ABSTRACT
No one form of power can sustain a nation. The ever increasing demand for electrical power has arisen from our lifestyles with revolves around electric power to speed up processes of development such as manufacturing, service provision and general well being of man.
The need for the provision of quick but minute energy to prevent the disruption of small but very important business or personal processes could be life saving promoting efficiency at all times.
This project work goes through the design, local manufacture of a 100w inverter a light weight device used to solve very meager power problems yet so vital.
TABLE OF CONTENTS
Title-----------i
Certification ---------ii
Dedication---------iii
Acknowledgment --------iv
Abstract ----------v
CHAPTER ONE
Background of the study
Introduction--------1
Scope of Study--------2
Objective of the study-------2
1.3Significance of study-------3
1.4 Limitation of the study-------4
1.5 Gains of the study-------5
1.6Definition of terms-------5
CHAPTER TWO
Literature review
Introduction---------9
2.1Principles applied in the project------9
2.2General features of the project------10
2.3Description of components------10
2.3.1 Battery--------10
2.3.2 Vero board-------11
2.3.3Casing--------11
2.3.4Capacitor--------12
2.3.5Diode--------13
2.3.6Heat sink--------14
2.3.7LED---------15
2.3.8IC---------16
2.3.9IC Socket--------17
2.3.10 Resistor--------18
2.3.11 screws--------19
2.3.12 Soldering Lead-------20
2.3.13 Transformer-------21
2.3.14 Transistor-------21
2.3.15 Vero board--------22
2.3.16 Wires---------23
CHAPTER THREE
Methodology
Introduction---------24
3.1Project hypothesis--------24
3.2Project algorithm-------25
3.3Project concept-------26
3.3.1 Ohms law--------26
3.3.2 Kirchhoff’s current law-----27
3.3.3 Kirchhoff’s voltage law-----28
3.4Project data gathering techniques----30
CHAPTER FOUR
Design, Construction and Testing
4.0Introduction---------31
4.1Preliminary design--------31
4.2Description of the various incorporated units---31
4.2.1Power unit-------31
4.2.2Inverter unit-------32
4.2.3Transformer unit------32
4.3Testing of the various units------32
4.3.1Power unit-------32
4.3.2Inverter unit-------32
4.3.3Transformer unit------33
4.4Design of the inverter circuit------33
4.5Project assembling-------
4.5.1Tools and procedures applied in the project assembly-35
4.5.2Printed circuit board------
4.5.3Insertion of components and soldering----
4.5.4Casing--------
4.5.5Precaution--------
CHAPTER FIVE
Summary of findings, conclusion and recommendations
Introduction --------
Summary of findings-------
Conclusion--------
5.3Recommendation-------
Bill of Engineering Measurement and Estimates
List of Figures
Reference
Appendices
Monchie, P. (2018). DESIGN AND CONSTRUCTION OF 100W ELECTRIC POWER INVERTER. Afribary. Retrieved from https://track.afribary.com/works/design-and-construction-of-100w-electric-power-inverter
Monchie, Patrick "DESIGN AND CONSTRUCTION OF 100W ELECTRIC POWER INVERTER" Afribary. Afribary, 08 Nov. 2018, https://track.afribary.com/works/design-and-construction-of-100w-electric-power-inverter. Accessed 15 Nov. 2024.
Monchie, Patrick . "DESIGN AND CONSTRUCTION OF 100W ELECTRIC POWER INVERTER". Afribary, Afribary, 08 Nov. 2018. Web. 15 Nov. 2024. < https://track.afribary.com/works/design-and-construction-of-100w-electric-power-inverter >.
Monchie, Patrick . "DESIGN AND CONSTRUCTION OF 100W ELECTRIC POWER INVERTER" Afribary (2018). Accessed November 15, 2024. https://track.afribary.com/works/design-and-construction-of-100w-electric-power-inverter