EE x11

DC circuit analysis: reduction methods, mesh/loop and node methods, transformation methods, Network theorems. First-order transients. AC circuit analysis: sinusoids and phasors, steady state conditions, impedance and admittance, power and energy, Balanced and unbalanced three-phase circuits. Computer applications

EE 151

Conventional (thermal and hydraulics) and non-conventional (nuclear, solar, and wind) energy sources and applications. Batteries: types, construction, testing, and applications. Energy utilization. Lighting/Lamps: characteristics and applications. Lighting systems: design, standards and specifications, installations, and testing. Lighting contours: calculations and computer graphics. Electric transformers.

JE 1J3

EE 121

Accuracy of measurement and error analysis. Analog instruments and CRO: construction and applications. Comparison methods. Bridges and potentiometers: construction and applications. Instrument transformers. Primary sensing elements and transducers. Signal conditioning, Data acquisition and conversion. Fundamentals of digital measurements. System instrumentation and applications

EE 141

Number systems, codes, and Boolean algebra. Logic gates. Combinational sequential circuits. PLA. Memory systems: RAM and ROM. Input-output devices. High level language programming.

HS x66

EE 233

Introduction to quantum mechanics principles: Schrödinger wave equation and its applications in one dimensional problems. Energy distribution functions. Free electron theory of metals. Band theory. Semiconductors. Dielectrics. Ferroelectrics. Ferromagnetics. Superconductivity.

MP 215

Ordinary and Partial differential equation: Solution of ordinary differential equations with variable Coefficients, system of linear differential equations, heat wave and Laplace equation in two and three dimensions. Separation of variable technique, some boundary value problems and applications. Numerical solutions of differential equation. Complex analysis: Function of complex variables, differentiation and integration, analytic functions, cache theorem and cache formula. Contour integration, power, series expansion, conformal mapping vector analysis: Scalar and vector fields, vector, operator, application to geometry, line, surface and volume integral, divergence theorem of gauss stock’s and Green theorem. Curvilinear and orthogonal coordinates.

HS x64

Introduction: economics concepts and tools for systems, products and services evaluation. Principles of economic analysis. Present worth method. Future worth. Project evaluation. Depreciation, taxes, inflation and their effects on economic analysis. Evaluation of alternatives. Uncertainties and risk. Introduction to engineering cost analysis. Balance sheets.

EE 242

Quine. McClusky procedures for logic circuits simplification. Multiple-output networks and PLAs. Synchronized counters. Synchronous and asynchronous sequential networks.

ME 245

HS x27

EE 345

Microprocessor architecture and bus concept. Microprocessor families. Addressing modes. Representation of data. Instruction sets. Assembly language programming. Memory and input/output mapping.

EE 381

Types of signal and systems. Impulse, step and sinusoidal response of systems. Block diagram representation of systems. Fourier Transform and theorems. Linear time invariant networks. Energy and power spectral densities. Sampling theorem. Discrete Fourier Transform DFT. Z- Transform. Correlation function. Spectral analysis of discrete random signals. Transmission of continuous and discrete random signals through systems. Application of tapped delay line filters

HS x12

Types of reports, contents of reports, reduced reports, detailed reports, importance and object of reports, text writing, means of graphs representation, means used for representation of report writing, principles of speech, types and contents of represent

EE 363

High-frequency transmission lines. Smith chart. Stub matching techniques. Rectangular and circular waveguides. Microstrip lines. Cavity resonators. Physics of light. Optical fibers: types, modes, characteristics, and configurations. Mode theory for cylindrical waveguides. Single-mode fibers. Integrated optical waveguides. Signal degradation in optical fiber: attenuation, modal distortion, and dispersion. Fiber materials, fabrication, mechanical properties, and cabling

EE 391

Introduction to Control Systems. Block diagram representation of feedback control systems. Signal flow graphs. Electric analogy for mechanical components and systems. Transfer functions of servo motors. Frequency response of control systems. Root locus. Bode diagram. Nyquist diagram. Compensation. Control machines and components.

PE 343

EE 481

Introduction to information theory. Pulse code modulation, Delta modulation. Baseband coding transmission. Optimum detection. Correlation techniques. Matched Filters. Probability of error of baseband modulation, Power spectral analysis. Time-division multiplexing (TDM). Digital carrier modulation: ASK, PSK, DPSK, FSK, MSK, GMSK, QPSK, M-ary transmission. Bandwidth efficiency. Coherent and Noncoherent detection. Noise effects on digital modulation techniques. Probability of error in carrier modulation. Introduction to error correcting and detecting codes

EE 4E3

EE 401

An opportunity for the student to become closely associated with a professor in a research effort to develop research skills and technique and/or to develop a program of independent in depth study in a subject area in which the professor and the student have a common interest. This course extends through two terms, 4 hours each term

EE 484

Audio systems. Telephony, Facsimile and Teletext systems. Teletrafic engineering, TV and video systems. Satellite communication systems. Line of sight radio links. Cellular communication systems

EE 4E5

HS 436

EE 212

Resonance in electric circuits. Second-order Transients. Magnetic coupled circuits. Network functions and s-domain analysis. Frequency response and filters. Fourier series technique applied to circuit analysis. Laplace transform and its application to circuit analysis. Two-port networks. State-variable analysis. Topological and sensitivity analysis. Computer applications.

EE 261

Electrostatics: Coulomb’s law, electric field, Gauss’s law, divergence theorem, energy and potential, conductors and dielectrics, capacitors and capacitance. Magnetostatics: Biot-Savart law, Ampere’s circuital law, Stoke’s theorem, magnetic forces, materials, and devices. Inductors and inductance. Faraday’s law. Time varying fields. Maxwell’s equations. Wave equation.

MP 215

Ordinary and Partial differential equation: Solution of ordinary differential equations with variable Coefficients, system of linear differential equations, heat wave and Laplace equation in two and three dimensions. Separation of variable technique, some boundary value problems and applications. Numerical solutions of differential equation. Complex analysis: Function of complex variables, differentiation and integration, analytic functions, cache theorem and cache formula. Contour integration, power, series expansion, conformal mapping vector analysis: Scalar and vector fields, vector, operator, application to geometry, line, surface and volume integral, divergence theorem of gauss stock’s and Green theorem. Curvilinear and orthogonal coordinates.

EE 235

Small signal amplifiers. Large signal amplifiers. Feedback oscillations and Op-Amp circuits. Power supplies. Timers.

EE 252

Introduction to power systems. Transmission lines: parameters, solution, electric performance, physical interpretation of TL equations, reactive power compensation and voltage control. Low voltage distribution: design, systems, associated power equipment and switch gear. Power factor correction. Load study.

ME 245

EE 353

Medium Voltage Distribution: design, system, associated power equipment. Transmission Lines: corona, insulators, towers, mechanical design, Traveling Waves and Transients on T.L, Power Cables.

EE 392

Introduction to Control Systems, The Concept of Feedback, Control Systems Components: the comparators, transducers, tachogenerators, System Modeling, The Transfer Function Block Diagram Representation, Signal flow diagram, Time response of 2nd order systems. Steady state error analysis, stability. Peripheral Devices: A/D, D/A, I/O ports. Interfacing Protocols: serial, parallel, modes of operations ( handshaking ). Interfacing Concepts: interrupts, parallel processing. Applications: micro controllers, PLC’s, microcomputers

MP 312

EE 354

Per Unit System. Symmetrical Faults. Symmetrical Components. Unbalanced Faults. Theory of Protection. Electromagnetic Relays: types, theories of operation, characteristics. Systems of protection. Protection of Power Equipment (Generators, Motors, OHTL, Cables, Buses, Transformers…). Protection of Complete Power Systems. Primary, Secondary, Control and Tripping Circuits. Damage Characteristics of Power Equipment. Relay Coordination.

EE 393

Frequency Response, Root Locus, stability in frequency domain, Cascade and Feedback Compensation, Design Methods Using the Root Locus and the Frequency Response Plots. Introduction to digital system: analysis using the Z-transform, digital filters and equalizers design.

HS 368

EE 455

Static Relays: theories, types, circuits, characteristics and applications. Digital relays: principles, types, operation, facilities, programming and applications. Relay Coordination of Complete Power System. Comprising Electromagnetic, Static and Digital Relays.

EE 495

The state space representation for analog and digital control. State space solution. Stability, Controllability and Observability. Pole assignment problems. Observers. Linear Feedback design to control analog and digital systems.

HS 437

EE 449

Hardwired controllers. Electronic controllers. Digital controllers. Programmable logic controllers (PLC). Embedded controllers. Industrial communication

EE 476

Definition of Drives and its Components. Types of loads. Choice of motors. Types and Considerations. Speed Control. Starting. Braking. Transmission of Drive. Thermal Considerations. Motor Insulation. Load Cycle and Motor Rating. Applications: traction systems, electric lifts.

HS 469

EE 402