Electrical Electronics Engineering Department
COURSE DESCRIPTION
CHEM 111: General Chemistry 1: (3 Units)
Atoms, molecules and chemical reaction; Chemical equations and stoichiometry, Atomic structure and Periodicity; Modern electronic theory of atoms; Radioactivity; Chemical bonding; Properties of gases; Equilibrium and Thermodynamics; Chemical Kinetics; Electrochemistry.
CHM 122: General Chemistry II: (3 Units)
Historical survey of the development and importance of Organic Chemistry; nomenclature and classes of organic compounds; homologous series; functional groups; isolation and Purification of organic compound; Qualitative and quantitative Organic Chemistry; stereochemistry; determination of structure of organic compounds; electronic theory in Organic Chemistry; Saturated hydrocarbons; unsaturated hydro-carbons, Periodic table and periodic properties; Valence forces; Structure of solids. The Chemistry of selected metals, non-metals and qualitative analysis.
CHM 171/172: General Chemistry Laboratory: (2 Units)
Topic in different areas of General Chemistry to be treated.
GST 111: Communication English 1 (2 Units)
Effective communication and writing in English, Language skills, Writing of essay answers, Comprehension, Sentence construction, Outlines and paragraphs, Collection and organization of materials and logical presentation, Punctuation.
GST 112: Logic, Philosophy and Human Existence (2 Units)
A brief survey of the main branches of Philosophy Symbolic Logic Special symbols in symbolic Logic-conjunction, negation, affirmation, disjunction, equivalent and conditional statements law of tort. The method of deduction using rules of inference and bi-conditional qualification theory, Types of discourse, Nature of arguments, Validity and soundness; Techniques for evaluating arguments, Distinction between inductive and deductive inferences, etc. (Illustrations will be taken from familiar texts, including literature materials, Novels, Law reports and newspaper publications).
GST 113: Nigerian peoples and Culture (2 Unit)
Study of Nigeria history, culture and arts in pre-colonial times, Nigeria's perception of his world. Culture areas of Nigeria and their characteristics, Evolution of Nigeria as a political unit, Indigene/settler phenomenon, Concepts of trade, Economic self-reliance, Social justice, Individual attitude and conducts (cultism and related vices), Re-orientation of moral and national values, Moral obligations of citizens, Environmental problems.
GST 121: Use of Library, Study and ICT (2 units)
Brief history of libraries, Library and education, University libraries and other types of Libraries, Study skills (reference services), Types of library materials, using library resources including e-learning, e-materials, etc, Understanding library catalogues ( card, OPAC, etc) and classification, copyright and its implications, Database resources, Bibliographic citations and referencing. Development of modern ICT, Hardware Technology, Input devices, Storage devices, Output devices, Communication and internet services, Word processing skills(typing, etc).
GST 122: Communication in English 11 (2 Units)
Logical presentation of papers, phonetics, instruction on lexis, Art of public speaking and oral communication, figures of speech, precis, report writing.
GST 123: Communication in French (2 Units)
Introduction to French, Alphabetic and numeracy for effective communication (written and oral) Conjugation and simple sentence construction based on communication approach, sentence construction, comprehension reading of simple texts.
GST 125: Introduction to Entrepreneurship Studies (2 Units)
Some of the ventures to be focused upon include the following: 1, Soap/Detergent, Tooth brushes and Tooth paste making 2. Photography 3. Brick, nails, screws making 4. Dyeing/Textile blocks paste making. 5. Rope making 6. Plumbing 7. Vulcanizing 8. Brewing 9. Glassware production/Ceramic, production 10. Paper production 11. Water treatment/Conditioning/Packaging 12. Food processing/packaging/preservation 13. Metal working/Fabrication - Steel and aluminum door and windows. 14. Training industry 15. Vegetable oil/and Salt extractions 16. Plastic making 19. Farming (crop) 20. Domestic Electrical wiring 21. Radio/TV repairs 22. Carving 23. Weaving 24. Brick laying making 25. Bakery 26. Tailoring 27. Iron welding 28. Building drawing 29. Carpentry 30. Leather tanning 31. Interior decoration 32. Printing 33. Animal husbandry (Poultry, Piggery, Goat etc) 34. Metal Craft -Blacksmith, Tinsmith etc. 35. Sanitary wares 36. Vehicle maintenance 37. Bookkeeping.
MTH 111: Elementary Mathematics 1 (Algebra and Trigonometry): (3 Units)
Elementary set theory, subsets, union, intersection, complements, venn diagrams. Real numbers: integers, rational and irrational numbers, mathematical induction, real sequences and series, theory of quadratic equations, binomial theorem. Complex numbers: algebra of complex numbers, the Argand Diagram, De Moivre’s theorem, nth roots of unity. Circular measure, trigonometric functions of angles of any magnitude, addition and factor formulae.
MTH 121: Elementary Mathematics 11 (Vectors, Geometry and Dynamics): (3 Units)
Geometric representation of vectors in 1-3 dimensions, components, direction cosines, Addition, Scalar, multiplication of vectors, linear independence, Scalar and vector products of two vectors. Differentiation and integration of vectors with respect to a scalar variable. Two-dimensional co-ordinate geometry. Straight lines, circles, parabola, ellipse, hyperbola. Tangents, normals, Kinematics of a particle. Components of velocity and acceleration of a particle moving in a plane. Force, momentum, laws of motion under gravity, projectiles, resisted vertical motion. Angular momentum, Simple harmonica motion, elastic string, simple pendulum, impulse, Impact of two smooth spheres and of a sphere on a smooth surface.
MTH 122: Elementary Mathematics 111 (Calculus): (3 Units)
Function of a real variable, graph, limits and idea of continuity. The derivative, as a limit of rate of change, techniques of differentiation, Extreme curve sketching; integration as inverse of differentiation, Methods of integration, Definite integrals, Application to areas, volumes.
MTH 132: Elementary Mathematics IV (Mathematical Methods): (3 Units)
Real-valued functions of areal variable. Review of differentiation and integration and their applications. Mean value theorem. Taylor series. Real-valued functions of two or three variables. Partial derivatives, chain rule, extrema, languages multipliers. Increments. Differentials and linear approximations. Evaluation of line, integrals. Multiple integrals.
PHY 111: General Physics (Mechanics): (3 Units)
Space and time, frames of reference, Units and dimension Kinematics; Fundamental Laws of Mechanics, statics and dynamics; Galilean invariance; Universal gravitation; work and energy; rotational dynamics and angular momentum; conservation laws.
PHY 122: General Physic 11 (Electricity and Magnetism): (3 Units)
Electrostatics; conductors and currents; dielectrics; magnetic fields and induction, Maxwell's equations; electromagnetic oscillations and waves; Application.
PHY 132: General Physic 111: (2 Units)
Molecular treatment of properties of matter, elasticity; Hook's law, Young's shear and bulk moduli. Hydrostatics; Pressure, buoyancy. Archimedes' Principles. Hydro- dynamics; Stream¬lines, Bernoulli and continuity equations, turbulence, reynold's number; viscosity; laminar flow, Poiseuille's equation. Surface tension, adhesion, cohesion, capillarity, drops and bubbles. Temperature; the zeroth law of thermodynamics; heat: gas laws; laws of thermodynamics; Kinetic theory of gases. Applications.
PHY 171/172: General Physics Laboratory: (2 Units)
This introductory course emphasizes quantitative measurements, the treatment of measurement errors, and graphical analysis. A variety of experimental techniques will be employed. The experiments include studies of meters, the oscilloscope, mechanical systems; electrical and mechanical resonant systems, light, heat, viscosity, etc covered in General Physical 1, and 111.
CPE 211: Information Technology in Engineering (2 Units)
Identification of PC parts and peripheral devices: Functions, applications, and how to use them. Safety precautions and preventive maintenance of PC. Filing system: Directory, sub¬directory, file, path, and how to locate them. Word processing: Principle of operation, applications, demonstrations, and practical hand-on exercises in word processing using a popular word processing package. Internet: Available services, principle of operation, applications, demonstrations, and hand-on exercises in e-mail, and www. Spreadsheet: Principle of operation, applications, demonstration, and practical hands-on exercises in use of spreadsheets to solve problems. Database Management package: Principle of operation, applications, demonstrations and practical hands-on exercises in use of DBMS package in solving problems. Report Presentation Software Packages: Principle of operation, applications, demonstrations, and practical hands-on exercises in use of a popular report presentation package (such as PowerPoint). Mini-project to test proficiency in use of software packages. 15hrs (Teaching & Demonstrations), 30hrs (Practicals).
CPE 231: Computers & Computing (3 Units)
Program design using pseudo-code/flowchart. Extensive examples and exercises in solving engineering problems using pseudo-code/flowchart. Computer programming using structure BASIC such as QBASIC: symbols, keywords, identifiers, data types, operators, statements, flow of control, arrays, and functions. Extensive examples and exercises in solving engineering problems using QBASIC. Use of Visual programming such as Visual BASIC in solving engineering problems. 15 hrs (Teaching & Demonstrations), 30hrs (Practicals)
ECH 211: Chemistry (2 Units)
Thermo-chemistry, electro-chemistry, kinetic theory, gas laws, transition metals, introductory organic and inorganic chemistry.
EEE 242: Basic Electrical Engineering (3 Units)
(i) Circuits - elements, DC and AC circuits, Basic circuit laws and theorems. Resonance, power, power factors, 3-phase circuits.
(ii) Introduction to machines and machine designs.
(iii) Physics of devices - Discharge devices, semi-conductors, diode and transistors.
(iv) Transistor characteristics, devices and circuits.
(v) Electrical and electrical power measurements.
EMT 201: ENGINEERING MATHEMATICS) (3 Units)
Complex analysis - Elements of complex algebra, trigonometric, exponential and logarithmic functions. Real number, sequences and series.
(i) Vectors - Elements, differentiation and integration.
(ii) Elements of linear algebra.
EMT 202: ENGINEERING MATHEMATICS II (3 Units)
(iii) Calculus - Elementary differentiation. Relevant theorems.
(iv) Differential equations - Exact Equations, Methods, for second order equations, Partial differential equation. Simple cases - Applications,
(v) Numerical Analysis — linear equations, non-linear equations, Finite difference operators; Introduction to linear programming.
FET 202: Engineering-In-Society (2 Units)
(i) Philosophy of Science
(ii) History of Engineering and Technology
(iii) Safety in Engineering and Introduction to Risk Analysis
(iv) The Role of Engineers in Nation Building
(v) Invited Lectures from professionals.
GST 221: History and philosophy of science (2 Units)
Man-his origin and nature, Man and his cosmic environment, scientific methodology, science and technology in the society and science of man and his energy resources-man and his energy resources, Environmental effects of chemical plastics, Textiles, wastes and other material, Chemical and radiochemical hazards, Introduction to the various areas of science and technology.
Elements of environmental studies.
GST 222: Peace Studies and conflict Resolution (2 Units)
Basic concepts in peace studies and conflicts resolution, peace as vehicle of unity and development, conflicts issues, types of conflicts, e.g. Ethnic/religious/political/economic conflicts, Root causes of conflicts, and violence in Africa, indigene/settler phenomenon, peace-building, management of conflict and security. Elements of peace studies and conflicts resolution, Developing a culture of peace, peace mediation and peace-keeping, Alternative Dispute Resolution (ADR), Dialogue/arbitration in conflict resolution, Role of international organizations hi conflict resolution, e.g. ECOWAS, African Union, United Nations, etc.
GST 215: Introduction to Entrepreneurial Skills (2 Units)
Introduction to entrepreneurship and new venture creation; Entrepreneurship in theory and practice; The opportunity, Forms of business, Staffing, Marketing and the new venture; Determining capital requirements, Raising capital; Financial planning and management; Starting a new business, Feasibility studies; Innovation; Legal Issues; Insurance and environmental considerations, Possible business opportunities in Nigeria.
MEC 211: Engineering Drawing (2 Units)
(i) Use of draughting instruments, lettering, dimensioning, layout.
(ii) Engineering graphics - Geometrical figure, comics, etc. Graphical calculus and Applications. Development, intersection of curves and solids
(iii) Projections - lines, planes and simple solids. Orthographic and projections, simple example Threaded fastness.
(iv) Pictorial/Freehand Sketching.
(v) Conventional practices
(vi) Introduction to Computer Aided Drafting: Electronic draughting packages: principle and use in engineering design. Simulation packages: principles and use in engineering.
MEC 212: Fluid Mechanics (2 Units)
(i) Elements of fluid statics; density; pressure, surface tension, viscosity, compressibility etc.
(ii) Hydrostatic forces on submerged surfaces due to incompressible fluid.
(iii) Introduction to fluid dynamics - conservation laws.
(iv) Introduction to viscous flow.
MEC 221: Applied Mechanics (3 Units)
Statics, Laws of statics, system of forces and their properties, simple problems, Friction.
(i) Particle dynamics - Kinematics of plane motion. Newton's laws - Kinetics of particles, momentum and energy methods.
(ii) Kinematics of rigid body - velocity and acceleration diagrams for simple problems.
(iii) Kinetics of rigid bodies - Two dimensional motion of rigid bodies, energy and momentum, Mass, Moment of inertia, Simple problems.
(iv) Simple harmonic motions.
MEC 222: Thermodynamics (2 Units)
(i) Basic concepts, definitions and laws.
(ii) The ideal gas, Heat and Work.
(iii) The first Law of thermodynamics, applications to open and closed system.
(iv) The steady State flow equation (Bernoulli's Equation) and applications.
(v) Second law of thermodynamics and Heat Cycles.
MEC 231: Materials Science (2 Units)
Atomic and molecular structure, crystals, Metallic states, Defects in crystals, conductors, semi - conductors and insulations.
(i) Alloy theory — Application to industrial alloys — steel in particular.
(ii) Engineering Properties - Their control, Hot and cold working, heat treatment, etc. Creep, fatigue and fracture. Corrosion and corrosion control.
(iii) Non - metallic materials - glass, rubber, concrete, plastics, wood and ceramics.
(iv) Elastic and plastic deformations: Defects in metals
MEC 242: Manufacturing Technology/Workshop Practices (2 Units)
Elementary introduction to types and organization of engineering Workshop, covering jobbing, batch, mass production.
(i) Engineering materials: their uses and properties.
(ii) Safety in workshop and general principles of working. Bench work and fitting: Hand tools, instruments.
(iii) Carpentry: Hand tools and working principles. Joints and fastenings: bolt, rivet, welding, brazing, soldering. Measurement and marking: for uniformity, circulatory, concentricity, etc.
(iv) Blacksmith: Hand tools and working principles. Joints and fastenings: Bolt, rivet, welding, brazing, soldering, measurement and marking: for uniformity, circulatory, concentricity, etc.
(v) Standard measuring tools used in workshop: Welding, brazing and soldering: Principles, classification, power source.
(vi) General principles of working of standard metal cutting machine tools.
(vii) Invited lectures from Professionals.
CVE 222: Strength of Material (2 Units)
(i) Force equilibrium — free body diagrams.
(ii) Concept of stress, strain; tensile test. Young's module and other strength factors.
(iii) Axially loaded bars, composite bars, temperature stresses and simples indeterminate problems. Hoop stresses in cylinders and rings.
(iv) Bending moment, shear force and axial force diagrams for simple cases, simple torsion and application.
EMT 201: Engineering Mathematics 1 (3 Units)
Complex analysis – Elements of complex algebra, trigonometric, exponential and logarithmic functions. Real number, sequences and series.
(i) Vectors – Elements, differentiation and integration.
(ii) Elements of linear algebra.
EMT 202: Engineering Mathematics 11 (3 Units)
(i) Calculus – Elementary differentiation. Relevant theorems.
(ii) Differential equations – exact Equations. Methods for second order equations. Partial differential equation. Simple cases - Applications.
(iii) Numerical Analysis – linear equations, non-linear equations. Finite difference operators: introduction to linear programming.
EMT 301: Engineering Mathematics III (2 Units)
Linear Algebra – Elements of Matrices, determinants, Inverse of matrix, Theory of linear equations, eigenvalues and eigenvectors. Analytic geometry – co-ordinate transformation – solid geometry polar, cylindrical sand spherical co-ordinates. Elements of functions of several variables. Numerical differentiation, solution of ordinary differential equation, Curve fitting. Simple linear programming, Fourier series – Euler coefficients, even and odd functions, Sine and cosine functions, Simple Applications. Gamma, Beta and probability functions.
Differential equation of second order – series solutions. Legendre and Bessel functions and their properties. Vector Theory – Dot product, cross product, divergence, curl and Del operators. Gradient. Line, surface and volume integrals and related theorems.
Complex variables – advanced topics, differentiation and integration of complex functions. Cauchy – Rieman equations: Related theorems: Laplace and Fourier transforms – Applications.
Introduction to non-linear differential equations – stability and Applications.
Probability – Elements of probability, density and distribution functions, moments standard distribution, etc.
Statistics – Regression and correlation – Large sampling theory. Test hypothesis and quality control.
EMT 302: Engineering Mathematics IV (4 Units)
Introduction to Partial differential equations. Fundamental equations of mathematical physics. Classification of quasilinear differential equations of the second order. Properly posed initial and boundary value problems for linear differential equations of the second order. Correctness of properly posed problems of mathematical physics. Problems in heat transfer (parabolic equation); wave propagation (hyperbolic equations); steady-state (elliptic equation). Problems in different co-ordinate systems, boundary value problems.
EEE 311: Electromechanical Devices and Machines I (2 Units)
Magnetic Circuits:
Magnetic field, mechanical energy conversion principles
Magnetic circuits: Magnetic field, magnetic circuits, magnetic field energy, electromechanical energy conversion principles. Alignment force and torque, single excitation. Other interaction forms, Interaction force, prototype two-pole cylindrical machine, Multi-polar machines, Elementary linear machines, Basic elements of an electrical machine, Basic concepts of flux linkage and linkage change.
Transformers:
General features and principle of operation, Transformer classification, Equivalent circuits and phasor diagrams, Determination of transformer parameters. Performance calculations, voltage regulation, efficiency, Parallel operation, load sharing. Auto transformer, audio transformer, potential and current transformer, vector grouping and connections, harmonics and noise, tap-changing transformer, three-winding transformers, rating.
EEE 312: Electromechanical Devices and Machines II (2 Units)
Three Phase Systems: Complex power flow in three phase circuits, measurement of power in 3- phase A.C Circuits.
Dynamics of single-excited systems:
DySystem behaviour. Electric circuit equations. Conversion relations; Equation of motion; A.C. Excitation; Parameter generator; other limited - motion devices; machines with multiple excitation; Machines with single excitation, machines with double excitation, machines with multiple excitation. Pulsation and motional voltages, linear motion interaction machines, Electro-acoustic machines, Elements of industrial rotating machines. Winding: Phase windings, commutator windings, winding technique, winding inductance, inductance of winding assemblies, rotating magnetic field, electromotive force, coi EMF, Phase E.M.F. commutator E.M.F. commutator/phase E.M.F.
EEE 321: Circuit Theory 1 (3 Units)
Laplace and Fourier transforms, application of Laplace transformation to transient analysis of RLC circuits, transfer function concepts, reliability of transfer functions, Foster and Cauer's methods of Synthesis, 2-port network synthesis, active filters.
EEE 322: Circuit Theory II (3 Units)
Approximation to non-linear characteristic analysis and synthesis of non-linear resistive circuits, harmonic analysis of non-linear dynamic circuits, applications of computers in the analysis.
EEE 331: Digital Electronics Circuit (2 Units)
Number Systems and Codes, Logic Gate Simplification of Logic expressions using Boolean algebra. Simplification of Logic expressions using Karnaugh Method. Design combinational circuit. Flip-Flops. Application of Flip-Flops in the design of counters, registers and timers, Switching and Waves shipping circuit. Generation of non sinusoidal signal (multi vibrators). Introduction to ADC and DAC. Design of Logic Gates (Diode, DTL, TTL, ECL etc).
EEE 332: Analogue Electronic Circuit (2 Units)
Review of single-stage transistor amplifiers using BITS and EETs Equivalent circuit and calculation of current gain, voltage gain, power gain, input and output impedance. Operational Amplifiers: Parameters and applications. Feedback, Broadband and narrowed band amplifiers, Power amplifiers, voltage and current stabilizing circuit, Voltage amplifiers, multi storage amplifier. Using BJTs and FETs.
EEE 341: Physical Electronics (3 Units)
Free electron motion hi static electric and magnetic fields, electronic structure of matter, conductivity hi crystalline solids. Theory of energy hands in conductors, insulators and semi¬conductors; electrons in metals and electron emissions; carriers and transport phenomena in semi-conductors, characteristics of some electron and resistors, diodes, transistors, photo cell and light emitting diode. Elementary discrete devices fabrication techniques and 1C technology.
EEE 351: Electromagnetic Fields And Waves I (3 Units)
Review of electromagnetic laws in integral form, Gauss's Law, Ampere's and Faraday's Laws: Electrostatic fields due to distribution of charge, magnetic fields in and around current carrying conductors, time-varying magnetic and electric fields; conduction and displacement current;
EEE 352: Electromagnetic Fields and Waves II (3 Units)
Maxwell's equation (in rectangular co-ordinates and vector-calculus notation): Derivation of Maxwell's equations; electromagnetic potential and waves; Poynting vector; Boundary conditions; wave propagation in good conductors, skin effect; plane waves in unbounded dielectric media. Fundamentals of transmission lines, wave-guides and antennae.
EEE 362: Numerical Methods (4 Units)
Polynomials and their zeros - methods of bisection, Newton, Bairstow, synthetic division and Lehmer; Direct methods for the solution of linear equations; Iterative process, its application to the solution of simultaneous linear equations; convergence; interpolation and differentiation method in Numerical integration - Newton Coates formulae and finite difference methods; The Eigen system problem Solution of ordinary differential equations - methods of Taylor, Euler, Predictor - Corrector and Runge-Kutta. Use of appropriate soft ware packages (e.g. math lab) should be encouraged.
EEE 372: Analogue Electronic Laboratory (1 Units)
A laboratory work on electronic circuits designed to illustrate topics covered in Electronic Circuits.
EEE 411: Electric Power Principles (3 Units)
Introduction to power systems and sources of electric energy, structure of electric system, load characteristics, electric energy transmission and distribution, line impendence, representation and per unit systems, relationship between currents and voltage; regulation of voltage, transmitted power and losses; construction of overhead lines and underground cables; power system equipment; standard and safety.
EEE 421: Communication principles (3 Units)
Amplitude modulation; double sideband, single sidedband and vestigial sideband modulation schemes; simple modulators, power and bandwidth performance, Angle modulation; frequency modulation, phase modulation, band width requirements, clippers and limiters. Amplitude modulated signal reception; discrimination, frequency tracking loop, phase locked loop and noise performance. Commercial radio systems. Transmission media; attenuation in open space, air, cable and fibre channels; construction of cables and fibres, sampling theorem, pulse amplitude modulation, pulse width modulation, multiplexing, quantization systems and pulse code modulation, delta modulation, courses and correction of errors in PCM and DMA
EEE 431: Electrical Machines (3 Units)
Review of electromechanical energy conversion, rotating magnetic fields, performance and methods of speed control of DC machines, induction motors, linear induction motors, circle diagrams, power transformers, parallel operation of 3 - phase transformers. Performance of synchronous machines, parallel operation of synchronous generators, fractional horse-power motors, single-phase induction motors, universal motors. Reluctance motors, hysteresis motors. Faults on machines, methods of starting and protection of machines.
EEE 432: Control Theory (3 Units)
Basic concepts and examples of control systems; Feedback, Time response analysis, concept of stability, Routh-Hurwits criterion, Root-locus techniques, Frequency-response analysis, Polar and Bode plots, Nyquist stability criteria, 91. Nicholas chart, compensation techniques chart, compensation techniques, introduction to non-linear systems.
EEE 441: Measurements and Instrumentation (3 Units)
General Instrumentation, Basic Meter in DC measurement. Basic meter in AC measurements; rectifier voltmeter, electro-dynamometer and Wattmeter, instrument transformers; DC and AC bridges and their applications; general form of AC bridge universal impendence bridge; Electronic instruments for the measurement of voltage, current resistance and other circuit parameter, electronic voltmeters, AC voltmeters using rectifiers, electronic multimeter, digital voltmeters; oscilloscope; vertical deflection system, horizontal deflection system, probes, sampling CRO, Instruments for generating and analyzing waveforms; square-wave and pulse generator, signal generators, function generators, wave analyzers, Electronic counters and their applications; time base circuitry, universal counter measurement modes; Analog and digital data acquisition systems; tape recorders, D/A and A/D conversions, sample and hold circuits.
EEE 461: Electrical Machines Laboratory (2 Units)
A laboratory work on electrical machines designed to illustrate topics covered in Electromechanical Devices and Machines.
EEE 471: Telecommunication Laboratory (2 Units)
A laboratory work on telecommunication designed to illustrate topics covered in Communication Principles as well as topics such as passive filters, turned circuits and active analogue filters.
EEE 511: Power Systems Engineering (3 Units)
Representation of power systems, power system equation and Analysis, load flow studies, load forecasting, economic operation of power systems, symmetrical components, symmetrical and asymmetrical faults, various types of relays used in power systems, protection systems, of power transmission lines, principles of fault detection, discrimination and clearance, elements of power systems stability
EEE 512: Power System Communication and Control (2 Units)
Review of transmission line theory High frequency communication on power lines carrier systems and power line carrier applications. Multiplexing, Telementering, Signal processing and data transmission. Control of power generation, voltage control, system stability, automatic voltage regulators, regulating transformers.
EEE 512 (I): Micro-Computer Hardware and Software Techniques (3 Units)
Elements of digital computer design; control unit, micro-programming, bus organization and addressing schemes. Micro-processors, system architecture, bus control, instruction execution and addressing modes. Machine codes, assembly language and high-level language programming, Micro-processors as state machines. Microprocessor interfacing; Input/output, Technique, interrupt systems and direct memory access; interfacing to analogue systems and direct memory access; interfacing to analogue systems and applications to D/A and A/D converters. System development tools: simulators, EPROM programming, assembles and loaders, overview of a available microprocessor application.
EEE 521: Advanced Circuit Techniques (2 Units)
Analysis and design of integrated operational amplifiers and advanced circuits such as wideband amplifiers, instrumentation amplifiers, multiplier circuits, voltage controlled oscillators, and phase locked loops, Design techniques for advanced analogue circuits containing transistors and operational amplifiers. Simulation of circuits using appropriate packages e.g. PSPICE, Electronic workbench, Visio technical etc should be encouraged.
EEE 522 (I): Process Control (2 Units)
Definition and element of process control. Process Control Devices; Characteristics and principles of operation of various thermal transducers, optical transducers, mechanical transducers.
Comparison of analogue and digital processing, Analogue and signal conditioning. Evaluation of process control, System evaluation criteria, dynamic response evaluation, process control loop stability, Digital control processes.
EEE 522: Telecommunication Engineering (2 Units)
Cable telegraphy and telephony characteristics, cross talk, equation, Poleliness, aerial and underground cables, Telegraph systems, codes, radio systems, terminal equipment (teleprinters, relays, switching systems, repeaters), Telephone receivers, switching (crossbar, electronic switches), PBX, PABX, Transmission standards, Telephone network structure.
EEE 531 Electrical Services Design (2 Units)
Lighting installation, power installation, energy supply and distribution, choice of cables and conductors, wiring systems and accessories, outdoor low voltage lines and cables, protection of low voltage installation, and characteristics of low voltage equipment, Earthing and testing of electrical installation, illumination.
EEE 532: Advanced Computer Programming and Statistics (3 Units)
Elements statistics; Distribution and experiment; law of large number; Numerical iteration procedures, Revision of FORTRAN and BASIC in Engineering. Application programme in computer aided design of Electrical and Electronic systems.
EEE 541: Control Engineering (3 Units)
State space description of linear systems, concepts of controllability and observability; state feedback, modal control observers, realization of systems having specified transfer function, applications to circuit synthesis and signal processing.
EEE 542: Switchgear and High Voltage Engineering (2 Units)
Switching characteristics of diodes, transistors, thyristors etc. analysis of diode circuit with reactive loads, analysis of circuits using transistors as switches, power control circuits, ACDC converters, characteristics of switching transformers, power semi-conductor device protection, examples of power electronic circuits, solar devices.
EEE 542 (I): Industrial Instrumentation (2 Units)
Measurements, Transducers, Displacement and strain measurement, Measurement of force, Torque and Angular Velocity, Pressure measurement, Temperature measurement, Level measurement, Measurement of Humidity, Moisture, Viscosity and pH3 Overview of process controllers (SCADA, DCS, DAS, Data Loggers).
Introduction to Programmable Logic Controller (PLC), Telemetry, Display Devices and Systems, Monitors and Recorders, Microprocessors and Computers in Instrument.
EEE 551: Power Electronics and Devices (2 Units)
Switching characteristics of diodes, transistors, thyristors etc. analysis of diode circuit with reactive loads, analysis of circuits using transistors as switches, power control circuits, ACDC converters, characteristics of switching transformers, power semi-conductor device protection, examples of power electronic circuits, solar devices.
EEE 552: Electromechanical Devices Design (2 Units)
Design of transformers, principles of AC and DC machine design, introduction to parks equations.
EEE 552 (C): Communications Systems Engineering (3 Units)
Microwave frequencies and uses; microwave transmission in transmission lines and wave guides, microwave circuits; impendence transformation and matching, microwave circuits; passive microwave devices, resonant and filter circuits, active microwave devices; Klystron and magnetron tubes and semiconductor devices for microwave generation. Antennae; definitions of elementary parameters related to radiation patterns; dipole and operture antennae and the related design parameters; introduction to antennae arrays. Radio wave propagation; propagation in the ionosphere, tropoposphere and in stratified media; principles of scatter propagation; applications in general broadcast, television and satellite communication systems. Radar systems nature of radar and radar equations; composition of a radar system; application of different types of radars.
EEE 561: Industrial Electronics Design (2 Units)
Characteristics and industrial applications of thyristors and other SCR devices. Transducers and their applications in sensing light, voltage pressure, motion, current temperature, etc. Mechanical relays, solid state relays and stepping motors. Real time control and remote control concepts in instrumentation. Micro-processor and micro-computer based systems. Fire alarms, burglar alarms and general home and industrial instrumentation.
EEE 562: Digital Signal Processing (2 Units)
Discrete signals and Z-transform, digital Fourier Transform, Fast Fourier Transform. The approximation problem in network theory. Synthesis of low-pass filters. Spectral transform and their application in synthesis of high-pass and band-pass filters. Digital filtering, digital transfer function aliasing, one-dimensional recursive and non-recursive filters; Computer techniques in filter synthesis, Realization of filters in hardware and software. Basic image processing concepts.
EEE 571: Reliability and Maintainability (2 Units)
Introduction to Reliability, maintainability, availability, Elementary reliability theory. Application to power systems and electronic components. Test characteristics of electrical and electronic components. Types of fault. Designing for higher reliability, Packaging, Mounting, Ventilation, Protection from humidity, dust.
EEE 572: Data Communication and Network (2 Units)
Concept of Data Communication; Network design rules; protocols; Networking; improved digital; SOH, ATM, networks; ISDN; Internet, virtual worlds; Network management.
EEE 581: Seminar (2 Units)
Each student must undertake a seminar under the supervision of a lecturer, submit a comprehensive seminar report at the end of the year. Each student must attend Engineering Seminars.
EEE 582: Digital Communications System (2 Units)
Block Diagram of digital communication system sampling theorem. Shannm theorem and applications in digital communication system. Advantages of digital signals. Noise in digital system. Filtering and equalization. Digital modulation techniques: FSK, ASK, QPSK, M-PSK, QAM, etc. Error detection and correction techniques. Encoders/Decoders. Applications of digital communication system: Satellite communication, telephoning microwave, wireless communication, optical communication, Broadband. Communication, Internet Technology.
EEE 592: Project (6 Units)
This course lasts for one academic session. Each student must undertake a project under the supervision of a lecturer. A project status report is to be presented at the end of the first semester. The purpose of the project is to develop in students the ability for independent research through study, analysis, design and implementation of substantial project in any particular area of Electrical/Electronic Engineering such as power systems, communication systems, biomedical systems, electronics and instrumentation systems engineering. The Projects may depend on research interest of Staff or industrial collaboration. Thus, students will be required to choose their topics in consultation with their project supervisors. It is in exercise involving the professional application of the skills and experience gained in the undergraduate program. It offers the students the opportunity to develop initiative, creativity and design ability. Students are expected to document their work and report their findings in formal reports and give oral presentations at the conclusion of their projects.
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