relation between Magnetic and Electric Fields; Bibliography; Question Papers

July 2012


Power System AnalysisT K Nagsarkar, Formerly, Professor and Head, Punjab Engineering College, Chandigarh; M S Sukhija, Formerly, Founder Principal, Guru Nanak Dev Engineering College, Bidar, Karnataka.

Includes numerous examples with step-by-step procedures and a variety of end chapter problems to enhance understanding of key concepts

Contains a large number of illustrative problems that use MATLAB in the analysis of power systems

Includes advanced topics such as contingency analysis and state estimation

Provides an introduction to HVDC and FACTSContents: 1. Power Sector Outlook; 2. Basic Concepts; 3. Transmission Line Parameters; 4. Transmission Line Model and Performance; 5. Simulation of Power System Components; 6. Formulation of Network Matrices; 7. Power Flow Studies; 8. Power System Controls; 9. Symmetrical Fault Analyses; 10. Symmetrical Components and Unsymmetrical Fault Analyses; 11. Power System Stability; 12. Contingency Analysis Techniques; 13. State Estimation Techniques; 14. An Introduction to HVDC Power Transmission; 15. Introduction to FACTS; Appendices

Online Resource


February 2007


Second Edition

Fundamentals of Electrical EngineeringLeonard S. Bobrow, University of Massachusetts, Amherst.

Only fundamentals book to cover SPICE (the circuit analysis software).

Covers most topics in greater depth than most introductory books, giving students an appreciation for the fundamental principles on which modern electrical engineering is based.

Provides maximum instructor and course flexibility with a modular, five part organization.

Contains 243 drill exercises, 1182 revised and additional end-of-chapter problems to reinforce topics introduced.

Contents: PART 1: CIRCUITS; 1. Basic Elements and Laws; 2. Circuit Analysis Principles; 3. Time-Domain Circuit Analysis; 4. AC Analysis; 5. Important Circuit and System Concepts; PART 2: ELECTRONICS; 6. Diodes; 7. Bipolar Junction Transistors (BJTs); 8. Field-Effect Transistors (FETs); 9. Transistor Amplifiers; 10. Electronic Circuits and Amplifiers; PART 3: DIGITAL SYSTEMS; 11. Digital Logic; 12. Logic Design; 13. Digital Devices; PART 4: ELECTROMAGNETICS; 14. Electromagnetics; 15. Machines; PART 5: SPICE; 16. Spice

Resource


July 2003

` 525 | 9780195667493 | Paperback | 1184 Pages | Indian Reprint

Wind Electrical SystemsS.N. Bhadra, College of Engineering and Management, Kolaghat, West Bengal D. Kastha, IIT Kharagpur. S. Banerjee, IIT Kharagpur. He has received the Shanti Swarup Bhatnagar Award for his research on non-linear dynamics.

Incorporates contemporary analytical methods to study the steady state as well as dynamic behaviour of wind electrical systems

Includes recent developments in the area such as variable-speed, constant-frequency systems based on cage rotor and wound rotor induction machines, permanent magnet machines, and hybrid systems

Contains a large number of worked examples and exercise problems

Wind Electrical Systems provides an integrated and comprehensive treatment of wind energy conversion without assuming any background of the subject.

Beginning with the basics of wind energy, the book goes on to discuss conversion of wind energy into electrical energy, wind energy integration with and consumption, and variable-speed wind generators. The book ends with a discussion of hybrid power systems where wind energy is integrated with another energy source such as solar energy or diesel generators to provide reliable power.

With its wide inter-disciplinary coverage, the book would serve as an indispensable text for students of electrical, mechanical, and energy engineering as well as practising engineers.

Contents: 1. Fundamentals of Wind Turbines; 2. Wind Site Analysis and Selection; 3. Basics of Induction and Synchronous Machines; 4. Power Electronics; 5. Grid-connected and Self-excited Induction Generator Operation; 6. Generation Schemes with Variable-speed Turbines; 7. Hybrid Energy Systems.

Online Resource


July 2005


Mumbai University

electrical engineering

New edition


Third Edition Operational Amplifiers and Linear IcsDavid A. Bell, is a professional engineer. Formerly at Lambton College of Applied Arts and Technology in Sarnia, Ontario, Canada.

Explains basic op-amp circuits, op amp parameters and performance

Covers a wide variety of op-amp and linear IC applications.

Numerous practical, easy to understand, circuit design and analysis examples

Computer graphic analysis of practical circuitsBeginning with a discussion of the basic op-amp internal circuit, the text explains the operation of voltage followers, non-inverting amplifiers, and inverting amplifiers. Op-amp parameters and performance limitations are investigated next, followed by the design and analysis of direct-coupled and capacitor-coupled op-amp circuits. This third edition features new chapters on noise in op-amp circuits, sinusoidal oscillators, audio power amplifiers, D/A and A/D converters, and phase-locked loop. Additional topics treated include IC voltage comparator, IC timer circuits, switching regulators, switched capacitor filters and IC power amplifiers.

Content: 1. Introduction to Operational Amplifiers; 2. Operational Amplifier Parameters and Performance; 3. Op-Amps as DC Amplifiers; 4. Op-Amps as AC Amplifiers; 5. Op-Amp Frequency Response and Compensation; 6. Noise in Operational Amplifier Circuits; 7. Miscellaneous Op-Amp Linear Applications; 8. Switching, Differentiating, and Integrating Circuits; 9. Signal Processing Circuits; 10. Signal Generators; 11. Sinusoidal Oscillators; 12. Active Filters; 13. DC Voltage Regulators; 14 Audio Power Amplifiers; 15. Digital-to-Analog and Analog-to-Digital Conversion; 16. Phase Locked Loop; Appendix A IC Data Sheets; Appendix B Standard Value Components; Appendix C Answers to Odd - Numbered Problems

Online Resource

For Lecturers : Solution Manual & Lab Manual

January 2011

` 395 | 9780195696134 | Paperback | 536 Pages | Indian Adaptation

circuits and Networks: Analysis, Design, and Synthesis T K Nagsarkar, Formerly, Professor and Head, Punjab Engineering College, Chandigarh; M S Sukhija, Formerly, Founder Principal, Guru Nanak Dev Engineering College, Bidar, Karnataka.

Numerous solved examples interspersed with text that apply the theoretical concepts learned

Key formulae highlighted at the end of every chapter for easy revision

Separate appendices on MATLAB and PSpice Self-appraisal test at the end of the book for a holistic

chapter-wise evaluation

Circuits and Networks: Analysis, Design, and Synthesis is specially prepared to provide an in-depth knowledge of electrical circuit analysis, design, and synthesis, the book provides a comprehensive coverage of each topic with equal emphasis on theory and practice.

Contents: 1. Definitions and Basic Circuit Concepts; 2. Nodal and Mesh Analyses; 3. Signals and Waveforms; 4. Fundamentals of Reactive Circuits; 5. Sinusoidal Steady-State Analysis; 6. Network Theorems; 7. Alternating Current Power Circuit Analysis; 8. Balanced Three-Phase Circuits; 9. Mutually Coupled Circuits and Their Analyses; 10. Fundamentals of Graph Theory; 11. Analysis of Circuits by Laplace Transforms; 12. Impedance and Admittance Functions; 13. Network Functions; 14. Two-Port Networks; 15. Fourier Series-Based Circuit Analysis; 16. Filter and Attenuator Circuits; 17. Network Synthesis and Realizability; Appendix A : MATLAB Applications in Linear

Protection and SwitchgearBhavesh Bhalja, Professor and Head, Department of Electrical Engineering, A D Patel Institute of Technology, Gujarat, R. P. Maheshwari, Professor, Department of Electrical Engineering, IIT, Roorkee, Nilesh G. Chothani, Assistant Professor, Department of Electrical Engineering, A D Patel Institute of Technology, Gujarat

Provides in depth coverage of apparatus protection in an easily comprehensible manner

Discusses circuit breaking fundamentals and selection & testing of circuit breakers using actual field data

Includes solved examples and unsolved examples at the end of each chapter along with review exercises and MCQs.

Provides the International code list for protective relying scheme with description of each device

Discusses latest development of digital/numerical relaying scheme for line and equipment protection in each chapter

Provides an introductory chapter on PSCADContents: 1. Protective Relaying Fundamentals; 2. Current Based Relaying Scheme for Transmission Line; 3. Pilot Independent Distance Relaying Scheme; 4. Pilot Relaying Scheme for Transmission Line; 5. Generator Protection; 6. Transformer Protection; 7. Induction Motor Protection; 8. Protection of Busbar; 9. Current and Potential Transformer for Relaying Schemes; 10. Protection Against Transients and Surges; 11. Autoreclosing And Synchronizing; 12. System Response to Severe Upsets; 13. Theory of Arc Interruption; 14. Types of Circuit Breakers; 15. Testing, Commissioning & Maintenance of Relays; 16. Recent Developments in Protective Relays; 17. Introduction to PSCAD

Resource


September 2011


Third Edition

Electric Machinery and TransformersBhag S. Guru and Hseyin R. Hiziroglu, both from Kettering University.

Emphasis on pedagogy and student understanding with review of basic theory supported by numerous examples, illustrations, and exercises

Encourages intuitive reasoning and problem-solving over rote memorization of equations and procedures

Provides a systematic development of electrical machine models based on both electromagnetic field and circuit theories, presenting the material in a systematic order: 1) explains the physical construction of a machine, 2) illustrates its windings and the placement, 3) describes the fundamental laws governing its operation, 4) justifies the assumptions imperative to develop the relevant theory, and 5) emphasizes the machines limitations

Contents: 1. Review of Electric Circuit Theory; 2. Review of Basic Laws of Electromagnetism; 3. Principles of Electromechanical Energy Conversion; 4. Transformers; 5. Direct-Current Generators; 6. Direct-Current Motors; 7. Synchronous Generators; 8. Synchronous Motors; 9. Polyphase Induction Motors; 10. Single-Phase Motors; 11. Dynamics of Electric Machines; 12. Special-Purpose Electric Machines; Appendices; A. System of Units; B. The Laplace Transform

Resource


March 2007

` 435 | 9780198089827 | Paperback | 720 Pages | EPZ Print

circuits and components


Steady-State Power Calculations; 12. Balanced Three-Phase Circuits; 13. Laplace Transform Analysis, 1: Basics; 14. Laplace Transform Analysis, 2: Circuit Applications; 15. Laplace Transform Analysis, 3: Transfer Function Applications; 16. Time Domain Circuit Response Computations: The Convolution Method; 17. Resonant and Bandpass Circuits; 18. Magnetically Coupled Circuits and Transformers; 19. Two-Ports; 20. Analysis of Interconnected Two-Ports; 21. Principles of Basic Filtering; 22. Fourier Series with Applications to; Electronic Circuits; APPENDICES:; A1. Matrices; A2. Solving Circuit Problems with MATLAB; Chapters 1 to 12; A3. Use of SPICE in Linear Circuits

Online Resource

For Lecturers : Solution Manual & PowerPoint Presentation in CD

August 2003


Seventh Edition

Electric circuitsDavid A. Bell, is a professional engineer. Formerly at Lambton College of Applied Arts and Technology in Sarnia, Ontario, Canada.

Numerous practical worked examples Step-by-step circuit analysis procedures for each type of

circuit

End-of-section practice problems with answers Explanations of the correct use of basic digital and analog

instruments

Computer graphic analysis of practical circuits Unit definitions, standard component values, conversion

factors, and more in the appendices

Giving a comprehensive coverage of electricity, magnetism, and DC and AC circuits, the book features new chapters on filters, network parameters, computer analysis, network topology, and Laplace transforms.

Contents: 1. Basics of Electricity; 2. Measuring Current, Voltage, and Resistance; 3. Ohms Law and Electrical Calculations; 4. Conductors, Insulators, and Resistors; 5. Series Resistor Circuits; 6. Parallel Resistor Circuits; 7. Series-Parallel Resistor Circuits; 8. Network Analysis Techniques; 9. Network Theorems; 10. Voltage Cells, Batteries, and DC Power Supplies; 11. Magnetis SM; 12. Magnetic Circuits; 13. DC Measuring Instruments; 14. Inductance; 15. Capacitance; 16. Inductance and Capacitance in DC Circuits; 17. Alternating Current and Voltage; 18. Phasors and Complex Numbers; 19. Inductance and Capacitance in AC Circuits; 20. Series and Parallel AC Circuits; 21. Power in AC Circuits; 22. AC Network Analysis and Theorems; 23. Resonance; 24. Filters; 25. Transformers; 26. Three-Phase AC; Systems; 27. Non-Sinusoidal Waveforms; 28. Network Parameters; 29. Circuit Analysis by Computer; 30. Network Topology; 31. Introduction to Laplace Transforms; Appendix 1 Circuit Symbols; Appendix 2 The International System of Units (SI Units); Appendix 3 Unit Conversion Factors; Appendix 4 American Wire Gauge Sizes and Metric Equivalents; Appendix 5 Resistor Color Code; Appendix 6 Resistor and Capacitor Values; Appendix 7 Determinants; Appendix 8 Answers to Odd-Numbered Problems

Online Resource


April 2009


Circuits; Appendix B :Linear Circuit Analysis with PSpice; Appendix C : Answers; Appendix D: Self Appraisal Test

Online Resource


May 2010


Linear circuitsAnalysis and Synthesis

(Includes CD)A. Ramakalyan, National Institute of Technology, Tiruchirapalli.

Covers both analysis and synthesis of circuits Introduces the operational amplifier as a circuit element Introduces and incorporates SPICE for the analysis of

circuits

Reinforces theoretical concepts by providing numerous illustrative examples

Includes laboratory experiments Each chapter ends with a Summary and Exercises.Contents: 1. Introduction; 2. The Elements; 3. Graphs, Networks, and Circuits; 4. Analysis of Resistive Circuits; 5. Transients with Energy Storage Elements; 6. Sinusoidal Sources and Response; 7. Frequency Response of Networks; 8. Power Circuits; 9. Generalized Frequency Response; 10. Two-Port Parameters; 11. Synthesis of Networks; 12. Operational Amplifiers; 13. Fourier Analysis of Signals and Circuits; 14. General Linear Systems; Appendices

Online Resource


November 2004


Second Edition

Linear circuit AnalysisTime Domain, Phasor, and Laplace Transform ApproachesRaymond A. DeCarlo and Pen-min Lin, both at Purdue University, USA

Complete integration and extensive use of MATLAB in solving problems and examples

Frequent use of SPICE, especially with op amp circuits Twenty percent more examples and numerous additional

illustrations

Approximately three times as many exercises immediately following the examples

More than 1000 end-of-chapter problems (approximately 25% more than the first edition, categorized and graded from the simpler to the more complex; this edition includes many new basic problems)

Excellent pedagogical elements including case studies, motivational real-world illustrations, and key terms and concepts

Each chapter ends with a Summary, Terms and Concepts, and ProblemsContents: 1. Introduction and Basic Concepts; 2. Kirchhoffs Current & Voltage Laws and Series-Parallel Resistive Circuits; 3. Nodal and Loop Analyses; 4. The Operational Amplifier; 5. Linearity, Superposition, and Source Transformations; 6. Thvenin, Norton, and Maximum Power Transfer Theorems; 7. Inductors, Capacitors, and Duality; 8. First-Order RL and RC Circuits; 9. Second-Order Linear Circuits; 10. Sinusoidal Steady-State Analysis by Phasor Methods; 11. Sinusoidal

circuits and components


Fifth Edition

Electronic Devices and circuitsDavid A. Bell, is a professional engineer. Formerly at Lambton College of Applied Arts and Technology in Sarnia, Ontario, Canada.

Contains a new chapter on active filters Covers small-signal amplifiers, amplifiers with negative

feedback, and op-amp frequency response and compensation

Offers many understandable, practical, circuit design examples

Replaces rigorous analysis methods with practical approximations

Provides explanatory captions with illustrations Includes appendices containing device data sheets, standard-value components,

and answers to odd-numbered problems

Contents: 1. Basic Semiconductor and pn-Junction Theory; 2. Semiconductor Diodes; 3. Diode Applications; 4. Bipolar Junction Transistors (BJTs); 5. BJT Biasing; 6. AC Analysis of BJT Circuits; 7. Fabrication of Semiconductor Devices sand ICs. 8. BJT Specifications and Performance; 9. Field Effect Transistors; 10. FET Biasing; 11. AC Analysis of FET Circuits; 12. Small Signal Amplifiers; 13. Amplifiers with Negative Feedback; 14 . IC Operational Amplifiers and Basic Op-amp Circuits; 15. Operational Amplifier Frequency Response and Compensation; 16. Signal Generators; 17. Active Filters; 18. Linear and Switching Voltage Regulators; 19. Power Amplifiers; 20. Thyristors; 21. Optoelectronic Devices; 22. Miscellaneous Devices; Appendix A Device Data Sheets; Appendix B Standard Value Components; Appendix C Answers to Odd - Numbered Problems

Online Resource


April 2008


Solid State Electronic DevicesD.K. Bhattacharya, Head Scientist, Solid State Physics Laboratory, New Delhi. Rajnish Sharma, Chitkara University (EEE Group).

Elucidates the working of traditional as well as modern semiconductor devices

Facilitates an insight into the basic principles of solid state physics that form the basis of semiconductor device design

Incorporates pedagogical features such as solved problems, review questions, end-chapter exercises, and additional information after important sections

Provides an introduction to current topics such as MEMSBeginning with basic topics such as electron dynamics, the book provides detailed coverage of topics such as crystal growth, energy band structure, excess carriers in semiconductors, p-n junctions, and transistors. Upcoming areas such as micro-electromechanical systems (MEMS) have also been discussed. The book provides an introduction to optoelectronic devices, power devices, microwave devices, and integrated circuits.

Contents: 1. Electron Dynamics; 2. Growth and Crystal Properties of Semiconductors; 3. Energy Bands and Charge Carriers in Semiconductors; 4. Excess Carriers in Semiconductors; 5. p-n Junction; 6. p-n Junction Current; 7. MetalSemiconductor Junctions and Hetero-junctions; 8. Bipolar Junction Transistors; 9. Field-effect Transistor; 10. Opto-electronic Devices; 11. Power Devices; 12. Integrated Circuits and Micro-electromechanical Systems; 13. Microwave Devices; 14. Rectifiers and Power Supplies; Appendices

Online Resource


March 2007


Digital Integrated circuit DesignKen Martin, University of Toronto.

Emphasizes conceptual thinking over detailed circuit analysis techniques

Transistor level details are presented before system considerations

Working from the fundamentals of transistorlevel design and building up to system-level considerations, Digital Integrated Circuit Design shows students with minimal background in electronics how to design state-of-the-art high performance digital integrated circuits. Ideal as an upper-level undergraduate text, it can also be used in first-year graduate courses and as a reference for practicing engineers.

Contents: 1. The Basics; 2. Processing, Layout, and Related Issues; 3. Integrated-Circuit Devices and Modeling; 4. Traditional MOS Design; 5. Transmission-Gate and Fully Differential CMOS Logic; 6. CMOS Timing and I/O Considerations; 7. Latches, Flip-FLops, and Synchronous System Design; 8. Bipolar and BiCMOS Logic Gates; 9. Advanced CMOS Logic Design; 10. Digital Integrated System Building Blocks; 11. Integrated Memories; 12. GaAs Digital Circuits; 13. Digital System Testing

January 2004


Electric circuits and Electronic DevicesDavid A. Bell, is a professional engineer. Formerly at Lambton College of Applied Arts and Technology in Sarnia, Ontario, Canada.

Offers numerous understandable and practical circuit examples

Includes step-by-step circuit analysis procedures for each type of circuit

Contains end-of-section practice problems with answers Includes appendices containing unit conversion factors,

device data sheets, standard-value components, and answers to odd-numbered problems

It provides a balanced presentation of the two key subjects of electric circuits and electronic devices. The book is written in a lucid manner, supported by illustrations to help students understand each new concept, or analysis method as it is introduced. Explanatory captions are included for almost all illustrations, and each illustration is carefully discussed in the text.

Contents: PART I: Electric Circuits; 1. Series Resistor Circuits; 2. Parallel Resistor Circuits; 3. Series-Parallel Resistor Circuits; 4. Network Analysis Techniques; 5. Network Theorems; 6. Inductance; 7. Capacitance; 8. Inductance and Capacitance in DC Circuits; 9. Alternating Current and Voltage; 10. Phasors and Complex Numbers; 11. Inductance and Capacitance and AC Circuits; 12. Series and Parallel AC Circuits; 13. AC Network Analysis and Theorems; 14. Resonance; PART II: Electronic Devices; 15. Basic Semiconductor and pn-Junction Theory; 16. Semiconductor Diodes; 17. Bipolar Junction Transistors; 18. AC Analysis of BJT Circuits; 19. Field Effect Transistors; 20. AC Analysis of FET Circuits; 21. Thyristors; 22. Optoelectronic Devices; 23. Miscellaneous Devices; Appendices; Appendix A Circuit Symbols; Appendix B The International System of Units (SI Units); Appendix C Unit Conversion Factors; Appendix D Determinants; Appendix E Device Data Sheets; Appendix F Standard-Value Components; Appendix G Answers to Odd-Numbered Problems

Online Resource

For Lecturers : Solution Manual, Lab Manual, & PowerPoint Presentation

October 2010


basic electronics/ electronic devices and circuits


Numerous solved examples in each chapter expose the students to the problem solving techniques, and the practice problems at the end of each chapter challenge readers to test their understanding of the concepts.

Contents: PART I: SEMICONDUCTOR DEVICES; 1. Semiconductors, Crystal Structures, and Fabrication Technology; 2. Basic Semiconductor Physics; 3. Excess Carriers and Transport Processes in Semiconductors; 4. Junction Diodes; 5. Bipolar Junction Transistors (BJTS); 6. Metal-Oxide-Semiconductor (MOS) Capacitors; 7. Field-Effect Transistors (FETS); PART II. ANALOG CIRCUITS; 8. Biasing; 9. Amplifiers; 10. Output Stages; 11. Frequency Response; 12. Feedback, Stability, and compensation; Chapter 13. Operational Amplifier and its Applications; 14. Oscillators

Online Resource


March 2008


Semiconductor Physics and DevicesS.S. Islam, Faculty of Engineering & Technology, Jamia Millia Islamia, New Delhi.

Facilitates insight into the working of traditional as well as modern semiconductor devices .

Presents experimental techniques for semiconductor processing and characterization.

Covers the latest trends in areas such as heavily doped semiconductors, bandgap engineering, and high-electron-mobility transistors .

Includes a large number of worked-out examples as well as chapter-end problems with answers.

Contents: Part I: PHYSICS OF SEMICONDUCTORS; 1. Quantum Mechanics of Semiconductors; 2. Physical Statistics of Semiconductors; 3. Bonds and Bands; 4. Practical Semiconductors; 5. Doping of Semiconductors; 6. Carrier Processes in Semiconductors; 7. Bandgap Engineering; 8. Semiconductor Growth, Processing, and its Characterization; Part II: SEMICONDUCTOR DEVICES; 9. Junction Analysis; 10. Bipolar Junction Transistors; 11. Junction Field Effect Transistor; 12. MetalSemiconductor Field Effect Transistor; 13. High-electron-mobility Transistors; 14. Metal Oxide Semiconductor Field Effect Transistor; 15. Optoelectronic Devices; 16. Microwave Devices; 17. Power Electronic Devices; Appendices

Online Resource


November 2005


MOSFETTheory and DesignR. M. Warner, Professor Emeritus of Electrical Engineering, University of Minnesota and B. L. Grung, Chief Technology Officer, Rocketchips INC, Minneapolis.

Offers a hands on approach to learning, employing analytic, computer, and design problems.

Incorporates pedagogical aids such as in-text exercises with accompanying solutions.

By focusing solely on the MOSFET, this volume recognizes the dominance of this device in todays microelectronics technology while also providing students with an efficient text free of extra subject matter. Carefully building from simple examples to more complex, real-life cases, the text begins with elementary theory for the MOS capacitor, adding and explaining the complicating factors step by step. It treats the interplay of MOS capacitor and PN junction in the MOSFET both physically and analytically, using some

Fifth Edition, International VersionMicroelectronic circuitsTheory and Applications

(Includes CD)Adel S. Sedra, University of Waterloo and former Provost of the University of Toronto and Kenneth C. Smith, University of Toronto. Adapted by Arun N. Chandorkar, Professor, Department of Electrical Engineering, IIT Mumbai.

New to this edition:

Operational Amplifiers: Logarithmic and antilogarithmic amplifiers. Also covered are analog multipliers, sample-and-hold circuits, and the current-controlled voltage source, voltage-controlled voltage source, and voltage-controlled current source configurations of the operational amplifier.

MOSFETs - Constant-field and constant-voltage MOSFET scaling as well as short channel effects and recent scaling trends;

CMOS Circuits - AOI and OAI gates; Tuned Amplifiers- Class C tuned amplifiers; Oscillators - Ring, twin-T, Clapp, and Miller oscillators; Power Amplifiers - Transformer-coupled power amplifiers, class C and D power

amplifiers as well as the class S amplifier;

Passive components in analog circuits, active loads, as well as voltage references A Solutions Manual and PowerPoint Presentation is available to adoptersIn the CD

A free student version of PSpice 9.2 Lite Edition (SPICE simulator) and new industry-based design examples

Input files for all SPICE examples in the book Bonus text material of specialized topicsGaAs devices and circuits, TTL circuitsContents: PART I: DEVICES AND BASIC CIRCUITS; 1. Introduction to Electronics; 2. Diodes; 3. Bipolar Junction Transistors (BJTs); 4. MOS Field-Effect Transistors (MOSFETs); 5. Operational Amplifiers; PART II: ANALOG AND DIGITAL INTEGRATED CIRCUITS; 6. Single-Stage Integrated-Circuit Amplifiers; 7. Feedback; 8. Differential and Multistage Amplifiers; 9. Digital CMOS Logic Circuits; PART III: SELECTED TOPICS; 10. Filters and Tuned Amplifiers; 11. Signal Generators and Waveform-Shaping Circuits; 12. Output Stages and Power Amplifiers; 13. Memory and Advanced Digital Circuits; APPENDIXES

Online Resource

For Lecturers : Solution Manual & PowerPoint PresentationFor Students : MCQs

July 2009


Semiconductor Devices and circuitsAloke K Dutta, Professor, Department of Electrical Engineering, IIT Kanpur.

Presents a strong and well-balanced combination of semiconductor physics, devices, and analog circuits

Up-to-date and detailed coverage of MOSFETs and operational amplifiers

Includes numerous practice problems and solved examples

It gives in detail the basic concepts and theories of both semiconductor and device physics and analog electronic circuits. Written in a lucid and student-friendly style, each chapter starts with the fundamental concepts and gradually dwells on more advanced concepts with the help of detailed explanations and illustrations.

basic electronics/ electronic devices and circuits


original tools. The book goes on to cover advanced models of the MOSFET, including SPICE treatments of small-signal and large-signal problems using Level 1, 2, and 3 first-generation models, and ending with a brief discussion of second- and third-generation models. Contents: 1. Basic MOSFET Theory; 2. MOS-Capacitor Phenomena; 3. MOS-Capacitor Modeling; 4. Improved MOSFET Theory; 5. SPICE Models; 6. MOSFET-BJT Performance Comparisons; Appendixes

June 2009


Principles of Semiconductor DevicesInternational EditionSima Dimitrijev, Griffith University, Australia.

Employs worked examples to explain complex ideas like quantum mechanics and the energy-band model

Explains the role and meaning of theoretical equations Establishes direct links between device theory and

practical SPICE applications

Discusses SPICE model parameters and equivalent circuits for electronic design and IC technologies for layout design

Includes a separate chapter on device electronics that: Summarizes SPICE equations and model parameters Describes parameter measurement techniques Presents large-signal equivalent circuits, including parasitic elements Derives small-signal equivalent circuits and the simple digital MOSFET model Contents: PART I: INTRODUCTION TO SEMICONDUCTORS: 1. Semiconductor Crystals: Atomic-Bond Model; 2. Quantum Mechanics and Energy-Band Model; 3. Drift; 4. Diffusion; 5. Generation and Recombination; PART II: FUNDAMENTAL DEVICE STRUCTURES: 6. P-N Junction; 7. Metal-Semiconductor Contact and MOS Capacitor; 8. MOSFET; 9. BJT; PART III: DEVICE TECHNOLOGY AND ELECTRONICS: 10. Integrated-Circuit Technologies; 11. Device Electronics: Equivalent Circuits and Spice Parameters; PART IV: SPECIFIC DEVICES: 12. Photonic Devices; 13. Microwave FETs and Diodes; 14. Power Devices

October 2009


Elements of Power ElectronicsPhilip T. Krein, University of Illinois at Urbana-Champaign, USA

Numerous examples, particularly design examples, reinforce concepts

Features authors web site http://power.ece.uiuc.ed u/krein_text

Makes extensive use of computer tools such as MATHCAD.Elements of Power Electronics, discusses power electronics in a conceptual framework, provides comprehensive coverage of the subject at a level suitable for undergraduate student engineers, students in advanced degree programs, and novices in the field. It aims to establish a fundamental engineering basis for power electronics analysis, design, and implementation, offering broad and in-depth coverage of basic material. The texts unifying framework includes the physical implications of circuit laws, switching circuit analysis, and the basis for converter operation and control.

Contents: PART 1. PRINCIPLES; 1. Background; 2. Organizing and Analyzing Switches; 3. Converter Concepts; PART 2. CONVERTERS AND APPLICATIONS; 4. DC-DC Converters; 5. Diode-Capacitor Circuits and Rectifiers; 6. Inverters; 7. AC-AC Conversion; 8. Introduction to Resonance in Converters; 9. Discontinuous Modes;

PART 3. REAL COMPONENTS AND THEIR EFFECTS; 10. Real Sources and Loads; 11. Capacitors and Resistors; 12. Concepts of Magnetics for Power Electronics; 13. Power Semiconductors in Converters; 14. Interfacing with Power Semiconductors; PART 4. CONTROL ASPECTS; 15. Overview of Feedback Control for Converters; 16. Approximate Methods for Control Design; 17. Geometric Control for Power Converters; Appendices

August 2008


Power ElectronicsDevices, Circuits, and Industrial ApplicationsV.R. Moorthi, Formerly at Delhi College of Engineering.

Provides detailed and easy-to-understand derivations Includes detailed coverage of micro-computer control of

industrial equipment

Contains a separate chapter on industrial applications Includes a large number of illustrations, solved and

unsolved problems, and review questions

Each chapter ends with review exercisesPower Electronics: Devices, Circuits, and Industrial Applications provides comprehensive coverage of various power electronic devices with emphasis on the thyristor. The characteristics of modern power semiconductor devices like the power transistor, MOSFET, and the IGBT are also discussed. In addition, other relevant topics, such as cycloconverters, brushless D.C. motors, microprocessor fundamentals, microprocessor control of industrial equipment, and field-oriented control of A.C. motors, are dealt with in detail. With its in-depth presentation of topics, this book is ideal for undergraduate and postgraduate courses in power electronics.

Contents: 1. Thyristor Physics; 2. Controlled Rectifiers; 3. D.C. Choppers; 4. A.C. Line Voltage Control; 5. Inverters; 6. Cycloconverters; 7. D.C. Drives; 8. A.C. Drives; 9. Brushless D.C.Motors; 10. Control Circuits for Electronic Equipment; 11. Industrial Applications; 12. Microprocessor Fundamentals; 13. Microcomputer Control of Industrial Equipment; 14. Field-Oriented Control of A.C. Motors; Appendices

Online Resource


February 2005


Third Edition

Digital Logic and State Machine DesignDavid J. Comer, Brigham Young University.

Fills the need for a concise, practical text on digital system design at the undergraduate level.

Features completely new chapters on programmable logic devices and computer organization.

Written by one of the best-known and most-respected authors in the field.

From one of the best-known and successful authors in the field comes the third edition of Digital Logic and State Machine Design. The text is concise and practical and covers the important area of digital system design specifically for undergraduates. Comers primary goal is to illustrate that sequential circuits can be designed using state machine techniques. After presenting the techniques, Comer proceeds directly into designing digital systems.

Contents: 1. Binary Systems and Logic Circuits; 2. Boolean Algebra and Mapping Methods; 3. Logic Function Realization with MSI Circuits; 4. Flip-Flops, Counters, and

industrial and power electronics


Registers; 5. Introduction to State Machines; 6. Synchronous State Machine Design; 7. Interfacing and Design of Synchronous Systems; 8. Programmable Logic Devices; 9. Digital Computing; 10. Asynchronous State Machines; Appendix 1. Logic Families; Appendix 2. Pulse Generating Circuits; Answers to Drill Problems; Answers to Selected Problems

Online Resource For Lecturers : Solution Manual

August 2007


Digital ElectronicsG. K. Kharate, Principal, Matoshri College of Engineering and Research Centre, Nashik.

Establishes a balance between the theoretical concepts of digital electronics and its applications

Includes a large number of solved examples and numerous illustrations supporting the text for better understanding of complex topics

Includes separate chapters on the number system, synchronous and asynchronous circuits, and K-maps

Includes plenty of multiple choice questions and review questions for practice

Provides a glossary of the important terms at the end of each chapter Digital Electronics is specially designed as a textbook for undergraduate students of electronics, communication, computer science, and electrical and instrumentation engineering for an introductory course on digital electronics or digital system and design. The book will also be useful for students pursuing postgraduate courses in electronics and computer science. Through its lucid presentation, the book seeks to impart a thorough understanding of the basic concepts of digital electronics and its applications.

Contents: 1. Logic Families; 2. Number System and Codes; 3. Boolean Algebra and Logic Gates; 4. Combinational Logic Circuits; 5. Sequential Logic Circuits; 6. Asynchronous Sequential Circuits; 7. Algorithmic State Machines; 8. Programmable Logic Devices; 9. A/D and D/A Converters; 10. Semiconductor Memory Devices

March 2010


Second Edition

Principles of Microcomputers and Microcontroller EngineeringInternational VersionFredrick M. Cady, Associate Professor, Department of Electrical Engineering at Montana State University-Bozeman, USA

This international version of the second edition of Principles of Microcomputers and Microcontroller Engineering is an ideal introductory text for an embedded system or microcontroller course. While most texts discuss only one specific microcontroller, this book offers a unique approach by covering the common ground among all microcontrollers in one volume.

Contents: 1. Introduction; 2. Microcontroller Architecture; 3. Structured Program Design 4. Introduction to the CPU; 5. Memory Addressing Modes; 6. Assembly Language Programming; 7. Embedded C Programming;

8. Debugging Microcontroller Software and Hardware; 9. Computer Buses and Parallel I/O; 10. Interrupts and Real-Time Events; 11. Memory; 12. Serail I/O; 13. Analog Input and Output; 14. Counters and Timers; 15. Interfacing Techniques; Appendices

Online Resource

For Lecturers : Solution Manual & Answer to appendix problems

May 2009


Microprocessors and InterfacingN. Senthil Kumar, Mepco Schlenk Engineering College, Sivakasi, M. Saravanan, Thiagarajar College of Engineering, Madurai, S. Jeevananthan, Pondicherry Engineering College, and S.K. Shah, The Maharaja Sayajirao University of Baroda

Provides assembly language program codes with corresponding comments

Explains memory and peripheral interfacing concepts in an easily understandable way

Discusses case studies on electronic weighing machine, temperature monitoring and control,

DC motor speed monitoring, and control as an appendix. Provides numerous programming examples, think and

answer type questions, design-based exercises, and programming exercises

Includes more than 200 multiple choice questions on 8085, 8086, and 8051 processors

Microprocessors and Interfacing is a textbook designed for engineering courses covering a study of various microprocessors, microcontrollers, their interfacing, programming, and applications.

The book, in 20 chapters, provides a brief overview of the 8085 processor, followed by a detailed discussion of the 8086 architecture, programming, and interfacing concepts. The book also provides a brief introduction to the 8088 processor, bringing out its architectural difference with the 8086 processor. Subsequently, the book discusses the 8-bit 8051 and 16-bit 8096 microcontrollers, and advanced processors such as 80186, 80286, 80386, 80486, Pentium, and embedded controllers such as RISC, CISC, SUNSPARC, and ARM. The last chapter focuses on hybrid programming techniques to provide an understanding of the efficient combination of assembly language with C/C++. Providing a balance between theory and practice, the book is interspersed with complete ALP codes, review questions, programming, and design-based exercises.

Contents: 1. MicroprocessorsEvolution and Introduction to 8085; 2. Methods of Data Transfer and Serial Transfer Protocols; PART I: INTEL 808616-BIT MICROPROCESSORS; 3. Intel 8086 Microprocessor Architecture, Features, and Signals; 4. Addressing Modes, Instruction Set, and Programming of 8086; 5. 8086 Interrupts; 6. Memory and I/O Interfacing; 7. Features and Interfacing of Programmable Devices for 8086-based Systems; 8. Multiprocessor Configuration; 9. 8086-based Systems; PART II: INTEL 80518-BIT MICROCONTROLLERS; 10. Introduction to 8051 Microcontrollers; 11. 8051 Instruction Set and Programming; 12. Hardware Features of 8051; 13. 8051 Interface Examples; PART III: INTEL 809616-BIT MICROCONTROLLERS; 14. Overview of Intel 8096 Microcontrollers; 15. 8096 Instruction Set and Programming; 16. Hardware Features of 8096; PART IV: ADVANCED TRENDS; 17. Microprocessor System Developments and Recent Trends; 18. Advanced Microprocessors and Microcontrollers; 19. Embedded Systems; 20. Hybrid Programming Techniques using ASM and C/C++; Appendix A: 8086 Case Studies; Appendix B: 8051 Case Studies; Appendix C: 8275 CRT Controller Chip; Appendix D: Multiple Choice Questions; Appendix E: 8086 Instruction Set; Appendix F: 8051 Instruction Set

May 2012


microprocessors and embedded systems

New


8051 Microcontrollers: MCS 51 Family and its Variants

(Includes CD)Satish Shah, Professor, Department of Electrical Engineering, The Maharaja Sayajirao University of Baroda, Vadodara, Gujarat

Covers the operation, initialization, interfacing, and programming of peripheral IC chips: 8255,8253/8254, 8279, 8251, and RTC-DS1287

Discusses popular microcontrollers such as Intel MCS 51, Atmel, and other variants

Illustrates programming examples with algorithms and code segments

Provides review questions and programming exercises at the end of every chapter

Contains C programs in all chapters where applications are discussed Includes appendices containing instruction sets In the CD An overview of architectural features and instruction sets in the form of well-

navigated quick charts

Microcontroller-based boards with expansion and device interfacing Algorithms and program codes for problems discussed in the text Application software for selected applications8051 MICROCONTROLLERS is designed as a comprehensive textbook for undergraduate students of engineering. It provides a detailed exposure to product development using the 8-bit microcontroller MCS 51 and its variants.

Contents: 1. Evolution of Microcontrollers; 2. Introduction to Microcontroller Families; 3. Introduction to Assembly Language Programming; 4. Advanced Programming Techniques; 5. External Peripheral Devices; 6. Interfacing Parallel Devices; 7. Interfacing Serial Devices; 8. System Design; 9. Application I: Smart Energymeters; 10. Application II: Power Line Communication; 11. Application III: Projection Welding Machine Controller; 12. Application IV: Add-On Features For Telephones; 13. Application V: IR-Based Wireless Communication; 14. Application VI: RF-Based Inter-Controller Wireless Communication; 15. Application VII: Mobile Communication; Appendix A : Functional Grouping of Instructions; Appendix B : Instructions: Byte/Period

May 2010


Microprocessors and Microcontrollers(Includes CD)N Senthil Kumar, Mepco Schlenk Engineering College, Sivakasi; M Saravanan, Thiagarajar College of Engineering, Madurai; S Jeevananthan, Pondicherry Engineering College, Puducherry.

Includes case studies on traffic light control, washing machine control, and elevator control to enable students appreciate the applications of processors

Provides numerous programming examples (in assembly language) which can also be used for conducting lab sessions.

Includes discussions on advanced processors, such as 80186, 80286, 80386, 80486, Pentium, PowerPC, and PIC 16F877

Contains a section on the advent of high-level language programming in 8051 processors with examples illustrated using the most popular language C

In the CD Simulator for 8085 processor ALP codes for 8085 which can be readily executed in the simulator ALP codes for 8051 and 8086 which can run in any executable environment


Contents: 1. MicroprocessorsIntroduction and Evolution; PART 1: INTEL 8085 ARCHITECTURE AND PROGRAMMING; 2. Intel 8085 microprocessor architecture; 3. Instruction set and execution in 8085; 4. Assembly language programming of 8085; PART 2: HARDWARE INTERFACING WITH INTEL 8085. Methods of data transfer and interrupt structure in 8085; 6. Interfacing memory and i/o devices with 8085; 7. Features and interfacing of programmable devices for 8085-based systems; 8. A complete 8085-based system; PART 3: INTEL 8051 MICROCONTROLLERS; 9. Introduction to 8051 Microcontrollers; 10. 8051 instruction set and programming; 11. Hardware features of 8051; 12. 8051 Interface examples; PART 4: INTEL 808616-BIT MICROPROCESSORS; 13. Intel 8086 Microprocessor architecture, features, and signals; 14. Addressing modes, instruction set, and Programming of 8086; 15. 8086 Interrupts; 16. Memory and i/o interfacing; 17. Multiprocessor configuration; 18. 8086-Based Systems; PART 5: INTEL 809616-BIT MICROCONTROLLERS; 19. Overview of Intel 8096 Microcontrollers; 20. 8096 Instruction Set and Programming; 21. Hardware Features of 8096; PART 6: ADVANCED TRENDS; 22. Microprocessor System Developments And Recent Trends; 23. Advanced Microprocessors and Microcontrollers; Appendix A: 8085 Instruction Set; Appendix B: 8051 Instruction Set; Appendix C: 8086 Instruction Set; Appendix D: 8096 Instruction Set; Appendix E: Case Studies

Online Resource

For Lecturers : Solution Manual & Teaching Notes

November 2010


Using the McS-51 Microcontroller(Includes CD)Han-way Huang, Minnesota State University.

Provides very complete coverage of I/O functions of the MCS-51 family microcontrollers.

Development tools and lab projects. Several lab projects are provided in most chapters. An evaluation version of MCS-51 development tools is included in a CD for readers to test their program. A tutorial is provided for using one of the evaluation boards and the included software tools.

Emphasizes design analysis. Wherever appropriate, electrical analysis and timing analysis are provided. Examples include memory design timing analysis, Centronics interface timing analysis, i8255 interfacing timing verification, LED and seven-segment display electrical load analysis, etc.

Extensive examples - keypad scanning debouncing, Centronics printer interface, memory system design verification, A/D conversion, D/A conversion, motor control, RS-232 standard, etc.

Contents: 1. Introduction to the Intel MCS-51; 2. MCS-51 Assembly Programming; 3. Advanced Assembly Programming; 4. Bus Cycles and Memory Expansion; 5. Interrupts, Resets, and Exception Processing; 6. Parallel I/O Ports; 7. Timer Function; 8. Analog to Digital Converter; 9. Serial Communication; 10. Serial Expansion Port Lab Exercises and Assignments; Appendix A. Instruction Execution Time Appendix; B. Special Function Registers (SFR) Appendix; C. Interrupt Vector Addresses Appendix; D. Standard Resistors Appendix; E. MCS-51 Software and Hardware Vendors Appendix; F. MCS-51 Variants Appendix; G. MCS-51 Instruction Set Appendix; H. Dallas DS87C520 Datasheet

December 2009



computer ArchitectureFrom Microprocessors to SupercomputersBehrooz Parhami, University of California, Santa Barbara.

Contents: PART 1: BACKGROUND AND MOTIVATION; 1. Combinational Digital Circuits; 2. Digital Circuits with Memory; 3. Computer System Technology; 4. Computer Performance; PART 2: INSTRUCTION-SET ARCHITECTURE; 5. Instructions and Addressing; 6. Procedures and Data; 7. Assembly Language Programs; 8. Instruction-Set Variations; PART 3: THE ARITHMETIC/LOGIC UNIT; 9. Number Representation; 10. Adders and Simple ALUs; 11. Multipliers and Dividers; 12. Floating-Point Arithmetic; PART 4: DATA PATH AND CONTROL; 13. Instruction Execution Steps; 14. Control Unit Synthesis; 15. Pipelined Data Paths; 16. Pipeline Performance Limits; PART 5: MEMORY SYSTEM DESIGN; 17. Main Memory Concepts; 18. Cache Memory Organization; 19. Mass Memory Concepts; 20. Virtual Memory and Paging; PART 6: INPUT/OUTPUT AND INTERFACING; 21. Input/Output Devices; 22. Input/Output Programming; 23. Buses, Links, and Interfacing; 24. Context Switching and Interrupts; PART 7: ADVANCED ARCHITECTURES; 25. Road to Higher Performance; 26. Vector and Array Processing; 27. Shared-Memory Multiprocessing; 28. Distributed Multicomputing

Online Resource


September 2008


compiler DesignK. Muneeswaran, Mepcko Schlenk Engineering College, Sivakasi

Provides a comprehensive coverage of the concepts of constructing and implementing a compiler.

Provides numerous illustrations and solved examples to help students assimilate the concepts learned.

Provides several end-chapter exercises in the form of MCQs, review questions, and review exercises to test the understanding of the theory

Includes numerous appendices on specification files for C language using Lex, Yacc and JavaCC, laboratory exercises, solved question papers, and solved model test papers.

Includes a CD containing a mini compiler for hands-on approach in designing a compiler.

Compiler Design is designed to serve as a textbook for B.E. and B. Tech. Computer Science and Engineering, Information Technology and MCA students. It provides a thorough understanding of the design and implementation aspects of a compiler.

Contents: 1: Overview of Computer Hardware and System Software 2. Introduction to Compilers 3. Lexical Analysis 4. Syntax Analysis 5. Runtime Storage Organisation 6. Intermediate Code Generation 7. Optimization 8. Code Generation 9. Compiler Writing Tools; Appendix A: Parsing C language using Lex and Yacc; Appendix B: Parsing C language using JavaCC; Appendix C: Lab exercises with solutions; Appendix D: Solved University questions papers; Appendix E: 4 model test papers with solutions; Appendix F: Answers for model test papers

9780198066644 | Paperback | Indian Original

Principles of Signal Processing and Linear SystemsInternational VersionB.P. Lathi, California State University, Sacramento.

An informal and reader-friendly style An emphasis on intuitive and heuristic understanding of

concepts

Real-life problems that solidify students physical comprehension of concepts

Over 200 worked examples and exercises with answers Over 400 end-of-chapter problems for practice Numerous MATLAB problemsContents: 1. Introduction to Signals and Systems; 2. Time-Domain Analysis of Continuous-Time Systems; 3. Signal Representation by Fourier Series; 4. Continuous-Time Signal Analysis: The Fourier Transform; 5. Sampling; 6. Continuous-Time System Analysis Using the Laplace Transform; 7. Frequency Response and Analog Filters; 8. Discrete-Time Signals and Systems; 9. Time-Domain Analysis of Discrete-Time Systems; 10. Fourier Analysis of Discrete-Time Signals; 11. Discrete-Time System Analysis Using the z-Transform; 12. Frequency Response and Digital Filters; 13. State-Space Analysis;

Online Resource


July 2009


Second Edition

Principles of Linear Systems and SignalsInternational VersionB.P. Lathi, California State University, Sacramento.

Covers new topics such as: Fourier applications to communication systems; bode plots; bandpass systems; convergence of an infinite series; group and phase delay; impulse invariance method of designing analog systems using digital filters;

Offers MATLAB focus sessions at the end of each chapter Provides updated and revised illustrations throughout Presents historical background notes to stimulate interest

in the field

Contents: 1. Signals and Systems; 2. Time-domain Analysis of Continuous-time Systems; 3. Time-domain Analysis of Discrete-time Systems; 4. Continuous-time System Analysis Using the Laplace Transform; 5. Discrete-time System Analysis using the Z-transform; 6. Continuous-time Signal Analysis: The Fourier Series; 7. Continous Time Signal Analysis: The Fourier Transform; 8. Sampling: The Bridge from Continuous to Discrete; 9. Fourier Analysis of Discrete-time Signals; 10. State-space Analysis; Appendix

Online Resource

For Lecturers : Solution Manual & Answer to appendix problems

July 2009



Forthcoming


Third Edition

Signals and SystemsChi-tsong Chen, State University of New York, Stony Brook.

Stresses application of computer computation (MATLAB, Fast Fourier Transform) throughout

Includes engineering constraints when discussing mathematics

Focuses on practice-oriented subjects such as model reduction, speeds of responses, and operational frequency ranges of devices

Uses op amps to discuss modeling problems. Provides reasons for not discussing Fourier analysis of systems, which is discussed

in most other similar texts

The third edition of Signals and Systems prepares students for real-world engineering applications. It is concise, focused, and practical. The text introduces basic concepts in signals and systems and their associated mathematical and computational tools. It also stresses the most important concepts in signal analysis (frequency spectra) and system analysis (stability and frequency responses) and uses them throughout, including the study of seismometers and accelerometers.

Contents: 1. Signals; 2. Systems; 3. Convolutions, Difference and Differential Equations; 4. Frequency Spectra of CT Signals; 5. Sampling Theorem and FFT Spectral Computation; 6. CT Transfer Functions: Laplace Transform; 7. Realizations, Characterization, and Identification; 8. Model Reduction, Feedback, and Modulation; 9. DT Transfer Functionsz-Transform; 10. DT State-Space Equations and Realizations

Resource


July 2008


Antennas & Wave PropagationA.R. Harish and M. Sachidananda, IIT Kanpur.

Provides a clear exposition of the fundamental concepts and theorems of antenna theory

Explains concepts clearly with the help of detailed derivations, illustrations, and worked examples

Includes simple design procedures for popular antennas Includes propagation issues related to modern

communication systems

Includes exercises problems with varying difficulty levelsContents: 1. Electromagnetic Radation; 2. Antenna Characteristics; 3. Wire Antennas; 4. Aperture Antennas; 5. Antenna Arrays; 6. Special Antennas; 7. Antenna Measurements; 8. Wave Propagation; Appendix

Online Resource


July 2007


Signals and SystemsTarun Kumar Rawat, Department of Electronics and Communication Engineering, Netaji Subhas Institute of Technology (NSIT), Delhi

Contains more than 500 solved examples along with numerous multiple-choice questions and numerical problems

Includes a separate chapter on Hilbert transform including the concept of pre-envelope and complex envelope

Provides appendices containing mathematical relations, complex numbers, and partial fraction expansion

Contains model question papers for practiceThe book provides a simultaneous coverage of continuous-time and discrete-time signals and systems. Beginning with classifying signals, the book sequentially covers important topics such as convolution and correlation of signals, continuous-time Fourier series, discrete-time Fourier series, continuous-time Fourier transform, sampling, Hilbert transform, Laplace transform, and z-transform. A chapter on MATLAB programs presenting the applicability of the software to problems of signals and systems has also been included at the end of the book

Contents: 1. Signals and Systems; 2. Convolution and Correlation; 3. Continuous-Time Fourier Series; 4. Discrete-Time Fourier Series; 5. Continuous-Time Fourier Transform; 6. Discrete-Time Fourier Transform; 7. Hilbert Transform; 8. Sampling; 9. Laplace Transform; 10. z-Transform; 11. State Space Analysis; 12. MATLAB Programs

Online Resource


July 2010


Digital Signal ProcessingSpectral Computation and Filter DesignChi-tsong Chen, State University of New York, Stony Brook.

Establishes a simplified version of the sampling theorem for periodic signals

Uses FFT to compute frequency spectra of DT and CT signals, and inverse FFT to compute DT and CT signals from their frequency spectra + Employs FFT to compute the inverse z-transform

Covers steady-state and transient responses of digital filters and gives an estimated time for a transient response to die out

Offers a mathematical justification for using an anti-aliasing analog filter in digital signal processing

Introduces a discrete least-squares method to design FIR filters Presents an analog bandstop transformation that yields better results than those

generated by MATLAB

This book covers two major topics: the computation of frequency contents of signals and the design of digital filters. While it focuses on basic ideas and procedures and covers the standard topics in the field, this unique text distinguishes itself from competing texts by extensively employing the fast Fourier transform (FFT). Integrated with MATLAB throughout, Digital Signal Processing features careful definitions of all terminology and a wealth of examples and problems.

Contents: 1. Introduction; PART 1: SPECTRAL COMPUTATION; 2. CT and DT Fourier SeriesFrequency Components; 3. CT and DT Fourier TransformsFrequency Spectra; 4. DFT and FFTSpectral Computation; PART 2: DIGITAL FILTER DESIGN; 5. Linear Time-Invariant Lumped Systems; 6. Ideal and Some Practical Digital Filters; 7. Design of FIR Filters; 8. Design of IIR Filter Design; 9. Structures of Digital Filters; Appendix

Resource


May 2007


electromagnetics engineering/communication engineering


Fundamentals of Engineering Electromagnetics(Includes CD)Sunil Bhooshan, Professor and Head, Jaypee University of Information Technology, Waknaghat

Includes over 250 illustrations, many of which provide a three-dimensional view for better understanding

Provides additional interesting information related to the topic under discussion

Provides numerous solved examples within the chapter, and a self-assessment section at the end of the chapter comprising numerical problems, objective type questions, review questions, and short-answer questions

Provides quick recapitulation of important formulae and definitions

In the CD

MATLAB exercises for each chapter Colour illustrations from the book Java applets showing derivation of fields Fundamentals of Engineering Electromagnetics, is designed for undergraduate engineering courses in electromagnetics. The book aims to provide students of electrical engineering and electronics and communication engineering with an understanding of the fundamentals of electromagnetic fields and their applications.

Contents: 1. Scalars and Vectors 2. Coordinate Systems and Fields 3. Vector Calculus 4. The Electric Field and Gausss Law 5. Energy and Potential 6. The Electric Field and Material Media 7. Laplaces and Possions Equation 8. The Steady Magnetic Field 9. Magnetic Forces, Inductance, and Magnetisation 10. Time-Dependant Fields 11. Electromagnetic Waves 12. Transmission Lines and Waveguides 13. Radiation from Currents 14. Introduction to Antennas 15. Radio Wave Propagation; Appendix A Coordinate Systems Appendix B Mathematical Reference Appendix C Some Key Features Appendix D Example Question Papers

July 2012


Fourth Edition

Principles of ElectromagneticsInternational VersionMatthew N. O. Sadiku, A & M University, USA.

Presents a section on real-world applications of the material at the end of every chapter

Devotes an entire chapter to modern computer toolsincluding MATLABthat are used in electromagnetics

Contains more than 100 illustrations and 600 figures to help students visualize different electromagnetic phenomena

Highlights key terms and boxes essential formulae Includes numerous examples-each worked step-by-step-

and a set of multiple-choice review questions at the end of each chapter

Elements of Electromagnetics , Fourth Edition, uses a vectors-first approach to explain electrostatics, magnetostatics, fields, waves, and applications like transmission lines, waveguides, and antennas. It also provides a balanced presentation of time-varying and static fields, preparing students for employment in todays industrial and manufacturing sectors.

Contents: PART 1: VECTOR ANALYSIS; 1. Vector Algebra; 2. Coordinate Systems and Transformation; 3. Vector Calculus; PART 2: ELECTROSTATICS; 4. Electrostatic Fields; 5. Electric Fields in Material Space; 6. Electrostatic Boundary-Value Problems; PART 3: MAGNETOSTATICS; 7. Magnetostatic Fields; 8. Magnetic Forces, Materials, and Devices; PART 4: WAVES AND APPLICATIONS; 9. Maxwells Equations; 10. Electromagnetic Wave Propagation; 11. Transmission Lines; 12. Waveguides;

13. Antennas; 14. Numerical Methods; Appendix A: Mathematical Formulas; Appendix B: Material Constants; Appendix C: MATLAB; Appendix D: The Complete Smith Chart; Appendix E: Answers to Odd-Numbered Problems

Online Resource

For Lecturers : Answer to practice examples, PowerPoint Presentation & Solution to numerical problemsFor Students : MCQs

July 2009` 475 | 9780198062295 | Paperback | 848 Pages | Indian Adaptation

Fiber Optics and OptoelectronicsR.P. Khare, Birla Institute of Technology and Science, Pilani

Explains all relevant topics related to modern fiber-optic communications

Includes fiber-optic sensors, to aid the reader in understanding non-communication applications of fiber optics

Includes a chapter on laser-based systems and their applications in various fields

Contains a separate chapter on lab-oriented projects involving PC-based/manual measurements

Reinforces theoretical concepts by providing numerous solved examples, along with multiple choice questions and review questions

Developed for introductory courses, this book covers the major building blocks of present day fiber-optic systems and their use in communications and sensing. The text begins with easy-to-understand ray propagation in optical fibers and progresses to the more complex topics of wave propagation in planar and cylindrical waveguides. Special emphasis is given to the treatment of single-mode fibers, the backbone of present-day optical communication systems. It also offers a detailed treatment of the theory behind optoelectronic sources (LEDs and injection laser diodes), detectors, modulators, and optical amplifiers. In addition, contemporary topics such as erbium-doped fiber amplifiers (EDFAs), and wavelength-division multiplexing (WDM), and dense WDM are discussed.

Contents: 1. Introduction; PART I: FIBER OPTICS; 2. Ray Propagation in Optical Fibers; 3. Wave Propagation in Planar Waveguides; 4. Wave Propagation in Cylindrical Waveguides; 5. Single-mode Fibers; 6. Optical Fiber Cables and Connections; PART II: OPTOELECTRONICS; 7. Optoelectronic Sources; 8. Optoelectronic Detectors; 9. Optoelectronic Modulators; 10. Optical Amplifiers; PART III: APPLICATIONS; 11. Wavelength-division Multiplexing; 12. Fiber-optic Communication Systems; 13. Fiber-optic Sensors Laser-Based Systems; PART IV: LAB-ORIENTED PROJECTS

Resource


March 2004


Sixth Edition

PhotonicsAmnon Yariv, California Institute of Technology, Pochi Yeh, Professor, University of California, Santa Barbara.

Nonlinear Optical Effects in Fibers: self-phase modulation, cross-phase modulation, stimulated Brillouin scattering (SBS), stimulated Raman scattering (SRS), optical four-wave mixing, and spectral reversal (phase conjugation)

Electroabsorption: waveguide electro-optic Mach-Zehnder modulators


New


Photonic Crystals: Bloch wave formulation, photonic bands, photonic bandgaps, periodic layered media, fiber Bragg gratings, and Bragg reflection waveguides

Optical Amplifiers: SOA, EDFA, and Raman Stokes Parameters and Poincare Sphere: polarization states in birefringent optical

networks, principal states of polarization

Fermats Principle: rays, beam propagation, and the Fresnel diffraction integral Matrix Formulation: wave propagation in multi-cavity etalons, multi-layer structures,

mode coupling, and supermodes in mode- locked lasers

Dispersion: chromatic dispersion and polarization mode dispersion (PMD) in fibers and their compensation

Coupled Resonators Optical Waveguides (CROWs): matrix formulation, critical coupling and dispersion relation

Contents: 1. Electromagnetic Fields and Waves 2. Rays and Optical Beams 3. Dielectric Waveguides and Optical Fibers 4. Optical Resonators 5. Interaction of Radiation and Atomic Systems 6. Theory of Laser Oscillation and Some Specific Laser Systems 7. Chromatic Dispersion and Polarization Mode Dispersion in Fibers 8. Nonlinear Optics 9. Electro-Optics and AO modulators 10. Noise in Optical Detection and Generation 11. Detection of Optical Radiation 12. Periodic Structures 13. Waveguide Coupling 14. Nonlinear Optical Effects in Fibers 15. Semiconductor Lasers 16. Advanced Semiconductor Lasers 17. Optical Amplifiers 18. Classical Treatment of Quantum Optics, Quantum Noise, and Squeezing; Appendixes: A. Wave Equation in Cylindrical Coordinates and Bessel Functions; B. Exact Solutions of the Step-Index Circular Waveguide; C. Kramers-Kronig Relations; D. Transformation of a Coherent Electromagnetic Field by a Thin Lens; E. Fermi Level and its Temperature Dependence; F. Electro-optic Effect in Cubic 43m Crystals; G. Conversion for Power

Resource


October 2009


Introduction to Error control codesS. Gravano, University of Keele.

Providing a firm foundation for those studying the field of error control codes, this volume gives step-by-step instructions on this complex topic. It begins with single parity code checks and repetition codes. Then, with the use of detailed examples, the book guides students from basic error-control codes through linear codes, cyclic codes, linear feedback shift registers, vector fields, Galois fields, BCH codes and convolutional codes. Wherever possible, numerous detailed examples illustrate the principles so that complex mathematical proofs can be omitted, thereby keeping the text concise and easy to follow.

Contents: 1. Black codes; 2. Linear codes; 3. Cyclic codes; 4. Linear Feedback Shift Registers for Encoding and Decoding Cyclic Codes; 5. Linear Algebra; 6. Galos Fields; 7. Bose Chaudhuri Hocquenghem Codes; 8. Convolutional Codes

May 2007


An Introduction to Mixed-signal Ic Test and MeasurementMark Burns, Texas Instruments and Gordon W. Roberts, McGill University.

This book was written in response to the shortage of basic course material for mixed-signal test and measurement. The book assumes a solid background in analog and digital circuits as well as a working knowledge of computers and computer programming. A background in digital signal processing and statistical analysis is also helpful, although

not absolutely necessary. This material is designed to be useful as both a university textbook and as a reference manual for the beginning professional test engineer. The prerequisite for this book is a junior level course in linear continuous-time and discrete-time systems, as well as exposure to elementary probability and statistical concepts.

Contents: 1. Overview of Mixed-Signal Testing; 2. The Test Specification Process; 3. DC and Parametric Measurements; 4. Measurement Accuracy; 5. Tester Hardware; 6. Sampling Theory; 7. DSP-Based Testing; 8. Analog Channel Testing; 9. Sampled Channel Testing; 10. Focused Calibrations; 11. DAC Testing; 12. ADC Testing; 13. DIB Design; 14. Design for Test (DfT); 15. Data Analysis; Chapter 16. Test Economics

September 2009


Third Edition

Probabilistic Methods of Signal and System AnalysisGeorge R. Cooper and the late Clare D. McGillem, both of Purdue University, USA

Probabilistic Methods of Signal and System Analysis, Third Edition, stresses the engineering applications of probability theory and uses MATLAB as a computational tool throughout. It includes sections relating to Bernoulli trials, correlation of data sets, smoothing of data, computer computation of correlation functions and spectral densities, and computer simulation of systems. All computer examples can be run using the Student Version of MATLAB. It is ideal for undergraduate classes in signal and system analysis.

Contents: 1. Introduction to Probability; 2. Random Variables; 3. Several Random Variables; 4. Elements of Statistics; 5. Random Processes; 6. Correlation Functions; 7. Spectral Density; 8. Response of Linear Systems to Random Inputs; 9. Optimum Linear Systems; Appendices; A. Mathematical Tables; B. Frequently Encountered Probability Distributions; C. Binomial Coefficients; D. Normal Probability Distribution Function; E. The Q-Function; F. Students t Distribution Function; G. Computer Computations; H. Table of Correlation Function; Spectral Density Pairs; I. Contour Integration

Online Resource

For Lecturers : Solution Manual in CD

June 2007


Analog communicationV Chandra Sekar, Head, Department of Electronics and Communication Engineering, SASTRA University, Srinivasa Ramanujan Centre, Kumbakonam

Discusses application-based case studies on software defined radio (SDR), function generator using DDS, and frequency synthesizer using PLL

Illustrates many practical circuits in support of the text Provides coverage of topics such as Costas loop, direct

digital synthesis, and frequency modulation feedback (FMFB) techniques

Provides a large number of worked-out examples and graded questions for practice

Highlights important formulae at the end of every chapter Includes additional MATLAB exercises as an appendixAnalog Communication provides an exhaustive coverage of the fundamental concepts and recent developments in communication theory. The book follows a bottom-up approach by building up the basic concepts of conventional modulation systems in the initial chapters and describing the latest trend in communication towards the end. The book also provides a chapter on digital



communication, which briefly covers the concept of frequency shift keying (FSK), pulse shift keying (PSK), quadrature amplitude modulation (QAM), etc.

Contents: 1. Introduction; 2. Signals: An Introduction; 3. Amplitude Modulation; 4. Angle Modulation; 5. Pulse Modulation; 6. Noise; 7. Introduction to Digital Communication; 8. Information Theory; 9. Introduction to Probability, Random Variable, and Random Processes; Appendix A MATLAB Exercises; Appendix B Important Mathematical Relations/Formulae; Appendix C Fourier Series Representation and Its Properties; Appendix D Miscellaneous

Online Resource


May 2010


Digital communicationTheory, Techniques and ApplicationsR. N. Mutagi, Professor and Head, Dept. of ECE, Indus Institute of Technology and Engineering, Ahmedabad.

Discusses latest compression standards, such as DAB, MPEG, H.264, and MP3

Includes more than 350 figures to help understand and relate to theoretical concepts

Provides 125 graded solved problems, challenging review questions, and numerous exercises for practice

Covers applications in satellite, optical, and cellular communications

Includes appendices consisting of trigonometric identities, values of Q function, MATLAB codes, a detailed laboratory manual, a note on random error generator, and five sets of model question papers

Digital Communication: Theory, Techniques, and Applications has been written for undergraduate students of engineering for a course on digital communication. It provides an understanding of the principal concepts of digital communication and its applications in diverse fields of communication.

In the first four chapters, the book builds the theoretical background necessary to understand the central ideas of digital communication systems. Thereafter, Chapters 5 through 9 discuss the core concepts, such as digital coding, multiplexing and multiple access, digital modulation, demodulation, and detection. They detail the modulation techniques for both wired and wireless systems, including orthogonal frequency division multiplexing (OFDM) and spread spectrum. The last chapter of the book discusses the applications of digital communication in the domains of satellite, optical, and wireless communication systems.

Contents: 1. Introduction to Digital Communication Systems; 2. Communication Signals and Systems; 3. Probability and Random Processes; 4. Information Theory; 5. Digital Coding; 6. Multiplexing and Multiple Access; 7. Digital Modulation; 8. Demodulation and Detection; 9. Error Control Coding; 10. Applications of Digital Communication; Appendices

Online Resource

For Lecturers : PowerPoint Presentation, Program codes & Solution Manual

December 2011


communication Systems V. Chandra Sekar, Head, Department of Electronics and Communication Engineering, SASTRA University, Srinivasa Ramanujan Centre, Kumbakonam

Provides discussion on topics such as waveform distortion, distortionless line, waveguide impedence matching, and microstrip antennas

Includes practical circuits for topics such as FM detection and generation, transmitters and receivers, and phase-locked loop (PLL)

Provides application case studies on PLL frequency synthesizer, satellite instructional television experiment (SITE), and digital microwave radio

Includes an appendix on MATLAB programs with their representative outputs for various modulation techniques including spread spectrum modulation and Smith chart generation

Communication Systems is a textbook designed specifically for students of computer science, information technology, and electrical engineering disciplines. It provides a balance between theory and the related applications with the help of figures, solved problems, numerical exercises, and review questions. The book starts with a detailed discussion on the basic principles of analog communication and the essential concepts of digital communication. The subsequent chapters elaborate upon the various types of transmission media such as transmission lines, waveguides, microwave, optical, satellite, television, and radar, followed by a discussion on data communication and its equipment. The last chapter is devoted to spread spectrum modulationa recent technique which enables the transmission of information through multiple frequencies, ensuring greater security.

Contents: 1. Introduction; 2. Signals: An Introduction; 3. Amplitude Modulation; 4. Angle Modulation; 5. Pulse Modulation; 6. Noise; 7. Introduction to Digital Communication; 8. Information Theory; 9. Introduction to Probability, Random Variable, and Gaussian Process; 10. Transmission Lines; 11. Waveguides; 12. Antennas; 13. Microwave Communication; 14. Fibre Optic Communication; 15. Satellite Communication; 16. Data Communication; 17. Data Communication Equipment; 18. Television and Radar; 19. Spread Spectrum Modulation; Appendices

May 2012


Fourth Edition

Modern Digital and Analog communication Systems

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