COURSE DESCRIPTIONS
EE 201
Electrical Circuits
Credits4 ECTS7
Circuit elements and Kirchhoffs laws. Analysis of resistive circuits. Network theorems. Solutions of linear time-invariant differential equations. Analysis of first and second order circuits. Operational Amplifiers. Sinusoidal steady-state analysis, power calculations and balanced three-phase circuits.
EE 210
Introduction to Electrical Engineering
Credits3 ECTS6
Basic components and principles of electrical circuits: circuit elements variables and measuring devices. Kirchoff's laws, loop and nodal analysis. Network response to dc, exponential and sinusoidal excitation: switching networks, impedances, network functions, Fourier series, phasor methods, real and reactive power, powerfactor. Transformers and 3-Phase systems.
EE 304
Energy Conversion
Credits3 ECTS6
Energy technology and resources: Fossil fuels, nuclear, solar, and other types of energy. Three phase systems and magnetic circuits. Transformers: Ideal and physical models and equivalent circuit, and transformer testing. Electromechanical energy conversion. Efficiency and process performance. Sensors and actuators: Relays, stepper and positioning systems, switched reluctance machines, synchronous reluctance machines, direct current (DC) machines. Symmetrical alternating current (AC) synchronous machines. Symmetrical AC induction machines.
EE 363
Electromagnetics Field Theory
Credits4 ECTS7
Vector analysis for field theory. Static electric and magnetic fields. Time varying electric and magnetic fields and Maxwell's equations. Plane waves in different media, transmission lines, waveguides and antennas.
EE 461
Optical System Design
Credits3 ECTS6
Ray optics, wave optics in isotropic and anisotropic media, optical instruments, aberrations, fiber optics, optical sources (passive and active), optical elements, and optical detectors. Analysis of multi-component optical systems using linear system techniques. Design and optimization of individual components and multi-component systems using Code-V software.
EE 564
Optoelectronics and Photonics
Credits3 ECTS6
This course aims to provide fundamental understanding of optoelectronic materials and devices. The topics to be covered include: wave nature of light, dielectric waveguides and optical fibers, semiconductor science and light emitting diodes, stimulated emission devices lasers, photodetectors, photovoltaic devices, polarization and modulation of light.
