ELEKTRONİK MÜHENDİSLİĞİ BÖLÜMÜ
“EE 497 SENIOR DESIGN PROJECT I” DERSİNİ ALAN 4.SINIF ÖĞRENCİLERİNİN DİKKATİNE
A-) BÖLÜM TARAFINDAN BELİRLENEN PROJE ÖNERİLERİ AŞAĞIDA İLÂN EDİLMİŞTİR. İLÂN EDİLEN
PROJELERDE ÇALIŞMAK İSTEYEN ÖĞRENCİLER ÖRNEĞİ GÖRÜLEN “APPLICATION FORM” U
DOLDURARAK EN GEÇ 3 EKİM 2003 CUMA GÜNÜNE KADAR DERS KOORDİNATÖRÜNE TESLİM
EDECEKLERDİR. KOORDİNATÖRCE ONAYLANAN PROJE ÜZERİNDE ÇALIŞMALARA BAŞLANACAKTIR.
B-) BÖLÜMCE BELİRLENEN PROJELERDEN AYRI OLARAK, KENDİ ÖNERDİKLERİ BİR PROJEDE
ÇALIŞMAK İSTEYEN ÖĞRENCİLERE, ÖNERDİKLERİ PROJEYİ KABUL EDEN BİR PROJE DANIŞMANI
BULMALARI VE PROJEYİ BELİRLERKEN AŞAĞIDAKİ KURALLARA UYMALARI ŞARTIYLA KENDİLERİNE
İZİN VERİLECEKTİR. BU YOLU SEÇEN ÖĞRENCİLER; PROJE ADI, KISA TANIMI, KULLANILACAK
YAZILIM VE/VEYA DONANIM, YAPILACAK İŞLER, HEDEFLER VB. BİLGİLERİ İÇEREN VE PROJEYİ KABUL
EDEN DANIŞMANIN ONAYINI TAŞIYAN BİR DİLEKÇE İLE KOORDİNATÖRE BAŞVURACAKLARDIR.
KOORDİNATÖRCE ONAYLANMASI DURUMUNDA PROJE ÜZERİNDE ÇALIŞMALARA BAŞLANACAKTIR.
1. “EE 498 Senior Design Project II” dersi ile proje çalışmalarına aynı konuda devam edileceğinden, ders
tanımlarına uygun, iki yarıyıl üzerinde çalışabilecek zorluk seviyesinde ve bu süre içerisinde ihtiyaç
duyulacak malzemelere erişmede bir zorluğun yaşanmayacağı proje olmalıdır.
2. Sonucu baştan belli olan değil, araştırılması gereken ve önü açık bir proje olmalıdır.
3. Disiplinlerarası (Bilgisayar, Endüstri veya Çevre Mühendisliği Bölümlerinin Öğrencileri ile ortak) projeler
önerilebilir.
4. Ekonomik, çevresel, üretilebilirlik, sağlık, güvenlik, sosyal, politik vb. sınırlayıcı faktörler göz önüne
alınmalıdır. İçine kapanık, yalıtılmış, yani gerçeklerden uzak ütopik bir proje olmamalıdır.
NOT: Başvurular en kısa zaman içerisinde değerlendirilerek, kimlerin hangi projelerde çalışacağı duyuru panolarında
ilân edilecektir.
FATİH UNIVERSITY
FACULTY OF ENGINEERING
ELECTRONICS ENGINEERING DEPARTMENT
EE 497 – SENIOR DESIGN PROJECT I
PROPOSALS
Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: Amplitude modulator using MC 1496.
Project Number
: SDP03_01
Number of Students : 2
To construct and test an amplitude modulator module including its chase and
terminals. To test the module, to calculate its price, to plan a series production of 15 units. (p.
3-5, Fig. 3-4)
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. MC 1496.
-----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: Product detector circuit using MC 1496.
Project Number
: SDP03_02
Number of Students : 2
To construct and test a product detector circuit module including its chase and
terminals. To test the module, to calculate its price, to plan a series production of 15 units.
(p.4-5, Fig. 4-5)
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. MC 1496.
----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: DSB-SC modulator using MC 1496.
Project Number
: SDP03_03
Number of Students : 2
To construct and test an amplitude modulator module including its chase and
terminals. To test the module, to calculate its price, to plan a series production of 15 units.
(p.5-2, Fig. 5-1)
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. MC 1496.
----------------------------------------------------------1
Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: SSB Amplitude modulator using LM 1496.
Project Number
: SDP03_04
Number of Students : 2
To construct and test an SSB amplitude modulator module including its chase and
terminals. To test the module, to calculate its price, to plan a series production of 15 units.
(p.5-5, Fig. 5-5)
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. LM 1496.
----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: Product detector for DSB-SC and SSB signals using LM 1496.
Project Number
: SDP03_05
Number of Students : 2
To construct and test an amplitude detector module including its chase and terminals.
To test the module, to calculate its price, to plan a series production of 15 units. (p. 6-2,
Fig. 6-2).
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. LM 1496.
----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: FM modulator using MC 1648.
Project Number
: SDP03_06
Number of Students : 2
To construct and test an FM modulator module including its chase and terminals. To
test the module, to calculate its price, to plan a series production of 15 units. (p. 7-5, Fig. 7-3).
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. MC 1648.
----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: Frequency modulator using LM566.
Project Number
: SDP03_07
Number of Students : 2
To construct and test a frequency modulator module including its chase and terminals.
To test the module, to calculate its price, to plan a series production of 15 units. (p. 7-6,
Fig. 7-5).
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. LM566.
-----------------------------------------------------------
2
Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental set up as the prototype for converting
wind energy to heat energy.
Project Number
: SDP03_08
Number of Students : 2
To construct and test an experimental set up to use the wind energy in heating systems
for house-hold or other similiar applications. To test the set-up, to calculate its price, to plan a
series production.
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. Mechanical components.
----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: PWM Demodulator using MC1496.
Project Number
: SDP03_09
Number of Students : 2
To construct and test a PWM demodulator module including its chase and terminals.
To test the module, to calculate its price, to plan a series production of 15 units. (p. 12-5, Fig.
12-4).
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. MC1496.
----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: Frequency shift keying (FSK) modulator using LM566.
Project Number
: SDP03_10
Number of Students : 2
To construct and test an FSK modulator module including its chase and terminals. To
test the module, to calculate its price, to plan a series production of 15 units. (p. 13-4,
Fig. 13-2).
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. LM566.
----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: Frequency shift keying (FSK) demodulator using LM565.
Project Number
: SDP03_11
Number of Students : 2
To construct and test an FSK demodulator module including its chase and terminals.
To test the module, to calculate its price, to plan a series production of 15 units. (p. 14-2, Fig.
14-2).
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. LM565.
-----------------------------------------------------------
3
Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: Continuasly variable slope delta (CVSD) modulationdemodulatiom system using MC34115 and 555.
Project Number
: SDP03_12
Number of Students : 2
To construct and test a variable slope delta (CVSD) modulator and demodulator using
MC34115 and 555.To test the module, to calculate its price, to plan a series production of 15
units. (p. 16-7, Fig. 16-7).
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standart
equipment. MC34115 and 555.
----------------------------------------------------------Academic Advisor : Prof. Dr. Muhammet Koksal
Project Title
: To prepare an experimental module for the course ‘EE 413
Communication Electronics’: Continuasly variable slope delta (CVSD) modulationdemodulatiom system of Manchester type using 74LS74, 74LS76, 74LS123.
Project Number
: SDP03_13
Number of Students : 2
To construct Manchester encoder and decoder and to test it in a Manchester CVSD
system containing a CVCD demodulator. To calculate its price, to plan a series production of
15 units. (p. 17-7, Fig. 17-9).
Hardware/Software/Lab/Equipment: Basic electronics laboratory and its standard
equipment. 74LS74, 74LS76, 74LS123.
----------------------------------------------------------Academic Advisor : Prof. Dr. Ali Güngör
Project Title
: Optical Detectors and Electro-Optic Frequency Counter
Project Number
: SDP03_14
Number of Students : 2
To understand the principle of optical dedectors and to build a frequency counter by
using an optical dedector and a laser source.
Hardware/Software/Lab/Equipment: Optical dedector, He Laser, power supply, copper and
other small electronic components.
----------------------------------------------------------Academic Advisor : Assoc. Prof. Dr. Erkan İmal
Project Title
: Magnetic Levitation System
Project Number
: SDP03_15
Number of Students : 2
A hollow steel ball (i.e. 25mm) will be suspended in an electromagnetic field. This
classic control problem may be solved by both analogue and digital methods. In the analog
mode, the system will be fully self-contained. In the digital mode, regulation and tracking
state space PD controllers will be implemented, and system calibration be included.
Hardware/Software/Lab/Equipment: Coil, hollow steel ball, sensors, some electronic
components, MATLAB.
-----------------------------------------------------------
4
Academic Advisor : Assoc. Prof. Dr. Erkan İmal
Project Title
: Digital Pendulum Control System
Project Number
: SDP03_16
Number of Students : 2
The digital pendulum control system will provide experiments on an inverted balanced
pendulum using digital control techniques. It will be single input multiple output system. The
pendulum will be self-erecting and can also be operated in crane mode. The following tasks
may be accomplished by using the system:
 Model and parameters
 PID crane mode control
 PID swinging up and upright stabilization control
 Tuning parameters
Hardware/Software/Lab/Equipment: Pendulum system, digital PID controller, etc.
----------------------------------------------------------Academic Advisor : Assoc. Prof. Dr. Erkan İmal
Project Title
: SCARA Robot Design and Its Implementation
Project Number
: SDP03_17
Number of Students : 2
A SCARA robot will be realized. Each of the major axes will be driven by servo
motor under closed loop control. Shaft encoder (feedback) will provide 12 000 counts/rev on
major axes. Arm lengths may be 400mm for highest accuracy, or 650mm for furthest reach.
Hardware/Software/Lab/Equipment: Servo motors, SCARA robot, encoder, PC, compiler,
electronic components etc.
----------------------------------------------------------Academic Advisor : Assoc. Prof. Dr. Erkan İmal
Project Title
: Automatic Temperature Regulation
Project Number
: SDP03_18
Number of Students : 2
A microcomputer will be used to provide automatic temperature regulation for a
shower faucet. The user sets the temperature between 30 oC and 50 oC by a sliding knob
attached to a 1-k variable resistor. The user sets the water volume by manually adjusting the
cold-water valve. The hot-water valve is controlled by the computer to provide the selected
temperature.
Hardware/Software/Lab/Equipment: Manual valve, thermistor, hot valve, DAC, ADC,
analog mux, some other electronic components.
----------------------------------------------------------Academic Advisor : Assist. Prof. Dr. Metin Artıklar
Project Title
: Stepper Motor Control via PIC microcontrollers
Project Number
: SDP03_19
Number of Students : 2
This project involves controlling a stepper motor via a PIC micro controller.
Hardware/Software/Lab/Equipment: PIC micro controller, stepper motor hardware and
software features of midrange PIC micro controller family
-----------------------------------------------------------
5
Academic Advisor : Assist. Prof. Dr. Metin Artıklar
Project Title
: Interfacing LCD with Micro controller
Project Number
: SDP03_20
Number of Students : 2
This project should perform interfacing of PIC micro controllers with an LCD display. It
should then show some characters on the LCD display.
Hardware/Software/Lab/Equipment: An LCD display , some passive electronic
components such as resistors, LEDs, switches along with hardware and software features of
midrange PIC micro controller family are needed to complete this project.
----------------------------------------------------------Academic Advisor : Assist. Prof. Dr. Metin Artıklar
Project Title
: Analog and digital sensor interfaces with PIC micro controllers
Project Number
: SDP03_21
Number of Students : 2
An analog and digital sensors has to be interfaced with PIC micro controllers using an LCD
display. This project requires using A/D conversion feature of the PIC controllers.
Hardware/Software/Lab/Equipment: An LCD display, at least one analog and one digital
sensors such as temperature, rotation, pressure, etc. sensors , some passive electronic
components such as resistors, LEDs, switches along with hardware and software features of
midrange PIC micro controller family are needed to complete this project.
----------------------------------------------------------Academic Advisor : Assist. Prof. Dr. Metin Artıklar
Project Title
: Micro controller Based Digital Clock
Project Number
: SDP03_22
Number of Students : 2
Generate a real time clock using PIC micro controller. A separate set of specification
will given to the students taking this project.
Hardware/Software/Lab/Equipment: This project requires students to put their knowledge
of digital logic and micro controllers into a practical application of developing a real time
clock.
----------------------------------------------------------Academic Advisor : Prof. Dr. Kemal Fidanboylu
Project Title
: Child Security System
Project Number
: SDP03_23
Number of Students : 2
The purpose of this project is to design a child tracking system that will provide information
to the parent when the child goes outdoors. The design consists of two components: Parent
unit and child unit. The child unit will continuously transmit a signal to the parent unit as long
as it is within a predetermined radius. If the child moves outside this radius, then the parent
unit will not be able to receive any signal. By this way, the parent will know when the child
might be in danger.
Hardware/Software/Lab/Equipment: The students are expected to design, implement and
test both units on a breadboard. If successful, they will then design the PCB and place it in
nice looking cases.
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FATİH UNIVERSITY
FACULTY OF ENGINEERING
ELECTRONICS ENGINEERING DEPARTMENT
EE 497 / 498 - SENIOR DESIGN PROJECT I / II
APPLICATION FORM
Student Name : ______________________________________________
Student ID No :______________________________________________
Priority No.*
Project No.
Project Title
1.
___________
______________________________________
2.
___________
______________________________________
3.
___________
______________________________________
Date of Application : ______________ Student’s Signature : __________________
APPROVAL:
Student is assigned to the following project :
Project No.
Advisor
Title
: ____________________________________________________
: ____________________________________________________
: ____________________________________________________
Engineering Project Coordinator Signature : _________________________________
*
Write your three preferences starting from the project you prefer the most to be involved.
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