DESIGN OF SMART DISTANCE METER | PROJECT REPORT.


PROJECT TITTLE: DESIGN OF SMART DISTANCE METER.

DECLARATION


I the undersigned solemnly declare that the project report SMART DISTANCE METER is based on my own work carried out during the course of our study under the supervision of ENG ______. I assert the statements made and conclusions drawn are an outcome of my research work. I further certify that. The work contained in the report is original and has been done by me under the general supervision of my supervisor. We have followed the guidelines provided by the university in writing the report. Whenever we have used materials (data, theoretical analysis, and text) from other sources, we have given due credit to them in the text of the report and giving their details in the references.


ACKNOWLEDGEMENT


I would like to express my gratitude toward staff of the ENGINEERING DEPARTMENT as well as the principal of COLLEGE OF ENGINEERING AND TECHNOLOGY for providing me a great opportunity to complete a project. My sincere thanks go to ENG without his support and guidance for the completion of this project.

Your valuable guidance and suggestions helped me in various phases of the completion of this project. I will always be thankful to you in this regard.

I am ensuring that this project was finished by me and not copied.


ABSTRACT


Distance measuring device is a device that is used to measure the length between two points or more. The distance measurement can be little bit difficult if the targets that want to be measured are far from reaching or high. The purpose of this project is to design and create a better distance better distance measurement that can encounter the measuring problem. An ultrasonic measuring device is proposed to solve the problem as the ultrasonic using an ultrasonic sound. The ultrasonic transducer is operating at frequencies in between 40 kHz to 250 kHz. The concept for the project is using the LCD screen and displayed the reading of distance measured and user can use switch button when measure value is taken. in the circuit, there have Store switch. Besides that, the project using Memory card, which treated as the main component in hardware part, that can save measurements, where the ATMEGA 328P will control the whole operation of the circuit while the measurement is executed

 
SMART DISTANCE METER




TABLE OF CONTENTS

  • DECLARATION.. 
  • ACKNOWLEDGEMENT..
  • ABSTRACT..
  • LIST OF FIGURES. 
  • LIST OF TABLES. 
  • LIST OF SYMBOLS. 
  • ABBREVIATIONS AND ACRONYMS. 
  • CHAPTER ONE.. 
    • INTRODUCTION.
      • 1.1 Introduction. 
      • 1.2 Background information. 
      • 1.3 Problem statement .
      • 1.4 Objectives of the project .
      • 1.4.1 Main objective.
      • 1.4.2 Specific objective.
      • 1.5 Methodology.
      • 1.5.1 Literature review.
      • 1.5.2 Data collection.
      • 1.5.3 Data analysis.
      • 1.5.4 Designing the circuit .
      • 1.5.5 Simulation.
      • 1.5.6 Building prototype.
      • 1.5.7 Testing the prototype.
      • 1.5.8 Report writing.
      • 1.6 Conclusion.
  • CHAPTER TWO.
    • LITERATURE REVIEW.
      • 2.1 Introduction. 
      • 2.2 The existing system.
      • 2.2.1 Disadvantages of an existing system.
      • 2.3 Proposed system.
      • 2.3.1 Advantages of the proposed system.
      • 2.3.2 The general operation of the proposed circuit system.
      • 2.4 Conclusion.
  • CHAPTER THREE.
    • DATA COLLECTION.
      • 3.1 Introduction.
      • 3.2 Key Formulas.
      • 3.3 The Distance that can measure.  
      • 3.4 Conclusion. 
  • CHAPTER FOUR.. 
    • DATA ANALYSIS AND DESIGNING.. 
      • 4.1 Introduction. 
      • 4.2 Power supply unit 
      • 4.2.1 DC voltage. 
      • 4.2.2 Advantages of DC voltage. 
      • 4.2.3 Conclusion of the power supply unit 
      • 4.3 Main control unit 
      • 4.3.1 Quantitative analysis of AVR microcontroller 
      • 4.3.2 Advantages of a control unit 
      • 4.3.3 Conclusion of the control unit 
      • 4.4 Sensor unit 
      • 4.4.1 Ultrasonic sensor 
      • 4.5 Memory card shield. 
      • 4.6 Display unit 
      • 4.6.1 Working principle of LCDs. 
      • 4.7 Conclusion. 
  • CHAPTER FIVE.. 
    • SIMULATION RESULTS AND DISCUSSION.. 
      • 5.1 Introduction. 
      • 5.2 Simulation Software. 
      • 5.3 Conclusion. 
  • CHAPTER SIX.. 
    • PROTOTYPE IMPLEMENTATION AND RESULT DISCUSSION.. 
      • 6.1 Introduction. 
      • 6.2 Printed circuit board development 
      • 6.3 Component Mounting and Connections. 
      • 6.4 Prototype Testing, Results, and Discussion. 
      • 6.5 Overall System.. 
      • 6.6 Overall Prototype Results. 
      • 6.6.1 Overall Results Discussion. 
      • 6.7 Conclusion. 
  • CHAPTER SEVEN.. 
    • CONCLUSION AND RECOMMENDATION.. 
      • 7.1 Conclusion. 
      • 7.2 Recommendation. 
        • REFERENCES. 
        • APPENDIX A.. 
        • APPENDIX B.. 
        • APPENDIX C.. 

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