course curriculum for the degree of bachelor of...
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Course Curriculum for the Degree of Bachelor of Science (B.Sc.) in Electronic and Electrical Engineering, Faculty of Technology, Obafemi Awolowo University, Nigeria
To be eligible for the Degree of B.Sc. in Electronic and Electrical Engineering, a
candidate must satisfactorily complete a minimum of 194 units including:
12 units of Special Electives.
30 units of Part-One Physics, Chemistry and Mathematics courses.
88 units of Electronic and Electrical Engineering courses excluding Industrial
Attachment.
5 units of Agricultural Engineering courses comprising AGE 202 and AGE
302.
9 units of Chemical Engineering courses comprising CHE 201, CHE 305 and
CHE 306.
5 units of Civil Engineering courses comprising CVE 202 and CVE 401.
5 units of Computer Science and Engineering courses comprising CSC 201 and
CSC 208.
8 units of Part-Two Mathematics courses comprising MTH 201 and MTH 202.
10 units of Mechanical Engineering courses comprising MEE 203, MEE 204,
MEE 205 and MEE 206.
3 units of Metallurgical and Material Engineering courses comprising MME
201.
7 units of Technology Policy and Planning courses comprising TPD 101, TPD
501, TPD 502 and TPD 503.
15 units of Industrial Training courses comprising EEE 200, EEE 300 and EEE
400.
1. PART-ONE COURSES
A. Harmattan-Semester Courses (Part-One)
CHM 101: Introductory Chemistry I:
[4-1–0] (5 Credit Units) Harmattan Semester
Course Content:
Introduction
Method of Science: Measurement and precision. Significant figures, errors in
quantitative measurements, nature of matter, elements and compounds. Types
of chemical reactions.
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Atomic Theory and Nature of Atoms
Dalton’s atomic theory: Atomic weight, Avogadro’s number: structure of the
atom. Cathode rays: mass spectrometer: contributions to atomic structure by
Bohr, Thompson, Morseley and Rutherford; Discovery of nucleus: electronic
energy levels and Periodic Table: Atomic size; Ionization potentials, Electron
affinity: ionic radii and electronic configuration.
Stoichiometry I Chemical formulae and equations; simplest formulae; molecular formulae;
mole concept; calculation of formulae and equations from gravimetric data and
vice versa; ionic equations for neutralization and precipitation reactions.
Concentrations; Molarity and Volumetric calculations based on stoichiometric
coefficients; Oxidation and reduction as electron transfer; oxidation number;
balancing of equations including balancing of redox equations by electron
transfer equality.
Stoichiometry II
Volumetric analysis including relevant calculations. Preparation of standard
solutions, Molarity and volumetric coefficients in neutralization, redox
precipitation and complexation reactions.
Chemical Equilibria
The equilibrium state; Mass action; equilibrium constant calculations;
Equilibrium changes; dissociation of water; pH of acids and bases; buffer
solutions; Indicator theory; Solubility of ionic solids; solubility products;
precipitation reactions (using solubility products); calculations as applied to
qualitative and quantitative analysis. Common-ion effect.
Thermochemistry Balancing of intermolecular forces. Hydrogen bonding; order-disorder
phenomenon; entropy; free energy; energy effect; exothermic and endothermic
changes; enthalpy of reaction, Hess’s Law of enthalpy summation (with
relevant calculations); heats of neutralization, combination and formation; bond
dissociation energies; relevant calculations; free energy and spontaneous
energy.
Electrochemistry
Electrical units; Ohm’s law; Faraday’s law of electrolysis; Galvanic cells;
Standard Half-Cell potentials and reactions.
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Concentration effects (Nernst equation). Redox reactions; oxidation potential
treated in terms of free energy changes; cells and batteries.
Kinetics Introduction to chemical kinetics, basic definition of order of reaction,
molecularity, reaction rates and simple reaction mechanism, Activation energy
and kinetic theory.
Radioactivity Types of radioactive disintegration; Nuclear fission and fusion; Detection of
radioactivity; Uses of radio-isotopes.
MTH 101: Elementary Mathematics I:
[4-1–0] (5 Credit Units) Harmattan Semester
Course Content:
Set Theory:
Sets, Union, Intersection, empty set and universal set, complement of a set,
subset, finite and infinite sets, Venn diagrams, Mappings and Functions
Operations with Real Numbers:
Real numbers (R) and its extension to the set of complex numbers (C).
Equations involving one variable, the Remainder Theorem, and the Factor
Theorem. Equations in two variables, inequalities, partial fractions, surds,
indices and logarithms
Theory of Quadratic Functions and Equations: The quadratic function and the relation between the roots of a quadratic
equation and the coefficients.
Sequences and Series:
Finite sequences and series, the arithmetic sequences and series, the finite and
infinite geometric sequences and series.
The Binomial Theorem: Elementary examples in the use of induction, permutations and combinations
and their applications. The Binomial Theorem for a positive integral index. The
use of the expansion (1 + 𝑥)𝑛, where 𝑛 is fractional or negative; simple
approximations.
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Matrices
Definition of 𝑚 x 𝑛 matrices (1 ≤ 𝑚, 𝑛 ≤ 3); addition of matrices, matrix
multiplication and inversion. Determinant of a matrix. Applications to simple
linear equations, consistence and linear dependence.
PHY 101: General Physics I
[3-0-0] (3 Credit Units) Harmattan Semester
Course Content Fundamental principles of mechanics. Mechanical properties of matter
including elasticity, surface tension and viscosity. Mechanical Waves.
Thermal Physics: Thermal properties including elementary thermodynamics
and kinetic theory.
PHY 107- Experimental Physical IA [0-0-1] (1 Credit Unit) Harmattan Semester
Course Content:
Laboratory experiments to demonstrate the application of the theory covered in
PHY 101.
TPD 101 – Engineers in Society
[1-0-0] (1 Credit Unit) Harmattan Semester
Course Content:
Historical roots of modern technology, science and industrialization. Origin and
development of engineering education and training. Engineering profession and
national economy. Engineering professional institutes. Social impact of
engineering on development. Organization of engineers in the private and
public sectors. Opportunities for engineers in the private and public sectors.
Engineering and environment.
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B. Rain-Semester Courses (Part-One)
CHM 102: Introductory Chemistry II:
[3-1–0] (4 Credit Units) Rain Semester
Course Content:
Qualitative Analysis (Inorganic) – Tests for simple cations and anions
Identification of Organic Compounds to include
i. Isolation and Purification;
ii. Qualitative Analysis: Tests for common elements e.g. carbon, hydrogen,
nitrogen, Sulphur, halogens, etc.;
iii. Qualitative Analysis using Durnas, Kjeidahl and Carius Methods
Chemical Bonding
Why and how do atoms combine? The molecule and chemical bonding;
electrons in molecules; ionic, covalent, dative and complex bonding; polarity of
bonds; coordinate bonds; metallic bonds; basic crystalline structure e.g. NaCl
and metallic lattices; Hybridization and resonance in chemical bonding.
Chemistry of hydrogen, noble gases, Alkali metals (Group I) and the alkali
earth metals (Group II)
Introduction to Organic Chemistry Introduction to the term “Organic Chemistry”;
Hybridization in Carbon – sp3, sp2 and sp hybridizations;
Physical properties as related to structures – bond length, strength, rotation,
etc.;
Electrophiles and Nucleophiles – Examples to include acids and bases;
Homolytic and Heterolytic fission of bonds;
Factors influencing organic reactions – inductive and mesomeric effects, steric
factors, etc.
Homologous Series, Functional Group Chemistry, Isomerism and
Chemistry of Hydrocarbons Homologous series and Functional Groups chemistry
Types of organic reactions
Isomerism – Structural, Geometric and Optimal Isomers
Chemistry of Hydrocarbons (alkanes, alkenes, alkynes, alkylhalides and
Grignard reagents) to include
i. Nomenclature (IUPAC rules to be treated under alkenes);
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ii. Preparation;
iii. Physical properties;
iv. Chemical reactions with simple mechanisms where applicable;
v. Applications
Main Group Chemistry (Groups III and V) Trends in properties of elements (structures, ionization energy, physical and
chemical properties)
Properties of selected types of compounds – hydrides, oxides, acids and bases
Chemistry of B and Al; C and Pb; and Bi.
Main Group Chemistry (Groups VI and VII) and Transition Metal
Chemistry
(a) Main Group Chemistry (VI and VII):
i. Trends in properties of elements;
ii. Properties of selected types of compounds;
iii. Chemistry of O and S; F and Cl
(b) Transition Series
i. Properties of elements and compounds of d-block elements,
lanthanides and actinides
ii. Electronic configuration; Complexes and IUPAC nomenclature of
complexes;
iii. Chemistry of Cr, Fe, Co, Ni, and Cu; particularly of the most
common states
Chemistry of Alcohols, Ethers, Aldehydes and Ketones Nomenclature (IUPAC)
Preparation, Structure, Physical Properties and General Reactions
Introduction to Aromatic Compounds
Carbohydrates, Proteins and Lipids Simple treatment of carbohydrates – monosaccharides (e.g. glucose, fructose),
disaccharides and polysaccharides
Proteins – amino acids, peptide bonds, etc.
Lipids – Fats and Oils, Soap and Detergent.
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MTH 102: Elementary Mathematics II:
[4-1–0] (5 Credit Units) Rain Semester
Course Content:
Trigonometry:
Circular measure, small angles, definition and properties of sine, cosine,
tangent, etc.; Formulae for sin(𝐴 + 𝐵), cos(𝐴 + 𝐵), tan(𝐴 + 𝐵), sin (𝐴
2),
cos (𝐴
2), tan (
𝐴
2), etc.; Sine and Cosine formulae, Factor formulae, inverse
trigonometric functions. General solutions of trigonometric equations such as
𝑎 cos 𝜃 + 𝑏 sin 𝜃 = 𝑐, etc.
Calculus:
Differentiation of algebraic, exponential, trigonometric functions, products and
quotients of functions, applications of differentiation to curve sketching, etc.
Maxima and minima. Definite and indefinite integrals with applications to
areas and volumes. Simple techniques of integration such as integration by
parts, etc. Simple first-order ordinary differential equations.
Coordinate Geometry:
Coordinates, equations of line, circle, ellipse, hyperbola and parabola
Statistics
Finite sample spaces, definition of probability on finite sample spaces and
examples. Probability as proportion of areas, conditional probability of events.
Independence, tree diagrams, variables and cumulative frequency distribution,
mean, median, variance and covariance. Conditional expectation and linear
correlation using scatter diagrams.
MTH 104: Vectors:
[2-0–0] (2 Credit Units) Rain Semester
Course Content:
Introduction to vectors, vector addition, components of a vector, unit vectors
i,j,k, magnitude of a vector. Vector multiplication (Scalar, vector, scalar triple
product and vector triple product). Applications to geometry and kinematics
(including relative velocity). Solutions of simple vector equations.
Differentiation and integration of vectors.
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PHY 102: General Physics II
[3-0-0] (3 Credit Units) Rain Semester
Course Content: Fundamental laws of electricity and magnetism and their applications. Electron
Physics: Introduction to Physics of electronics and some applications. Optics:
Principles and applications of geometrical and physical optics.
PHY 108- Experimental Physical IB [0-0-1] (1 Credit Unit) Rain Semester
Course Content:
Laboratory experiments to demonstrate the application of the theory covered in
PHY 102.
2. PART-TWO COURSES
A. Harmattan-Semester Courses (Part-Two)
EEE 201: Applied Electricity I:
[2-0–0] (2 Credit Units) Harmattan Semester
Course Content:
Introduction to electrostatics, Gauss's theorem and application, electrostatic
potential and equipotential surface capacitances, energy of a charged
conductor.
Foundation of electric circuit theory, Circuit elements resistors, capacitors and
inductor, Network theorems - Norton, Thevenin and Superposition theorems,
Transient response of RC, RL and RLC Circuits. Elementary discussion of
Semi-conductors - pn junction diode, npn and pnp transistors. Full-wave and
half-wave rectification circuits and smoothing circuits. Electric lamps and
illumination.
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EEE 291- Applied Electricity Laboratory I
[0-0-1] (1 Credit Unit) Harmattan Semester
Course Content:
Laboratory experiments to demonstrate the application of the theory covered in
EEE 201.
MTH201 – Mathematical Methods I
[3-1-0] (4 Credit Units) Harmattan Semester
Course Content:
Sequences and Series: Limits, Continuity, Differentiability, Implicit functions,
sequences, series, tests for convergence. Sequences and series of functions.
Calculus: Partial differentiation, total derivatives, Implicit functions, Change
of variables, Taylor’s theorem and maxima and minima of function of two
variables. Lagrangian multiplier.
Numerical Methods: Introduction to iterative methods, Newton’s method
applied to finding roots. Trapezium and Simpson’s rules of integration.
Differential Equations: Introduction, equation of first order and first degree,
separable equations, homogeneous equations, exact equations, linear equations,
Bernoulli’s and Riccati equations. Applications to mechanics and electricity.
Orthogonal and oblique trajectories. Second order equations with constant
coefficients
CSC 201: Computer Programming
[2-0-1] (3 Credit Units) Harmattan Semester
Course Content:
Brief survey of programming paradigms – Procedural programming – Object-
oriented programming, Functional programming – Declarative programming,
non-algorithmic programming – Scripting languages. The effects of scale on
programming methodology.
Programming the computer in current version of FORTRAN: Declarative
statements; Input and Output statements; Program compilation and execution;
Control and conditional statements; Loops and iteration; Functions, routines
and sub-programmes.
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Input/output; File processing; Port addressing.
Program testing and debugging techniques.
MEE203 – Engineering Drawing I
[1-0-1] (2 Credit Units) Harmattan Semester
Course Content:
Introduction – use of drawing instruments, paper sizes, scales and drawing
layouts. Lines and lettering, electric circuit diagrams. Geometrical drawing –
plane geometry, conics and cycloids. Dimensioning and tolerances. Orthogonal
projections. Sectional views. Fastening devices – rivets and screw fasteners.
Conventional practices. Isometric projections. Oblique projections. Freehand
sketching . Graphic charts and diagrams
MEE205 – Engineering Mechanics I
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Independence, dimensions and coordinates in space. Vectors and vector
algebra. Forces, couples and their systems: composition, resolution. Varigon’s
theorem, equivalence and reduction of systems, wrench. Rigid bodies and
equilibrium. Centres of gravity, centroids and their applications. Structures and
machines. Friction, Moments of Inertia. Virtual work.
CHE 201-Engineering Thermodynamics
[2-1-0] (3 Credit Units) Hamattan Semester Course Content:
Definition of terms and general concepts of system, surrounding, process,
temperature, heat, work and energy. First Law of Thermodynamics.
Applications to open systems. Second Law of Thermodynamics. Application to
heat engine entropy. First and Second Law combined. Perfect Gases. Joule
Thompson coefficient. Equilibrium processes. Maxwell's relations. Two phase
system Thermodynamic functions of solution. PVT relationship. Work from
heat energy. Refrigeration.
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MME 201-Engineering Materials
[2-1-0] (3 Credit Units) Harmatttan Semester
Course Content: Atomic and crystal structure. Crystal imperfections. Simple phase diagram of
alloys. The relationship between structure and properties. Mechanical
properties-engineering and true stress-strain curves, ultimate strength, ductility,
impact strength, hardness and torsion. Creep and fatigue failure. Electrical
properties-conductivity and superconductivity. Optical and magnetic properties
of materials. Stability of materials in the service environment, corrosive media,
sub-zero and elevated temperature, irradiation. Basic criteria for the selection of
materials for engineering applications. Engineering properties of wood,
concrete, ceramics, polymers, ferrous and non-ferrous metals and alloys;
cryogenic, corrosive media and nuclear applications.
Basic Engineering raw materials-mineral rocks, metallic and non-metallic
mineral deposits, rocks for bulk use, tar sand, graphites. Mineral prospecting
and exploration. Relation between mining, mineral processing and
materials/metallurgical processing of materials. Introduction to mineral
processing.
Introduction to joining processes and casting processes. The role and functions
of Materials Engineers in the design, operation and maintenance of machinery
and equipment in metallurgical, ceramic and plastic industries.
B. Rain-Semester Courses (Part-Two)
EEE 202 - Applied Electricity II
[2-0–0] (2 Credit Units) Rain Semester
Course Content: Magnetic field of currents in space: Magnetic flux and flux density, corkscrew
rule, solenoid and magnetomotive force, Periodic wave force - their average
and effective values. Characteristics and use of non-linear elements in
simple circuits. Single-phase alternating current circuits - complex impedances
and admittance. Series and parallel resonant circuits. Magnetic circuits, mutual
inductances, transformers. Introduction to electrical generators and meters.
Power factor correction, Introduction to measuring instruments; Moving coil
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instruments, oscilloscope, electrostatic voltmeters, A.C. and D.C. bridges.
Pre-requisite: EEE 201
EEE 292- Applied Electricity Laboratory II
[0-0-1] (1 Credit Unit) Rain Semester
Course Content:
Laboratory experiments to demonstrate the application of the theory covered in
EEE 202.
MTH202 – Mathematical Methods II
[3-1-0] (4 Credit Units) Rain Semester
Course Content:
Vector Theory: Vector and scalar field functions. Grad, div, curl; directional
derivatives. Orthogonal curvilinear coordinates.
Complex Numbers: The algebra and geometry of complex numbers, De
‘Moivre’s theorem. Elementary transcendental functions. The 𝑛𝑡ℎ root of unity
and of a general complex number.
Linear Algebra: Vector spaces. Linear independence. Basis, change of basis
and dimension. Linear equations and matrices, Linear maps. The diagonal,
permutations, triangular matrices.
Elementary Matrix: The inverse matrix. Rank and nullity. Determinants.
Adjoints, cofactors, inverse matrix. Determinantal rank. Cramer’s rule,
canonical forms, similar matrices. Eigenvalues and eigenvectors, quadratic
forms.
MEE204 – Engineering Drawing II
[1-0-1] (2 Credit Units) Rain Semester
Course Content:
Auxiliary projections. True lengths, sizes and shapes. Simple developments.
Interpenetration and development. Mechanical drawing of machine parts –
cams, gears, couplings, bearings, pipe joints and valves. Structural drawing –
materials representation, dimensioning of structural details and welds.
Structures – wood, concrete, structural detailing , shop drawings and sketches.
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Simple assembly drawing. Introductory pen work, lettering and tracing of
completed drawings.
MEE206 – Engineering Mechanics II
[2-1-0] (3 Credit Units) Rain Semester
Course Content:
Kinematics and Kinetics of Particles. Work, Energy, Power, Momentum and
Impulse. Kinematics and Kinetics of Rigid Bodies in Plane Motion.
Analysis of elementary dynamic systems – dynamic system elements:
mechanical, electrical, fluid and thermal, modeling of physical systems.
Newton’s laws of motion. D’Alembert’s principles and Lagrange’s equations.
Particle dynamics in non-inertia frame of reference and application of
Lagrange’s equations.
CVE 202 – Strength of Materials
[3-0-0] (3 Credit Units) Rain Semester
Course Content:
Further analysis of shearing force and bending moments in beams. Direct
stresses due to load and temperature. Loading tests of ductile and brittle
materials. Elastic constants. Modified Young’s modulus, Poisson’s ratio.
Properties of beam sections. Deflection of beams. Torsion of shafts. Bending of
curved bars and rigid frames. Buckling of struts and columns.
CSC 208: Computer Technology
[0-0-2] (2 Units) Harmattan Semester
Course Content:
This is a programming laboratory course consisting of applications of
programming, through case study problems. Students are expected to carry out
four laboratory assignments and make two oral presentations after the
completion of the second and the fourth assignments. Programmes will be
developed using FORTRAN 90 or latest version of FORTRAN.
Laboratory Assignment I: Programming basics – Data type, basic programme
structure; Compiling and executing programmes in text and graphic
environment.
Laboratory Assignment II: Loop, arrays, searching and sorting
Laboratory Assignment III: Function, Routine, Subroutine subprogramme:
multiple procedure calls from a main programme.
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Laboratory Assignment IV: Extensive programming problem with application
to student's field of study and interest.
AGE 202: Workshop Practice
[1-0-1] (2 Credit Units) Rain Semester
Course Content: Workshop safety measures, Introduction to Workshop hand and powered tools
emphasizing safety measures to be taken during operation. Workshop
materials, various gauges and measuring devices. Tolerance of products.
General description of the function and capabilities of grinding machines.
Practice in grinding tools and drills. Function and capabilities of drilling
machines, lathe machines, milling machines and shaping machines. Jigs,
Fixtures, Practice in the use of the machines.
EEE 200: Student Industrial Work Experience Scheme I
[2-0-1] (3 Credit Units) Rain Semester
Course Content:
This course is the first phase of the Industrial Training Scheme for Engineering
students, in particular, and Electronic and Electrical Engineering students, in
particular. The students are taught the importance of application of theoretical
knowledge in industrial engineering situations. The students are also introduced
to all the sections of their respective Departments and made to do simple
Electronic and Electrical Engineering projects that have industrial significance.
3. PART-THREE COURSES
A. Harmattan-Semester Courses (Part-Three)
EEE 301- Physics Electronics [2-1-0] (3 Credit Units) Harmattan Semester
Course Content
Elementary Physical Electronics: Crystal Structures, electron and energy band
schemes, semiconductor devices, diodes, Zener diodes, transistors, and FETs.
Characteristics and biasing of bipolar and FET transistors, CE, CB, CC, CS,
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CG, CD. Review of two port network theory applied to transistor circuits.
Small signal models: Z-, Y-, and H- parameters. Microwave devices (Tunnel,
IMPATT and BARITT diodes). Introduction to opto-electronic devices: Solar
cells, laser etc.
Pre-requisite : EEE 201
EEE 303 - Electric Machines I
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content
TRANSFORMERS: Coupled circuits, Air cored transformers equivalent
circuits, Iron cored transformers equivalent circuits, Referred impedance, no-
load test, short circuit test and efficiency of single phase transformers. Three
phase transformers. Group connection of windings, auto transformers,
instrument transformers.
DC MACHINES: Armature winding, principles of commutation. Torque and
emf expressions. Generator and motor configurations. Characteristics of series ,
shunt and compound wound motors. Speed control and electric breaking, cross
field machines, commutator machines.
Pre-requisite: EEE 202
EEE 305 - Electric Circuit Theory I
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content
Node, loop and cut-set analysis of linear networks. Network graph theory and
its applications. Frequency response of networks: Poles and zeros, Bode pots
and root locus concepts. Periodic non-sinusoidal currents in linear circuits.
Two-port networks, ladder networks and electric filters.
Pre-requisites: EEE 202
EEE 307 - Electrotechnic Laboratory I
[0-0-9] (3 Credit Units) Harmattan Semester
Course Content
Laboratory experiments to demonstrate the application of the theory covered in
the courses.
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EEE 309 - Acoustic Systems
[3-0-0] (3 Credit Units) Rain Semester
Course Content
Electro-acoustical system: Principles and properties of sound, simple
acoustical systems. acoustic transducers, linear systems and natural modes.
Loud speakers: Properties, types, response and distribution patterns. Electro-
acoustic recording and reproduction. Ultrasonic systems, transducers and
applications.
Magnetic Application of Magnetic Materials: Ferro and Ferri Magnetics:
Magnetic circuits and shielding. Magnetic recording techniques and systems
including electro-acoustic and video tape recording. Units of recording level.
Microphones and types.
Pre-requisite: EEE 202
EEE 311- Electromagnetic Theory I
[2-0-0] (2 Credit Units) Harmattan Semester
Course Content
Electrostatic and Magnetostatic fields, Time varying electromagnetic filed in
different material media. Poisson's and Laplace's equations and methods of
solution. Boundary value problems.
Pre-requisite: EEE 202
EEE 313-Electrical Measurement and Instrumentation I
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content
Principles of measurements: errors and accuracy - units of measurements,
standard symbols for electric measuring instruments and electrical standards.
Instruments of direct measurement of current and voltage - moving coil,
moving iron, electrodynamic and electrostatic measuring instruments.
Measurement of current and voltage by comparison. Measurement of
resistance, inductance and capacitance, Measurement of electrical energy,
power, power factor and frequency. Measurement of Magnetic field strength
and magnetization (B-H) curve. Principles of cathode-ray oscilloscope.
Introduction to semiconductor device te4sters, electronic counters and digital
meters.
Pre-requisite: EEE 202
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CHE 305- Engineering Analysis I
[2-1-0] (3 Credit Units) Hamattan Semester
Course Content: Linear algebra elements of matrices, determinants, inverse of matrix, theory of
linear equations, eigen-values and eigen-vectors. Analytical geometry-
coordinate transformation-solid geometry, polar, cylindrical and spherical
coordinates. Elements of functions of several variables. Ordinary integrals and
multiple integrals. Evaluation of double integrals, triple integrals, line integrals,
surface integrals. Derivatives and integrals of vectors. The gradient of scalar.
Flux, divergence and curl of a vector field. Gauss', Green's and Stoke's
Theorems and applications. Single-valued functions. Multi-valued functions.
Analytic functions. Cauchy-Riemann equations. singularities and zeros.
Contour integration including the use of Cauchy's integral theorem. Taylor and
Law rent's series. The residue theorem. Bilinear transformation.
B. Rain-Semester Courses (Part-Three) EEE 302- Electronic Engineering
[2-1-0] (3 Credit Units) Rain Semester
Course Content:
Analysis of single and multi-stage transistor amplifiers. Frequency response
analysis, Power amplifiers: Class A, B, C and push-pull amplifiers. Feedback
amplifiers. Oscilloscopes.
Introduction to operational amplifiers. Stabilized power supplies. Use of
electronic device in voltage regulation.
EEE 304 - Electrical Machines II
[2-1-0] (3 Credit Units) Rain Semester
Course Content
ASYNCHRONOUS (INDUCTION) MACHINES: Magnetic flux, distribution
of induced emf, equivalent circuit, power balance, equivalent circuit referred to
stator. Torque-slip characteristics for generating and motoring actions. The
circle
diagram. Methods of starting and speed control. Double cage induction motor.
Single phase motors.
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SYNCHRONOUS MACHINES: Synchronous machine theory, Equivalent
circuit and phasor diagrams for cylindrical rotor. Effect of change in
excitation, the V-characteristics with regards to transmission lines. Short
circuit analysis of synchronous machine, d-, q- axis analysis of salient pole
machines.
Pre-requisite: EEE 303
EEE 306 - Electric Circuit Theory II
[2-0-0] (2 Credit Units) Rain Semester
Course Content
Some properties of three-phase system: Balanced Delta and Wye connected
loads. Delta-Wye transformation. Unbalanced Delta and Wye connected loads.
Use of symmetrical components method to solve unbalanced three-phased
networks. Operational methods of transient analysis of limped network -
Laplace transforms. Fourier transforms methods of non-linear a.c circuits.
Prerequisite: EEE 305
EEE 308 - Electrotechnics Laboratory II
[0-0-1] (1 Credit Unit) Rain Semester
Course Content
Laboratory experiments to demonstrate the application of the theory covered in
the courses.
EEE 310- Operational Amplifiers and Active Networks
2-1-0 (3 Credit Units) Rain Semester
Course Content:
Complex frequency plane. Feedback circuits and sensitivity, Stability: Nyquist
and Routh's criteria for stability. Introduction to operational amplifiers, other
linear circuits and applications. Differentiators, integrators, differential
amplifiers for measurements. Active filters using operational amplifiers: Low
pass, high pass, band-pass and Butterworth filters. Timing circuits using ICs.
Phase locked loop.
Pre-requisite EEE 301
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EEE 312-Electromagnetic Theory II
2-0-0 (2 Credit Units) Rain Semester
Course Content:
Maxwell's equations and its applications, Poynting's theorem, wave equations:
Plane waves and plane wave propagation. Electromagnetic waves and
electromagnetic wave propagation in bounded and unbounded media. Radiation
of electromagnetic waves.
Pre-requisite: EEE 311
AGE 302: Statistics for Engineers
[2-0-0] (2 Credit Units) Rain Semester
Course Content: Statistical concepts, Normal distribution, Hypothesis testing. Analysis of
Variance, Factorial experiments, Regression Analysis.
CHE 306- Engineering Analysis II
[2-1-0] (3 Credit Units) Rain Semester
Course Content: Series solution of second order linear differential equations with variable
coefficients. Bessel and Legendre equations. Equations with variable
coefficients. Sturm-Louiville boundary value problems. Solutions of equations
in two or three dimensions by separation of variables. Eigen-value problems.
Use of operators in the solution of partial differential equations and linear
integral equations. Integral transforms and their inverses including Fourier,
Laplace, Mellin and Handel transforms. Convolution integral and Hilbert
transforms. Calculus of finite differences. Interpolation formulae. Finite
difference equations. Runge-Kutta and other methods in the solution of
ordinary and partial differential equations. Numerical methods for the solution
of non-linear equations. Numerical integration and differentiation.
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EEE 300: Student Industrial Work Experience Scheme II [2-0-1] (3 Credit Units) Rain Semester
Course Content: This course is the second phase of the Industrial Training Scheme for
Engineering students, in particular, and Electronic and Electrical Engineering
students, in particular.
The students are employed as interns for a minimum period of three (3) months
in industrial establishments with sections where Electronic and Electrical
Engineering tasks are being performed. The student learns the industrial
applications and applicability of theoretical concepts and principles taught in
class.
4. PART-FOUR COURSES
A. Harmattan-Semester Courses (Part-Four)
CVE 401 - Technical Report Writing
[2-0-0] (2 Credit Units) Rain Semester
Course Content:
Role of technical reports in engineering projects. Fundamental principles of
technical writing. Formats of different types of reports – outlines, purpose and
scope, technical discussion details, role of appendix, function of figures, tables
and illustrations. Literature search, references (citing and listing). Nature of
recommendations and conclusion. Guides of writing memoranda, business
letters. Oral presentation of technical reports. (One or two term papers to be
prepared on assigned work).
EEE 401- Computational Analysis
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Solution of linear equations - Gaussian elimination, triangulation and iterative
methods. Solution of non-linear equations - Newton-Raphson's, Bairstow's,
Aitken and iterative solution techniques. Synthetic division and Lehmer.
Numerical integration and differentiation - Newton-Cotes formular, Gauss's
integration formula. The eigenvalue problem - characteristic polynomial, the
power
method, Givens and Householder methods, Numerical solution of differential
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equations, Methods of Taylor, Euler Predictor -Corrector and Runge-Kutta.
Pre-requisite: CHE 306
EEE 403-Electric Power Principles
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Power Sources: Principles and methods of energy conversion employing steam,
gas, water, nuclear, wind and magnetohydrodynamic generation. Design and
organization of power stations. Siting of power stations. Power station
auxiliaries. Components of power generation systems: Prime mover systems,
generators; characteristics, equivalent circuits, control and operation. Voltage
regulation, Economics of power generation. Supply System; transmission and
distribution systems, rated
voltages and frequency. Substations; types, switch gear and busbar structures.
Pre-requisites: EEE 304
EEE 405- Electrical Engineering Laboratory
[0-0-2] (2 Credit Units) Harmattan Semester
Course Content: Laboratory experiments designed for students to apply and verify theories
covered in the courses.
EEE 407- Pulse and Digital Technique
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content
Non-sinusoidal oscillators, switching, timing and wave shaping circuits.
Digital electronics, Introduction to basic logic function, AND, OR, NOT etc.
Boolean algebra, simple logic circuits. Minimization of logic functions, K-map,
logic families TTL, RTL, CMOS etc. Sequential circuits RS, JK, flip flop
register and counters. Number systems and codes, arithmetic circuits, decoders,
multiplexers and demultiplexers, memory devices.
Pre-requisite: EEE 301
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EEE 409-Servomechanism and Control
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Control System concept; open and closed loop control systems, block diagrams,
Review of Laplace transforms; Transfer functions of electrical and control
systems. Electromechanical devices: Simple and multiple gear trains, electrical
and mechanical analogies. Error detector and transducer in control systems.
The amplidyne: AC and DC technogenerator and servomotors rotary
and translational transducers. Hydraulic and pneumatic servomotors and
controllers. Dynamics of simple servomechanism: Steady state error and error
constants, the use of non-dimensional notations
and the frequency response test. Log and Polar plots of control systems, Basic
stability concepts in control systems.
Prerequisites: EEE 306
EEE 411- Communication Principles
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Basic concepts of a communication system - Source, channel and user. Signal
and systems analysis, Fourier series. Fourier transforms, Amplitude modulation
and demodulation methods, DSBSC, SSB, VSB. Comparison of AM systems,
Angle modulation and demodulation; Frequency and phase modulation.
Wideband and narrowband F.M, A.M, detectors and FM discriminations.
Sampling principles, theorems and techniques. Pulse modulation: PAM, PWM
and PCM.
Pre-requisites: EEE 202
EEE 413-Electronic Devices, Design and Fabrication.
[1-1-0] (2 Credit Units) Harmattan Semester
Course Content:
Design principle and fabrication of the following: Thermionic devices; cathode
ray tubes and television tubes. Semi-conductor devices: junction diodes
including Zener, varactor and tunnel
diodes. Bipolar, unijunction and field effect transistors, light emitting diodes
(LED), Laser diode, Gunn effect devices, solar cells, photodiodes; photo-
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transistor and thryristors.
Prerequisite: EEE 302
B. Rain-Semester Courses (Part-Four)
EEE 400: Student Industrial Work Experience Scheme III [9-0-0] (9 Credit Units) Rain Semester
Course Content: This course is the third and final phase of the Industrial Training Scheme for
Engineering students, in particular, and Electronic and Electrical Engineering
students, in particular.
The students are employed as interns for a minimum period of six (6) months in
industrial establishments with sections where Electronic and Electrical
Engineering tasks are being performed. The student learns the industrial
applications and applicability of theoretical concepts and principles taught in
class.
5. PART-FIVE COURSES
A. Harmattan-Semester Courses (Part-Five)
EEE 501: Final Year Project I
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
This course is a first of two Part-Five project courses. It deals with the
formulation and execution of a project in a specific area of specialization in
Electronic and Electrical Engineering under the supervision of an appropriately
assigned member of academic staff of the Department.
The student uses the theoretical, practical, documentation and articulation skills
acquired over the previous and current sessions to make appropriate practical
project designs, make constructions/simulations of such designs, document the
results of the implementations, write a detailed thesis of the project and make a
formal presentation of the project to assigned members of staff of the
Department.
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EEE 503: Control Engineering I
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Linear control system. Stability: Nyquist stability criterion, Bode diagram
approach; the root locus and root contour method. Design of linear servo
systems; Compensation designs using the Bode and root locus methods.
Multiple loop feedback systems; Minimization of unwanted disturbances.
Single and multi-term electronic process controllers. Hydraulic and
pneumatic controller; Introduction to analogue and hybrid
computation, Sensitivity of control systems.
AC control system: Synchos; suppressed carrier modulation, hybrid AC/DC
control systems; practical considerations in A.C. control design.
Prerequisites: EEE 409
EEE 505-Application of Electromagnetic Principles
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Review of transmission line theory/use of Smith's Chart. Single, double, stub,
machine on lines, quarter wave line as impedance transformers. Common
waveguides, Propagation in rectangular waveguides, attenuation in guides,
guide terminations, resonant cavities. Introduction to radio wave propagation in
the MW and HF bands, HF communication on power lines.
EEE 507- Electrical Measurement and Instrumentation II
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Measurement of non electrical quantities - Transducers, Instrumentation
amplifiers for the measurement of voltage and current, Differential amplifiers
circuits, Data logger
electromatric amplifiers for measurement of low level current and voltage.
Linear and nonlinear converters. Multiplier, sample and hold circuits. Design
of high stability power supply. Digital instrument, X-Y Plotters.
Prerequisite: EEE 313
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EEE 515- Introduction to Modern Control
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content:
Introduction to state space analysis; matrix representation of control systems;
transfer function matrices and stability,
Solution of state equations; eigenvalues, eigenvectors and modes.
Lyapunov stability analysis; first and second methods of Lyapunov; stability
analysis of linear and non-linear systems using the Lyapunov method. Optimal
control theory and application. Controllability and Observability. Application
of calculus of variation, dynamic programming and Pontryagins
maximum principles; Time optimal control system, optimal systems based
on the quadratic performance indices. Minimum time problem, minimum fuel
consumption problem and minimum energy problem. Lyapunov second and
approach to solution of optimal control problems.
Model reference control system. Introduction to Adaptive control system.
Prerequiste: EEE 409
EEE 521-Instrumentation Engineering II
[2-1-0] (3 Credit Units) Harmattan Semester
Course Content: Introduction to the design of electronic equipment. Specifications including
environmental factors such as humidity and temperature. Tolerance and safety
measures. Reliability and testing. Duplication of least reliable parts (standbye).
Ergonomic, aesthetics and economics. Miniature and microminiature
construction using printed circuits and integrated circuits. Maintainability,
Computer design methods.
TPD 501: Industrial Economics
[2-0-0] (2 Credit Units) Harmattan Semester
Course Content: Basic concepts, factors of production, supply and demand, price elasticity
analysis, business organization. The business firm production functions, price
system and competition. Basic principles of Engineering Economy, cost
concepts and analysis. Interests calculations, concept of equivalence and
money-time relationships. Basic methods of engineering economy and their
applications in valuation. Evaluating alternatives. Depreciation, taxation and
replacement studies. Capital budgeting.
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TPD 503: Industrial Law and Management
[2-0-0] (2 Credit Units) Harmattan Semester
Course Content:
Principles of Management. Decision theory. Basic concepts in production and
operations management. Plant location and facility layout. Capacity
management, inventory control, scheduling and network analysis. Quality
control, replacement problems. Functions of Law. Basic principles of Nigerian
Law. Engineers and law of contract. Law of business associations. Trade marks
and patents.
B. Rain-Semester Courses (Part-Five) EEE 502: Final Year Project II
[2-1-0] (3 Credit Units) Rain Semester
Course Content:
This course is the second of two Part-Five project courses. It deals with the
completion of the efforts of EEE 501.
The student uses the theoretical, practical, documentation and articulation skills
acquired over the previous and current sessions to make appropriate practical
project designs, make constructions/simulations of such designs, document the
results of the implementations, write a detailed thesis of the project and make a
formal presentation of the project to assigned members of staff of the
Department.
EEE 504 - Digital Signal Processing
[2-1-0] (3 Credit Units) Rain Semester
Course Content:
Network synthesis; realizability of driving point impedance, synthesis of two-
terminal networks, Foster form realization, minimum phase and non-minimum
phase networks. Discrete signals and Z-transform, digital Fourier Transform,
fast Fourier transform, the approximation problem in network theory. Filter
design and synthesis. Spectral transforms and their application in the synthesis
of high-pass and band-pass filters. Digital filtering , digital transfer function,
one dimensional recursive and non-recursive filters, computer techniques
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in filter synthesis. Hardware and software realization of filters. Basic image
processing concepts.
Prerequisites: EEE 306
EEE 506- Electrical Services and Energy Utilization
[2-1-0] (3 Credit Units) Rain Semester
Course Content:
Design and organization of power supply: rated voltages and frequency. Types
of power consumers and their characteristics. Lighting systems and installation;
Lighting control circuits, Electrical heating: heating of buildings, electrical
furnaces, electrical welding, air conditioning and refrigeration.
Electro- chemical processes, Motor control for industrial systems; General and
special factory drives. Regulations on installation and operation of electrical
equipment. Metering and tarrif systems
Prerequisites: EEE 403
EEE 508 –Reliability and Maintainability of Electrical and Electronic Systems.
[2-0-0] (2 Credit Units) Rain Semester
Course Content:
Introduction to reliability, maintainability, availability and elementary
reliability theory. Application to power system and electronic components. Test
characteristics of electrical and electronic components. Types of fault.
Designing for higher reliability. Packaging, mounting, ventilation, protection
from humidity and dust.
EEE 510-Micro-Computer Hardware and Software Techniques
[2-1-0] (3 Credit Units) Rain Semester
Course Content:
Elements of digital computers, computer design; control unit, micro-
programming. Bus: organization and addressing schemes. Microprocessors,
system architecture, bus control, instruction, execution and addressing modes.
Machine code, assembly language and high level language programming.
Micro-processors as state machines, microprocessor interfacing: input/output,
technique, interrupt systems and direct memory access: interfacing system
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development tools, simulators, EPROM
programming, assemblers and loaders. Overview of available microprocessor
and microcomputer systems, operating systems and compiler, Microprocessor
applications.
Prerequisites: EEE 407
EEE 516-Control Engineering II
[2-1-0] (3 Credit Units) Rain Semester
Course Content:
Non-linear differential equations, Characteristics of non-linear systems;
common non-linearities. Analysis of non-linear systems; Linearizing
approximations, piece-wise linear approximation, the describing function
concept and derivation for common non-linearities, the dual input describing
function; stability analysis using the describing function. Limit cycle
prediction. The phase plane method and construction of phase trajectories,
stability analysis by the phase plane method. Introduction to state space
analysis; Matrix representation of control systems. Introduction to sample
data systems; The z-transforms; pulse transfer function and stability analysis in
the z-plane.
Prerequisite: EEE 515
EEE 518-Dynamic System Simulation
[2-1-0] (3 Credit Units) Rain Semester
Course Content:
Analogue and hybrid computer hardware units. Simulation study of different
equations; Generation of time base reference amplitude and time scaling:
simulation of control systems from block diagrams, transfer functions and state
equations, Analogue memory and its applications repetitive and interactive
operation of an analogue computer. Digital Simulation: Comparison of digital
and analogue/hybrid simulation: Block form and expression based languages;
interaction; function generation; iterative computation. Hybrid Computers;
Hardware and software; Assembly routines and interpretive language for
hybrid computing; sequential and
simultaneous hybrid computing. Special applications; On-line computing
processes; Computer techniques for plotting Root-locus Bode Plots etc.,
Minimum fuel and regulator problem by hybrid and digital techniques etc.
Application program in computer aided design of Electronic and Electrical
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Systems.
Prerequiste: EEE 407
TPD 502 – Technology Policy
[2-0-0] (2 Credit Units) Rain Semester
Course Content:
Science, Technology and Development. Technological change and industrial
development, government intervention in S & T in Nigeria and other
developing countries, S & T policy formulation and implementation. Policy
statements, policy targets, policy instruments and strategies, monitoring devices
and policy review. Technological capability and transfer of technology.
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