Learning Outcomes |
PO |
MME |
The students who succeeded in this course: |
|
|
LO-1 |
Can have depth information about of embedded systems and to know what kind of hardware and software techniques are used in Embedded system |
PO-18 Recognizes microcontrollers and can make necessary circuit designs using Microcontroller technology.
|
Examination |
LO-2 |
Can know in a good level of one of the hardware deion languages |
PO-18 Recognizes microcontrollers and can make necessary circuit designs using Microcontroller technology.
|
Examination |
LO-3 |
Can be able to program the FPGA hardware as software and to develope the implementation project, |
PO-18 Recognizes microcontrollers and can make necessary circuit designs using Microcontroller technology.
|
Examination |
LO-4 |
Can follow the development of embedded systems technology |
PO-18 Recognizes microcontrollers and can make necessary circuit designs using Microcontroller technology.
|
Examination |
PO: Programme Outcomes MME:Method of measurement & Evaluation |
Course Contents |
What is Embedded Systems, To teach the basic structure of embedded systems, Embedded Systems Hardware Structures |
Weekly Course Content |
Week |
Subject |
Learning Activities and Teaching Methods |
1 |
What is Embedded Systems, To teach the basic structure of embedded systems, Embedded Systems Hardware Structures |
Lecture Method, Experiment |
2 |
Processor, examination of integrated circuits and design technologies |
Lecture Method, Experiment |
3 |
General and special purpose embedded system equipment |
Lecture Method, Experiment |
4 |
Embedded system software |
Lecture Method, Experiment |
5 |
To gain embedded systems problem solving methods |
Lecture Method, Experiment |
6 |
Micro-control circuits, |
Lecture Method, Experiment |
7 |
Embedded development |
Lecture Method, Experiment |
8 |
mid-term exam |
|
9 |
Memory elements in Embedded Systems, Peripherals |
Lecture Method, Experiment |
10 |
Interrupts, to combine the possibilities of Embedded Systems |
Lecture Method, Experiment |
11 |
Communication Protocols: USB, RS232, I2C, GPIB, Wi-fi, Infra Red
|
Lecture Method, Experiment |
12 |
Data acquisition |
Lecture Method, Experiment |
13 |
Sensor signal processing and control theory |
Lecture Method, Experiment |
14 |
Programming methods for embedded systems |
Lecture Method, Experiment |
15 |
Keyboard programming (Matrix, Analog) |
Lecture Method, Experiment |
16 |
final exam |
|
Recommend Course Book / Supplementary Book/Reading |
1 |
Dereli, S. (2020). FPGA ile Gömülü Sistemler ve Sayısal Devre Tasarımı. Nobel Yayıncılık. |
2 |
Taşkın, D. (2018). Gömülü Sistem Tasarımı. Papatya Yayıncılık. |
Required Course instruments and materials |
Computer, Experiment Sets |