Chapter 1 Basics of Electronic Design
1.1 Development of Electronic Design Technology
1.1.1 From Electronic Devices with Fixed Functions to Programmable Devices
1.1.2 From traditional electronic circuit design methods to EDA technology
1.2 Several basic issues in electronic circuit design
1.2.1 Selection of electronic circuit design solutions
p>1.2.2 Selection of components
1.2.3 Cascade connection between unit circuits
1.3 Installation, debugging and anti-interference measures of electronic circuits
1.3.1 General principles of circuit installation layout
1.3.2 Circuit debugging and anti-interference technology
1.3.3 Design indicators and measurement error analysis
< p>1.3.4 Electronic design report1.4 Electronic devices used in EDA technology
1.4.1 Programmable analog devices
l.4.2 Programmable logic Devices
1.4.3 Xilinx’s CPLD—XC9500
1.4.4 Altera’s FPGA—FDEX 10K
l.5 FPGA/CPLD products and application development
1.5.1 FPGA/CPLD product overview
l.5.2 FPGA/CPLD application development process
Chapter 2 Designing digital circuits using traditional methods
2.l Digital circuit design method
2.1.l Composition of digital circuit system
2.1.2 Digital circuit design steps
2.2 Applications of small and medium-sized digital integrated circuits
2.2.1 Functions and applications of commonly used medium-sized combinational integrated circuits (MSI)
2.2.2 Functions and applications of medium-sized sequential logic circuits Application
2.2.3 Integrated phase-locked loop and its application
2.2.4 Functions and applications of commonly used A/D and DIA conversion circuits
2.2.5 Commonly used integrated voltage stabilizing circuits and voltage stabilizing power supplies
2.3 Digital circuit small system design examples
2.3.l Taxi meter design
2.3.2 Infrared Design of remote control transmitting and receiving systems
Chapter 3 Basics of VHDL language application
3.1 Basic structure of VHDL language and its program
3.1.l Hardware description language VHDL< /p>
3.1.2 Basic structure of VHDL program
3.1.3 Program libraries, packages and configurations in VHDL
3.2 Basic elements of VHDL language
3.2.1 Literal rules
3.2.2 Data types
3.2.3 VHDL data objects
3.3 VHDL operators
3.3.1 Logical operators
3.3.2 Arithmetic operators
3.3.3 Relational operators
3.4 Basic statement analysis of VHDL
p>3.4.1 Sequential Statements
3.4.2 Concurrent Statements
3.5 Design digital circuits using VHDL language
3.5.1 Combinational circuit design
3.5.2 Sequential circuit design
3.5.3 Finite state machine design
Chapter 4 Design of digital circuits using EDA technology
4.l Design using the schematic input method of Foundation software
4.1.l Functions of the schematic editor
4.1.2 In schematic design Project Manager
4.1.3 Schematic Editor
4.1.4 Functional Simulation and Timing Simulation
4.1.5 Design and Production Example
< p>4.2 Text input using FoundationMethod design
4.2.1 Create "New Project" for the design project
4.2.2 Create HDL source file CNT.VHD
4.2.3 Logic synthesis< /p>
4.2.4 Functional simulation
4.2.5 CNT design implementation
4.2.6 Chip programming
4.2.7 Language in Foundation Assistant
4.3 Design using the schematic input method of MAX+PlusⅡ software
4.3.1 Overview of MAX+PlusⅡ
4.3.2 Design using the schematic input method Example
4.3.3 Input the schematic diagram into MAX+ Plus Ⅱ software
4.3.4 Select the target device and compile
4.3.5 Timing simulation
p>4.3.6 Pin lock
4.3.7 Programming download
4.3.8 Design top-level file
4.3.9 During the design process Other information
4.4 Design using text input method of MAX+Plus II
4.4.1 Create VHDL source file
4.4.2 Select device
4.4.3 Compile
4.4.4 Define pins
4.4.5 Waveform simulation
4.4.6 Device programming
4.5 Use PLD to design application-specific integrated circuit chips (ASIC)
4.5.1 ASIC design method
4.5.2 Design tasks and requirements
4.5.3 Digital Composition of voltmeter
4.5.4 VHDL program design and simulation verification
4.5.5 Digital voltmeter ASIC experiment
Chapter 5 Analog Circuit Design
p>5.1 Analog circuit design methods
5.1.1 Classification and selection methods of operational amplifiers
5.1.2 Basic circuits based on integrated operational amplifiers
5.1.3 Design of DC regulated power supply
5.1.4 Design of waveform generation circuit
5.1.5 Design of active filter
5.2 Simulation Circuit application example - weak signal maximum circuit
5.2.1 Tasks and requirements
5.2.2 Circuit design
5.2.3 Unit circuit analysis
5.3 Practical analog circuit reference module
5.3.1 Power supply circuit
5.3.2 Signal amplifier
5.3.3 Signal generation circuit
p>5.3.4 Measurement and control circuit
5.3.5 Signal operation and processing circuit
5.3.6 Other circuits
Chapter 6 Simulation Computer-aided analysis of circuits
6.l Introduction to circuit analysis software OrCAD/Pspice
6.1.1 OrCAD/Pspice and SPICE
6.1.2 PspiceA/D Supporting software
6.1.3 Basic circuit simulation process
6.1.4 Relevant regulations of Pspice
6.2 Drawing circuit diagram
6.2.l Start the circuit diagram drawing software Capture
6.2.2 Circuit diagram editor Page Editor
6.2.3 Edit the attribute parameters of each element of the circuit
6.3 Basic analysis of the circuit< /p>
6.3.1 DC bias calculation Bias Point
6.3.2 DC transmission characteristics analysis (TF)
6.3.3 DC sweep analysis (DC Sweep)< /p>
6.3.4 Frequency Characteristics Analysis (AC Sweep)
6.3.5 Transient Analysis (TRAN)
6.3.6 Parameter Sweep Analysis
< p>6.4 Application examples6.4
.1 Output characteristics of BJT
6.4.2 Basic analysis of voltage divider bias circuit
6.4.3 Analysis of Class B complementary symmetric power amplifier
6.4 .4 Analysis of waveform conversion circuit using operational amplifier
6.4.5 Analysis of linear rectifier circuit using operational amplifier
6.5 In-system programmable analog device ispPAC and its application
6.5.1 Introduction to the in-system programmable analog device ispPAC
6.5.2 Application examples of the in-system programmable analog device ispPAC
Chapter 7 Comprehensive Electronic Systems Design Topics
7.l Design of Digital Competition Responder
7.2 Design of Microwave Oven Controller
7.3 Design of Programmable Clock Controller
7.4 Stepper motor controller design
7.5 Traffic light controller design
7.6 Simple digital frequency meter design
7.7 Digital thermometer design
7.8 Multi-channel remote data acquisition system design
7.9 Low-frequency power amplifier design
7.10 Practical signal source design
7.11 Digital multi-purpose measuring instrument design
p>7.12 Character display control circuit design
7.13 Digital storage oscilloscope control circuit design
7.14 FPCA/CPLD and microcontroller bus interface design
7.15 Numerical control DC power supply design
7.16 LED large-screen character display screen design
7.17 Washing machine control circuit design
7.18 Visual and audible car station announcer design
7.19 Design of simple digital logic analyzer
7.20 Design of digital phase measuring instrument
Chapter 8 Electronic Design Competition
8.l Previous Electronics Analysis of design competition questions
8.1.l Previous electronic design competition questions
8.1.2 Classification of competition questions
8.1.3 Focus on knowledge points of the competition
p>
8.2 Analysis of typical questions in electronic design competition
8.2.1 Simple digital storage oscilloscope
8.2.2 High-efficiency audio power amplifier
8.2. 3 Waveform Generator
8.3 Electronic Design Competition Paper Writing
8.3.l Scoring Criteria for Design Reports
8.3.2 Format, Content and Notes of Design Reports Matters
Appendix some main parameters of commonly used diodes and transistors
Appendix 2 Pins and functions of commonly used semiconductor integrated circuits
Appendix 3 Xilinx Foundation 9500 series component library Basic unit circuit
Appendix 4 SE-XC95108 ISP digital experiment system instruction manual
References