catalogue

First, the design purpose

Second, the specific requirements of process design

Third, a brief history of the development of single chip microcomputer

Four. Brief introduction of 805 1 single chip microcomputer system

Verb (abbreviation of verb) 805 1 Brief introduction of internal timer/counter of single chip microcomputer

Six, the program circuit

Seven. Program flow

Eight, the program code

Summary of nine experiments-complete papers and experience are needed.

References and abstracts

Original: 1. purpose

1. Further understand and master the structure and working principle of 805 1 single chip microcomputer.

2. Master the interface technology of single chip microcomputer and the external characteristics and control methods of related peripheral chips.

3. Through the course design, master the basic methods and skills of circuit design with single chip microcomputer as the core, and understand the calculation method of circuit parameters.

4. Through the actual program design and debugging, gradually master the modular program design method and debugging technology.

5. By completing a complete process including circuit design and program development, students can understand the whole process of developing a single chip microcomputer application system and lay a foundation for future work.

Second, the requirements of physics curriculum design

A) schematic design.

1. The schematic design shall conform to the working principle of the project, with correct connection and no label at the end.

2. The components used in the drawings should be selected reasonably, and the parameters of devices such as resistors and capacitors should be marked correctly.

3. The schematic diagram should be complete, including CPU, peripheral equipment, amplifier interface and input/output equipment.

B) program adjustment

1. According to the requirements, the overall item can be decomposed into several sub-functional modules, and each functional module completes a specific function.

2. According to the overall requirements and decomposed functional modules, determine the relationship between functional modules and establish a complete program flow chart.

C) Program debugging input and assembly of designed programs, eliminating grammatical errors and generating *OBJ files.

1. Connect on the experimental platform according to the designed schematic diagram, and check whether it is correct.

2. If the compiled *OBJ file is transmitted to the experimental device, execute the program and check whether the program meets the design requirements; if not, modify the program until it meets the requirements.

D) instruction manual

1. Schematic design description

Briefly explain the design purpose, the functions of components used in the schematic diagram and their functions in the diagram, as well as the working process and sequence of each component.

2. Description of program design

The overall function and structure of program design are explained, and the functions of each sub-module and the relationship between each sub-module are described in detail.

3. Draw the working principle diagram, program flow chart and give the program list.

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Introduction to Chapter 1

1. 1 course design hardware tools

1.2 Tools for using the software required for project production

1.3 805 1 program development test platform

1.4 Use the free assembly compiler.

1.5 Operation example of 89cxx combustion simulator

1.6 homemade 805 1 microcomputer single board IO5 1

Operation example of 1.7 IO5 1

1.8 is implemented in Windows98 working mode combined with DOS mode.

Chapter 2: Basic software and hardware design in the course design of 805 1 MCU.

2. 1 Various basic hardware designs

2.2 work indicator LED

2.3 805 1 delay time calculation

2.4 Basic Key Design

2.5 establish 805 1 communication interface.

2.6 Simple 805 1 debugging interface

2.7 Piezoelectric horn test

2.8 keyboard scanning

2.9 scanning control seven-segment display

2. 10 LCD interface control

2. 1 1 805 1 timer mode operation

2. 12 timer mode 0 test

2. 13 timer mode 1 test

2. 14 timer mode 2 test

2. 15 uses a timer to generate sounds of various frequencies.

2. 16 Play a melody with a timer.

Chapter III Single Chip Microcomputer LCD Clock

Chapter 4 Timed alarm clock

Chapter 5 Timing Alarm LCD

Chapter 6 Music Countdown Device

Chapter VII Password Lock Control

Chapter VIII Storeable Electronic Organ

Chapter 9 805 1 music box

Chapter 10 Research on Infrared Remote Control

10. 1 Operating principle of infrared remote controller

10.2 how to observe the signal of infrared remote controller

10.3 Explanation of decoding function of infrared remote controller

Chapter 1 1 infrared home appliance remote controller

Chapter 12 805 1 servo control

12. 1 working principle and transformation of servo machine

Chapter 805 1.3/Servo Car Control

13. 1 function description

13.2 assembly and test of servo car

Chapter 14 infrared remote control servo car

14. 1 function description

14.2 remote control servo car assembly and experiment

14.3 control circuit

14.4 control program

Chapter 15 Remote control of radio equipment

15. 1 function description

15.2 remote coding and decoding control

Chapter 16 805 1 Voice Control Design

16. 1 Introduction to basic knowledge of voice control

16.2 system composition

16.3 introduction of voice control module

16.4 basic control circuit

16.5 basic control program

16.6 voice control project design

Appendix h how to use KEIL 805 1 to develop system assembler and compiler and debug it.

Appendix I EPM89 890XX combustion simulator features

Appendix j1051805110 control panel functions

Appendix K VCMM Voice Control Module Function

Appendix L IO5 1 complete circuit diagram of control panel

Appendix M Instructions for the use of relevant materials downloaded from the website

Appendix N Copyright Statement and Ordering Method of Hardware Interface Board

Appendix A Manufacture of Simple Stabilized Power Supply

Appendix B Software and hardware tools and parts required for the experiment in this book

Appendix C 805 1 Introduction to Internal Control Register

Appendix D 805 1 instruction set

Appendix e how to make 805 1 veneer

Appendix F Reference Contents of Curriculum Design Report

Appendix JIO51Operating Instructions for Windows Driver of Control Panel