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Design And Construction Of Low Battery Alarm System

Electrical Electronics Engineering | Industrial Physics | Physics

The design and construction of a low battery alarm system involve the integration of various components to create a robust device that alerts users when the battery voltage falls below a predetermined threshold. This system typically comprises a microcontroller, voltage sensor, alarm indicator, and power source. The microcontroller serves as the central processing unit, monitoring the battery voltage through the voltage sensor. When the voltage drops below the set level, the microcontroller triggers the alarm indicator, which can be an audible buzzer, LED light, or a combination of both, to notify the user of the low battery condition. Additionally, to enhance user convenience, the system can incorporate features such as adjustable voltage thresholds, battery status indicators, and power-saving modes. By employing efficient circuitry and appropriate programming techniques, this low battery alarm system ensures timely detection and notification of battery depletion, thereby preventing unexpected power failures and facilitating uninterrupted operation. Through meticulous design considerations and precise construction techniques, this system offers reliability, durability, and user-friendly functionality, making it an indispensable tool for applications requiring continuous monitoring and maintenance of battery-powered devices.

ABSTRACT

Sometimes there is nothing worse than losing all the charges on our device especially when you are in the middle of something very important. Usually this happens at the most inconvenient time probably when you are using device that have no low battery indicator.

A low battery alarm system is used to indicate when a device’s battery is running empty. When the battery is low or dead, the system will start beeping to alert the user that it needs to be replaced. If your battery is low, it will either need to be disconnected or replaced. The main aim of this work is to design a device that performs this function.

TABLE OF CONTENT

COVER PAGE

APPROVAL PAGE

DEDICATION

ACKNOWLEDGEMENT

TABLE OF CONTENT

CHAPTER ONE

INTRODUCTION
BACKGROUND OF THE PROJECT
PROBLEM STATEMENT
AIM OF THE PROJECT
PURPOSE OF THE STUDY
APPLICATION OF THE PROJECT
SCOPE OF THE PROJECT
ADVANTAGES OF THE PROJECT
LIMITATION OF THE PROJECT
METHODOLOGY
PROJECT WORK ORGANISATION

CHAPTER TWO

LITERATURE REVIEW

2.1 OVERVIEW OF THE STUDY

2.2 CHARGING AND DISCHARGING OF BATTERIES

2.3 REVIEW OF RECHARGEABLE BATTERY

2.4 REVIEW OF DIFFERENT TYPES OF RECHARGEABLE BATTER

CHAPTER THREE

DESIGN METHODODLOGY

3.1 SYSTEM BLOCK DIAGRAM

3.2 SYSTEM CIRCUIT DIAGRAM

3.3 SYSTEM OPERATION

3.4 COMPONENTS LIST

3.5 DESCRIPTION OF MAJOR COMPONENTS USED

CHAPTER FOUR

RESULT ANALYSIS

CONSTRUCTION PROCEDURE
TESTING OF SYSTEM OPERATION
ASSEMBLING
DIFFICULTIES ENCOUNTERED ON THE SYSTEM

CHAPTER FIVE

5.1 CONCLUSION

5.2 RECOMMENDATION

5.2 REFERENCES

CHAPTER ONE

1.0 INTRODUCTION

1.1 BACKGROUND OF THE STUDY

An electric battery is a device consisting of one or more electrochemical cells that convert stored chemical energy into electrical energy. Each battery consists of a negative electrode (anode) that holds charged ions, a positive electrode (cathode) that holds discharged ions, an electrolyte that allows ions to move from anode to cathode during discharge (and return during recharge) and terminals that allow current to flow out of the battery to perform work.

Batteries are either primary (single-use or “disposable”) that are used once and discarded or secondary (rechargeable batteries) that are discharged and recharged multiple times.

A battery, which is actually an electric cell, is a device that produces electricity from a chemical reaction. Strictly speaking, a battery consists of two or more cells connected in series or parallel, but the term is generally used for a single cell. A cell consists of a negative electrode; an electrolyte, which conducts ions; a separator, also an ion conductor; and a positive electrode. The electrolyte may be aqueous (composed of water) or non-aqueous (not composed of water), in liquid, paste, or solid form. When the cell is connected to an external load, or device to be powered, the negative electrode supplies a current of electrons that flow through the load and are accepted by the positive electrode. When the external load is removed the reaction ceases.

A primary battery is one that can convert its chemicals into electricity only once and then must be discarded. A secondary battery has electrodes that can be reconstituted by passing electricity back through it; also called a storage or rechargeable battery, it can be reused many times.

Batteries are made from many materials including various metals, carbon, polymers and even air. The most common are lead-acid batteries used in vehicles and lithium ion batteries used for portable electronics. Batteries come in many shapes and sizes, from miniature cells used to power hearing aids and wristwatches to battery banks the size of rooms that provide standby power for telephone exchanges and computer centres.

For making the batteries to last longer require care of them, one of the main factors that weaken the rechargeable batteries is deep discharging them. Every time a battery gets completely discharge its efficiency decreases to some extent and continuously deep discharging damages the battery very early. For making your rechargeable batteries last longer requires to not letting them completely discharge.

A very useful circuit shown in this work will do this job very efficiently by alarming when your battery has come to a certain voltage level, for example a 12V lead acid battery shows 11.6 when it is 90% empty which is the aim of the work.

1.2 PROBLEM STATEMENT

Smart gadget users (like smart phone and battery chargers) much more often than the users of conventional gadgets face the problem of low battery. Empty battery causes inconvenience, especially when it is needed the most. This prevents the users from efficient use of their devices.

Low battery alarm system allows you to simply and effectively solve this problem, reminding you with a sound signal to charge your device at the right time.

1.3 AIM OF THE PROJECT

The main aim of this work is to build a compact Battery protection device for 12V battery voltage monitoring, with buzzer and LED alarm. When battery drops below set voltage, the buzzer beeps and the LED lights; when the battery voltage rises above the set value, the alarm resets.

1.4 PURPOSE OF THE PROJECT

The purpose of the low battery alarm system is to protect devices using the battery from damage and at the same time prolong the life of the battery.

1.5 APPLICATION OF THE PROJECT

You can use this low battery alarm circuit with your inverter or with your car battery; it will give you indication about your battery status. So before one’s battery dies you can recharge it.

In Automobiles

Some automobiles are fitted with a battery condition meter to monitor the starter battery. This meter is, essentially, a voltmeter but it may also be marked with coloured zones for easy visualization.

Many newer cars no longer offer voltmeters or ammeters; instead, these vehicles typically have a light with the outline of an automotive battery on it. This can be somewhat misleading as it may be confused for an indicator of a bad battery when in reality it indicates a problem with the vehicle’s charging system.

Alternatively, an ammeter may be fitted. This indicates whether the battery is being charged or discharged. In the picture on the right, the ammeter is marked “Alternator” and the symbols are “C” (charge) and “D” (discharge). Click on the picture to enlarge it.

Both ammeters and voltmeters individually or together can be used to assess the operating state of an automobile battery and charging system.

In Electronic devices

A battery indicator is a feature of many electronic devices. In mobile phones, the battery indicator usually takes the form of a bar graph – the more bars that are showing, the better the battery’s state of charge.

In Computers

Computers may give a signal to users that an internal standby battery needs replacement. Portable computers using rechargeable batteries generally give the user some indication of the remaining operating time left on the battery. A Smart Battery System uses a controller integrated with an interchangeable battery pack to provide a more accurate indication of the state of battery charge.

This device can also be used in the following places:

Telecommunications
CATV / Broadband
Mission Critical Facilities
UPS Systems
Financial Institutions
Mining
Transportation Operations
Hospitals
Emergency Lighting
Call Centers
Battery Suppliers and Manufacturers.
Battery Service Groups
Medical/Biotechnology. All for the purpose of knowing the voltages of their devices.

1.6 LIMITATION OF THE PROJECT

This device can only indicate voltage from 1.5v to 24v.
It indicate voltage level via LEDs
The operating voltage of this IC is 3v to 25v DC

1.7 SCOPE OF THE PROJECT

Low Voltage Monitor is a simplistic and inexpensive battery monitoring system designed to monitor battery string voltage for under voltage conditions. This Battery Voltage Monitor is used in 12v applications. Monitoring for battery string voltage will provide critical battery cell protection and ensure the longevity of the battery system. Under voltage causes irreversible battery damage if left uncorrected. Measuring battery voltage with this device will allow the user to determine when to charge their batteries.

1.8 ADVANTAGES OF THE PROJECT

The main advantage of this work is that the low battery warning sound easily attracts attention, so there is no need for continuous regular monitoring of the battery indicator. It has other advantages such as:

It is portable
High reliability and durability

Simple installation

1.9 LIMITATION OF THE PROJECT

This device can only indicate voltage of 12v battery.
It indicate voltage level via LEDs and buzzer

The operating voltage of this IC is 3v to 25v DC

It has measuring probe which is labeled black ( –ve) and red (+ve)

1.10 METHODOLOGY

To achieve the aim and objectives of this work, the following are the steps involved:

Study of the previous work on the project so as to improve it efficiency.
Draw a block diagram.

Test for continuity of components and devices,

Design of the device was carried out.
Studying of various component used in circuit.
Construction of the circuit was carried out. The construction of this project includes the placing of components on Vero boards, soldering and connection of components,

Finally, the whole device was cased and final test was carried out.

1.11 PLAN OF THE STUDY

This project work is basically divided into five (5) chapters:

CHAPTER ONE: Takes on the introduction of the subject matter. If consists of the super significance and definition of terms of the study.

CHAPTER TWO: This is the literature review this entails the works that had been done on this particular topic which was done by other researchers.

CHAPTER THREE: Will talk about the Methodist that the researcher adopted in getting necessary materials or information that will facilitate the success of the research work.

CHAPTER FOUR: Explain how the researcher was able to analysis and present the data he got for his work in the chapter:

CHAPTER FIVE: Brings everything to conclusion the researcher does his summary and give necessary recommendation where needed.