E 221 - Electromagnetic Fields Theory

The steady magnetic field - Biot Savart and Ampere circuital laws - Magnetic forces - torque and Magnetic- materials – Self and mutual Inductance – farady's low - Time varying field and Maxwell 's equations - The uniform plane wave - the transverse Electromagnetic (TEM) Wave –Reflection and transimision of waves in inhomogeneaus media - Poynting theorem - normal and oblique incidence of plane waves - Transmission Lines(TL) - primary and secondary constants of Transmission Lines (TL) - TL Equivalent circuits - Transmission and Reflection along Mismatched TLs – voltages and currents propagation analysis along TL- Characteristics of Radio Frequency (RF) TLs. Applications of Smith Chart - Matching techniques of RF TLs.

E 222 – Electrical Circuits Theory:

Network structures - The Operational Amplifier - Response of First Order Circuits - Response of Second Order Circuits - Threephase Circuits - Mutual Inductance – Laplase and transform analysis of electric circuits – Transfer function – Resonance Circuits - Fourier Transform in Circuit Analysis - Introduction to Filters - Two-Port Circuits - Circuit Analysis using Pspice Software.

E 223 - Electronics 

Bipotar Transistors (P-N-P OR N-P-N)( structure - Input-output transfer characteristics - relation of transistor currents - biasing methods - transistor as a switch and photo diode) – junction - field - effect transistors – JFET (structure - input - output transfer characteristics – JFET as linear resistors - switch – biasing - JFETas a switch - MESFET; Metal- Insulator- Semiconductor FET (MOSFET) : ( enhancement and depletion mode - MIS structure -Input-output transfer characteristics of MOSFET-MOSFET as a nonlinear resistance- MOSFET - biasing methods- MOSFET inverter ) – High current amplification transistor - High-electronmobility transistor (HEMT) - Vertical Metal Oxide Silicon (VMOS) - Lateral double-diffused MOSFET (LDMOS) - Diode Connected BJT-Diode Connected MOSFET - SCR (selicon – controlled rectifier) - Diac - Triac – SCS - Bilateral devices – Programmable - Unijunction (UJT) - (PUT) transistors - and their applicationsLiquid crystals and their applications.

E 224 - Logic Circuits Design :

Numbing systems and data representation- Boolean Algebra and Logic Gates - Simplification methods of Boolean Function – karnauf - Quen -and Maclouski maps – Combinational logic Circuits as Adders - subtractor - codes transformation - Multilevel circuits consisting from NAND/NOR – using MSI circuits to design acoders – Decoders - Transimitters - Flip-Flop – Sequential Circuits design and analysis – programmable Logic devices – Register - counters - Shift registers - Memory - units as ROM and RAM – logic circuit design using PLDS – cases reduction and analysis of the sequential logic circuits for optional circuits.

M 201 - Heat Transfere :

Introduction to heat transfer in industrial processes – Heat Transfer in steady state – conduction heat Transfer in series and parallel resistors – stable heat transfers along variable areas – heat load and load specification in the heat transfer – Heat transfer conversion coefficient – conduction and load in heat transfer - Average of logarithmic heat degree - Transient conduction – External flow – Internal flow – specification of loads in heat transfer – Natural convection – Introduction to heat exchangers.