Includes index.

CONTENTS Preface (xiii) 1. DATA AND NUMBER SYSTEMS 1
1.1 Introduction 1.2 Number Systems 2
1.3 Conversion between Number Systems 1.4 Complements 10
1.5 Binary Arithmetic 13
1.6 1's And 2's Complement Arithmetic 17
1.7 Signed Binary Numbers 19
1.8 7's And 8's Complement Arithmetic 21
1.9 9's And 10's Complement Arithmetic 23
1.10 15's And 16's Complement Arithmetic 25
1.11 BCD Addition 27
1.12 BCD Subtraction 28
Review Questions 30
2. CODES AND THEIR CONVERSIONS 31
2.1 Introduction 31
2.2 Codes 31
2.3 Solved Problems 44
Review Questions 49
3. BOOLEAN ALGEBRA AND LOGIC GATES 51
3.1 Introduction 51
3.2 Basic Defi nitions 51
3.3 Definition of Boolean Algebra 52
3.4 Two-valued Boolean Algebra 5
3.5 Basic Properties And Theorems of Boolean Algebra 55
3.6 Venn Diagram 57
3.7 Boolean Functions 58
3.8 Simplification of Boolean Expressions 59
3.9 Canonical And Standard Forms 60
3.10 Other Logic Operators 67
3.11 Digital Logic Gates 66
3.12 Positive And Negative Logic 82
3.13 Concluding Remarks 83 Review Questions 84
4. SIMPLIFICATION AND MINIMIZATION OF BOOLEAN FUNCTIONS 87
4.1 Introduction
4.2 Two-variable Karnaugh Maps
4.3 Three-variable Karnaugh Maps
4.4 Four-variable Karnaugh Maps
4.5 Five-variable Karnaugh Maps
4.6 Six-variable Karnaugh Maps
4.7 Don't-care Combinations
4.8 The Tabulation Method
4.9 More Examples
4.10 Variable-entered Karnaugh Maps
4.11 Concluding Remarks Review Questions
5. COMBINATIONAL LOGIC CIRCUITS
5.1 Introduction
5.2 Design Procedure
5.3 Adders
5.4 Subtractors
5.5 Code Conversion
5.6 Parity Generator And Checker
5.7 Some Examples of Combinational Logic Circuits 141
5.8 Combinational Logic with MSI And LSI 154
5.9 Four-bit Binary Parallel Adder 155
5.10 Magnitude Comparator 165
5.11 Decoders 166
5.12 Encoders 172
5.13 Multiplexers or Data Selectors 173
5.14 Demultiplexers or Data Distributors 186
5.15 Concluding Remarks 188
Review Questions 188
6. PROGRAMMABLE LOGIC DEVICES 190
6.1 Introduction 190
6.2 PLD Notation 192
6.3 Read Only Memory (ROM) 192
6.4 Programmable Logic Array (PLA) 199
6.5 Programmable Array Logic (PAL) Devices 205
6.6 Registered PAL Devices
6.7 Configurable PAL Devices
6.8 Generic Array Logic Devices
6.9 Field-Programmable Gate Array (FPGA)
6.10 Concluding Remarks
Review Questions
7. SEQUENTIAL LOGIC CIRCUITS
7.1 Introduction 211
7.2 Flip-flops 212
7.3 Types of Flip-flops 214
7.4 Clocked S-R Flip-flop 217
7.5 Clocked D Flip-flop 221
7.6 J-K Flip-flop 224
7.7 T Flip-flop 229
7.8 Toggling Mode of S-R and D Flip-fl ops 231
7.9 Triggering of Flip-fl ops 231
7.10 Excitation Table of a Flip-fl op 233
7.11 Interconversion of Flip-fl ops 233
7.12 Sequential Circuit Model 244
7.13 Classification of Sequential Circuits 244
7.14 Analysis of Sequential Circuits 246
7.15 Design Procedure of Sequential Circuits 250
Review Questions
8. REGISTERS 258 8.1
Introduction 258 8.2
Shift Register 258 8.3
Serial-in-Serial-out Shift Register 259 8.4
Serial-in-Parallel-out Register 264 8.5
Parallel-in-Serial-out Register 265 8.6
Parallel-in-Parallel-out Register 267 8.7
Universal Register 269 8.8
Shift Register Counters 271 8.9
Sequence Generator 274 8.10
Serial Addition 278 8.11
Binary Divider 279 Review Questions
284 9. COUNTERS 285 9.1 Introduction
285 9.2 Asynchronous (Serial or Ripple) Counters 286
9.3 Asynchronous Counter ICs 296
9.4 Synchronous (Parallel) Counters 303
9.5 Synchronous Down-Counter 305
9.6 Synchronous Up-Down Counter 306
9.7 Design Procedure of Synchronous Counter 307
9.8 Synchronous/Asynchronous Counter 319
9.9 Presettable Counter 320
9.10 Synchronous Counter ICs 321
9.11 Counter Applications 329
9.12 Hazards in Digital Circuits 332
Review Questions 338
10. A/D AND D/A CONVERSION 339
10.1 Introduction 339
10.2 Digital-to-Analog Converters (DAC) 339
10.3 Specification of D/A Converters 349
10.4 An Example of a D/A Converter 351
10.5 Analog-to-Digital Converters 354
10.6 Specification of an A/D Converter 36
10.7 An Example of an A/D Converter IC
10.8 Concluding Remarks
Review Questions
11. LOGIC FAMILY
11.1 Introduction
11.2 Characteristics of Digital IC
11.3 Bipolar Transistor Characteristics
11.4 Resistor-Transistor Logic (RTL)
11.5 Diode Transistor Logic (DTL)
11.6 Transistor Transistor Logic (TTL)
11.7 Emitter-Coupled Logic (ECL)
11.8 Integrated-Injection Logic (I2L)
11.9 Metal Oxide Semiconductor (MOS)
11.10 Comparison of Different Logic Families
11.11 Interfacing
11.12 Some Examples
Review Questions
Appendix 1: Alternate Gate Symbols
Appendix 2: 74 Series Integrated Circuits
Appendix 3: Pin Configuration of 74 Series Integrated Circuits 431
Appendix 4: 4000 Series Integrated Circuits 451
Appendix 5: Pin Configuration of 4000 Series Integrated Circuits 457
Glossary 473
Bibliography 000
Index 477

"This text / reference provides students and practicing engineers with an introduction to the classical methods of designing electrical circuits, but incorporates modern logic design techniques used in the latest microprocessors, microcontrollers, microcomputers, and various LSI components. The book provides a review of the classical methods e.g., the basic concepts of Boolean algebra, combinational logic and sequential logic procedures, before engaging in the practical design approach and the use of computer-aided tools. The book is enriched with numerous examples (and their solutions), over 500 illustrations, and includes a CD-ROM with simulations, additional figures, and third party software to illustrate the concepts discussed in the book. Key features: Designed as a text/reference to provide students and practicing engineers with information on both classical methods and modern industry applications, Modern applications are discussed in detail, including Karnaugh maps, PLD notation (PAL, PLA, FPGA) and more, Covers fundamental topics as Boolean algebra, logic gates, flip-flops, minimization, etc., CD-ROM includes simulations and third-party software." -- Publisher

In English text.