ABSTRACT
Despite all attempt of the
federal government to have not only an uninterrupted power supply for all cities in Nigeria, but a voltage that is inconformity with the recommended 220/230v for domestic consumption for example. The NEPA Plc is facing some difficulties in generating, transmitting and distributing the required voltage stabilizer, which could be connected, to the main and then the load is in turn connected to it.
This automatic, AC voltage stabilizer has two major sections.
The transformer section, the control circuit unit the third section is the protective unit.
TABLE OF CONTENTS
TITLE PAGE
CERTIFICATION
DEDICATION
ACKNOWELDGEMENT
TABLE OF CONTENTS
LIST OF TABLE
ABSTRACT
CHAPTER ONE
1.0 INTRODUCTION
1.1 THE TRANSFORMER UNIT
1.2 THE CONTROL CIRCUITING
CHAPTER TWO
2.0 LITERATURE REVIEW
2.1 HISTORY OF THE PROJECT
2.2 THE POWER SUPPLY
2.3 THEORY OF TRANSFORMER
2.4 OPERATION OF THE TRANSFORMER
2.5 VOLTAGE TRANSFORMATION RATION
2.6 TRANSFORMER LOSSES
CHAPTER THREE
3.0 THE CONTROL CIRCUITING
3.1 TRANSISTORS
3.2 RELAY
3.3 THE CONTROL UNIT
3.4 THE POWER SUPPLY UNIT
3.5 VOLTAGE DIVIDER
CHAPTER FOUR
4.0 DESIGN ANALYSIS
4.1 DESIGN FO A TRANSFORMER
4.2 DESIGN OF THE TRANSFORMER PROPER
4.3 CONTROL CIRCUIT DESIGN
4.4 DESIGN CALCULATION
4.5 PRINCIPLE OF OPERATION
CHAPTER FIVE
5.0 CONSTRUCTION AND TESTING OF THE TRANSFORMER
5.1 SHORT CIRCUIT TEST
5.2 TESTING OF THE TRANSFORMER
5.3 OPEN CIRCUIT TEST
5.4 SUMMARY
5.5 CONCLUSION
5.6 RECOMMENDATIONS
5.7 REFERENCES
LIST OF FIGURES
CHAPTER ONE
CHAPTER TWO
2.0 The Sheel Type Transformer
CHAPTER THREE
3.0 Circuit Diagram of 1.5 KVA Automatic Voltage Stabilizer
3.1 Transistor Diagram
3.2 Relay Diagram
3.3 Block diagram for a typical power supply with corresponding Wve form for each stage
3.4 Exact circuit diagram for the power supply stage have the automatic voltage stabilizer
CHAPTER FOUR
4.0 Schematic representation of the transformer with different voltage level.
4.2 Graph of (Max) against VCB
4.3 The comparator circuit diagram
CHAPTER FIVE
5.0 Short circuit test
5.1 Open circuit test