First Term
ELC 101A Electronics (1) (2+2)
Introduction to crystalline properties of semiconductors - Energy band theory - Conduction in semiconductors (electrons and holes, conductivity, donor and acceptor impurities, Fermi level, diffusion , continuity equation) - Semiconductor diode (theory of the P-N junction, the volt-current characteristics, junction potential, forward and reverse bias, diffusion capacitance) - Diode circuit applications (rectifier circuits, clipping circuits) - Zener diode.
ELC 102A Circuits (1) (2+2)
Analysis of resistive circuits by simplifications (source transformations, combination of elements, star/delta and delta /star transformations, node and loop analysis) - Network theorems (superposition, Thevenin, Norton, compensation and maximum power transfer) - Analysis of circuits with AC excitation in the time domain - Analysis of AC circuits in the frequency domain using complex number algebra.
ELC 103A Computers (1) (2+2)
Binary systems - Boolean algebra - Logic gates - Simplification of Boolean functions - Combinational circuits - Decoders - Encoders - Sequential circuits - Memory - Counters - Applications.
- Second Term
ELC 101B Electronics (1) (2+2)
Bipolar junction transistor (BJT) - Metal oxide semiconductor transistor (MOST) and junction field effect transistor (JFET) : (physical structure, basic configurations, the volt - current characteristics) - Single stage amplifiers (biasing, small signal models).
ELC 102B Circuits (1) (2+2)
Analysis of AC circuits using circuit theorems, loop and node analysis- Maximum power transfer - RLC circuits ( basic circuit equations in the time domain, frequency response) - Magnetically coupled circuits (linear transformer equivalent circuits, ideal transformer) - Three phase circuits (connections, transformations, power measurements and calculations ).
ELC 103B Computers (1) (3+1)
Program design - Data types - Arrays - Data structure - Strings - Files - Control commands - Functions - Hidblen data - Groups - Dynamic data structures.
Second Year
- First Term
ELC 201A Electronics (2) (2+2)
Multistage amplifiers and composite circuits - IC technology - Differential amplifiers - Current source biasing - High frequency analysis and frequency response - Power amplifiers.
ELC 202A Circuits ( 2) (2+2)
Series and parallel resonance circuits - Applications on passive filters (LP, HP, BP, and BS) - Resonance in mutually coupled circuits - Two port circuits (definition of parameters, calculation of parameters, equivalent circuits, two port connections in series, parallel and cascade, two ports inserted in larger circuits).
ELC 203 Computers (2) (4+2)
Asynchronous sequential circuits - Applications - Computer architecture - Processor architecture - Control unit wired and microproqrammed - Risc architecture - Input/output peripherals - Introduction to fault diagnosis.
ELC 205A Electric and Magnetic Fields (3+1)
Polarization in dielectrics and Gauss's law - One and two dimensions differential equation controlling the static electric potential function - Conductors in linear dielectrics - Image methods - System of capacitances - Energy & forces in static electric Field..
- Second Term
ELC 201B Electronics (2) (2+2)
Feedback amplifiers - Sinusoidal oscillators - Tuned amplifiers - Noise analysis.
ELC 202B Circuits (2) (2+2)
Fourier and harmonic analysis ( harmonic generation, distortion calculation) - Application of Laplace transform to circuit analysis - Circuit synthesis ( synthesis of one port circuits with two kinds of elements LC, RC, RL) - Synthesis of lossless two ports.
ELC 205B Electric and Magnetic Fields (3+1)
Steady electric currents - Static magnetic fields - Steady current circuits in linear magnetic media - Magnetic vector potential - Magnetic forces - Maxwell’s equations and retarded potentials - Electromagnetic waves in linear, isotropic, homogeneous, and stationary media.
ELC 206 Signal Analysis (4+2)
Continuos and discrete time signals and systems - Continuous time convolution - Discrete time convolution - Continuous time Fourier analysis - Discrete time Fourier analysis - Amplitude modulation FDM - Sampling theory - TDM-Z transform - Discrete time simulation of continuous time systems.
Third Year
- First Term
ELC 301 Electronics (4+2)
Analog IC applications - Operational amplifiers - Waveform generation - Digital logic circuits (TTL, IIL, ECL) - Sequential circuits (flip flops, shift registers, counters) - A/D and D/A converters - Electronic circuits in radio and television - Phase locked loops - Video recording and CDs - Electronic systems in communication networking.
ELC 303A Computers (3) (3 +1)
Microprocessors fundamentals - 80486 microprocessor architecture - Commands and programming - Assembly language - Types of interrupt signals - Interfacing micro processors with I/O units and circuits - Applications.
ELC 304A Instrumentation and Measurements (1) (3+1)
Oscilloscopes; block diagram, deflection sensitivity , applications in phase and frequency measurements - Digital oscilloscopes ; theory of operation and application - Analog to digital and digital to analog converters.
ELC 305A Electromagnetic Waves (1) (3+1)
Boundary conditions for different media - Retarded potentials -Time harmonic fields - Plane waves in free space - Plane waves in lossy media - Wave polarization - Wave type - Poynting vector - Phase and group velocities - Reflection and transmission of waves.
ELC 306A Communications (1) (3+1)
AM (conventional AM, SSB, DSB and VSB) modulation and demodulation - Interference in AM - FDM - Super heterodyne receiver and stereo - Angle modulation (PM and FM generation and reception) - Interference - FM receivers and telemetry systems - PAM, PWM, PPM and PCM-DELTA modulation - Line coding - Digital modulation ASK, PSK, FSK and MSK.
ELC 307A Systems (2+2)
System representation - Transfer function - Block diagram - Signal flow graphs - Impulse response - Routh Hurwitz stability - State space representation - Solution of state equations - Observability - Controllability - Liapunov stability.
- Second Term
ELC 302 Active Circuits (2+2)
Operational amplifier circuit applications and compensation methods for finite gain amplifiers - Active circuits based on passive ladder structures - Active filters using finite gain amplifiers - Multiple feedback single op amp fillers - Multiple amplifier Biquad filters - Approximation problem - The current conveyor and its applications.
ELC 303B Computers (3) (3+1)
Arrays - Stacks and queues - Chains - Binary trees - Tables - Graphs - Search algorithms - Storage methods.
ELC 304B Instrumentation and Measurements (1) (3+1)
Transducers; potential dividers, strain measurement, temperature measurement - Digital sensors and applications - Measurement of frequency and time - Function generators and counters - Microprocessor based measuring systems.
ELC 305B Electromagnetic Waves (1) (3+1)
TEM transmission lines- Ideal two conductor transmission line - Waveguides - Cutoff frequencies - Mode spectrum - Attenuation - Cavity resonators - Transmission lines equivalent circuits - Transmission line circuit theory - Smith chart - Microwave solid state devices - Microwave vacuum electronics.
ELC 306B Communications (1) (3+1)
Optical Communications - Systems: principles of transmission and losses in fibers - Generation and reception - Satellite communications - Systems: introduction - The satellite system - Multiple access methods - Switching systems: switching functions - Switching types (S, T, S-T-S, T-S-T) - Traffic characterization - Elements of queuing systems - Loss and delay systems - Applications in mobile communication systems.
ELC 307B Control (1) (4+2)
Examples on continuos control systems - Transient response - Static error analysis - Frequency response - Polar plots - Logarithmic plots - Relative Stability - Root locus - Compensation in frequency domain.
- Elective Courses - Second Term
EPM 341 Electrical Machines
Single phase induction motor - Two phase machines and applications in control system - Special A. C. machines.
EPM 342 Power Electronics
Power diode - Power bipolar junction transistar - Thyristor - Rectifiers. apparatus.