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Construction And Implementation Of 6v Rechargeable Lamp

5 Chapters
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22 Pages
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2,128 Words
Electrical Electronics Engineering

Abstract

Table of Content

Chapter One

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The construction and implementation of a 6V rechargeable lamp involve assembling the necessary components, including a rechargeable battery, LED bulbs, a charging circuit, and a switch mechanism. Firstly, select a suitable rechargeable battery with a voltage rating of 6V, ensuring it has the capacity to power the lamp for desired durations. Next, assemble the LED bulbs, which offer energy efficiency and longevity compared to traditional incandescent bulbs, thereby optimizing the lamp’s performance and durability. Incorporate a charging circuit that enables the battery to recharge efficiently, utilizing components like a voltage regulator and diodes to regulate the charging process and prevent overcharging. Additionally, integrate a switch mechanism to control the lamp’s operation, providing convenience and user-friendliness. Once all components are assembled, test the lamp to ensure proper functionality and assess its illumination performance. Finally, package the lamp securely, considering factors such as portability and safety, to facilitate its practical implementation in various settings, such as emergency lighting, outdoor activities, or household use, thereby enhancing its versatility and utility.

ABSTRACT

Researchable lamp is a source of light that is generated from a D.C sources of supply this D.C sources is a battery that can also way be charged when it current and voltage ruse
I decided to work on this as my project because its importance. It is very portable and help the a lot during night reading
It also serves as an immanency sources of light mostly when there is failure from out public power supply (P.H.C.N)

The Abstract of “Construction And Implementation Of 6v Rechargeable Lamp” ends here.

TABLE OF CONTENT

Title Page
Approval Page
Acknowledgement
Abstract
Table Of Content

Chapter One
1.1 Introduction
1.2 Objectives Of Rechargeable Lamp
1.3 Significance Of Rechargeable Lamp
1.4 The Report Layout

 

Chapter Two
2.1 Scope Of Rechargeable Lamp
2.2 The System Component Description

Chapter Three
3.1 Description Of The System Building Blocks
3.2 Block Diagram Development And P.S.U
3.3 How The System Works
3.4 Calculation Of Some Resistor
3.5 Component List

Chapter Four
4.1 Implementation Of The Project
4.2 Testing And Result

Chapter Five
5.1 Cost Analysis
5.2 Problems Analysis
5.3 Conclusion
References

The ‘Table of Content” of “Construction And Implementation Of 6v Rechargeable Lamp” ends here. Scroll down to read Chapter One of this Construction And Implementation Of 6v Rechargeable Lamp work.

CHAPTER ONE

1.0 INTRODUCTION
Electricity and electronic has done a lot of good to our society. Sometimes I imagine how the entire world would have look like without light or electricity. Electricity has a lot of advantages both in our homes and industrial uses. Some of then include cooking washing of cloths (laundry) milling and as sources of light e.g rechargeable lamps
Rechargeable lamp is one improatnt devoice that comprises the use of electricity and electronics. Due to it great importance to the society at large decided to use it as my project topic.
When I say electricity and electronic someone may be imaging if there is any difference among the two. But the answer is yes. This is because electricity does not involves component like diodes capacitors transistor etc but electronic is the embody of this discrete component to from a working circuit.
Note that electricity is just the stepping down of voltage by using a transformer to pass current and voltage to the circuit only.
Nevertheless my concentration is on rechargeable which serves as a sources of light in our homes in the absence of electricity from our public power supply
1.2 OBJECTIVES OF RECHARGEABLE LAMP
To enjoy light even in the absence of electricity from the general power supply.
To generate sources of light using a d.c circuit

1.3 SIGNIFICANCE OF RECHARGEABLE LAMP
It helps us to enjoy light even in the absence of electricity it is very economical

1.4 THE REPORT LAYOUT
Before I could make this project a success I took of lot steps. This steps enable the project to be affective. There include
1. The introduction
2. Theories and models
3. System description
4. Implementation and testing
5. Conclusion

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Construction And Implementation Of 6v Rechargeable Lamp:

Creating a 6V rechargeable lamp involves assembling a few key components, including a light source (LED or incandescent bulb), a rechargeable battery, a charging circuit, and a housing. Here are the steps to construct and implement a 6V rechargeable lamp:

Materials and Components:

  1. Light Source: You can use an LED or an incandescent bulb. LEDs are more energy-efficient and long-lasting, so they are a better choice for a rechargeable lamp.
  2. Rechargeable Battery: Choose a 6V rechargeable battery. Common options include sealed lead-acid (SLA) batteries or lithium-ion batteries.
  3. Charging Circuit: You’ll need a charging circuit to recharge the battery when needed. A simple charging module designed for your battery type will suffice.
  4. Battery Holder: You’ll need a holder for the rechargeable battery to secure it inside the lamp housing.
  5. Switch: A switch is necessary to turn the lamp on and off.
  6. Wires: Use wires to connect the components together.
  7. Lamp Housing: This can be a plastic or metal enclosure to protect the internal components and provide a handle for carrying.

Construction Steps:

  1. Prepare the Housing:
    • Choose or design a suitable housing for your lamp. Ensure it has space for the battery, charging circuit, and the light source. You may need to drill holes for the switch and LED/bulb.
  2. Mount the Battery Holder:
    • Secure the battery holder inside the housing using screws or adhesive.
  3. Install the Battery:
    • Insert the 6V rechargeable battery into the holder, ensuring the polarity is correct (positive to positive, negative to negative).
  4. Connect the Charging Circuit:
    • Connect the charging module to the battery as per the manufacturer’s instructions. Usually, you’ll have wires for positive and negative terminals.
  5. Install the Light Source:
    • If you’re using an LED, connect it to the appropriate terminals on the charging circuit. If using an incandescent bulb, connect it to the circuit with suitable sockets.
  6. Connect the Switch:
    • Wire the switch between the battery and the light source. This allows you to turn the lamp on and off.
  7. Wire Everything Together:
    • Connect all the components using wires. Ensure the connections are secure and insulated properly.
  8. Close the Housing:
    • Seal the housing, making sure there are no exposed wires or components.
  9. Testing:
    • Test your lamp by turning it on and off. Ensure the charging circuit charges the battery properly.
  10. Charging:
    • When the battery is depleted, connect the lamp to a suitable charger as per the charging module’s instructions.

Remember to follow safety guidelines when working with electricity and rechargeable batteries. Additionally, you might want to add features like an indicator LED to show the charging status or a handle for easy carrying. The specific design and components can vary based on your preferences and requirements.