Engineering

CONSTRUCTION OF MICROCONTROLLER BASED VEHICLE SPEED ALARM

CONSTRUCTION OF MICROCONTROLLER BASED VEHICLE SPEED ALARM.

ABSTRACT

The project is based on Construction of microcontroller vehicle speed alarm system which automatically warns the driver by activating a panic alarm which is triggered on when the driver exceeds the speed limit set in the system which also stops the alarm when the speed is reduced below the set speed limit. A speedometer system is used to monitor the speed of the car. The voltage output of the speedometer system is used to set the time the alarm comes on. The other component parts of the system are power unit which comprises of 5volts regulator and diode for reverse voltage prevention, microcontroller, analog to digital converter (ADC), LED, resistors, transistors, wires and potentiometer. By proper steps, time and knowledge, one was able to couple the components together to achieve the desired functions which are stated in the various chapters of this report. This system can be used for road safety and measures taken to prevent accident caused by over speeding.

CHAPTER ONE: INTRODUCTION

1.1 BACKGROUND OF THE STUDY

The dashboard instrument cluster in a car organizes a variety of sensors and gauges, including the oil pressure gauge, coolant temperature gauge, fuel level gauge, tachometer and more. But the most prominent gauge and perhaps the most important, at least in terms of how many times you look at it while driving is the speedometer. The job of the speedometer is to indicate the speed of a car in miles per hour, kilometers per hour or both. Even in late-model cars, it’s an analog device that uses a needle to point to a specific speed, which the driver reads as a number printed on a dial. As with any emerging technology, the first speedometers were expensive and available only as options. It wasn’t until 1910 that automobile manufacturers began to include the speedometer as standard equipment. One of the first speedometer suppliers was Otto Schulze Auto meter (OSA), a legacy company of Siemens VDO Automotive AG, one of the leading developers of modern instrument clusters. The first OSA speedometer was built in 1923 and its basic design didn’t change significantly for 60 years. In this project report, high lights will be on the history of speedometers, how they work and digitalization of speedometer, add-on speed checker, and what the future may hold for speedometer design, below is a pictorial overview of a speedometer.

1.2 THE AIM AND OBJECTIVE OF THE PROJECT

 To design a digital speedometer.
 Incorporate a speed monitor with respect to set threshold.

1.3 SCOPE OF THE PROJECT

 Actualization of speed using analog to digital conversion technique;
 Displaying the analog value in a digital format using an alphanumeric LCD display;
 Entering the speed limit using keyboard built around to push to make switches (mode and adjustment keys)
 Implementing hall -effect technique.

1.4 PROJECT REPORT ORGANIZATION

The chapter one is the introductory chapter of the project, chapter two highlights on the literature review of the project, chapter three highlights on the system operation chapter four circuit design and implementation, chapter five testing and results of the project, chapter six summary, recommendation and conclusion of the project non-chapter pages are: the reference page and appendix.

REFERENCES

  1. Bannatyne R Prentice Hall, (1998). Speedometers 2nd edition UK: University Press (ISBN-13-840406-2)
  2. Jane Leavy (2010). The Last Boy: Mickey Mantle and the End of America’s Childhood. HarperCollins. Page 91.( ISBN 9780060883522)
  3. Letters Patent No. 79,965. Text accessed 26 February 2006
  4. Microsoft Encarta 2009. © 1993-2008 Article on “Speedometers”
  5. John Wiley & sons New York (1977), Practical digital design 1st edition
  6. Paul Horowitz ,Winfield Hill. second edition: The art of electronics (ISBN 0-521-49846-5)
  7. Wray W.Greenfield J,b(1959), Using microprocessor and microcomputers
  8. Scherz, Paul (2006) “Practical Electronics for Inventors,” p. 589. McGraw-Hill/TAB Electronics. ISBN: 978-0070580787.


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