Eskisehir Technical University Info Package Eskisehir Technical University Info Package
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About the Program Educational Objectives Key Learning Outcomes Course Structure Diagram with Credits Field Qualifications Matrix of Course& Program Qualifications Matrix of Program Outcomes&Field Qualifications
  • Faculty of Engineering
  • Dept.of Electrical and Electronics Engineering(Eng)
  • Course Structure Diagram with Credits
  • Fundamentals of Semiconductor Device
  • Description
  • Description
  • Learning Outcomes
  • Course's Contribution to Prog.
  • Learning Outcomes & Program Qualifications

Course Introduction Information

Code - Course Title EEM210 - Fundamentals of Semiconductor Device
Course Type Required Courses
Language of Instruction İngilizce
Laboratory + Practice 3+0
ECTS 5.0
Course Instructor(s) PROFESÖR DOKTOR FERİDUN AY
Mode of Delivery Face to face
Prerequisites FİZ 106 – Physics II & MAT 219 – Differential Equations (Suggested)
Courses Recomended -
Required or Recommended Resources 1) A. Beiser, “Concepts of Modern Physics”, McGraw Hill, 6th Edition, (2003), 2) B. Streetman, S. Banerjee, “Solid State Electronic Devices”, Prentice Hall, 7th Edition, (2014)3) D.A. Neamen, “Semiconductor Physics And Devices: Basic Principles”, McGraw Hill, 4th Edition, (2012)
Recommended Reading List -
Assessment methods and criteria Midterm Exam: ; Homeworks and Quizes ; Final Exam
Work Placement N/A
Sustainability Development Goals

Content

Weeks Topics
Week - 1 Giriş & Motivasyon
Week - 2 Blackbody radiation, Photoelectric Effect, de Broglie Waves
Week - 3 Particle in a Box, Uncertainty Principle, Bohr Model of the Atom, Energy Levels and Spectra
Week - 4 Introduction to Quantum Mechanics: Schrödinger Equation, Finite Potential Well
Week - 5 Tunneling Effect, Harmonic Oscillator
Week - 6 1st Midterm Exam
Week - 7 Semiconductor Materials: Crystal Structure, Energy Bands, Density of States
Week - 8 Carrier Concentration, Donors and Acceptors, Mobility, Resistivity
Week - 9 Hall Effect, Carrier Diffusion, Generation and Recombination Processes
Week - 10 P-N Junction, Current-Voltage Characteristics
Week - 11 2nd Midterm Exam
Week - 12 Bipolar Devices: The Transistor Action, Modes of Operation
Week - 13 Unipolar Devices: Metal-Semiconductor Contacts, JFET, MESFET, MOSFET
Week - 14 Modern Fabrication and Experimental Techniques, Fabrication of a Transistor

Learning Activities and Teaching Methods

  • Teaching Methods
  • Lecture
  • Question & Answer
  • Field Trip
  • Report Preparation and/or Presentation
  • Competences
  • Creative
  • Civic awareness
  • Effective use of a foreign language
  • Work in teams
  • Use time effectively
  • Problem solving
  • Applying theoretical knowledge into practice
  • Elementary computing skills

Assessment Methods

Assessment Method and Passing Requirements
Quamtity Percentage (%)
1.Midterm Exam 1 35
Homework 1 25
Final Exam 1 40
Toplam (%) 100
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