Design and construction of a 12 volts automatic battery charger | Blazingprojects Postgraduate Thesis
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Design and construction of a 12 volts automatic battery charger

 

Table Of Contents


Chapter ONE

INTRODUCTION

  • 1.1Introduction
  • 1.2Background of Study
  • 1.3Problem Statement
  • 1.4Objective of Study
  • 1.5Limitation of Study
  • 1.6Scope of Study
  • 1.7Significance of Study
  • 1.8Structure of the Research
  • 1.9Definition of Terms

Chapter TWO

LITERATURE REVIEW

  • 2.1Overview of Battery Chargers
  • 2.2Types of Battery Chargers
  • 2.3Principles of Automatic Battery Chargers
  • 2.4Components of a 12 Volts Battery Charger
  • 2.5Charging Algorithms and Techniques
  • 2.6Efficiency and Safety in Battery Charging
  • 2.7Recent Advancements in Battery Charging Technology
  • 2.8Comparison of Automatic and Manual Battery Chargers
  • 2.9Importance of Voltage Regulation in Battery Chargers
  • 2.10Maintenance and Troubleshooting of Battery Chargers

Chapter THREE

RESEARCH METHODOLOGY

  • 3.1Research Design
  • 3.2Population and Sampling Techniques
  • 3.3Data Collection Methods
  • 3.4Data Analysis Techniques
  • 3.5Research Ethics and Validity
  • 3.6Instrumentation and Tools
  • 3.7Experimental Setup
  • 3.8Statistical Methods

Chapter FOUR

DATA PRESENTATION AND ANALYSIS

  • 4.1Overview of Findings
  • 4.2Analysis of Data
  • 4.3Comparison of Results with Hypotheses
  • 4.4Discussion on Research Questions
  • 4.5Interpretation of Results
  • 4.6Implications of Findings
  • 4.7Recommendations for Future Research
  • 4.8Practical Applications of the Study

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Summary of Findings
  • 5.2Conclusion
  • 5.3Contributions to Knowledge
  • 5.4Practical Implications
  • 5.5Limitations of the Study
  • 5.6Recommendations for Further Research

Thesis Abstract

A battery charger is an electrical device employed for charging batteries.  This batteries that are usually charged by battery changer are the storage battery charger are the storage batteries also known as “accumulator” the battery changer changes.  The alternating current form the power line into d.c suitable for charging.

When the battery is fully changed, is up to it’s maximum, 12 volt, the charger with automatically stop changing with the help of the contact relay, the transistor and the zener diode when bend the current back to the system.


Thesis Overview

<p> </p><p><strong>INTRODUCTION</strong></p><p><strong>1.1 &nbsp; &nbsp; BATTERY CHARGE</strong></p><p>A battery charger is an electrical device employed in charging batteries that are usually charged by battery charges are the storage batteries also known as “accumulators”.</p><p>The charger is made up of various electrical and electronics component which for the purpose of clanty are group into your basic unit they are:</p><p>The power supply units</p><p>The smoothing circuits</p><p>The regulating unit and</p><p>Regulated D.C charging units</p><p>Battery chargers comes in various designs and voltage. &nbsp;The choice of a particular and of charger that depends largely int eh size of battery or battery or batteries which on mterds to charge the mini battery changer could be used to charge batteries whose voltage ranges from 6 – 12 volts. The bigger battery changes are for batteries with voltage ranging from 12 – 48 volts. &nbsp;These are the heavy duty batteries.</p><p>The battery charge is builts in such a way that it delivers a constant value of d.c current into the battery it is charging in the opposite direction from which current flows on the batteries during discharge one cannot successfully design a battery charge with out a fundamental understanding of the accumulator because it also makes up the operation.</p><p>Thus chapter two aimed at a brief study of the accumulator (battery). &nbsp;Chapter three deals with the power supply units which series as the backbone of the battery charger and how the automatic cut off is achieved.</p><p>Chapter four fully analysis the operates of the battery charger and its casing which chapter five while happen to be the last chapter aimed at concluding the summarizing what has been achieved at the end of the project.</p><p><strong>1.2 &nbsp; &nbsp; STORAGE BATTERY</strong></p><p>A battery is a group of electrical cells connected in series or series/parallel produces electrical energy as a result of chemical energy stored on it.</p><p>Batteries are generally divided into two groups these are the primary cells and secondary cell which are mostly known as a storage batteries or accumulators.</p><p>Primary cell which are usually dry cell for example, touch batteries (the lechanche dry all) the mercury cell etc. &nbsp;the cannot be re-charged ones their chemical energy is fully utilized.</p><p>The secondary all or storage all can be re-charged ones their chemical energy is fully utilized, hence we will discuss more on these kinds of cells (as they are the ones that will be charged with a battery charger).</p><p>The storage cell are also known as accumulator. &nbsp;In these types of cells, the chemical althon between the electrode and the electrolytes is trudy reversible. &nbsp;A current (d.c) passed though it in opposition to its E.M.F reforms the original material of the electrodes and the cell can therefore be sued again and again. &nbsp;We shall consider two of the most common types of storage cell.</p><p>The nickel – iron (Nike) accumulator, the asteve material in the positive plates in nickel oxide (N12 03) and the negative plates finally divided. &nbsp;The electrolyte is a solution of potassium hydroxide (K0H) when H2ions movest anode and S04 ions to the cathode. &nbsp;At anode (Pb02) it combine with oxygen of (Pb02) and H2 S04 attacks lead to forum pbS04.</p><p><strong>THE LEAD ACID ACCUMULATOR</strong></p><p>The lead acid accumulator is one of the mostly widely used t ypes of storage cell. The negative electrode is of lead and the positive electrode is of lead (iv) oxide (pb02). &nbsp;The electrolyte is sulphur acid initially of density. 1.21 the initial emf of the battery it about 2.1 volts. &nbsp;This rapidly decrcoses to 2.0 volts at which figure it remains nearly constant until the battery is almost discharge re-charging should be begin if the emf falls as low as 1.8 volts.</p><p>Those substance of the cell which stake active part in chemical combination and hence absords or produces electricity during charging or discharging are known as active materials of the cell. &nbsp;The active materials of a lead acid cell are.</p><p>1. Lead peroxide (Pb02) for positive plate</p><p>2. Spong lead (Pb) for negative plate</p><p>3. Delute Sulphorine Acid (H2 S04) as electrolyte</p><p>Lead peroxide (pb02) is a combination of lead and oxygen. &nbsp;Its dure chocolate brown in colour and its quite hard but brittle substance. &nbsp;It is made up of one atom of lead (pb) and two atoms of oxygen (02) and its chemical formular is Pb02: As said earlier, it posses the positive action material of the accumulator. &nbsp;The spong lead (pb) is a pure leads in soft sponge or porous conduction, its chemical formualr is Pb and forms the negative alhra material.</p><p>The dilute sulphrine acid is approximately &nbsp;three parts water and one parts suphurie acid the chemical formular of this is H2 S04. &nbsp;The positive and negative plates are inversed in this solution known as electrolyte. &nbsp;The current producers chemical changes in this solution. &nbsp;Hence the &nbsp;lead acid cell depend. &nbsp;For its action of the presence of two plates covered with Pb02and Pb in solution of dilute H2S04 of specific gravity of 1.21 or ne3ar about as earlier stated. &nbsp;The basically means of discharging and the charging process of the accumulator is known as chemical charger.</p><p>In the process of the accumulator is known as chemical charger. &nbsp;In the process of dischargings of a battery. &nbsp;If the cell is fully charged, it s positive plate or anode is Pb02 (dack chocolate brown0 and the negative plate or cathode is pb (slate grey) when the cell discharges, the scorda current through the extend lend, then H2 S04 is dissociated into positive H2and negative S04 ions. &nbsp;As the current within the cell is flowing from cathode to anode in the process of charging of a battery if the cell is recharged, then hydrogen ions (H2) moves to cathode and S04 ions gas to anode and the following charges would likely placed.</p><p>At cathode</p><p>Pb S04 + H2 &nbsp; &nbsp; &nbsp; &nbsp; &nbsp;Pb + H2 S04</p><p>At Anode</p><p>Pb S04 + S04 + 2H20 &nbsp; &nbsp; Pb02 + 2H2 S04</p><p>General, it will be noted that during discharging the following are absorbed:</p><p>i. Both anode and cathode becomes pb S04 which is whitish in colour</p><p>ii. The specific gravity and acid is discharged due to the formation of water</p><p>iii. The voltage of the cell decrease</p><p>iv. The cells given out energy</p><p><strong>METHOD OF CHARGING</strong></p><p>These are basically four method of charging batteries. &nbsp; </p><p>They are includes:</p><p>a. Constant voltage</p><p>b. Constant current</p><p>c. Ride charging and</p><p>d. Floating charging</p><p>But for the purpose of celerity and simplification of works and increase of theirs project it is the constant voltage method that we are going to discuss furt6her. &nbsp;This method has been employed while testing and constructing the charger.</p><p><strong>CONSTANT – VOLTAGE METHOD</strong></p><p>In the method of charging the voltage is &nbsp;maintained at a value which is slightly in excess of the end of fully charged battery, act the beginning of the charging period the current is charged.</p><p>During the charging process the current fails as the emf of the cell rises to approach the charging voltage when the battery is fully charged it up to its maximum 12 volts, the charger will automatically stop charging with the help of the contact relay, the transistor and the zener dioxide which send the current back to the system.</p><p>Then at this moment</p><p>The charging current is usually determined from the formular</p><p>IC &nbsp; &nbsp; &nbsp;= &nbsp; &nbsp; &nbsp; V – E</p><p>r</p><p>Where &nbsp; &nbsp; &nbsp; &nbsp; IC &nbsp; &nbsp; &nbsp;= &nbsp; &nbsp; &nbsp; Charging current</p><p>V &nbsp; &nbsp; &nbsp; = &nbsp; &nbsp; &nbsp; Output voltage</p><p>E &nbsp; &nbsp; &nbsp; = &nbsp; &nbsp; E.M.F of the battery (at full charged)</p><p>r &nbsp; &nbsp; &nbsp; &nbsp;= &nbsp; &nbsp; &nbsp; Internal resistance of the battery</p> <br><p></p>

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