ACKNOWLEDGEMENT
Bissmillahirrahmanirrahim,
Alhamdulillah. Thanks to Allah SWT, whom with His willing giving me the opportunity
to complete this Final Year Project which is title FM Telephone Transmitter. This final
year project report was prepared for School of Computer and Communication
Engineering, University Malaysia Perlis (UniMap), basically for student in final year to
complete the undergraduate program that leads to the degree of Bachelor of Engineering
in Communication. This report is based on the methods given by the university
Firstly, I would like to express my deepest thanks to, Miss Junita Mohd Nordin, a lecturer
at School of Computer and Communication UniMAP and also assign, as my supervisor
who had guided be a lot of task during two semesters session 2006/2007. I also want to
thanks the lecturers and staffs of Engineering Centre UniMap for their cooperation during
I complete the final year project that had given valuable information, suggestions and
guidance in the compilation and preparation this final year project report.
Deepest thanks and appreciation to my parents, family, special mate of mine, and others
for their cooperation, encouragement, constructive suggestion and full of support for the
report completion, from the beginning till the end. Also thanks to all of my friends and
everyone, that have been contributed by supporting my work and help myself during the
final year project progress till it is fully completed.
Last but not least, my thanks to School of Computer and Communication Engineering
UniMAP, my RPS and also my PA, Madam Sabarina Ismail, for great commitment and
cooperation during my Final Year Project.
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� APPROVAL AND DECLARATION SHEET
This project report titled FM Telephone Transmitter was prepared and submitted by Jufri
Bin Hj Johari (Matrix Number: 031080765) and has been found satisfactory in term of
scope, quality and presentation as partial fulfillment of the requirement for the Bachelor
of Engineering (Communication Engineering) in University Malaysia Perlis (UniMAP)
Checked and Approved by
______________________________
(JUNITA MOHD NORDIN)
Project Supervisor
School Of Computer And Communication Engineering
University Malaysia Perlis
April 2007
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� DECLARATION
This declaration is to clarify that all of the submitted contents of this project are
original in its figure, excluding those, which have been admitted specifically in the
references. All the work process involved is from my own idea and creativity. All
contents of this project have been submitted as a part of partial fulfillment of Bachelor of
Engineering in Communication Engineering. I hereby declare that this project is the work
of my own excluded for the references document and summaries that have been
acknowledge.
JUFRI HJ JOHARI
031080765
COMMUNICATION ENGINEERING
SCHOOL OF COMPUTER AND COMMUNICATION ENGINEERING
UNIVERSITY MALAYSIA PERLIS
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� ABSTRAK
Penghantar Telefon Radio FM adalah sebuah projek yang terdiri daripada
gabungan alat telefon, litar-litar electronik dan Radio FM. Gabungan bahagian-bahagian
tersebut adalah talian telefon, litar elektronik dan radio FM yang dibuat pelarasan
frekuensi di antara 88 MHz hingga 95 MHz. Secara keseluruhannya medium perantaraan
projek ini adalah gabungan kabel dan gelombang frekuensi radio. Operasi untuk projek
ini adalah bermula dari penerimaan panggilan masuk dari telefon yang kemudiannya
dihalakan ke FM radio menggunakan frekuensi radio diantara 88 MHz hingga 95 MHz di
mana perataraan suara dari kedua-dua belah pihak dapat dilakukan. Projek ini adalah
sesuai untuk pengguna yang ramai mendengar panggilan dari luar dan pada masa yang
sama dapat merekodkannya jika terdapat sesuatu yang mustahak untuk disimpan.
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� ABSTRACTS
The project titled FM Radio Telephone Transmitter is a project, which consists of
telephone set, transmitter electronic circuit, FM Radio where the Standard FM broadcasts
are based in the 90 - 95 MHz range. Roughly this project is divided into three parts,
which is incoming call that developed by telephone set, electronic transmitter circuit and
RF (radio frequency) channel. The device will connects in series with a phone line, power
from the latter, and transmits both sides of a conversation to an FM radio tuned to
between 88 MHz - 95 MHz. Overall this project performed the combination of
interfacing of cable and radio frequency. The operation of this project is that when the
phone receives the incoming call, it will be tuned to the FM Radio via RF, radio
frequency (88 MHz - 95 MHz) where both sides of conversation can be develop. This
project is very suitable for multiple users to hear the incoming message from phone
loudly. Its also suitable, for long distance calls where, he or she doesn't have the time or
can't afford to stay on long, but everybody at home still wants to hear his or her voice and
record the message.
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� TABLE OF CONTENTS
Page
ACKNOWLEDGEMENT i
APPROVAL AND DECLARATION SHEET ii
DECLARATION iii
ABSTRAK iv
ABSTRACT v
TABLE OF CONTENT vi
LIST OF TABLES ix
LIST OF FIGURES x
CHAPTER 1 INTRODUCTION
1.1 Background of the project 1
1.2 Objective Of The Project 2
1.3 Project Scope 3
1.4 Significance of the Project 4
1.5 Project Limitation 4
1.6 Report Overview 5
CHAPTER 2 LITERATURE REVIEW
2.1 Introduction 6
2.2 Frequency Modulation (FM) 6
2.3 Inductance of an Air Core Coil 7
2.3.1 Frequency 8
2.4 Resonant Frequency of a Parallel LC Circuit 8
2.5 Antenna Length 9
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�2.6 Wireless FM Transmitter 9
2.6.1 Schematic 9
2.6.2 Fixed Capacitors 10
2.6.3 Resistor for Electret Mic 10
2.6.4 Resistors and the 2N2222A 11
2.7 Conclusion 11
CHAPTER 3 METHODOLOGY
3.1 Introduction 12
3.2 Planning 14
3.2.1 Data collection 14
3.2.2 Hardware and Software Requirement 16
3.2.2.1 Hardware Requirement 16
3.2.2.2 Software Requirement 17
3.3 Simulation 19
3.4 Layout design 21
3.5 Implementing 22
3.5.1 Project Board Circuit (PCB) 22
3.5.2 Components 22
3.5.3 Construction 22
3.6 Checking 23
3.7 Testing and Tuning 24
3.8 Analysis 24
3.8.1 Analyzed the circuit 25
3.8.1(i) Rectifier 25
3.8.1(ii) FM Oscillator 27
3.8.1(iii) Power Amplifier 28
3.8.2 Identify the conclusion 30
3.9 Conclusion 31
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�CHAPTER 4 RESULTS AND DISCUSSION
4.1 Introduction 32
4.2 Lab Results 32
4.2.1 Voltage Reading 33
4.2.2 Waveform 34
4.3 Discussion 38
4.4 Conclusion 40
CHAPTER 5 CONCLUSION
5.1 Conclusion 40
5.1.1 Circuits 40
5.1.2 Overall Projects 41
REFERENCES 44
APPENDICES 45
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� LIST OF TABLES
Tables No. Page
Table 4.1 Table 4.1: The Voltage Reading 34
ix
� LIST OF FIGURES
Figures No. Page
1.1 Block Diagram of FM Radio Telephone Transmitter 2
2.1 Calculations of inductor value 7
2.2 Calculations of frequency value 8
2.3 Calculations of antenna length 9
2.4 Schematic of Wireless FM Transmitter 9
3.1 SLDC Phase 12
3.2 Steps of Methodology 13
3.3 FM Telephone Transmitter Schematic Diagram 15
3.4 Schematic Diagram designed by OrCAD 18
3.5 Simulation Result by OrCAD 19
3.6 Layout Design performed by OrCAD Capture CIS Software
(backside) 21
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�3.7 Layout Design performed by OrCAD Capture Software
(topside) 21
3.8 The Output of Full-wave rectifier circuit 25
3.9 The Output of half-cycle (positive) rectifier circuit 26
3.10 The Output of half-cycle (negative) rectifier circuit 26
3.11 The concept of oscillation 28
3.12 The RF amplifier module with a input and output form 29
4.1 Waveform at Base of Transistor, Q4 34
4.2 Waveform at Output of FM Oscillator 35
4.3 Waveform at Base of Transistor, Q6 36
4.4 Waveform at Output of Power Amplifier 37
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