# Courses

## Primary tabs

Course ID | Course Title | Course Description |
---|---|---|

ENEE2101 | BASIC ELECTRICAL ENGINEERING LAB |
(For Mechanical Engineering Students) |

ENEE2102 | CIRCUITS LAB |
Faults in electrical circuits, application of electrical network theorems, pulse response for first and second order electrical circuits, bridges and their applications, filter circuits, two-port circuits, resonance circuits, three-phase circuits, electrical transformers (Lab 3hrs). |

ENEE2103 | Circuits and Electronics Lab |
(Computer Systems Engineering Students) |

ENEE2301 | NETWORK ANALYSIS 1 |
Introduction to electrical engineering, electrical quantities and the basic elements of electrical circuits, dc circuit analysis, energy storage elements, first and second order circuits, sinusoidal steady state response, AC power and power factor correction, three phase circuits, magnetically coupled circuits and transformers, different applications in the electrical engineering. Using simulation tools for analysis and design of electric circuits. |

ENEE2302 | SIGNALS AND SYSTEMS |
The concept of system, and its input and output signals, classification of systems and signals, Linear time invariant systems and convolution theorem. System characterization by the impulse response, periodic signals and their Fourier series representation. Response of Linear time invariant systems to periodic input signals, Fourier transform, frequency response, and use of Fourier transform in system analysis. Applications of Fourier transform in communications. Sampling theorem, Laplace transform , Z-transform, Application of Laplace transform and z-transform in systems characterized by differential and difference equations. State space representation. |

ENEE2303 | ELECTRONICS 1 |
Semiconductor materials and PN junction, diode circuit applications, bipolar junction transistor structure and operation, BJT biasing circuits, small signal BJT amplifiers (CB, CE, and CC). Field effect transistor structures and operations, FET biasing circuits small signal FET amplifiers (CG, CS, CD), multistage amplifiers, frequency response of amplifiers, PnPn and other devices, using simulation tools for the design, and analysis of electronic circuits |

ENEE2304 | CIRCUIT ANALYSIS |
(Computer Systems Engineering Students) |

ENEE2305 | NETWORK ANALYSIS 2 |
Operational amplifier, Laplace transform analysis and circuit application, network functions, frequency selective circuits, Active filters analysis and design, two port networks, circuit topology and general circuit analysis, Using simulation tools for analysis and design of electric circuits. |

ENEE2307 | PROBABILITY AND ENGINEERING STATISTICS |
Set operations, axioms of probability, Bayes' theorem, independent events, the random variable, probability density function, examples of discrete probability distributions (Binomial, Poisson, geometric, hyper-geometric, multinomial), examples of continuous probability distributions (Normal, uniform, Log-normal, Gamma, Beta, Weibell), multivariate probability density functions, normal approximation to the Binomial distribution, population and sampling, unbiased estimators, sampling distribution of the mean with known and unknown variance, point and interval estimation, elements of hypothesis testing, linear correlation linear regression, least squares, the random process, stationarity and ergodicity, Gaussian random processes. |

ENEE236 | ANALOG ELECTRONICS |
(Computer Systems Engineering) |

ENEE2408 | ELECTRICAL MACHINES |
DC and AC magnetic circuits and their solution by application of electromagnetic field theory, electromechanical energy conversion. Single and three phase transformers theory Synchronous Generators, construction, principle of operation and control. Synchronous motors principle of operation and applications.Single and Three-phase induction motors, types, principle of operation, characteristics. DC generators and motors types and principle of operation. Practical control circuits for AC and DC motors. |

ENEE2409 | ANALOG ELECTRONICS |
(For Mechatronics students) |

Course ID | Course Title | Course Description |
---|---|---|

ENEE3101 | ELECTRICAL MACHINES LAB |
Selected experiments in the field of DC electrical machines (all types of motors and generators), single-phase and three-phase transformers, AC machines, three-phase induction machines, three-phase synchronous machines, single phase AC motors, contactors and relays application (Lab 3hrs). |

ENEE3102 | ELECTRONICS LAB |
Selected experiments on diode characteristics and applications, Transistor characteristics and biasing, amplifier circuits, multi-stage amplifier design, frequency response of amplifiers, differential amplifiers, operational amplifiers, power amplifiers, feedback amplifiers, oscillators, voltage amplifiers, thyristors (Lab 3hrs). |

ENEE3301 | LIGHTING AND ACOUSTICS ENGINEERING |
(For Architecture Engineering Students) |

ENEE3302 | CONTROL SYSTEMS |
(Computer Systems Engineering Students) |

ENEE3303 | PRINCIPLES OF COMMUNICATION SYSTEMS |
Review of Fourier analysis, bandwidth definitions, time-bandwidth relations and rise time, Amplitude Modulation Systems: Normal AM, DSBSC, SSBSC, Vestigial sideband modulation systems, frequency and phase modulation systems, modulation and demodulation of narrow band and wide band FM signals, FM bandwidth, preview of super heterodyne receiver, the sampling theorem, pulse amplitude, pulse width, and pulse position modulation, random processes: stationarity and ergodicity, transmission of a random process through a linear filter, power spectral density, Gaussian processes, noise and narrow band noise representation, noise in AM receivers, noise in FM receivers, pre-emphasis and de-emphasis, comparison between AM and FM systems in terms of performance in a noisy channel, sampling theorem, pulse code modulation, quantization and encoding, delta modulation, differential pulse code modulation, base band data transmission. |

ENEE3304 | ELECTRONICS 2 |
Audio-frequency linear power amplifiers and heat sinks, current sources and their applications in IC, integrated differential and operational amplifier, applications of operational amplifiers, feedback amplifiers, discrete and integrated oscillators, voltage regulators, using simulation tools for the design, and analysis of electronic circuits. |

ENEE3305 | POWER ELECTRONICS |
Semiconductors, principles of modern power electronic devices and their characteristics, power diodes, Triacs and power Transistors, power MOSFETs and IGBTs. Thyristors and their operation, protection, triggering and commutation circuits. Principles of power electronic circuits (converters) that convert between different types of voltages: AC-AC converters including frequency changing converters (cycloconverters), AC-DC converters (controlled and uncontrolled rectifiers), DC-AC converters (inverters), and DC-DC converters (choppers), applications of power electronics in to controlling either power systems or AC and DC machines. |

ENEE3306 | MODERN COMMUNICATION SYSTEMS |
The matched filter receiver, probability of error due to noise, intersymbol interference (ISI), Nyquist criterion for distortionless baseband data transmission, baseband M-ary PAM transmission, equalization, digital passband transmission, coherent detection of signals in noise, coherent binary PSK and FSK, coherent quadric-phase shift keying, non-coherent binary FSK, differential PSK, signal-space concept, M-ary modulation techniques, M-ary PSK, M-ary QAM, M-ary FSK, computing the probability of error of some band pass systems.Multiple Access Techniques; Frequency Division Multiple Access, Time Division Multiple Access, Code Division Multiple Access, Hybrid systems. Spread Spectrum Communication Systems. |

ENEE339 | COMMUNICATION SYSTEMS |
(Computer Systems Engineering Students) |

ENEE3408 | ELECTROMAGNETICS 1 |
Introduction to vector analysis and coordinate systems, static electric field, electric field intensity vector, the curl and divergence, Coulombs Law, Gauss's law in differential and integral forms, the potential integral, gradient of the potential function, Maxwell's equations in integral and differential form, conductor properties, boundary conditions, solution of Poisson and Laplace equations, the theory of images, steady electric current, conservation of charge and the continuity equation, force and torque on current-carrying circuits, boundary conditions, Poynting theorem, retarded potentials, wave equation, uniform plane wave propagation, the uniform damped and undamped plane waves, the skin effect, reflection of plane waves (conductors and dielectrics), the normal incidence case, transmission lines, telegraph equations, TEM waves along the transmission line, current relations. |

Course ID | Course Title | Course Description |
---|---|---|

ENEE4000 | PRACTICAL TRAINING |
Practical training during summer in a specialized institute for not less than 6 weeks. |

ENEE4101 | ELECTRICAL MACHINES AND POWER ELECTRONICS LAB |
(For Mechanical Engineering and Mechatronics Engineering Students) |

ENEE4103 | COMMUNICATIONS LAB |
Experiments on AM and FM modulation demodulation, experiments on sampling and multiplexing, Pulse Code Modulation (PCM), Delta Modulation (DM) and Sigma Modulation, experiments on noise in modulation techniques (digital and analog), digital carrier modulation, selected experiments on microwave, demonstration on transmission lines (Lab 3hrs). |

ENEE4104 | ENGINEERING SIMULATION LAB |
In this lab the student will be equipped with the necessary skills to design and implement integrated engineering projects starting with engineering simulation packages and ending with design of print circuit boards (PCB) (Lab 3hrs). |

ENEE4105 | CONTROL AND POWER ELECTRONICS LAB |
Selected experiments in the field of control systems, power electronics, speed control for electrical machines using power electronics, different methods for the design of electrical circuits for speed control of motors (voltage method, frequency method, ...etc.), AC-to-DC and DC-to-AC power conversion (Lab 3hrs). |

ENEE4202 | ELECTRICAL INSTALLATION AND DRAWING |
Introduction to electrical design in building, electrical loads and their types, electrical illuminations, single phase and three phase conductors, alarm systems, safety systems, control and protection systems, earthing systems, introduction to elevator and escalator systems, design and drawing of electrical installation systems using software packages, introduction to mechanical drawing practical experiments on electrical installations in buildings. |

ENEE4301 | ELECTRIC MACHINES AND POWER ELECTRONICS |
(For Mechanical and Mechatronics Engineering Students) |

ENEE4302 | CONTROL SYSTEMS 1 |
(Not For Computer Systems Engineering Students) |

ENEE4304 | INSTRUMENTATION AND MEASUREMENT |
Elements and applications of measurement systems, instrument types and performance characteristics, errors and noise during measurement process and how to treat them, grounding techniques, types of bridges and their applications, sensors/transducers: basic characteristic and selected practical examples of transducers . analog vs. digital measurements, analog to digital conversion (ADC) and digital to analog conversion (DAC) techniques and problems, basics of sampling. Various types of indicating instruments, structure and basic components of different measuring instruments, oscilloscopes, electronic measurement, data acquisition systems (DAS) using computers, case study of a selected data acquisition card. |

ENEE4403 | POWER SYSTEMS |
The structure of electric power networks, generation, transmission and distribution subsystems, application of basic electromagnetics to transmission line power transfer calculations, relation between current, voltage and power in short, medium and long transmission lines, modeling of electric power networks as single-line systems, the per-unit system for power system quantities, steady-state modeling using circuit analogies, the power flow or load flow equations and their analysis and numerical solution, optimal economic dispatch of electric power networks, symmetrical components, symmetric and non-symmetric fault calculations. Simulation of power systems using computer packages. |

Course ID | Course Title | Course Description |
---|---|---|

ENEE5101 | ADVANCED LAB IN COMMUNICATIONS |
Selected experiments in digital modulation schemes such as ASK, PSK, FSK, digital signal processing techniques and computer simulation, selected experiments on antennas in high frequency region such as (gain, band width, radiation pattern, etc), selected experiments on optical communication (Lab 3hrs). |

ENEE5102 | POWER LAB |
Selected experiments of training on power systems and power network calculations, analysis, solution of low power factor, reactive power and drop of voltage, study of the stability of the system, controlling of power networks using different approaches. DC and AC motor Drives, Choppers and Inverters, Programmable Logic Controllers (PLC) Application (Lab 3hrs). |

ENEE5200 | INTRODUCTION TO GRADUATION PROJECT |
Introduction to the final graduation project, the main aim is to gather the necessary information and materials about the final project, students present at the end of the semester the ongoing steps to be applied during the following semester. |

ENEE5300 | GRADUATION PROJECT |
Final graduation project, students should either design and implement a system related to the electrical engineering field or do research on a particular subject under supervision of an electrical engineering department member. |

ENEE5301 | ELECTRICAL DRIVE |
(Mechatronics Engineering Students) |

ENEE5302 | ELECTROMAGNETICS 2 |
Solution of Maxwell's equations in space, wave equation and wave propagation, propagation of electromagnetic waves in free-space, the uniform undamped and damped plane waves, reflection and refraction of electromagnetic waves, metallic waveguides and waveguide devices, elements of antennas and its properties, dipole antenna, antenna array theory, Microwaves, S-parameter, attenuators, Microwave Components, Microwave Measurements. Fiber optics, fiber optic types, single mode fiber optics, multi-mode fiber optics, maximum allowable data rate, capacity of the fiber-optical channel. |

ENEE5303 | ELECTRICAL MACHINE DRIVES AND SPECIAL MACHINES |
Special purpose and single-phase fractional horsepower motors and their applications in light industry, types of motors used in computer controlled processes and their control. Selecting the proper motor for doing a certain job. DC and AC motors control and drives. Power Electronics applications for AC and DC motor drive; soft starting, speed control and Soft Braking. Conventional and advanced control (microcomputer control).Programmable Logic Controllers (PLCs) and their applications. |

ENEE5304 | INFORMATION AND CODING THEORY |
Information measure, information sources, entropy, source coding, unique optimal codes, the first Shannon's theorem, discrete channels, mutual information, conditional entropy, channel capacity, Shannon’s second theorem, error detection and correction codes, transmission strategies, linear block codes, cyclic codes, convolutional codes, Trellis. |

ENEE5305 | WIRELESS COMMUNICATIONS |
Mobile Radio Signal Propagation, Path Loss and Channel Models, Large Scale Path Loss, Small Scale Path Loss, Modulation Techniques for Wireless Communication, Multiplexing, Multiple Access Techniques, Channel Equalizers, Cellular Concept and Cellular System Fundamentals, Trunking, Cell Splitting and Sectoring, Multipath Propagation, Diversity and Combining Techniques, Capacity of Cellular Communications, Wireless Generations and Standards, Global System for Mobile Communication (GSM), Code Division Multiple Access (CDMA) System, Multiple-Input Multiple-Output (MIMO) System, Modern Communications Systems |

ENEE5306 | PROTECTION AND AUTOMATION IN ELECTRICAL POWER SYSTEMS |
Transient Stability analysis of power systems, dynamic modeling and the swing equations. The protection system and its elements (current transformers, voltage transformers, circuit breakers, re-closers, fuses, relays), fault analysis (short circuit current calculation, selection of protection components), Relay operating principles, over-current, differential, distance, and pilot protection, digital relays. Protection of generators, motors, transformers, bus-bars and transmission lines. Systems for the automatic regulation of voltage, reactive power and frequency (AVR, ALFC and AFR). |

ENEE5307 | RENEWABLE ENERGY AND PHOTOVOLTIC POWER SYSTEMS |
Energy Fundamentals, review of conventional power systems, overview of renewable energy sources and systems, photovoltaic “PV” fundamentals, detailed study of PV systems, comparison of solar cell technologies, PV system components and design, wind resources, wind energy systems and their basic components, electrical generators for wind energy systems, site survey and pre-planning, standalone and grid-connected systems, system sizing and economic aspects |

ENEE5308 | CONTROL SYSTEMS 2 |
The concept of state, state-space linear models and their solution in the time and frequency domains, stability analysis with linear state space models in terms of system poles, controllability of linear systems and controllability tests, observability of linear systems and observability tests. State feedback and state estimation, pole placement method for SISO and MIMO systems, Linear systems observers. Optimal control systems. Non linear models and linearization, Lyapunov's methods for stability analysis of nonlinear systems, transformation of linear state-space models into transfer functions , the concept of system internal representation. Introduction to discrete control. |

ENEE5311 | SPECIAL TOPIC IN COMMUNICATION ENGINEERING |
Study of a particular subject related to Communications depending on students' needs and instructors interests. |

ENEE5312 | SPECIAL TOPIC IN COMPUTER ENGINEERING |
Study of a particular subject related to Computers depending on students' needs and instructors interests. |

ENEE5313 | SPECIAL TOPIC IN POWER ENGINEERING |
Study of a particular subject related to power systems depending on students needs and instructors interests. |