Home » Project Material » Design And Construction Of A 1.5KVA Hybrid Powered Modified Sinewave Modular Inverter Trainer Kit

Design And Construction Of A 1.5KVA Hybrid Powered Modified Sinewave Modular Inverter Trainer Kit

5 Chapters
|
43 Pages
|
6,224 Words
|
Electrical Electronics Engineering

Complete Design And Construction Of A 1.5KVA Hybrid Powered Modified Sinewave Modular Inverter Trainer Kit Project Materials (Chapters 1 to 5):

ABSTRACT

A training device for instructing students in inverter circuits, which includes a large flat panel that is vertically disposed for visual display before the students, locations on the front surface of the panel for attachment of digital devices, `a number of digital-logic circuit devices having means for both mechanical and electrical connection to the panel, a power circuit associated with the panel for energizing the electronic devices, and circuit connections for making selected logical circuit interconnections between the digital-logic devices displayed on the panel.
This invention relates to trainers and more particularly is concerned with a trainer capable of displaying digital devices operatively connected in a circuit configuration which precisely duplicates the schematic diagram of the circuit under consideration.
The primary objective is to design an inexpensive, simple to use device that could be retained by students, so that they can undertake digital experimentation

TABLE OF CONTENT

COVER PAGE
TITLE PAGE
APPROVAL PAGE
DEDICATION
ACKNOWELDGEMENT
ABSTRACT

CHAPTER ONE
INTRODUCTION
1.1 BACKGROUND OF THE PROJECT
1.2 AIM OF THE PROJECT
1.3 OBJECTIVE OF THE PROJECT
1.4 SGINIFICANCE OF THE PROJECT
1.5 SCOPE OF THE PROJECT
1.6 APPLICATION OF THE PROJECT

CHAPTER TWO
LITERATURE REVIEW
2.1 REVIEW OF DIFFERENT POWER ELECTRONICS TRAINER KIT
2.2 HISTORICAL BACKGROUND OF AN INVERTER
2.3 HOW TO CHOOSING THE RIGHT INVERTER
2.4 REVIEW OF THE DIFFERENCE BETWEEN SINE WAVE AND MODIFIED SINE WAVE INVERTER
2.5 REVIEW OF INVERTER CAPACITY
2.6 SAFETY OF INVERTER
2.7 INVERTER RATINGS
2.8 WHY CHOOSE A MODIFIED SINE WAVE INVERTER?
2.9 TYPES OF INVERTER

CHAPTER THREE
SYSTEM DESIGN METHODOLOGY
3.1 SYSTEM COMPONENTS
3.2 LIST OF TOOLS
3.3 SYSTEM DIAGRAM
3.4 SYSTEM COMPONENTS
3.5 OPERATION OF THE SYSTEM
3.6 BLOCK DIAGRAM
3.7 DESCRIPTION OF SYSTEM BLOCK
3.8 HOW TO CHOOSE A RIGHT INVERTER

CHAPTER FOUR
TESTING AND RESULTS
4.1 CONSTRUCTION PROCEDURE AND TESTING
4.2 INSTALLATION OF THE COMPLET DESIGN
4.3 ASSEMBLING OF SECTIONS
4.4 TESTING OF SYSTEM OPERATION
4.5 COST ANALYSIS

CHAPTER FIVE
5.1 CONCLUSION
5.2 RECOMMENDATION
5.3 REFERENCES

CHAPTER ONE

INTRODUCTION
Power Electronics is one of a key subject of electrical engineering. Power electronics is of vital importance to understanding of control, conversion and conditioning of power in electrical industries. The power electronics laboratory is actively engaged to reinforce and enhance understanding of the fundamentals of semiconductor switches and power converters. This laboratory deal with practical realization of theory concept related with power electronics. The all experimental set-ups are designed and developed by the institute according to the standards. The power electronics laboratory is equipped with different converters setups like as rectifier, inverter, A.C voltage converter, DC-DC converter, Switching characteristics, BLDC drive and DC motor drive, where students can visualize the basics principles of different converters.
However, this work is focused on a modified sinewave inverter modular inverter kit which is a power device used in laboratory to understand the principle and behavior of single phase inverter which converter DC supply into AC supply. The trainer consists of power circuit of inverter, microcontroller based control circuit, power supply section, load section and protection circuit. All different types of control signals are generated using single control circuit by changing the program of individual switching pulse like square wave, QSW and SPWM. Separate CRO or digital signal oscilloscope is used to observe the behavior of the inverter.

1.1 AIM OF THE PROJECT
The main aim of this work is to construct Power Electronic Training Board specifically used for the study of working of inverter. A Battery 12V 80AH (Any car battery) is required to operate this apparatus. Different test points have been provided to check wave shape and amplitude of pulses how DC supply is changed to AC supply.

1.2 OBJECTIVE OF THE PROJECT
At the end of this work students involved shall be able to understand:
1. The working of Power Electronic Training Board
2. The study of working of inverter.
3. Explain the working of inverter circuit.
4. Explain various types of inverter circuit.
5. Study of single phase half bridge inverter with R load.
6. Study of single phase half bridge inverter with R-L load.
7. Study of single phase full bridge inverter with R load.
8. Study of single phase full bridge inverter with R-L load.
9. Study of FFT analysis of square wave inverter.
10. Study of Sinusoidal Pulse Width Modulated (SPWM) inverter.

1.3 SIGNIFICANCE OF THE PROJECT
The Inverter trainer is a versatile training System for Laboratories. It is designed such that all the basics of Inverter can be easily understood. This training system provides understanding about conversion of DC into AC by PWM Technique.

1.4 APPLICATION OF THE PROJECT
This device is equipment for education, engineering and vocational training – Inverter Trainer.

1.5 SCOPE OF THE PROJECT
The Inverter trainer is a versatile training System for Laboratories. It is designed such that all the basics of Inverter can be easily understood. This training system provides understanding about conversion of DC into AC by PWM Technique. Different blocks are explained like charging of battery, DC to AC conversion, AC mains sensing circuit, etc. also provided with fault switches to develop the troubleshooting practice. PWM Inverter Technology Stand alone operation Compact design self explained layout provided with Rechargeable battery On board LED indication for mains, charging, inversion.
A Battery 12V 80AH(Any car battery) is required to operate this apparatus. Different test points have been provided to check waveshape and amplitude of pulses how DC supply is changed to AC supply.

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The introduction of Design And Construction Of A 1.5KVA Hybrid Powered Modified Sinewave Modular Inverter Trainer Kit should start with the relevant background information of the study, clearly define the specific problem that it addresses, outline the main object, discuss the scope and any limitation that may affect the outcome of your findings

Literature Review of Design And Construction Of A 1.5KVA Hybrid Powered Modified Sinewave Modular Inverter Trainer Kit should start with an overview of existing research, theoretical framework and identify any gaps in the existing literature and explain how it will address the gaps

Methodology of Design And Construction Of A 1.5KVA Hybrid Powered Modified Sinewave Modular Inverter Trainer Kit should describe the overall design of your project, detail the methods and tools used to collect data explain the techniques used to analyse the collected data and discuss any ethical issues related to your project

Results should include presentation of findings and interpretation of results

The discussion section of Design And Construction Of A 1.5KVA Hybrid Powered Modified Sinewave Modular Inverter Trainer Kit should Interpret the implications of your findings, address any limitations of your study and discuss the broader implications of your findings

The conclusion of Design And Construction Of A 1.5KVA Hybrid Powered Modified Sinewave Modular Inverter Trainer Kit should include summarize the main results and conclusions of your project, provide recommendations based on your findings and offer any concluding remarks on the project.

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