Kooperativer Bibliotheksverbund

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Format: 1 online resource (333 p.)

ISBN: 1-281-03391-X , 9786611033910 , 0-08-053499-6

Series Statement: Essential electronics series Introduction to digital electronics

Content: This text takes the student from the very basics of digital electronics to an introduction of state-of-the-art techniques used in the field. It is ideal for any engineering or science student who wishes to study the subject from its basic principles as well as serving as a guide to more advanced topics for readers already familiar with the subject. The coverage is sufficiently in-depth to allow the reader to progress smoothly onto higher level texts.

Note: Includes index. , Front Cover; Introduction to Digital Electronics; Copyright Page; Contents; Series preface; Preface; Acknowledgements; Chapter 1. Fundamentals; 1.1 Introduction; 1.2 Basic principles; 1.3 Boolean algebra; 1.4 Logic symbols and truth tables; 1.5 Timing diagrams; 1.6 Duality and gate equivalence; 1.7 Positive and negative assertion level logic; 1.8 Universal gates; 1.9 Self-assessment; 1.10 Problems; Chapter 2. Arithmetic and digital electronics; 2.1 Introduction; 2.2 Bases-2, 10 and 16 (binary, decimal and hexadecimal); 2.3 Other binary coding systems , 2.4 Output from analogue-to-digital converters2.5 Binary arithmetic; 2.6 Self-assessment; 2.7 Problems; Chapter 3. Combinational logic basics; 3.1 Introduction; 3.2 Combinational logic theory; 3.3 Minimisation of combinational logic expressions; 3.4 Product of sums: the negative logic approach; 3.5 Self-assessment; 3.6 Problems; Chapter 4. Combinational logic circuits; 4.1 Common combinational logic circuits; 4.2 Combinational logic design example: a four-bit adder; 4.3 Hazards; 4.4 Self-assessment; 4.5 Problems; Chapter 5. Asynchronous sequential logic , 5.1 Sequential logic circuits: an overview5.2 Introduction to asynchronous sequential circuits; 5.3 Analysis; 5.4 Circuit 6: a binary storage element; 5.5 Introduction to asynchronous sequential circuit design; 5.6 Self-assessment; 5.7 Problems; Chapter 6. Flip-flops and flip-flop based circuits; 6.1 Introduction; 6.2 Single flip-flop applications; 6.3 Registers; 6.4 Self-assessment; 6.5 Problems; Chapter 7. Counters; 7.1 Introduction; 7.2 Asynchronous counters; 7.3 Mod-2n synchronous counters; 7.4 Mod-N synchronous counters; 7.5 Example: mod-6 counter; 7.6 Self-assessment; 7.7 Problems , Chapter 8. Synchronous sequential circuits8.1 Introduction; 8.2 Classification; 8.3 Design examples; 8.4 Analysis; 8.5 Summary; 8.6 Self-assessment; 8.7 Problems; Chapter 9. Choosing a means of implementation; 9.1 Introduction; 9.2 The bipolar junction transistor; 9.3 The MOSFET; 9.4 BiCMOS - The best of both worlds; 9.5 Low-voltage operation; 9.6 Other technology options; 9.7 Gate characteristics; 9.8 Open collector and three-state logic; 9.9 Comparisons of logic families; 9.10 Miscellaneous practical problems; 9.11 Self-assessment; 9.12 Problems; Chapter 10. Semiconductor memories , 10.1 Introduction10.2 Read only memory - ROM; 10.3 Random access memory - RAM; 10.4 Memory modules; 10.5 Selecting the appropriate memory; 10.6 Self-assessment; 10.7 Problems; Chapter 11. Selecting a design route; 11.1 Introduction; 11.2 Discrete implementation; 11.3 Mask programmable ASICs; 11.4 Field programmable logic; 11.5 VHDL; 11.6 Choosing a design route; 11.7 Self-assessment; 11.8 Problems; Chapter 12. Answers to selected self-assessment questions and problems; Index , English

Additional Edition: ISBN 0-340-64570-9

Language: English