Authors: Liu Baoqin, Luo Rong, edited by Wang Desheng.
Publishing House: Tsinghua University Publishing House.
Release date: March 2007-1
Page count: 442 pages
Words: 685000
Printing time: March 2007-1
I sb n: 9787302136613 This book focuses on digital systems, pays attention to basic knowledge, and strengthens the introduction of logic design and basic knowledge of digital systems. Chapter *** 13 of this book mainly covers numeration and coding, logic algebra, digital integrated logic circuits, analysis and design of combinational logic circuits, latch and flip-flop, analysis and design of common sequential logic circuits, synchronous and asynchronous sequential logic circuits, memory and programmable logic devices, operational circuits, design basis of digital systems, VHDL syntax for integration, common pulse circuits, digital-to-analog converters and analog-to-digital converters.
This book meets the teaching requirements of "Digital Logic" and "Digital Electronic Technology" courses for computer majors and "Digital Circuit and Logic Design" courses for electronic information and electrical information majors. The system structure is reasonable, the physical concept is accurate, the theory is integrated with practice, and the language is fluent. It can be used as a teaching material for undergraduates majoring in computer, electronic engineering, automatic control and microelectronics. It can also be used as a review material for graduate students to apply for related majors and a reference book for engineers and technicians. Introduction to Chapter 1
1. 1 pulse signal
1.2 digital signal and digital circuit
Chapter II Digital System and Coding
2. 1 digital system
2.2 Conversion between different digital systems
2.3 signed binary number
2.4 Other binary systems expressed in binary.
2.5 gray code
2.6 character code
2.7 Error Detection Code and Error Correction Code
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Chapter III Logical Algebra
3. 1 logic variables and basic logic operations
3.2 Common logic gate circuits
3.3 Basic laws and rules of logical algebra
3.4 Common formulas
3.5 Standard form of logical function
3.6 Algebraic Simplification Method of Logical Functions
3.7 Karnaugh Map Simplification of Logical Functions
3.8 table simplification of logical functions
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Chapter 4 Integrated Logic Circuits
4. 1 Characteristics and classification of digital integrated circuits
4.2 transistor switching characteristics
4.3 Metal Oxide Semiconductor Field Effect Transistor
4.4 transistor? Transistor logic circuit
4.5 emitter coupled logic circuit
4.6 CMOS logic circuit
4.7NMOS logic circuit
4.8 Coordination of Different Logic Series
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Chapter V Analysis and Design of Combinatorial Logic Circuits
5. 1 Characteristics of combinational logic circuits
5.2 Analysis of combinational logic circuits
5.3 Design of combinational logic circuit
5.4 Competition and danger in combinational logic circuits
5.5 Common combinational logic circuits
5.6 Iterative array
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Chapter 6 Latching and Flipping
6. 1 Basic characteristics of sequential logic circuits
6.2 basic r? S latch
6.3 gated r? S latch
6.4-dimensional latch
6.5 master-slave trigger
6.6 edge triggered flip-flops
6.7 Parameters and Use of Trigger
6.8 Logical Function Description of Trigger
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Chapter VII Common Sequential Logic Circuits
7. 1 register
7. 1. 1 asynchronous data transfer register
7. 1 .2 Synchronous number sending register
7.2 binary counter
7.3 Arbitrary counter
7.4 shift register
7.5 shift counter
7.6 sequence signal generator
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Chapter 8 Analysis and Design of Sequential Logic Circuits
8. 1 Model and classification of sequential logic circuits
8.2 Synchronous sequential circuit model and function description
8.3 Analysis of Synchronous Sequential Logic Circuit
8.4 Design of Synchronous Sequential Logic Circuit
Analysis and Design of 8.5 Pulse Asynchronous Sequential Logic Circuit
8.7 Problems needing attention in the design of sequential circuits
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Chapter 9 Memory and Programmable Logic Devices
9. 1 random access memory (RAM)
9.2 read-only memory (ROM)
ROM application example
9.3 Special memory
9.4 Programmable Logic Device (PLD)
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10 Chapter Digital System Design Basis
10. 1 Features and Description of Digital System
10.2 system level
10.3 algorithm level
10.4 register transfer phase
10.5 ASM machine design example (1)
Design example of 10.6 ASM machine (2)
10.7 stored program computer
10.8 interface circuit
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Chapter 1 1 VHDL basics
1 1. 1 Overview
1 1.2 VHDL design description for integration
1 1.3 VHDL design description for simulation
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Chapter 12 Generation and Shaping of Rectangular Pulse
12. 1 RC circuit
12.2 positive feedback loop
12.3 555 timing integrated circuit
12.4 Schmitt trigger
12.5 monostable circuit
12.6 multivibrator
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Chapter 13 digital-to-analog converter and analog-to-digital converter
13. 1 working principle of digital-to-analog converter
Main parameters of 13.2 digital-to-analog converter
Application example of 13.3 digital-to-analog converter
Main parameters of 13.4 analog-to-digital converter
13.5 sampling? Holding circuit and analog multiplexer
13.6 common analog-to-digital converter
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Appendix A Naming Rules for Integrated Circuit Models in China
Appendix b introduction of national standard graphic symbols
Appendix c general logic symbol
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