MF Elektronik ve Haberleşme Müh.
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EEE101 Introduction to Electronics Engineering |
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| Language |
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English |
| Class room |
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L07
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| Units |
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2+0 |
| Instructor |
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Assoc. Prof. Dr. Thomas F. Bechteler / Assist. Prof. Dr. Muammer Çatak |
| Office room |
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B-204 / C-201 |
| Office hours |
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Wednesday, 9:30-11:30 |
| Office Tel. |
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0232 / 246 4949 |
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| Lab Instructor |
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not applicable |
| Office room |
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not applicable |
| Office hours |
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not applicable |
| Office Tel. |
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not applicable |
| 1. Prerequisites |
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none |
| 2. Contents |
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What is engineering and what is science. Definition of SI-units and their measurements. Resistors: Ohm's law, resistivity and conductivity, physical reason of resistivity, resistors in series and in parallel, classification of resistors: fixed – variable – environmentally influenced. Capacitors: charge and capacity, plate capacitor, dielectrics, memory property, lossless property, capacitors in series and in parallel, classification of capacitors: fixed – variable. Inductors: magnetic flux and inductivity, permeability of materials, memory property, lossless property, inductors in series and in parallel, classification of inductors: single – coupled, transformer. Discrete semiconductors: what are semiconductors, pn-junction, diodes, solar cell, bipolar transistor, field effect transistor (FET), thyristor, triac, Hall element. Integrated semiconductors: History and definition, Moore's law, measures of integration, VLSI, CMOS manufacturing process, bonding of chips, hybrid circuits. Notion of Element, Circuit and System: discrete versus distributed, datasheets, definition of circuits and systems. System Design: concept, open and closed systems, subsystems, circuit design and methods for designing electronic circuits. Introduction to Project Management: definition and constraints of a project, project success and failure, organisation of a project and its management. |
| 3. Objectives |
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| 4. Textbook/ Lecture notes |
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Lecture notes supplied by the instructor |
| 5. Attendance |
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Compulsory attendance for theory lectures is 70%. |
| 6. Grading |
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Midterm 40% Final 60% |
| 7. Academic dishonesty |
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Academic dishonesty is related to cheating and plagiarism. Copying in whole or in part others’ assignments, lab works or exams, is considered cheating respectively plagiarism. All parties involved will receive a zero score for the lab, assignment or the exam. |
| Week |
Topic |
Reading |
Slides / Notes (see ONLINE DERSLER)
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Assigns / Labs |
| 1 |
Engineering versus Science |
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| 2 |
SI-units and measurements |
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| 3 |
SI-units and measurements |
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Resistors |
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Capacitors |
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Inductors, transformer |
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| 7 |
MIDTERM |
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| 8 |
Semiconductors - discrete |
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| 9 |
Semiconductors - discrete |
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| 10 |
Semiconductors - integrated |
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The notion of element, circuit and system |
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System design: concept, subsystems |
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System design: circuit development |
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| 14 |
Introduction to project management |
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| 15 |
Introduction to project management |
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