ABSTRACT
The main of this project work is to carry on detailed research and design construction, development, control, and evaluation of a microcontroller-based industrial motor speed control, which main and chief control is the AT89S52 microcontroller unit that is introduced here as “intelligent technology” using the pulse width modulation (PWM) controlling principle to the control of speed in an industrial motor in co-operating with analog circuit and output digital display. Indicates the lowest to the highest speed clapping by Clapping or SPO to SP5. This project presented to technological way out tomorrow by the usage of microcontroller industrial motor speed control, which will be of great benefit to industrial motor speed stimulation and control. The microcontroller-based Industrial motor speed control programmes that monitor through pulse width modulation (PWM) automatically switch the speed to low and high through controller drivers and the motor.
TABLE OF CONTENT Title page - - - -- - - - - - i Approval page - - - - - - - - ii Dedication - - - - - - - -- iii Acknowledgement - - - - - - - iv Abstract - - - - - - - - - v Table of contents - - - - - - - vi CHAPTER ONE 1.0 Background History - - - - - - 1 1.1 Problem Associated - - - - - 1 1.2 Objectives - - - - - - - 2 1.3 Scopes - - - - - - - - 3 1.4 Methodology - - - - - - - 3-4
CHAPTER TWO 2.0 Literature Review - - - - - - 5-10 CHAPTER THREE 3.0 Principles of operation and construction - - 11 3.1 Principles of operation - - - - - 11 3.2 How the Circuit works - - - - - 14 3.3 Visual Display Unit - - - - - - 15 3.4 Components used and functions - - - 17 3.5 Description of components - - - - 18 CHAPTER FOUR 4.0 Result and Analysis - - - - - - 32 4.1 Procedures - - - - - - - 32 4.1.1 Circuit - - - - - - - - 32 4.1.2 Soldering - - - - - - -- 34 4.1.3 Casing - - - - - - - - 35 4.1.4 Testing - - - - - - - - 35 4.2 Analyzing the Circuit - - - - - 36 4.3 Problem Encountered/solution - - - - 37 CHAPTER FIVE 5.0 Conclusion and Recommendation - - - 38 5.1 Conclusion - - - - - - - 38 5.2 Recommendation - - - - - - 38 References - - - - - - - - 40 CHAPTER ONE 1.0 BACKGROUND HISTORY Industries demand a way to control wirelessly or a smooth control of industrially applied motors to carry on with their day-to-day operations without stress. This project is all about to introduce a way an industrial motor speed can be control without stress without wasting energy consumption while in operation with high and low-speed demand accordingly to desire speed by the introduction of “Microcontroller” unit incorporation with circuitry and output into or device to achieve that desire speed control of industrial motor through the control program embedded in pulse width modulation (PWM) within the “Microcontroller” unit. 1.1 PROBLEM ASSOCIATED Most human being feels so inconvenient about changing motor speed in Industries where the demand of operation is cumbersome and productivity is intense, so mainly changing Industrial motor speed is difficult but by the aid of “Microcontroller” and it associated running and controlling programme through pulse width modulation (PWM) we can automatically change the speed of the Industrial motor from low to high by the instruction beneath the controller driver. So this project is recommended to be built for solving the below problems. i. Smooth running of Industrial operation and productivity. ii. Correctly of high power demand iii. No human effort needed while speeding changes iv. It is a trouble-free operation 1.2 OBJECTIVES The objectives of this project are to; i. Enable the control of Industrial motor flexibility and selecting the different levels of speed. ii. Development of an Industrial motor control system but can preview the status of the speed level by using liquid crystal display or light-emitting diodes of different colors. iii. Develop an automatic Industrial motor control system. 1.3 SCOPES The system as the main controller i. AS the main controller ii. Timing as the input for the controller iii. The Industrial motor is the output device for the system, represented with a DC fan. 1.4 METHODOLOGY Figure 1.1 shows the methodology or workflow of the system involving system development from hardware and software to the integration of both elements to work together to achieve the output control of the motor. The system is tested to produce certain results that are compatible with the system.
