ABSTRACT
The need for a remote control system that can control domestic appliances and various lighting points and sockets has often been a concern for uses at times uses find it inconvenient and time they are leaving the house for work it has also often led to damage of appliances due to the fact that an appliances was not timed off before leaving the house.
The objective of putting up. This project therefore is to design equipment that can facilitate a convenient and easy way of controlling our domestic appliances lighting points and sockets especially in powering by ourselves. This objective will be accomplished using various components which include a microcontroller project together with other component.
TABLE OF CONTENT
Title Page
Certification
Dedication
Acknowledgement
Abstract
CHAPTER ONE:
INTRODUCTION
1.1 Objective of Project
1.2 Justification of Project
1.3 Scope of Diagrams in Project
1.4 BLOCK DIAGRAM OF PROJECT
1.5 PROJECT REPORT ORGANIZATION
CHAPTER TWO
LITERATURE REVIEW
2.1 REVIEW OF REMOTE CONTROL SYSTEMS
2.2 DESCRIPTION OF PROJECT
2.3 USE OF PROJECT
CHAPTER THREE
METHODOLOGY
3.1 INFORMATION GATHERING
3.2 HARDWARE COMPONENTS ANALYSIS
3.2.1 Transformers
3.2.2 Bridge Rectifier
3.2.3 Diodes
3.2.4 Capacitors
3.2.5 Voltage Regulator
3.2.6 Light Emitting Diode
3.2.7 Resistors
3.2.8 MICROCONTROLLER
3.2.9 CRYSTAL OSCILLATORS
3.2.10 TRANSISTOR
3.2.11 RELAYS
3.2.12 INFRA RED TRANSMITTERS AND RECIEVERS
3.3 SYSTEM DESIGN APPROACH
3.4 CHOICE OF DESIGN
3.5 THE PROCESS FLOW CHART
CHAPTER FOUR
DESIGN
4.1 THE HARDWARE SUBSYSTEMS
4.1.0 Basic Power Supply Design
4.2 Microcontroller (AT89C51)
4.3 THE INPUT INTERFACE DESIGN
4.4 THE OUTPUT INTERFACE DESIGN
4.5 CONTROL SOFTWARE PROGRAM DESIGN
CHAPTER FIVE
SYSTEM TESTING, IMPLEMETATION AND EVALUATION
5.1 SYSTEM TESTING
5.1.0 Test Plan
5.1.1 Test Data
5.2 CHOICE OF PROGRAMING LANGUAGE
5.3 EXPECTED TEST RESULTS
5.4 PERFORMANCE EVALUATION
CHAPTER SIX
SUMMARY AND CONCLUSION
6.1 SUMMARY
6.2 PROBLEMS ENCOUNTER
6.3 CONCLUSION
REFERENCES
APPENDIX A
APPENDIX B