INTERNATIONAL BURCH UNIVERSITY
Faculty of Engineering and Natural Sciences
Department of Electrical and Electronic Engineering
2016-2017

SYLLABUS
Code Name Level Year Semester
EEE 311 Electronics II Undergraduate 3 Fall
Status Number of ECTS Credits Class Hours Per Week Total Hours Per Semester Language
Compulsory 5 3 + 2 125

Instructor Assistant Coordinator
Damir Bilić, Research Assistant Mustafa Musić Mustafa Musić, Assoc. Prof. Dr.
[email protected] [email protected] no email

This course provides a solid foundation in the digital electronics based on discrete and integrated circuits. Students will be able to understand current devices, to design electronic structures and exploit them in novel applications.

COURSE OBJECTIVE
After completion of this course the student will have theoretical and practical knowledge about digital logic circuits, based on discrete and integrated components. Students will be able to independently use, design, calculate and evaluate most commonly used integrated circuits, such as logic circuits, multivibrators, timers, counters etc.

COURSE CONTENT
Week
Topic
  1. Transistor as a Switch
  2. The MOS Switch
  3. Multivibrators Based on Discrete components
  4. Multivibrators Based on Op-Amp
  5. Technology of Digital Integrated Circuits
  6. Bipolar Logic Circuits
  7. MOS Gates
  8. Flip-Flops
  9. Timing Circuit
  10. Registers and Counters, Dynamic Logic
  11. Semiconductor Memories, FET Biasing
  12. ROM,PROM,EPROM,EEPROM Memories
  13. PLA and PLD Structures

LABORATORY/PRACTICE PLAN
Week
Topic

    TEACHING/ASSESSMENT
    Description
    • Interactive Lectures
    • Practical Sessions
    • Excersises
    • Discussions and group work
    Description (%)
    Method Quantity Percentage (%)
    Homework310
    Midterm Exam(s)120
    Lab/Practical Exam(s)120
    Attendance110
    Final Exam140
    Total: 100
    Learning outcomes
    • analyse fairly complex digital circuits both mathematically, using computer models and laboratory models
    • design fairly complex digital electronical circuits and test their functionality
    • select digital electronical components for various applications according to design request
    • apply the knowledge in practical environment, e.g. FPGA design, systems on chip
    TEXTBOOK(S)

      ECTS (Allocated based on student) WORKLOAD
      Activities Quantity Duration (Hour) Total Work Load
      Lecture (14 weeks x Lecture hours per week)14342
      Laboratory / Practice (14 weeks x Laboratory/Practice hours per week)14228
      Midterm Examination (1 week)122
      Final Examination(1 week)122
      Preparation for Midterm Examination11515
      Preparation for Final Examination11616
      Assignment / Homework/ Project11010
      Seminar / Presentation11010
      Total Workload: 125
      ECTS Credit (Total workload/25): 5