“LASER BASED INTRUDER ALARM” Submitted to the Department of Electronics and Communication Engineering As a part fulfillment of the requirements for the Degree of BACHELOR OF TECHNOLOGY In Electronics and Communication Engineering Of Biju Patnaik University of Technology Submitted by SANJIBA KUMAR SAHU Reg.No: 0901204123 Roll: C/09/37 Under the supervision of Er. Durga Prasad Tripathi Asst. Prof. & HOD Department of Electronics and Communication Engineering
“LASER BASED INTRUDER ALARM” is security system prototype which alarms and awakes people when an unauthorized intruder enters their room. This circuit is low cost and easy to install. Though laser diode is used to operate the system failing of which leads to alarm the buzzer symbolized that someone has accessed the room without the knowledge of user. A simple and effective circuit prototype is developed to work efficiently in the purpose of security.
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“LASER BASED INTRUDER ALARM”
Submitted to the Department of Electronics and Communication EngineeringAs a part fulfillment of the requirements for the
Degree of
BACHELOR OF TECHNOLOGYIn
Electronics and Communication Engineering Of
Biju Patnaik University of Technology
Submitted by
SANJIBA KUMAR SAHUReg.No: 0901204123
Roll: C/09/37
Under the supervision of
Er. Durga Prasad TripathiAsst. Prof. & HOD
Department of Electronics and Communication Engineering
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
ROLAND INSTITUTE OF TECHNOLOGY, SURYA VIHAR, BERHAMPUR.
ROLAND INSTITUTE OF TECHNOLOGYSURYA VIHAR, BERHAMPUR.ELECTRONICS AND COMMUNICATION ENGINEERING
CERTIFICATECertified that the project work titled “LASER BASED INTRUDER ALARM” carried by Mr Sanjiba Ku mar Sahu, Reg. No. “0901204123”, is bonafide student of Roland Institute of Technology in partial fulfilment for the award of Bachelor of Technology in Electronics and Communication Engineering of the B.P.U.T. during the year 2011-12. It is certified that all corrections / suggestions indicated for Internal Assessment has been incorporated in the Report deposited in the departmental library. The project report has been approved as it satisfies the academic requirements in respect of Project work prescribed for the said Degree.
Signature of the Guide Signature of the HOD Signature of the External
Signature of Principal
ABSTRACT
“LASER BASED INTRUDER ALARM” is security system prototype which alarms and awakes people when an unauthorized intruder enters their room. This circuit is low cost and easy to install. Though laser diode is used to operate the system failing of which leads to alarm the buzzer symbolized that someone has accessed the room without the knowledge of user.
A simple and effective circuit prototype is developed to work efficiently in the purpose of security.
ACKNOWLEDGEMENT
I wish to express our sincere gratitude to Dr. Gunamani Jena, Principal and Asst. Prof. Durga Prasad Tripathi, H.O.D of ECE Department of Roland Institute of Technology, Berhampur for providing us an opportunity to do our project work on “LASER BASED
INTRUDER ALARM”. We sincerely thank to our project guide Er. Rasmita Sahu, lecturer, Department of ECE for guidance and encouragement in carrying out this project work we also wish to express our gratitude to the officials and other staff members of the department who rendered their help during the period of my project work. Last but not least we wish to express our sincere gratitude and love to our friends and beloved parents for their manual support, strength, and help and for everything.
SANJIBA KUMAR SAHU Reg.No: 0901204123
TABLE OF CONTENTS
Page No.
1. Introduction - - - - - - - 1
a) Project Proposal - - - - - -
b) Objectives and Scope of the Project - - - -
2. System Analysis - - - - - - - 2
3. Feasibility Study - - - - - - - 3
a) Operational - - - - - - -
b) Technical and other - - - - - -
4. Requirement Specification - - - - - - 4
5. System Design - - - - - - - 5
6. Hardware Platform - - - - - - - 10
7. Project Schedule - - - - - - - 10
8. Testing - - - - - - - - 11
9. Implementation overview - - - - - - 11
10. Future Scope and Expansion - - - - - 11
11. Conclusion - - - - - - - - 13
12. Reference - - - - - - - - 14
INTRODUCTION
Project Proposal:
Now a day’s security is a big concern of people for their safety and secured life
and property. And electronics models gives ample of facility to be secure. And this
“LASER BASED INTRUDER ALARM” is intended to provide security alarm to a
particular location. These two circuits should be installing in shorter distance and in
hidden mode thus the unauthorized intruder will not aware of these circuits.
Thus it’s a low cost and efficient circuit it costs about 500 rupees.
OBJECTIVE AND SCOPE OF THE PROJECT:
Objective:
The main objective is to install a security system based on laser light conveniently at
the entrance of home, bank and other similar locations to protect the same from
unauthorized access and when desired with low cost and simple circuit to avoid
unauthorized entry of people.
Scope of the project:
This system can be used to protect the perimeter of a building by using a cascade
arrangement of multiple alarms.
It can be used in bank or treasury to protect from thieves by audio alarming to the
security persons.
SYSTEM ANALYSIS:
Basically this is a low cost “laser based intruder alarm” system used to protect the
selected locations to strengthen the security system.
And is consisted of 2 electronic circuits.
Transmitter section
Receiver section
Transmitter Section:
In this circuit, a laser beam is developed by the circuit and focused to the
phototransistor of receiver circuit.
Receiver section:
In this circuit, the laser beam got received by the phototransistor and when the circuit
breaks by anonymous person who blocks the laser beam to be fall on receiver section,
and then the piezobuzzer sounds loudly. And when the laser beam again falls on the
phototransistor of receiver section the buzzer calms and becomes silent.
FEASIBILITY STUDY:
Operational:
The total operation is carried out by low power dc supply, though the feasible is to
use a 9v pp3 battery and the space between these two circuits should be minimum and in
the range within the laser beam can be easily focused to receiver section.
Technical Feasibility:
In both sections, the IC 7805 should used to provide constant 5v dc supply to the circuits.
An op-amp LM356 (low voltage high power audio amplifier) should be used to function
the buzzer in low DC power.
A timer IC 555 should be used to regulate the buzzer.
Other:
It will work only when the laser beam of transmitter circuit will fall exactly and
constantly on the phototransistor of receiver section. By falling that this model will not
work properly.
REQUIREMENT SPECIFICATION:
Transmitter Section:
IC 1- 7805
Capacitors -10µ, 25v, 0.1 µ,
Resistors- 47Ω,
Laser diode
9v battery
Switch
Receiver Section:
ICs- 7805, LM356, 555
Capacitors- 0.1 µ, 0.01 µ, 10 µ,16v
Resistors- 1k, 10k, 22k, 47k, 1m
Transistors- L14F1, BC548
Diode- 1N4007
Piezo buzzer
Switch
SYSTEM DESIGN:
These circuits are designed in less area PCB and we designed it in such a way that
it consumes less energy and works efficiently. Also this is a low cost and easy to install
security model.
Power Supply:
A 9v pp3 battery is used and is activated by a switch. IC 7805 is used to provide
constant dc supply of 5v.
IC7805:
It’s used to regulate 5v as long as it’s input remains equal to or more than 7.5 v, thus
ensuring a constant drive current for the laser diode.
LASER DIODE:
The laser diode (LDl) can be replaced with a laser pointer (torch) emitting red laser beam. The laser pointer itself can be used as a transmitter.
IC LM356:
The receiver circuit (shown in Fig.2) is basically a current-to-voltage converter built around IC LM356 (lC3). The output of IC3 is fed to the mono-stable built around 555 timer (IC4). The high output of the mono-stable drives the piezobuzzer to sound an audio alarm.
IC 555: When the laser beam falling on photo transistor T1 is interrupted by someone, the
output of op-amp IC3 goes low and IC3 produces a pulse. This pulse triggers mono-stable IC4 and its output goes high to sound the alarm for a time period of about R8xC8. At pin 3 of IC4, should get a positive-going pulse of one-second duration beginning with high-to-low edge of the trigger pulse appearing at pin 2 of IC4 or collector of transistor T2.
PHOTO TRANSISTOR:
It’s used to receive the laser beam from the transmitter section.
Resistors
Resistors are the most commonly used component in electronics and their purpose
is to create specified values of current and voltage in a circuit. A number of different
resistors are shown in the fig. (The resistors are on millimeter paper, with 1cm spacing
to give some idea of the dimensions).
Fig: Some low-power resistors
The symbol for a resistor is shown in the following diagram (upper: American symbol,
lower: European symbol.)
Fig: Resistor symbols
TRANSISTOR BC548:
The BC548 is a general purpose epitaxial silicon NPN bipolar junction transistor found
commonly in European electronic equipment. The part number is assigned by Pro
Electron, which allows many manufacturers to offer electrically and physically
interchangeable parts under one identification. The BC548 is commonly available in
European Union countries. It is often the first type of bipolar transistor young hobbyist’s
encounter, and is often featured in circuit diagrams and designs published in hobby
electronics magazines.
If the plastic TO-92 package is held in front of one's face with the flat side facing toward
you and the leads downward, (see picture) the order of the leads, from left to right is
collector, base, emitter. This device is designed for use as general purpose amplifiers and
switches requiring collector currents to 300 mA.
Specifications
Devices registered to this Pro Electron number must have minimum performance characteristics.
Breakdown voltage, with base open VCBO = 30 V
Rated collector current IC = 100 mA
Rated total power dissipation Ptotal = 500 mW
Transition frequency (gain-bandwidth product) ft = 300 MHz