At the end of this course, the students; 1) Gain an ability to identify main parameters of design a microcontroller based system, namely, required internal modules, ADC accuracy, timing resolution and etc. 2) Gain an ability to select a suitable microcontroller for proposed system. 3) Gain an ability to write program for microcontroller with use of high level language compilers. 4) Gain an ability to design interface and isolation circuit between low voltage and high voltage systems.
MODE OF DELIVERY
Face to face
PRE-REQUISITES OF THE COURSE
Yes(EEE332)
RECOMMENDED OPTIONAL PROGRAMME COMPONENT
COURSE DEFINITION
Analog interfacing; analog signal conditioning, analog digital conversion (unipolar, bipolar, frequency based), ADC in general microcontroller; sensors and transducers, thermal Sensors, mechanical Sensors, optical Sensors, I/O interfacing design, parallel and serial interfacing, basic performance measures for I/O interfacing, polling and interrupt in I/O interfacing; handshake interface, fundamental concepts associated with serial communication systems, SCI and SPI interfacing, interfacing keypad and display, relays, solenoids, and motors; timing generation and measurements, Compare/Capture and PWM; microcontroller based control, simple open and closed loop control systems, ON-OFF control; general methods in PC based control; introduction to PLC; introduction to DSP processors.
COURSE CONTENTS
WEEK
TOPICS
1st Week
Introduction to Microprocessor interface
2nd Week
Sensors and transducers
3rd Week
Improvement of the analog signal
4th Week
Digital signal interface and signal isolation
5th Week
Series haberleşim and serial interface-(SCI, SPI, I2C)
6th Week
Keyboard and display interface
7th Week
Microcontroller based design
8th Week
Midterm Exam
9th Week
Microcontroller use of internal modules (CCP, SCI)
10th Week
Analog controllers (on-off-p, p, PID controllers)
11th Week
Microcontroller-based open and closed loop control
12th Week
Ladder diagram and PLC input
13th Week
PLC programming
14th Week
Introduction to DSP processors
RECOMENDED OR REQUIRED READING
Microprocessors, From Assembly Language to C Using the PICI8FXX2 Process Control Instrumentation Technology, Curtis Johnson, 7th edition, Prentice Hall (2002) Lecture notes
PLANNED LEARNING ACTIVITIES AND TEACHING METHODS
Lecture,Presentation,Questions/Answers
ASSESSMENT METHODS AND CRITERIA
Quantity
Percentage(%)
Mid-term
1
30
Assignment
1
10
Quiz
2
10
Project
1
15
Attendance
1
3
Total(%)
68
Contribution of In-term Studies to Overall Grade(%)
68
Contribution of Final Examination to Overall Grade(%)
32
Total(%)
100
ECTS WORKLOAD
Activities
Number
Hours
Workload
Midterm exam
1
2
2
Preparation for Quiz
2
4
8
Individual or group work
14
3
42
Preparation for Final exam
1
12
12
Course hours
14
4
56
Preparation for Midterm exam
1
12
12
Laboratory (including preparation)
0
0
0
Final exam
1
2
2
Homework
2
8
16
Total Workload
150
Total Workload / 30
5
ECTS Credits of the Course
5
LANGUAGE OF INSTRUCTION
English
WORK PLACEMENT(S)
No
KEY LEARNING OUTCOMES (KLO) / MATRIX OF LEARNING OUTCOMES (LO)
