Digital Electronics with PLD Integration
Appropriate for Digital Electronics courses in vocational-technical schools, community colleges, and four year technical programs.This text introduces students to both the fundamentals of digital logic and the advanced, modern method of utilizing the fundamentals with PLD Technology. Specifically, Altera and Xilinx technologies referenced throughout the text.
- Hardback | 996 pages
- 203.2 x 256.5 x 45.7mm | 1,927.79g
- 12 Dec 2000
- Pearson Education (US)
- Upper Saddle River, NJ, United States
Back cover copy
With the industry's rising use of Programmable Logic Devices (PLDs), it has become increasingly important for electronics students to learn to understand how PLDs work. Nigel P. Cook's "Digital Electronics with PLD Integration" is intended to do just that. Students will find a combination of fundamental digital logic theory with a presentation and explanation of PLDs. The features of this text include: An "integration" of the Programmable Logic Device concepts and applications with standard logic fundamentals, allowing students to understand the how and why behind this new technology.Coverage of both Xilinx and Altera software at the end of most chapters to show students how to "apply" the concepts of PLDs.End-of-chapter questions and exercises geared to reinforce "both standard logic and PLD concepts."
Table of contents
I. DIGITAL BASICS. 1. Analog to Digital. Your Course in Electronics. Analog and Digital Data and Devices. Analog and Digital Signal Conversion.2. Number Systems and Codes. The Decimal Number System. The Binary Number System. The Hexadecimal Number System. The Octal Number System. Binary Codes.3. Logic Gates. Hardware for the Binary System. Basic Logic Gates. Inverting Logic Gates. Exclusive Logic Gates. IEEE/ANSI Systems for Logic Gates.4. Standard Logic versus Programmable Logic. Why Use Programmable Logic Devices? Types of Programmable Logic Devices. Programming a PLD. PLD Software "Quick Start".5. Digital IC Types. The Bipolor Family of Digital Integrated Circuits. The MOS Family of Digital Integrated Circuits. Digital IC Package Types and Complexity Classification. Comparing and Interfacing Bipolor and MOS Logic Families.6. Troubleshooting Logic Gates. Digital Test Equipment. Digital Circuit Problems. Circuit Repair. PLD Software Simulation.7. Logic Circuit Simplification. Boolean Expressions for Logic Gates. Boolean Algebra Laws and Rules. From Truth Table to Gate Circuit. Gate Circuit Simplification.II. DIGITAL CIRCUITS. 8. Decoders and Encoders. Decoders. Encoders. Troubleshooting Decoders and Encoders.9. Other Combinational Logic Circuits. Multiplexers. Demultiplexers. Comparators. Parity Generators and Checkers. Troubleshooting Combinational Logic Circuits.10. Set-Reset and Data-Type Flip-Flops. Set-Reset (S-R) Flip-Flops. Data-Type (D-Type) Flip-Flops. Troubleshooting Set-Reset and Data-Type Flip-Flop Circuits.11. J-K Flip-Flops and Timer Circuits. J-K Flip-Flops. Digital Timer and Control Circuits. Troubleshooting J-K Flip-Flop and Timer Circuits.12. Registers. Buffer Registers. Shift Registers. Three-State Output Registers. Register Applications. Troubleshooting Register Circuits.13. Counters. Asynchronous Counters. Synchronous Counters. Counter Applications. Troubleshooting Counter Circuits.14. Arithmetic Operations and Circuits. Arithmetic Operations. Arithmetic Circuits. Arithmetic Circuit Applications. Troubleshooting Arithmetic Circuit.15. Semiconductor Memories. Semiconductor Read-Only Memories (ROMs). Semiconductor Read/Write Memories (RWMs). Troubleshooting Memory Circuits.16. Analog and Digital Signal Converters. Analog and Digital Signal Conversion. Digital-to-Analog Converters (DACs). Analog-to-Digital Converters (ADCs). Troubleshooting Data Converter Circuits.III. DIGITAL SYSTEMS. 17. Introduction to Microprocessors. Microcomputer Basics. A Microcomputer System.Appendixes. A. Xilinx HDL Alternative and FPGA Tutorial. B. Altera HDL Alternative. C. Answers to Self-Test Review Questions. D. Answers to Odd-Numbered Problems.Index.