Design And Construction A 2Kva Automatic Voltage Regulator Using Microcontroller And Display
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Voltage regulators play a crucial role in maintaining the stability of appliances in various settings, including homes, offices, and industries. However, mains supply often experiences significant voltage drops due to distribution line losses. To address this, a voltage regulator ensures that the output voltage to appliances remains at a nominal 220V, despite input voltage fluctuations. This project presents an automatic voltage regulator with adaptable power ratings, leveraging the intelligence of the PIC16F877A microcontroller. This low-cost, widely available microcontroller enables the circuit to maintain a stable 220V output, even when input mains voltage varies between 90V and 240V. The regulator responds swiftly, producing a smooth output within 100ms of input voltage changes, outperforming servo stabilizers which take seconds to adjust. Although programming the PIC16F877A microcontroller can be challenging due to its RISC architecture and limited instructions, supportive development tools are available to facilitate the process.
1.0 INTRODUCTION
This chapter introduces the Design And Construction A 2Kva Automatic Voltage Regulator Using Microcontroller And Display and its relevance, states the research problems, research questions, and objectives, provides a background of the study, and should also include the research hypothesis.
Cover Page
Title Page
Approval Page
Dedication
Acknowledgment
Abstract
Table of Contents
CHAPTER ONE
1.0 Introduction
1.1 Background of the project
1.2 problem statement
1.3 Aim/objective of the project
1.4 Significance of the project
1.5 Scope of the project
1.6 Limitation of the project
1.7 Application of the project
1.8 Definition of terms
1.9 Methodology
1.10 Project organisation
CHAPTER TWO
2.0 Literature Review
2.1 Historical background of the project
2.2 Stages in the development of voltage regulator
2.3 Stabilizer grading
2.4 Types of regulator
CHAPTER THREE
3.0 construction methodology
3.1 Block diagram
3.2 Circuit diagram
3.3 Circuit description
3.4 System operation
3.5 Description of major components used
3.6 Cost analysis
CHAPTER FOUR
4.0 Result analysis
4.1 Construction procedure
4.2 Casing and packaging
4.3 Assembling section
4.4 System testing
4.5 Design precaution