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Construction Of A 9Volts Battery Charger With USB Output

Electrical Electronics Engineering | Industrial Physics | Physics

A 9-volt battery charger with USB output is a device designed to replenish the energy of 9-volt batteries while providing the convenience of a USB port for charging various electronic devices. This innovative gadget serves as a dual-purpose solution, catering to the power needs of both specific batteries and USB-compatible devices. The construction involves assembling components like a voltage regulator, rectifier, and USB port, allowing users to efficiently charge their 9-volt batteries and simultaneously power up USB-enabled devices such as smartphones or tablets. This integration of diverse charging functionalities makes the device versatile and practical for individuals seeking a compact and efficient power solution for their electronic devices on the go.

This project is titled design and construction of a 9volts battery charger with USB output. Battery charger is a battery charger that is designed to charge 9V battery. It is basically a DC power supply source. Here a transformer is used to step down the AC mains input voltage to the required level as per the rating of the transformer.

This transformer is always a high power type and Lm7809 regulator is able to produce a 9v output.

A bridge rectifier configuration is used to rectify the low voltage AC into DC and is further smoothed by a high value electrolytic capacitor. This DC is fed to an electronic circuit which regulates the voltage into a constant level and is applied to the battery under charge, where the energy is stored through an internal process of chemical reaction.

TABLE OF CONTENTS

TITLE PAGE

APPROVAL PAGE

DEDICATION

ACKNOWELDGEMENT

ABSTRACT

TABLE OF CONTENT

CHAPTER ONE

INTRODUCTION

  • BACKGROUND OF THE PROJECT
  • PROBLEM STATEMENT
  • AIM/OBJECTIVE OF THE PROJECT
  • SIGNIFICANCE OF THE PROJECT
  • APPLICATION OF THE PROJECT
  • SCOPE OF THE PROJECT
  • LIMITATION OF THE PROJECT
  • DEFINITION OF TERMS
  • METHODOLOGY
  • PROJECT ORGANISATION

CHAPTER TWO

LITERATURE REVIEW

2.1      REVIEW OF BATTERY CHARGER

2.2      HISTORICAL BACKGROUND OF BATTERY CHARGER

2.3      REVIEW OF RECHARGEABLE BATTERY

2.4      REVIEW OF COMPONENTS USED

CHAPTER THREE

3.0      CONSTRUCTION METHODOLOGY
3.1      BLOCK DIAGRAM OF THE SYSTEM

3.2      CIRCUIT DIAGRAM

3.3      CIRCUIT DESCRIPTION AND OPERATION

3.5      CONSTRUCTION NOTE

3.6      CHARGER SETTINGS

3.7      HOW TO OPERATE THIS AUTOMATIC BATTERY CHARGER CIRCUIT

CHAPTER FOUR

4.1            RESULT ANALYSIS

4.1      CONSTRUCTION PROCEDURE AND TESTING

4.2      CASING AND PACKAGING

4.3      ASSEMBLING OF SECTIONS

4.4      TESTING OF SYSTEM OPERATION OBSERVATIONS

4.6     DIFFICULTIES ENCOUNTERED ON THE SYSTEM

4.7     COST OF PRODUCTION

CHAPTER FIVE

  • SUMAMRY
  • CONCLUSIONS/SUGGESTIONS

5.3     REFERENCES

CHAPTER ONE

  • INTRODUCTION

1.1                                           BACKGROUND OF THE STUDY

Battery charger is device which consists of electrodes and electrolyte for the storage of chemical energy, but brings about a reaction between its electrodes and the electrolyte in a way to cause the flow of electrons through an external circuit is known as a battery.

There are two types of batteries; these include the primary and secondary battery. The primary (dry cell) is one whose electrolyte dries up when used to its ampere-hour rating and cannot be recharged while the secondary (wet cell) is one whose chemical energy can be restored through a charging process. There are different types of secondary battery. These comprise lead acid, Nickel-cadmium and silver zinc battery.

Furthermore, a battery is a combination of cells connected together and a cell is a simple source of electric potential. The maintenance of secondary battery is of importance partially where maximum performance and life are obtained. As long as a battery is in use, its stored chemical energy, which is being converted to electrical energy falls. This falls in chemical energy leads to a corresponding fall in its terminal voltage.

A constant potential method of charging is adopted in this project work. It is a phenomenon whereby the alternating voltage from the main is converted to direct voltage through rectification.

The direct current from the rectifier is then passed through the battery that is being charged in the reversed direction in which the battery supplies current to the external circuit. The charger is intended to charge batteries with terminal voltage up to 9volts.

Hence, a battery charger which is of low cost, highly efficient and cheap to maintain is needed to restore its rated terminal voltage. The entire circuit is made up of five basic units and details of each units is highlighted in the subsequent chapters [1][3].

1.2                         STATEMENT OF THE PROBLEM

This device came to bring solution for battery charging which helped in achieving the aim and objective of this study. Such as:

  1. To design and construct an interface device that could amplify an extremely small value of current to a value suitable for recharging battery
  2. To determine the functionality of the interface device in terms of: Current, Voltage, Voltage gain, Power, Power efficiency, Impedance

1.3                                        OBJECTIVES OF THE PROJECT

The objective of the project is to design a device that will recharge 9v battery when discharged via a USB.

1.4                                      SIGNIFICANCE OF THE PROJECT

This device charges 9v battery mainly, however, if the regulator is changed it can be used to charge battery of lower or higher voltages. Apart from charging batteries, this device can also be used as a battery level monitor due to the battery level feature it contains [4].

  • The battery charger circuit is simple and cost effective.
  • Over voltage and current protection.
  • The system is easily portable.
  • Avoids battery discharge when power failed.

1.5                                           LIMITATION OF THE PROJECT

Features of automatic battery charger are as below:

  • It composes of in-built active components which stop charging process when the battery is fully charged.
  • It consumed less current but generate high current to the load.
  • The only problem with this device is that it takes longer time to recharge car battery because of the low current output, and it is design only for a 9v battery

1.6                                                 SCOPE OF THE PROJECT

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”. [4][5]

The charger is made up of various electrical and electronics component which for the purpose of charging are group into your basic unit, they are:

The power supply units

The smoothing circuits

The regulating unit and

Regulated D.C charging units

A Battery charger comes in various designs and voltage. The choice of a particular and of charger that depends largely in Ah size of battery or batteries which charge the mini battery changer could be used to charge batteries whose voltage ranges.

The battery charge is built 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 without a fundamental understanding of the accumulator because it also makes up the operation.

1.7                                       APPLICATION OF THE PROJECT

Battery charger is used in the following devices for the purpose of recharging device batteries [2][3]:

  1. It is used in inverter
  2. It is used to charge Lithium
  3. It is used in Solar energy system
  4. It is used in vehicles
  5. It is used in an uninterruptible power supply (UPS), etc.

1.8                                 DEFINITION OF TERMS

 

Battery Charger – is a device used to put energy into a secondary cell or rechargeable battery by forcing an electric current through it.

Charge – there are two kinds of charge, positive and negative

– like charges repel, unlike charges attract.

– positive charge comes from having more protons than electrons; negative charge comes from having more electrons than protons.

Charge Rate – is often denoted as C or C-rate and signifies a charge or discharge rate equal to the capacity of a battery in one hour.

Mobile Phone – any wireless telephone capable of operating while moving at any speed, battery powered and small enough to be easily carried by a person.

Interface device – circuit that is between the mobile phones that do the process of transferring stored energy.

Rectification – a process of converting alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction.

Rectifier – a circuit capable of rectifying an alternating current to a direct current.

Step Up DC – DC Converter – also known as boost converter. A DC to DC power supply with an output voltage greater than its input voltage. It is used to sustain the amount of voltage needed for the charging circuit to function.

1.9                                         METHODOLOGY

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

  1. Study of the previous work on the project so as to improve it efficiency.
  2. Draw a block diagram.
  • Test for continuity of components and devices,
  1. Design and calculation for the battery charger was carried out.
  2. Studying of various component used in circuit.
  3. Construct a battery charger circuit.
  • Finally, the whole device was cased and final test was carried out.

1.10                               PROJECT ORGANISATION

The work is organized as follows: chapter one discuses the introductory part of the work, chapter two presents the literature review of the study, chapter three describes the methods applied, chapter four discusses the results of the work, chapter five summarizes the research outcomes and the recommendations.

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Construction Of A 9Volts Battery Charger With USB Output:

Building a 9-volt battery charger with a USB output can be a handy project, especially considering the prevalence of USB power sources. This project will require some basic knowledge of electronics and soldering. Here’s a step-by-step guide on how to construct one:

Components Needed:

  1. 9-volt battery holder
  2. USB female connector
  3. 7805 voltage regulator
  4. 1N4007 diode
  5. 10uF capacitor (electrolytic)
  6. 100nF capacitor (ceramic)
  7. LED (optional)
  8. Resistors (if using LED)
  9. Perfboard or breadboard
  10. Wires
  11. Soldering iron and solder

Circuit Design:

The basic principle of this circuit is to regulate the 5V from the USB to charge the 9V battery. Here’s how the components will be connected:

  1. USB Power Input: Connect the positive (red) wire of the USB female connector to the input pin of the 7805 voltage regulator and the negative (black) wire to the ground (GND) pin.
  2. Voltage Regulation: The 7805 voltage regulator will regulate the input voltage (5V from USB) to a stable 5V output.
  3. Diode Protection: Connect the anode (positive) terminal of the 1N4007 diode to the output pin of the 7805 regulator and the cathode (negative) terminal to the positive terminal of the 9V battery holder. This diode prevents the battery from discharging back into the regulator.
  4. Filter Capacitors: Connect the 10uF electrolytic capacitor between the output pin of the 7805 regulator and ground (GND). This capacitor helps smooth out any voltage fluctuations. Connect the 100nF ceramic capacitor between the input and output pins of the 7805 regulator to further stabilize the voltage.
  5. Optional LED Indicator: If you want an LED indicator to show when the battery is charging, connect it between the output pin of the 7805 regulator and ground (GND) through an appropriate resistor to limit the current.

Construction Steps:

  1. Prepare the Components: Gather all the components listed above.
  2. Soldering the Circuit: Place the components on a perfboard or breadboard according to the circuit design. Make sure to leave enough space between components to prevent short circuits. Solder the components together, following the connections described above.
  3. Test the Circuit: Before connecting the battery, double-check all connections for any soldering errors or shorts. Once everything looks good, connect a 9V battery to the battery holder and plug in a USB power source. Check the output voltage with a multimeter to ensure it is stable around 9V.
  4. Optional LED Testing: If you included an LED indicator, check if it lights up when the circuit is powered.
  5. Enclosure: If desired, place the circuit in an enclosure to protect it and make it more portable. Ensure there is proper ventilation to prevent overheating.
  6. Final Testing: Test the charger with different USB power sources and 9V batteries to ensure compatibility and proper charging.

Safety Precautions:

  • Double-check polarity when connecting components to avoid damaging them.
  • Be cautious when soldering to avoid burns and ensure good ventilation.
  • Avoid short circuits by checking connections carefully before powering the circuit.
  • Use appropriate resistors for the LED to prevent it from burning out.

By following these steps, you should be able to construct a simple 9V battery charger with a USB output. Remember to handle electronics safely and test the circuit thoroughly before regular use