Electronic Systems
General
- Code: 32
- Semester: 3rd
- Study Level: Undergraduate
- Course type: Core
- Teaching and exams language: Ελληνικά
- The course is offered to Erasmus students
- Teaching Methods (Hours/Week): Theory (3) / Exercises (2)
- ECTS Units: 6
- Course homepage: https://exams-sm.the.ihu.gr/enrol/index.php?id=14
- Instructors: Kiziroglou Michail, Nikolaidis Nikolaos
Course Contents
Analogue Part:
1. Introduction to Electronic Systems
2. Basic concepts (circuits and systems)
3. Diode
4. Bipolar Junction Transistor
5. Field Effect Transistor
6. Basic Circuits: Switches and amplifiers
7. DC and small signal models
8. Operational amplifiers
9. Digital Gates and CMOS
10. Analog to Digital Converters and Digital to Analog Converters
11. Oscillators
12. Applications
13. Summary
Digital Part:
1. The Binary System
2. Logic Gates
3. Boole Algebra
4. Design Of Combinational Digital Systems
5. Basic Combinational Circuits: Half Adder, Full Adder, Decoder,
Coder, Rom, Code Translators, 8-Bit Equality Comparator.
6. Design Errors
7. Characteristics Of Digital Integrated Systems
8. Basic Memory Units: The Flip-Flop
9. Basic Sequential Circuits: Registers And Counters
10. Simulation Of Combinational Circuits
11. Assembly And Testing Of Digital Circuits
Educational Goals
KNOWLEDGE
Functionality of the basic analogue electronics building blocks
Applications of the basic analogue electronics building blocks
Functionality of the basic digital electronics building blocks
ABILITIES
Calculation and modelling of simple analogue electronic circuits
Simulation of simple analogue electronic circuits
Design of combinational digital systems
Identification, analysis, design and implementation of applied analogue circuits and digital systems
General Skills
Search, analysis and synthesis of data and information, using corresponding technologies, Adaptation to new situations, Independent work, Teamwork – distribution of responsibilities
Teaching Methods
Lectures, Exercises, Online guidance, Projected Presentations, E-mail communication, Online Synchronous and Asynchronous Teaching Platform (moodle).
Students Evaluation
Assessment Language: English / Greek
Analogue Part:
Public Presentations
Practical mid-term examination
Final Written Examinations
Digital Part:
Final Written Examinations (50%)
Written Test of Progress in Binary System, Boolean Logic Gates And Algebra (25%)
Presentation of Work to An Audience (25%)
Evaluation criteria:
Ability to Identify and Describe the Operation / Applications of Electronic Devices
– Ability to Solve Electronic Circuit Exercises
– Circuit Simulation Skills
– Skills of Assignment Preparation and Presentation
Recommended Bibliography
Microelectronic Circuits, Sedra Adel, Smith Kenneth, Tony Chan Carusone and Vincent Gaudet, 8th Edition, ISBN-10: 0190853506, 2020
Digital Electronics Principles and Applications, Roger L. Tokheim, Patrick E. Hoppe, 9th Edition, ISBN-10: 1260597865, 2021
Digital Electronics: A Practical Approach, W. Kleitz, 9th Edition, ISBN-10: 1292025611, 2013
Microelectronic Circuit Design, Jaeger Richard – Blalock Travis, 5th Edition, ISBN-10: 0073529605, 2015