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DESIGN AND CONSTRUCTION OF A LOW AND HIGH VOLTAGE MONITOR

 

ABSTRACT

The power line fluctuations and cut-offs or power failure causes damages to electrical appliances connected to the line. It is more serious in the case of domestic appliances like fridge and air conditioners. If a fridge is operated on low voltage, excessive current flows through the motor, which heats up, and get damaged. Low and high voltage monitor is designed to protect electrical appliances from over voltage as well as under voltage. The under/over voltage monitor circuit with time delay presented in this work is a low cost and reliable circuit for protecting such equipments from damages. Whenever the power line is switched on it gets connected to the appliance only after a delay of a fixed time. If there is hi/low fluctuations beyond sets limits the appliance get disconnected. The system tries to connect the power back after the specific time delay, the delay being counted from the time of disconnection. If the power down time (time for which the voltage is beyond limits) is less than the delay time, the power resumes after the delay: If it is equal or more, then the power resumes directly.

 

TABLE OF CONTENT
Title Page
Approval Page
Dedication
Acknowledgement
Abstract
Table of Content
CHAPTER ONE
1.0      Introduction
1.1      objective of the project
1.2      significance of the project
1.3      applications of the project
1.4      advantages of the project
1.5      scope of the project
1.6      project organization

CHAPTER TWO
2.0      literature review
2.1      review of voltage regulation
2.2      overvoltage to homes appliances

    CHAPTER THREE
3.0     Construction/ Methodology            
3.2     block diagram of the project
3.3     circuit diagram of the project
3.4     system operation
3.5     circuit description
3.6     Description of major components used
CHAPTER FOUR
4.0      Result analysis
4.1      installation of the complete design
4.2      construction procedure and testing
4.3      casing and packaging
4.4      assembling of section
4.5      testing of system operation
4.6      problems encountered
4.7      cost analysis
CHAPTER FIVE
5.1      Conclusion
5.2      Recommendation
5.3      Bibliography

 

CHAPTER ONE
1.1                                          INTRODUCTION

Low and high voltage monitor is a device designed to protect electrical appliances from over voltage as well as under voltage. The under/over voltage protection circuit with time delay presented in this work is a low cost and reliable circuit for protecting such equipments from damages. Whenever the power line is switched on it gets connected to the appliance only after a delay of a fixed time. If there is hi/low fluctuations beyond sets limits the appliance get disconnected. The system tries to connect the power back after the specific time delay, the delay being counted from the time of disconnection. If the power down time (time for which the voltage is beyond limits) is less than the delay time, the power resumes after the delay: If it is equal or more, then the power resumes directly.

This work provides few circuit ideas that can provide low voltage and over voltage protection to connected electrical assets. Though these circuits won’t be able to stabilize the input voltage, even so may prove very effective in providing total safety to your precious electrical home appliances against dangerous input voltages.
The first design of a low voltage indicator circuit may be used to indicate the presence of dangerous low voltage conditions.
A low voltage may appear to be something that is lower in magnitude and power, but that is what makes it more lethal. For example a refrigerator working at 230 volts AC mains will never “like” voltages below 190, since in such cases its compressor due to the lack of sufficient voltage, will try to compensate by drawing heavy currents and may get damaged if the situation persists. The same is true for other types of AC operated motors.
Also in vehicles, for example a car, if the battery voltage falls below 9 volts, it may be quite harmful for the life of the battery itself and moreover the vehicle will just not start at that voltage.
1.2                                          OBJECTIVE OF THE PROJECT
The objective of this work is:

  • Provide a solution to under voltage and over situation faced by residents of high density areas of Nigeria by designing and constructing an effective and comparatively cheaper voltage stabilizer which will have a cost  price of less than total cost obtained which could be afforded by most low income earners. 
  • To regulate the voltage of there is any over voltage or under voltage an regulate the voltage that will suit the purpose the analysis design, construction and cost comparison have been done and necessary tests have been satisfactory out.

1.3                                        SIGNIFICANCE OF THE STUDY
As a student of electrical and electronic engineering, working on this project have expose my knowledge to function and working principle of many electrics components such as voltage comparator, transistor, and mainly to auto-transformer.
It has made me to understand the working principle and application of s of over and under voltage cutout if for both in homes and industries.

1.4              APPLICATIONS OF THE PROJECT
Over or under voltages in electricity is one of the major problems that affect their production. Due to high demand of electricity to sustain their operations, it results to low or high voltage output which can damage equipments. Therefore, these companies need specialized devices to help them protect their equipments from early wear and tear. High-And-Low Voltage monitor is an electromechanical constituents that control the regular voltage outputs. During peak consumption of electricity, the sudden flow of power can damage electric or electronic machines. On the other hand, if there is low output of voltage, a machine may fail to function. It  provide safe output to guard varieties of equipments including ultra modernized music systems, medical equipments LCD, Home Theater, industrial machines and more. They are designed with special features to protect equipments which include line noise spike protection, primary switching technology, auto reset, and overload cutoff protection. In order to preserve the life of machines, these devices are recommendable in any operation. They assure that machines are working well all the time especially in peak timings.

1.5                                          ADVANTAGES OF THE PROJECT

  • Cost is less as compared to voltage stabilizers
  • Consumes less power.
  • This circuit is used in homes and offices to protect equipments from high voltages and low voltages.

1.6                                                 SCOPE OF THE PROJECT
This straight forward circuit will protect electrical appliances from over voltage as well as under voltage. The circuit also produces an alarm when the power supply comes back. An ideal circuit for home to protect your valuable equipments from voltage fluctuations. The same circuit with some modifications can be used  to make a automatic voltage stabilizer.
The timer NE555 is wired as a monostable multivibrator with a pulse width of 10ms.When the power comes back after a cut off a negative voltage is obtained at the trigger pin which triggers the IC NE555.

1.7                          PROJECT WORK ORGANISATION
The various stages involved in the development of this project have been properly put into five chapters to enhance comprehensive and concise reading. In this project thesis, the project is organized sequentially as follows:
Chapter one of this work is on the introduction to low and high voltage protector. In this chapter, the background, significance, objective limitation and problem of low and high voltage protector were discussed.
Chapter two is on literature review of low and high voltage protector. In this chapter, all the literature pertaining to this work was reviewed.
Chapter three is on design methodology. In this chapter all the method involved during the design and construction were discussed.
Chapter four is on testing analysis. All testing that result accurate functionality was analyzed.
Chapter five is on conclusion, recommendation and references.

 

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