Admission Requirement and programme information – Electrical/Electronic Engineering

Admission Requirement and programme information – Electrical/Electronic Engineering
ADMISSION REQUIREMENTS

The Department offers a five year programme for the Bachelor of Engineering (B.Eng Honours Degree in Electrical/Electronic Engineering.

i.          The admission requirement for UME candidates into the course is a minimum of 5 (Ordinary level) credit passes in West African Senior asecondary School Certificate (WASSSC), General Certificate of Education (GCE) or in National Examination Council Ordinary Level (NECO) in not more than two sittings. The credits must include English Languate, Mathematics, Physics, and Chemistry and any other relevant subject.  The candidate must not be below 16 years of age.  A pass ion JAMB that meets the Departmental cut off mark determined by the University and post-UME screening test are part of the admission  criteria.

 

ii.         Direct Entry Candidates:  Direct entry admission is based on a combination of ‘O’ Level results with the following qualifications:

*  G.C.E. or HSC (‘A’ Level two papers in Physics, Mathematica, or Chemistry)

*  OND (upper credit)

*  HND (upper credit)

Candidates with qualifications as in (a) and (b) above may be admitted into the 299 level and those with the qualifications in (c) may be admitted into the 300 credit passes in relevant subjects as specified in (i) above.

3.0       Graduation Requirement

To satisfy the requirements for graduation, a student must take and pass the minimum units specified in the programme before he/she can qualify for the award of a degree in Engineering or Technology.  This includes passing all compulsory General Studies Courses and the Industrial Training courses.

6.1       Degree Classifications

The determination of the class of degree shall be based on the Cumulative Grade Point Average (CGPA) earned at the end of the the programme.  The GPA is computed by dividing the total number of credit points (TCP) by the total number of units (TNU) for all the courses taken in the semester.  The CGPA shall be used in the determination of the class of degree as summarized in Table 1.1.

 

Table 1.1: Degree Classification

CUMULATIVE GRADE POINT AVERAGE

CLASS OF DEGREE

4.50 – 5.00

First Class

3.50 – 4.49

Second Class Upper

2.40 – 3.49

Second Class Lower

1.50 – 2.39

Third Class

1.00 – 1.49

Pass

6.2       Course Duration

The maximum length of time allowed to obtain a degree in the College shall be fourteen semester for the 5-year degree programme and twenty semesters for students admitted directly into the 200 level.  For extension beyond the maximum period, a special permission of Senate shall be required on the recommendation of the College Board.

6.3       Probation

A student whose Cumulative Grade Point Average is below 1.00 at the end of a particular year of study, earns a period of probatiob for one academic session. A student on probation is allowed to register for courses at the next higher level in addition to his/her probation level courses provided that: The maximum of 18 credit units per semester is not exceeded.

(a)        the regulation in respect of student work-load is complied with; and

(b)        the pre-requisite courses for the higher level courses have been passed.

(c)        Universities are enjoined to run comparable syllabi to enable students who transfer from

            One University to another transfer their credits wholly.

 

6.4       Withdrawal

A candidate whose Cumulative Grade Point Average is below 1.00 at the end of a particular year of probation should be required to withdraw from the University. However in order to minimise waste of human resources, consideration is usually given to withdrawal from programme of study and possible transfer to other programmes within the University.

6.5       Grade Point Average and Cumulative Grade point Average

Grading of courses shall be done by a combination of percentage marks and letter grades translated into a graduated system of Grade Point Equivalents (GPE).  For the purpose of determining a student’s standing at the end of evcery semester, the Grade Point Average (GPA) system shall be used.  The GPA is computed by dividing the total number of credit points (TCP) by the total number of units (TNU) for all the courses taken in the semester.  The credit point for a course is computed by multiplying the number of units for the course by the Grdae Point Equivalent of the marks scored in the course.  Each course

CREDIT UNITS

LETTER GRADE

GRADE POINTS (GP)

GRADE POINT AVERAGE (GPA)

CUMULATIVE GRADE POINT AVERAGE (CGPA)

CLASS OF DEGREE

Credit unit vary according to the contact hours assigned to each course per week per semester and also according to work load

A

B

C

D

E

F

5

4

3

2

1

0

The Grade Point Average is derived by multiplying (i) & (ii) and dividing the product by total credit nunits.

4.50 – 5.00

3.50 – 4.49

2.40 – 3.49

1.50 – 2.39

1.00 – 1.49

0.00 – 0.99

1st Class

21

22

3rd Class

Pass

Fail

     

 

1.0                   THE CURRICULUM

 

Revised programme for the Department which took effect from the 2009/2010 academic session is

(a)           UNDERGRADUATE ACADEMIC PROGRAMME FOR THE DEPARTMENT OF ELECTRICAL/ELECTRONICS ENGINEERING          

(b)          AIMS, OBJECTIVES AND PHILOSOPHY

 

The Bachelor of Engineering Programme offered by the Department of Electrical/Electronics Engineering is designed to produce first class degree Electrical/Electronics Engineering graduate armed with adequate theoretical knowledge and practical experience for successful and fruitful career in Electrical/Electronics Engineering. To achieve this, the programme is designed as follows:

 

For each semester, in the two semester academic year of 15 weeks per semester, a student on the programme normally carries 18 credit units of academic load of entirely theoretically courses on one hand and entirely laboratory courses on the other.

 

In addition to the laboratory courses/exercises, there is students’ Practical Work Experience which includes the second year activity of extensive operation and the uses of the Engineering equipments, machines and tools to realize design prototypes as well as two long vacations and one semester of Industrial Work Experience in the third and fourth years of the programme. The workshop practice in the faculty of Engineering workshops prepares the studentsfor the Industrial Work Experience (in skill and industrial practice).

 

The first and second years of the programme is also designed to make the students deepen and strength their basic knowledge in Mathematics, Physics, Chemistry, Social Science, Electrical/Electronics Engineering, Mechanical Engineering, Civil Engineering and Computer Programming. The broad based knowledge in the above named disciplines enhances the practice of Electrical/Electronics Engineering in relation to these other disciplines.

 

In the third, fourth, and fifth years of the programme, the students are made to spend most of their study time on the major areas of Electrical Engineering while at the same offering them advanced courses in Mathematical, Computational and Programming methods which constitute a vital and an indispensable in efficient and productive engineering practice. These major areas comprise Electrical Machines, Electronics, power systems, power electronics, communications, control engineering, electromagnetic fields. All coupled with well designed supplementary courses in Instrumentation and computers. The final year (5th year) study programme also includes a final year project electives to further deepen the students’ research capabilities and selectable electives to further deepen the students’ knowledge in the above named specialist areas in Electrical/Electronics Engineering for the final year project and each student is required to submit a project report and may be orally examined on the report.

 

Attempt is made to have optimum time sharing in the different modes of teaching the course. In the theoretical courses, there is one hour of tutorial for every four hours of lecture. To reflect the importance of practical exercises in the programme, 9 hours per week is averagely devoted to practical exercises out of a total of 24 contact hours per week for lectures, tutorials and practical work.

The grading system is designed such that students final percentage grade in a given course is shared between continuous assessment and end-of -semester final examination. For entirely theoretical courses, continuous assessment ( Quizzes, tutorials, Homework, Tests) constitute 30% of the final percentage grade while the final examination makes up the remaining 70 percent . for entirely laboratory course, laboratory exercises and the reports constitute 100% of the final grade.

 

A students final grade in a course and overall performance in the degree programme are based on the five point system tabulated as follows.

 

 

 

% age score

70-100

60-69

50-59

45-49

40-44

00-39

Letter Grade

A

B

C

D

E

F

Grade point

5

4

3

2

1

0

 

 

An engineering graduate, so trained as described above is therefore basically equipped to the above to perform the following functions in the course of his/her professional practices.

(a)           Design, realize/construct, operate, make use of, install and maintain electrical engineering components, machines, equipment and systems and

(b)          Grow through industrial practice, further studies and/or research in the development of improved electrical devices and systems and in the advancement of electrical engineering knowledge.

However, the Department makes substantial effort to acquire current local and international textbooks and journals to complement research and development efforts being carried on in the Department. In addition, both staff and students are encouraged to register with local and international professional societies (such as NSE and IEE/IEEE) and to subscribe to the technical journals of such societies in order to help them keep abreast with developments in Electrical/Electronics Engineering Knowledge and practice.

(c)            Programme/sub-discipline/Discipline structure to include period of studies in the universities Industrial training, planned visit and projects.

The programme period of study for the Bachelor’s degree (B.Eng.) is supposed to last for five years of two semesters in each academic year or session.

 

 

 

DEPARTMENT OF ELECTRICAL/ELECTRONICS ENGINEERING

COLLEGE OF ENGINEERING AND ENGINEERING TECHNOLOGY

MICHAEL OKPARA UNIVERSITY OF AGRICULTURE, UMUDIKE

 

UNDERGRADUATE ACADEMIC PROGRAMME

B.ENG DEGREE PROGRAMME

(FIVE-YEAR PROGRAMME STARTS HERE)

 

FIRST YEAR

                                                            FIRST SEMESTER

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

ENG 111

Introduction to Engineering

1

Auxiliary Courses

MTH 111

MTH 112

PHY 111

PHY 112

PHY 117

CHM 113

CHM 114

UGC 111

General Mathematics I

Elementary Mathematics 1

General Physics I

Elementary Physics I

General Physics Lab 1

General Chemistry 1

Practical Chemistry 1

Farm Practice

3

3

2

2

1

3

1

1

General Studies Courses

GSS 111

GSS 112

GSS 114

GSS 115

GSS 116

Use of English 1

Nigerian History

Elementary French 1

Basic German 1

Use of Library

2

2

1

1

1

Total

 

 

24

 

 

SECOND SEMESTER

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

ENG 121

Applied Mechanics

3

Auxiliary Courses

MTH122

MTH 123

PHY 121

PHY 122

PHY 127

CHM 121

CHM 124

Elementary Mathematics II

Introduction to Vectors

General Physics II

Elementary Physics II

Physics Lab II

General Chemistry II

Practical Chemistry II

3

2

2

2

1

3

1

General Studies Courses

GSS 121

GSS 124

GSS 125

GSS 126

Use of English II

Elementary French II

Basic German II

Social Science

2

1

1

2

Total

 

 

23

 

 

SECOND YEAR

                                                             FIRST SEMESTER

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

ENG 211

ENG 212

ENG 213

ENG 214

ENG 216

Thermodynamics I

Workshop Technology/Practice

Basic Electrical Engineering

Engineering Drawing I

Introduction to Computer

3

2

3

2

2

Auxiliary Courses

MTH 211

MTH 214

CHM 212

Mathematical Methods I

Linear Algebra I

Physical Chemistry II

3

2

2

General Studies Courses

GSS 212

GSS 217

Peace and Conflict Resolution Studies

Philosophy and Logic

2

2

Total

 

 

23

 

 

 

 

SECOND SEMESTER

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

ENG  221

ENG 222

ENG 223

ENG 224

ENG 225

  ENG 226

ENG 227

SWEP 200

Strength of Materials I

Engineering Drawing II

Computer Programming

Materials Science

Fluid Mechanics I

Engineer in Society

Mechanics of Machines I

Student WorkExperience Programme

2

2

3

2

3

1

2

2

 

Auxiliary Courses

MTH 221

STA 224

Mathematical Methods II

Statistics for Physical Science &

Engineering   

3

 

3

General Studies Courses

GNT 221

Introduction to Entrepreneurial Studies

2

Total

 

 

23

 

 

THIRD YEAR

                                                             FIRST SEMESTER

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

ENG 313

EEE 311

EEE 312

EEE 313

EEE 314

EEE 315

EEE 317

EEE 318

GNT 311

 

ENG 311

Engineering Analysis

Electromagnetic Fields and Waves 1

Circuit Theory 1

Electrical Machines 1

Electrical Machines Lab

Physical Electronics

Electrical Engineering Lab

Electric Power System Principles 1

Business Development & Management

Engineering Economics

3

3

2

2

1

3

1

2

 

2

2

Total

 

 

21

 

 

                                                          SECOND SEMESTER

 

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

ENG 326

 

EEE 321

EEE 322

EEE 323

EEE 324

EEE 325

EEE 326

 

EEE 327

EEE 328

  

EEE 329

SWEP 300

Technical Report Writing and

Presentation

Electric Power System Principles II

Electromagnetic Fields and Waves II

Circuit Theory II

Electronic Circuit I

Electric Machine Lab

Advanced Computer Programming & Statistics

Measurement and Instrumentation

Measurement and Instrumentation Lab

Communication Principles

 Student WorkExperience Programme

 

1

2

3

2

2

1

 

             3

3

 

1

3

             1

Total

 

 

21

 

 

FOURTH YEAR

FIRST SEMESTER

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

ENG 418

EEE 411

EEE 412

EEE 413

EEE 414

EEE 415

EEE 416

EEE 417

EEE 418

EEE 419

EEE 410

GNT 411

Computational Methods in Engineering

Electrical Machines II

Communication System

Digital Electronics

Communication Principles Lab

Electronics Circuits II

Control Theory

Control Systems Lab

Data Communications

Digital Electronic Lab

Seminar and Industrial Visits

Practicum

3

2

2

2

            1

2

3

1

2

1

1

2

   Auxiliary Courses

  EME 511

Engineering Law and Management

2

Total

 

 

23

 

 

 

 

 

 

 

 

SECOND SEMESTER

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

SIWES

EEE 400

Students’ Industrial Work Experience Scheme (6 Months)

 

15

Total

 

 

15

 

 

FIFTH YEAR

FIRST SEMESTER (ELECTRONICS ENGINEERING OPTION)

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

EEE 511

EEE 512

 

EEE 513

EEE 514

EEE 515

 

EEE 516

EEE 500

Advanced Circuit Techniques

Power Electronic Devices and Circuits

Engineering Management

Telecommunication Engineering

Micro-Computer Hardware and Software Techniques

Modelling and Computer Simulation

Final Year Project I

3

 

3

2

2

 

3

2

3

Total

 

 

18

 

 

SECOND SEMESTER (ELECTRONICS ENGINEERING)

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

EEE 521

EEE 522

 

EEE 523

EEE 524

EEE 525

EEE 526

EEE 529

EEE 500

Solid State Electronics

Reliability and Maintainability of

Electric Components and Systems

Industrial Electronics Design

Digital Signal Processing

Control Systems Engineering

Introduction to VLSI Technology

Electrical Service Design

Final Year Project II

2

 

2

2

2

3

2

2

3

Total

 

 

18

 

FIRST SEMESTER (POWER SYSTEM ENGINEERING OPTION)

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

EEE 512

EEE 513

EEE 514

EEE 516

EEE 517

EEE 518

 

   EEE 519

 

 EEE 500

Power Electronic Devices and Circuits

Engineering Management

Telecommunication Engineering

Modelling and Computer Simulation

Electrical Machines Design

Electric Power Systems Analysis,

Planning and Protection

Power Systems Modelling & Optimization

 

Final Year Project I

3

2

2

2

2

 

2

 

2

 

3

 

            3

 

Total

 

 

18

 

 

SECOND SEMESTER (POWER SYSTEM OPTION)

 

 

COURSE CODE

COURSE TITLE

CREDIT LOAD

Major Courses

EEE 522

 

EEE 521

 

EEE 525

EEE 526

EEE 527

EEE 529

EEE 500

Reliability and Maintainability of

Electric Components and Systems

Power Systems Communication and Control

Control Systems Engineering

Electric Motor Drives

Switchgear and High Voltage Engineering

Electrical Service Design

Final Year Project II

 

2

 

2

3

3

3

2

3

Total

 

 

18

 

COURSE DESCRIPTION

FIRST YEAR

ENG 111        INTRODUCTION TO ENGINEERING (1 CREDIT)

History- Engineering and Technology: Man – his origin and nature; man and his economic environment; scientific methodology; science and technology in the society and service of man. Renewable and non-renewable resources; Man and his energy resources. Environmental effects of chemicals, plastics, textiles, wastes and other materials. Chemical and radio-chemical hazards. Introduction to the various areas of science and technology.

 

MTH 111        GENERAL MATHEMATICS I (3 CREDITS)

Indices, logarithms and surds. Quadratic functions, equations and inequalities. Permutations and combinations. Matrices and determinants. Application to the solution of systems of equations in almost three unknowns. Trigonometry; circular measure. Trigonometric functions of angles. Trigonometric identities, addition and factor formula. General solution of trigonometric equations such as

Coordinate Geometry: The distance between two points, the mid-point formular, gradient of a line joining two points, Equation of a straight line. Parallel and perpendicular lines. Division of a line in a given ratio. Equation of a circle in Cartesian coordinates, tangents to a circle.

 

MTH 112        ELEMENTARY MATHEMATICS I (3 CREDITS)

Elementary set theory: subsets, union, intersection, compliments, 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, trigonometric identities, addition and factor formulae. General solution of trigonometric equations such as . Matrices: Introduction to matrices, elementary operations on matrices, determinants of at most 3 x 3 matrices.

 

PHY 111 GENERAL PHYSICS I (MECHANICS AND PROPERTIES OF MATTER)

(2 CREDITS)

Relevance of physics to Agriculture, Fundamental and Derived Units, Dimensions, vectors; addition and subtraction of vectors. Resolution of vectors, scalar and vector products. Equilibrium. The principle of moments, centre of gravity and its applications in agriculture. Kinematics: displacement, velocity and acceleration. Projectile motion, circular motion, simple Harmonic motion. Dynamics; Newton’s laws of mechanics, Elastic and inelastic collision, modulus of elasticity; statics friction, inertia, moment of inertia and torque, properties of matter, Archimedes principle, fluid pressure, blood pressure.

 

PHY 112         ELEMENTARY PHYSICS I (2 CREDITS)

Space and Time, units and dimensions, frames of reference, Kinematics, Fundamental laws of mechanics, statics and dynamics, work and energy, conservation laws, Galilean Invariance, Universal gravitation, rotational dynamics and angular momentum. Molecular treatment of properties of matter, elasticity, Hooke’s law, Young’s shear and bulk moduli, Hydrostatics, Pressure, buoyancy, Archimedes’ principle, hydro-dynamics; streamlines, Bernoulli and continuity equations, turbulence, Reynold’s number, laminar flow, Poiseuile’s equations, Surface tension, adhesion cohesion, capillarity, drops and bubbles, temperature; zeroth law of thermodynamics, heat laws of thermodynamics, gas laws, kinetic theory of gases, applications.

 

PHY 117         GENERAL PHYSICS LABORATORY I            (1 CREDITS)

Relevance of physics to agriculture, fundamental and derived Credits, dimensions, vectors; addition & subtractions of vectors, resolution of vectors, scalar & vector products. Equilibrium, the principle of moments, centre of gravity and its application in agriculture, kinematics displacement, velocity and acceleration, projectile motion, circular motion, simple harmonic motion. Dynamics; elasticity; statics, friction, inertia, moment of inertia and torque, properties of matter, Archimedes principle fluid pressure, blood pressure.

 

CHM 113       GENERAL CHEMISTRY I (3 CREDITS)

Basic principles of matter and energy from the chemist’s point of view: atomic theory and molecular structure, stoichemistry, the periodic classification of the elements, atomic structure, chemical bonding, properties of gases, solids, liquids and solutions, chemical equilibrium, ionic equilibrium, chemical thermodynamics, electro-chemistry and chemical kinetics (includes laboratory sessions).

 

CHM 114       PRACTICAL CHEMISTRY I (1 CREDIT)

Laboratory exercises drawn from CHM 113.

 

GSS 111         USE OF ENGLISH I (2 CREDITS)

Listening comprehension: note taking during lectures, note taking from audio-visual equipment, concentration signals and cues as aids to listening comprehension. Phonetics. The use of the Library and Basic Research Methods: Types of Libraries, forms of Library services, cataloguing and book classification schemes, process of data collection/analysis, research writing, process and technique, documentation, references, notes and bibliography, abbreviations in research writing, the finished research report. Reading comprehension: the outline note, summary writing, genre and techniques of reading comprehension: scanning, skimming, intensive/extensive reading, word/text attack skills, SQ3R techniques, varieties of English and Levels of Usage, vocabulary development: word choice and usage denotation and connotation. Term paper writing and submission.

 

 

GSS 112         NIGERIAN HISTORY  (2 CREDITS)

The concept of culture, pre-colonial cultures and languages of Nigeria. Principles of kinship. Descent and marriage in Nigerian cultures. Nigerian economic institutions, Nigerian political institutions. Education and development in Nigeria. Religion in Nigerian culture. Culture, environment and health practices in Nigeria.

 

GSS 114:        ELEMENTARY FRENCH I (1 CREDIT)

Introduction au pays La FRANCE et à la languagefrancaise. Developpement de la langue à travers le monde. La Francophonie et les habitants des pays. Pourquoi le francais au Nigeria. La contribution de la France dans le développement de l’Agriculture, de la Science et de la Technologie. Les salutations quotidiennes et usuelles. Preséntation de soi et d’autrui: nom, profession, adresse, et nationalité etc. Les professions dans le secteur agricole. Le personnel de l’université.. identification des gens et des objets communs. Les nombres car dinaux et ordinaux. S’orienter: trouver son chemin dans le campus. Interrogation et negation a base des verbes les plus usages chaque jour.

 

GSS 115         BASIC GERMAN I (1 CREDIT)

Pronounciation of alphabet (A, B, C, D, E, etc) vowels (A, E, I, O, U), Diphthongs (ai, ei, ou, eu, oi, ui) and consonants (b, c, d,). Differentiation of verbs int: Starke, schwache, and Hilfsverb. Conjugation of verbs into presens, Imperfekt, Plusquamperfekt, Futur I, Futur II. Declination of nouns (substantiv); Pronouns (Wir, Ich, du, sie, er, es, 1hr, Sie). The usə of definite and indefinite articles – der, die, das, ein, eine, and their declinations. The use of betimmte and umbestimteNumerale, as well as Adjective and its comparison. Use of capital leters and its importance.

 

Alltag usages-days of the week, season of the year, timing, the months. The use of Negation –nicht. Interrogation-weiche, was, warum, wer; Hilfsverbs- sein, haben.

ENG 121        APPLIED MECHANICS (3 CREDITS)

Statics: Laws of statics; system of forces and their properties; Simple problems. Friction, Particle dynamics: Kinematics of plane motion. Newton’s law -kinetics of particles, momentum and energy methods. Kinetics of Rigid Bodies: two dimensional motion of rigid bodies, energy and momentum. Mass, movement of inertia. Simple problems. Simple harmonic motions.

 

MTH 122        ELEMENTARY MATHEMATICS II (3 CREDITS)

Functions: concept and notation. Polynomial and rational functions. Trigonometric, exponential, and logarithmic functions. Limit and the idea of continuity. The derivative as limit of rate of change. Differentiation of algebraic, trigonometric, exponential and logarithmic functions. Techniques of differentiation. Application to curve sketching, maxima and minima, etc. Integration as inverse of differentiation. Definite and indefinite integrals. Methods of integration (substitution, partial fractions, parts). Application to geometry and mechanics.

 

MTH 123        INTRODUCTION TO VECTORS(2 CREDITS)

Equations of straight lines, circles, ellipse, parabola and hyperbola. Tangents and normals. Vectors, laws of vector algebra. Representation of vectors in 1-3 dimensions. Components, and direction cosines. Addition of vectors, and multiplication of a vector by a scalar. Scalar and vector products of two vectors, triple products, vector equation of a straight line and plane.

 

PHY 121         GENERAL PHYSICS II (2 CREDITS)

Waves ; Dynamics of waves. The wave equation, characteristics of waves, stationary waves. Light waves and its characteristics. Imaging, sound wave. Doppler effects. The converging lens. Refraction at plane surfaces. Electricity; electrostatic force. Coulomb’s law, electric field and electric potential. Ohm’s law, Alternating current, Magnetism; magnetic effects of currents. Permanent magnetism, Ferro-magnetism. Faraday’s laws of induction. The potentiometer and the white stone bridge. Concept of heat. Temperature and thermometers.

 

PHY 122         ELEMENTARY PHYSICS II (2 CREDITS)

Electrostatics, conductors and currents; dielectrics, magnetic field and induction; Maxwell’s equations; Electromagnetic oscillations and waves; applications.

 

PHY 127         PHYSICS LABORATORY II (1 CREDIT)

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.

 

CHM 121       GENERAL CHEMISTRY II (3 CREDITS)

Application of the principles of chemical and physical change to the study of the behaviour of matter and the interaction between matters. Course content includes, the chemistry of representative elements and their common compounds with emphasis on gradation of their properties – brief chemistry of the first series of transition elements, general principles of extraction of metals; introductory nuclear chemistry (includes Lab Sessions).

 

CHM 124       PRACTICAL CHEMISTRY II (1 CREDIT)

The theory and practice of simple volumetric and qualitative analyses, simple organic preparations, reactions of functional groups and physical determinations.

 

GSS 121    USE OF ENGLISH II (BASIC GRAMMAR & VARIETIES OF WRITING)

(2 CREDITS)

Each student is required to study a recommended novel.

Basic Grammar: Sentence elements, sentence types and varieties, punctuation and capitalization, abbreviation in sentence construction, homonyms, synonyms, antonyms and acronyms, error identification and correction.

Writing Skills and varieties of writing: the paragraph – devices of coherence/logical connectors, types of writing – narration, description, exposition, argumentation.

 

 

GSS 124         ELEMENTARY FRENCH II (1 CREDIT)

Les jours de la semaine, les mois de l’anneé, la date. Description physiques et psychologiques de soi et des autres personnes Quelle heure est-il? Description de la vie et des activitiesquotitienness; interrogation et negation. L’alphabet francsais et l’ orthographe, introduction à la dictée. Les adjectives possessifs, Le corps humain. A l’hôpital. En ville: à la poste, au marché, à lagare, à la biblionthéque etc. Les autres moyens de transport. La famille, les vétements et les couleurs.

 

GSS 125         BASIC GERMAN II (1 CREDIT)

Saiziehre (Sentence Construction): definition of sentences, art and form of German sentences, Das Saizghid. Use of Surfix and Prefix; Use of big and small letters in sentences; Conjugation of verbs.

 

 

GSS 126         SOCIAL SCIENCE (2 CREDITS)

A global perspective of economics, institutions and developments. The law of scarcity and the technological choices open to any society. Trade development with special reference to trade in primary products, imports substitution and export possibilities in Nigeria and Third World countries; Nigeria’s balance of payments and commercial policies. Economic integration or unions. State and structure of economics of ECOWAS countries. Nigerian and ECOWAS; prospects for industrialization, trade; fiscal and monetary policies for accelerated industrialization. Nigeria and the Economic Co-operation in Africa (ECA).

 

 

SECOND YEAR

ENG 211        THERMODYNAMICS I (3 CREDITS)

Thermodynamic properties, energy relations and conservation. Paths and processes. Cycle analysis, reversibility. The first law and second law of thermodynamics, entropy. Irreversibility and availability. Air-standard cycles, power and efficiencies. The steady state flow equation (Bernouli Equation) and application. Masses. Elements of vibrated systems. Force and motion relationship in constrained mechanisms.

 

 

ENG 212        WORKSHOP TECHNOLOGY/PRACTICE (2 CREDITS)     

Industrial safety: safety code of conduct and safety consciousness. Survey of common sources of accidents in the work place. Accident  prevention and control. Use of engineering measuring instruments: Calipers, gauges. Sheet metal work-layout and Blacksmithing hand tool, cutting, shaping, welding, brazing, soldering, bolting and reverting and working principles. Joints and fastenings: Woodwork: Basic woodworking principle and tools. Types of joints, processing of timber. Introduction to Industrial bolting and riveting. Safety: survey of sources of common accidents, accident prevention and control. Introduction to machine shop: lathe work: shaping, milling and grinding,  Electrical workshop practice: convention and application of colour, codes for cables, resistors, etc and signs. Use of simple electrical tools, machines, etc. Measurement and marking : for Uniformity, circulatory, concentricity, etc.

 

ENG 213        BASIC ELECTRICAL ENGINEERING(3 CREDITS)

Electrostatics. Concepts of electric charges. Coulomb’s law. Gauss law and applications. Electric potential and field strength. Effect of dielectrics. Electromagnetism; the magnetic field; force on a conductor carrying current in a magnetic field. Applications. Electromagnetic induction. Magnetic circuits. Magnetic circuit calculations. Energy stored in magnetic field direct and current circuits; electric power and energy. Circuit elements. Sources, DC and AC circuits, network laws, theorems and principles. Simple transients. Alternating current circuit. Introduction to electric power generation.

 

Concept of vectors, phasors, complex operators. Definition of impedance, admittance, resistance reactance, acceptance; phasor diagrams for RLC circuits. Resonance. Power in ac circuits introduction to electrical installations.

 

ENG 214        ENGINEERING DRAWING I (2 CREDITS)

Drawing instruments and the use of graphic tools. Introduction to drawing, measuring, lettering and dimensioning of objects in various views/positions. Engineering geometry. Projections: lines, planes and simple solids. Fundamentals of orthographic projection, first and third angle orthogonal projections, isometric projections. Graphs, charts and presentation of data and results.

Pictorial/freehand sketching. Graphical calculus and Applications.

 

 

 

ENG 216        INTRODUCTION TO COMPUTER (2 CREDITS)

History of computers. Generations and classification of computers. IPO model of a computer. Components of a computer system – hardware and software. Programming languages, organization of data. Data capture techniques. Introduction to computer networks. Software and its application. Use of keyboard as an input device. DOS, windows, word processing, spreadsheets. Application of computers in Medicine, Social Sciences, Humanities, Education and Management Sciences. Modes of computer operation- standalone, multitasking, networks; Introduction to computer networks, the internet, multimedia systems, wireless application etc.

MTH 211        MATHEMATICAL METHODS I (3 CREDITS)

Series and tests for convergence if infinite sequences and series of numbers. Equation of lines and planes. Matrices determinants, eigen values and eigen functions, matrix solution of linear algebraic equations, dot and cross product of vectors, triple products, vector functions, the gradient, divergence and curl. Vector spaces. Linear dependence and independence (Wronskians and Jacobians). Computer solution of matrices.

 

MTH 214        LINEAR ALGEBRA  I (2 CREDITS)

Vector spaces over the real field. Subspaces. Linear independence, basis and dimension. Change of basis. Linear transformations and their representation by matrices. Range, null space and rank. Singular and non-singular transformations. Algebra of matrices. Systems of linear equations.

 

CHM212        PHYSICAL CHEMISTRY II (2 CREDITS)

Kinetic theory of gases; Behaviour of real gases; The law of thermodynamic: Latrophy and free energy; Reactions and phase equilibra; Reaction rates; Kate laws; mechanism and theories of elementary processes, photochemical reactions; Basic electrochemistry.

 

GSS 217         PHILOSOPHY AND LOGIC (2 CREDITS)

An overview of philosophy. Definition and uses of philosophy. Philosophy and common sense; philosophy and myth; philosophy and religion; philosophy and science – empiricism. Metaphysics, ethics, epistemology, logic, existentialism.

 

ENG 221        STRENGTH OF MATERIALS I (2 CREDITS)

Introduction to stress and strain; some simple states of stress and strain; stresses; relationship between loading, shearing forces and bending moment; composite shafts and tensional strain energy. Deflection of beams, Macaulay’s method, area moment method, Maxwell’s reciprocal rule, built-in and continuous beam in various loading situations; Complex stress and strain, Mohr’s stress circle, principal stress and strain, electric constant and volumetric strain; St. Venant’s theory; stress in composite materials, bending of plates; membranes. Stresses; stresses in thin cylinders and spheres; thermal stresses; stresses in rivets, joints, etc. use of strain gauge and other measuring devices.

 

ENG 222        ENGINEERING DRAWING II (2 CREDITS)

Projection of lines and laminae; auxiliary views and mixed projection. Preparation of detailed working drawings for production; semi-detailed drawings, conventional presentation methods. Assembly drawing of machines, devices and installation layout; itemization and part-listing. Drawing office practice and reprographics. Connections in Engineering Drawing. Introduction to IS code of drawing. Conics and engineering curves – ellipse, parabola, hyperbola, cycloid, trochoid, involutes. Projection of planes and solids (cube, prison, pyramid, cylinder, core and sphere.

 

 

ENG 223        COMPUTER PROGRAMMING (3 CREDITS)

Computer, computing and engineering, algorithms flow chart and pseudo code. Computer languages, programming in FORTRAN, Matlab, C++ or later versions. Debugging techniques. Computer code security. Laboratory: hands-on experience on computers through the use of ‘Compilers to run programs’ and to solve simple analysis problems in fluid, thermodynamics, heat transfer and electrical systems.

 

ENG 224        MATERIALS SCIENCE (2 CREDITS)

Atomic and Molecular Structures, Crystals. Metallic States. Defects in Crystals, Conductors, Semi-conductors and Insulators. Alloy theory – application to industrial alloys steel in particular. Engineering Properties – their control. hot and cold working, heat treatment, etc. Principles of mechanical testing, impact test, tensile test, hardness tests, fatigue tests, creep test and non-destructive tests. Fracture. Corrosion and corrosion control. Equilibrium and rate reaction. Non-metallic materials – glass, rubber, concrete, plastics, wood and ceramic materials. Electrical properties. Magnetic materials: properties and characteristics. Domain theory, magnetostic, anisotropy, losses, permanent magnets, transformers, cores. Electric materials: Liquid, solid and organic dielectrics polymers: properties/characteristics, inorganic materials, piezoelectric and ferro-electric materials, composite structures, conductors, superconductors and insulators.

 

ENG 225        FLUID MECHANICS I (3 CREDITS)

Definition of a fluid and fluid properties. Statics of fluid systems, pressure in a static fluid, momentary forces on planes and curved surfaces. Kinematics of fluid motion, streamlines, velocity, acceleration, rotation and circulation.

Buoyancy and floatation, stability of floating and submerged bodies. Types of flow, continuity equation, energy equation, momentum equation, fluid resistance, laminar and turbulent flow in fluids, flow in closed conduits boundary layer concepts. The Euler and Bernoulli equations. Differential analysis. Fluid measurements; pressure, velocity and flow rates. Hydraulics of pipe flow; hydraulic and energy grade lines, pipes in series, parallel pipes, branching pipes, network of pipes, deterioration of pipes. Unsteady flow conduits, water hammer purge control.

 

ENG 226:       ENGINEER IN SOCIETY (1 CREDIT)

Philosophy of science. History of Engineering and Technology. Safety in Engineering and Introduction to Risk Analysis. The Role of Engineers in Nation Building. Invited Lectures from professionals.

 

ENG 227        MECHANICS OF MACHINES I (2 CREDITS)

Concepts and types of mechanisms; Kinematics of mechanisms, kinematics analysis, cam, complete static and dynamic forces and analysis. Flexible shaft couplings, virtual work, energy and speed fluctuations in machines. The flywheel and mechanical governors. Acceleration of geared systems, equilibrium of machines, brakes and dynamometers mechanisms. Spiral gearing and theory of involutes gearing, simple, compound and epicyclical gear trains. Dynamics of rotating and reciprocating machines, static and dynamic balancing of machines. Balancing of rotating masses, multi-cylinder engines and governors. Gyroscope.

 

 

MTH 221        MATHEMATICAL METHODS II (3 CREDITS)

Review of differentiation and integration methods. Derivation of equations from physics, chemistry, biology, geometry etc. Ordinary differential equations. Applications of first order differential equations. Second order linear equations. Linear dependence and independence. Solutions of second order linear differential equations by method of undetermined coefficients and variation of parameters. Simple Laplace transformation. Solution of initial-value problems by Laplace transform method. Computer solution of selected engineering problems. Excel package.

Double and triple integrals with applications, vector integration and vector integral theorems: divergence, Green’s and Stoke’s theorems and applications. Functions of more than one variable. Extermination of functions of many variables.

 

GSS 221         INTRODUCTION TO ENTREPRENEURIAL STUDIES (2 CREDITS)

Basic Engineering Business Settings: – Review of engineering business activities Introduction to organizational structure of manufacturing organization. Entrepreneurship and new Venture creation:- Evolution of an industrial, domestic and commercial products to meet the needs of the  society. Drawing, Bill of Quantities. Identification of materials- material location, quantity, quality and handling requirements, specification. Quality control and measurement. Cost estimation and marketing of products: market/product mix, market research and market strategy. Group technology task.

 
STA 224 STATISTICS FOR PHYSICAL SCIENCE & ENGINEERS(3 CREDITS)

Distributions: Binomial, Poisson, Geometric and Hypergeometric. Continuous probability distributions: Normal, chi-square (x) and F.

 

 

THIRD YEAR

 

ENG 313        ENGINEERING ANALYSIS I (3 CREDITS)

Complex derivatives and analytical functions. Bilinear transformation, conformal mapping, contour integration, Cauchy’s integral theory, residue theorem, applications and Riemans surfaces. Special functions, Bessels equation, fourier series and lengendre functions. Simultaneous differential equations with constant coefficients; Laplace transforms methods. Linear second order differential equations with constant and variable coefficients. Classification of second order partial differential equations:- Laplace, wave & diffusion equations, initials and boundary value problems, separation of variables, similarity solutions. Solution of equations by iteration. Newton-Raphson Method; errors. Numerical differentiation and integration, Simpson’s rule. Introduction to interpolation and curve fittings. Statistical Analysis; Regression and correlation – large sampling theory, Test Hypothesis and Quality Control. Introduction to system modeling.

 

EEE 311         ELECTROMAGNETIC FIELDS AND WAVES 1 (3CREDITS)

(Pre-requisite ENG 213 Basic Electrical Engineering)

Basic Vector Analysis: Gradient, Divergence, Curl, Stokes Theorem, Gauss Theorem, Ampere Circuital law, Faradays law. Electrostatic Fields due to distribution of charge, magnetic fields in and around current carrying conductors. Time varying magnetic and electric fields. Conduction and displacement currents.

 

 

EEE 312         CIRCUIT THEORY 1 (3 CREDITS)

(Pre-requisite ENG 213 Basic Electrical Engineering)

Network Theorems and network Topology:

Network Theorems, Telegen’s Theorem, The Duality Principles, Network Topology, General steady State and Transient Network Solutions. Network Transformations; State space formation of Networks. Magnetically coupled Networks. Resonance in networks.

Time domain analysis of networks:

Application of Integra-differential equation to networks; initial and final conditions. Forced responses and natural behaviours. Step and impulse responses.

 

EEE 313         ELECTRICAL MACHINES 1 (3 CREDITS)

Electromagnetic Theory: Field intensity, Flux, Magnetic Circuits, Inductor equivalent circuit. Electromagnetic conversion principles: mechanical energy in basic electromechanical system, torque production, generalized electrical machine.

Transformers: features, principles of operation, equivalent circuit, phasor diagram, regulation, efficiency, rating, three phase delta/star connections.

DC Machines: Classification, Principles of operation, Operating Characteristics, ratings, efficiency, Applications.

Induction machines: Three phase and single phase.

Induction Motors: Classification, Theory and operation, equivalent circuits, phasor diagrams, operating characteristics, rating and efficiency.

Synchronous Machine: Classification, theory of operation, equivalent circuits, phasor diagram. Performance characteristics, rating and efficiency.

 

EEE 314         ELECTRICAL MACHINES LAB            (1 CREDIT)

Transformers:

Short Circuits and open circuits tests, experimental determination of circuit parameters, efficiency and regulation measurements from load tests, measurement and observation of harmonics in three phase connections.

DC Machines:

Measurement of circuit parameter and performance characteristics of DC motors and generators (Separately excited, shunt, series, compound)

Induction Machines:

Open Circuit and short circuit tests, loads tests, circuits parameter and efficiency measurements. Synchronous machines, open circuit performance measurements, short circuit tests, load and synchronization tests. Observations and measurements of hysterisis loops. Simple motor drive tests with solid state converters.

 

EEE 315         PHYSICAL ELECTRONICS (3 CREDITS)

Free electron motion in static electric and magnetic fields, electronics structure of matter, conductivity in crystalline solids. Theory of energy bands in conductors, insulators and semi-conductors: electrons in metals and electron emissions; carriers and transport phenomena in semi-conductors, characteristics of some electron and photo devices, junction diode and transistors, FETs, SCR, vacuum tubes, photo resistors, diodes, transistors, photo cell and light emitting diode, elementary discrete device. Fabrication techniques and IC technology.

 

 

EEE 317         ELECTRICAL ENGINEERING LAB     (1 CREDIT)

Resistance measurement, condition for maximum power transfer, inductance and capacitance measurement, verification of network theorems, ac series circuits. Measurement of power and power factor, Excitation of dc generator, load characteristics of a separately excited dc motor, open and short circuit tests for a transformer, static characteristics of a junction diode and transistor; Half and Full wave rectification; Determination of copper temperature co-efficient by Wheatstone bridge, measurement of voltage, currents and power in three phase star/delta connection, simple domestic installation practices.

 

EEE 318         ELECTRIC POWER SYSTEM PRINCIPLES (3 CREDITS)

Introduction – Power system and sources of electric energy, structure and electric power system, load characteristics. Transmission and distribution of electric energy, current and voltage relations in a transmission line, regulation and losses. Construction of overhead lines and underground cables, power system equipment, standard and safety.

 

EEE 319         BASIC ELECTRONIC ENGINEERING (2 CREDITS)

Thermoinic devices: Thermoinic, photo and secondary emission, characteristics, parameters and construction of vacuum diode, triodes, tetrodes, pentodes, gas-filled devices and photocell, applications, cathode-ray tube construction and operation.

Semiconductor devices: P-N junction diodes formation, characteristics, equation, rating and uses. Description and uses of Zener, photo and light emitting diodes, solar cells, formation and principles of operation of bipolar junction transistors (BJTs). Characteristics of BJTs in common Base, Common Emitter, Common Collector Configurations, small signal parameters and equivalents circuits, transistor ratings, biasing and graphical analysis of operation. Characteristics and parameters of Junction Field Effect Transistors (JFETs) and Metal Oxide Semiconductor Field Effect Transistor (MOSFETs).

 
ENG 326:  TECHNICAL REPORT WRITING AND PRESENTATION (1 CREDIT)

Principles of effective communication.  Professional use of the English Language.  Principles of technical writing.  Types of technical report/ Technical Articles. Oral presentation of technical ideas.

 

EEE 320         COMMUNICTAION PRINCIPLES (2 CREDITS)

Amplitude modulation; double sideband, single sideband and vestigial sideband modulation schemes; simple modulators, power and bandwidth performance. Angle modulation; frequency modulation, phase modulation, bandwidth 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 fiber channels; construction of cables and fibers, sampling theorem, pulse amplitude modulation, pulse width modulation, multiplexing, quantization systems and pulse code modulation, delta modulation, causes and corrections of errors in PCM and DM, ideal and matched filters, frequency acquisition, phase referencing and timing. Line codes, block encoding and shannon’s theorem.

 
EEE 321 ELECTRIC POWER SYSTEM PRINCIPLE II (3 CREDITS)

(Pre-requisite EEE 318 Electric Power System Principles 1)

Representation of power system, power equation and analysis, load flow studies, load forecasting, economic operation of power system, symmetrical components, symmetrical and unsymmetrical faults, various protection system on power transmission lines. Principles of fault detection. Discrimination and clearance, element of power system stability.

 

EEE 322 ELECTROMAGNETIC FIELDS AND WAVES II   (3 CREDITS)

(Pre-requisite: EEE 311 Electromagnetic Fields & Waves 1)

Review of Time Varying Fields: Maxwell’s equations (in rectangular co-ordinates, integral form and differential form). Derivation of Maxwell’s equations. Wave equation and its solutions. Plane waves in vacuum, lossy dielectric and conducting media. Pointing theorem, power and energy. Boundary conditions. Reflection and transmission of plane waves. Standing waves. Introduction to wave guides.

 
EEE 323 CIRCIUT THEORY II(3 CREDITS)

(Pre-requisite EEE 312 Circuit Theory 1)

Frequency domain analysis of networks: Networks functions; poles and zeros; frequency response curve; bode plots and Nyquist plots, signal classification; Fourier series and periodic signal; Fourier integral and non-periodic signals;Application of Fourier series in network analysis:

Laplace transforms application of Laplace transformation to transient analysis of RLC circuits.

Application to non-linear characteristics analysis and synthesis of non-linear resistance circuits, harmonics analysis of non-linear dynamic circuits, application of computers in the analysis of linear and non-linear circuits.Foster and Cauer’s synthesis, active filters.

EEE 324         ELECTRIC POWER SYSTEMS  LAB  (1 CREDIT)

Measurements of differently connected three phase circuits. Verification of methods of measurement of three phase power. Synchronization of generators to busbar voltages. Voltage and current measurements, three phase transmission line models. Power factor improvement tests. Over-current relay tests on simulated faults.

EEE 325         ELECTRONIC CIRCUIT 1  (3 CREDITS)

Single stage transistor Amplifier and operational Amplifiers. Bipolar transistors: Structure and operation, Biasing arrangement, circuit configuration of BJT, common base, common emitter and common collector configuration.Semiconductor materials and devices. P-N junction diodes formation, characteristics, equation, rating and uses.Feedback, broadband and narrowband amplifiers, power amplifiers, voltage and current stabilizing circuits.Other types of diodes: shocky diode, zener diode, LED and Photodiodes.

 

EEE 326         ELECTRONICS CIRCUIT LAB (1 CREDIT)

Feedback amplifier, operational amplifier, oscillator circuits, basic logic circuits, digital wave combinational logic circuits (Verification of Boolean Algebra Theorems) wave shaping circuits (monostable and astablemultivibrators) memory circuits and counters. Transistor characteristics (Junction and FET transistors), Zener diode characteristics and use of Zener diode as reference sources.

EEE 327         APPLIED ELECTRONICS (2 CREDITS)

Oscillator: feedback principles and circuits’ feedback and negative resistance. Oscillators frequency stability, multivirbrators, bistable, astable and monostable clocked flip flops and Schmitt trigger, application of multivibrators as memory devices, clocks, counter (up/down) and shift registers.Integrated Circuits: Planer structure and fabrication process for discrete devices, monolithic and hybrid ICs, their properties and applications, assembly and packing consideration. Operational amplifiers characteristics, analysis and designThyristors: Silicon controlled rectifiers (SCRs), triacs and diacs, their theory, operation, characteristics and application.

 

EEE 328         MEASUREMENTAND INSTRUMENTATION (3 CREDITS)

General instrumentation, basic meter in DC measurement. Basic meter in AC measurements, rectifiers voltmeter, electro-dynamometer and wattmeter. Instruments transformers, DC and AC Bridges. Universal Impendence Bridge. Electronic instruments for the measurement of voltage, current resistance and other circuit parameters; electronic voltmeters, AC voltmeters using rectifiers, electronics multimeters, oscilloscope, vertical deflection system, horizontal deflection system, probes, sampling CRO, instruments for generating and analyzing waveforms; square analyzers; electronic counters and their applications; Time base circuitry, universal counter measurement modes, analog and digital data acquisition system; tape recorders. D/A and A/D conversions, sample and hold circuits.

 

EEE 329         MEASUREMENTAND INSTRUMENTATION LAB (1CREDITS)

Testing of indicating instruments; DC and AC measurements; Resistance with Bridges; Transducers Testing and output measurement; Capacitive and inductive transducers in FM systems, piezoelectric, photoelectric, thermocouples, cathode ray oscilloscope; study of features and operation, triggering, storage, measurement of voltage, current and phase difference; signal generator; study of features and output signal harmonic contents, frequency discrimination; Digital multimeters; features and operation details, measurement of voltage, current and resistance.

 

 

FOURTH YEAR

 

ENG 418:       COMPUTATIONAL METHODS IN ENGINEERING (3 CREDITS)

Polynomials and their zeros: methods of bisection, Bairstow synthetic division and lahmer. Divert methods for the solution of linear equations. Convergence: interpolation and differentiation method in numerical integration Newton coates formulae and finite difference methods. The eigenvalue problem solution of ordinary differential equations. Methods of Taylor, Euler, Predictor – corrector and runge-Kutta.

 

 

EEE 411         ELECTRICAL MACHINES II  (2 CREDITS)

(Pre-requisite: EEE 313 Electrical Machines I)

Transformers: Core types and shapes, winding, cooling, in rush currents: harmonics in three phase transformer, saturables reactors. DC machines: review of excitation methods and performance characteristics: armature reaction, interlopes, compensation windings, ratings and efficiency; universal motor, permanent magnetic motor.

Induction motors: Three Phase Induction motor Winding, rotor types, circle diagram, rating, control methods, single phase induction motors – types and methods of starting, performance review and applications, synchronous linear induction motor. Synchronous machines; types – salient and cylindrical, circle diagrams and V-curves; synchronous generator on infinite busbar; parallel operation.

 

EEE 412 COMMUNICATION SYSTEM   (3 CREDITS)

Microwave frequencies and uses; microwave transmission in transmission lines and waves guides, microwave circuits; impendence transformation and  matching, microwave circuits, passive microwave device, resonant and filter circuits, active microwave devices; Klystron and Magnetron tubes and semiconductors devices for microwave generation.

Antenna: Definitions of elementary parameters related to radiation patterns; dipole and overtone antenna and the related design parameters; introduction to antenna arrays. Radiowave propagation: Propagation in the ionosphere, troposphere 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 413 DIGITAL ELECTRONICS   (2 CREDITS)

Review of Flip-flops, counters and registers: Combining Logic Gates; constructing circuits from Boolean Expressions. Drawing a circuit from a Maxterm/Minterm Boolean Expression, Karnaugh maps, Computer Simulations – logic converter, programmable logic device (PLDs), DeMorgan’s Theorems. Encoders, Seven-segment LED Displays, Decoder, BCD-to-Seven-segment Decoder/Drivers.Arithmetic Circuits: Binary Addition, half Adder, full Adders, IC Adders. Memories; Random Access Memories (RAM), Read-Only Memories (ROM), programmable Read-Only Memories (PROM), Non-volatile Read/Write Memory.

 

EEE 414         COMMUNICATION PRINCIPLES LAB. (1 CREDIT)

Logic modules, Logic circuits, shift registers, shift counters, ring counters, single-latch and clocked filp-flops, JK flip flops, synchronous and Asynchronous counters, up-down counters, codes and code converters, D/A and A/D converters. Microcomputer interface techniques. Modulators and Demodulators (MODEM) and their uses in communication circuits. Multiplexing techniques, PAM and PCM circuits, analogue and digital telephony systems.

 
EEE 415 ELECTRONIC CIRCUIT II  (3 CREDITS)

(Pre-requisite EEE 325 Electronic Circuit I)

Analysis and designs of multistage amplifiers. Feedback, broadband and narrow band amplifiers, power amplifiers, voltage and current stabilizing circuits, sinusoidal RC and LC and crystal oscillators, other communication circuits, review of elementary digital concepts, switching and waveshaping circuits. Generation of non-sinusoidal waveforms: astable, monostable and bistable multi-vibrators, co-operator, Schmitt trigger and time-base generators using discrete transistors, operational amplifier or other integrated circuits. Timer chips and their applications.

Analysis and design of logic gates of various families; diode logic, RTL, TTL, ECL, MOS and CMOS of digital integrated circuits.

Interfacing between various logic families, concept of small, medium, large and very large scale integration and their consequences, some digital building blocks; Flip-flops, counters register and decoders. Introduction to D/A and A/D conversion principles.

 

EEE 416         CONTROL SYSTEMS  ENGINEERING I (2 CREDITS)

State space description of linear systems, concepts of controllability and observability, state feedback, model control observers, realization of system having specified transfer function, applications to circuit synthesis and signal processing.

 

EEE 417 CONTROL SYSTEMS LABORATORY  (1 CREDIT)

Time and Frequency domain measurements of control system response, gain, lag and lead compensation of a closed loop servo system; closed loop control of a non-linear control system. Verification of describing function principles, observation of phase trajectories, performance measurement of proportional and proportional plus integral speed controlled DC motor; performance verification of analogue, hybrid and digital control of servo motor position.

 

EEE 418         DATA COMMUNICATIONS (2 CREDITS)

Data communication – links; channels, media and configurations. Transmission over voice-grade circuits; design consideration. ITU recommendations, modulation techniques and modems interconnections and data encryption. Methods of enhancing channel capacity, packet – switching data networks.  Multiplexing and synchronization techniques; organization of international and national digital networks requirements.  Interfacing, protocols, information codes, error correction for data communication.  Internet: Definition, Network Access points (NAPs). Internet access. Transmission control protocols/internet protocol (TCP/IP). Internet virtual private networking, IP addressing.  Routers and Routing information Protocol (RIP). Routing Algorithms: shortest path routing e.g. OSPF, Distance vector routing. Link state routing, multi protocol label switching (MPLS).  Next generation Ethernet: Wi Fi and wireless LANS, Wide Area Wireless Networks, Wimax and Broadband Access for data. WAN/LAN bridges and switches. Asynchronous Transfer Mode Network (ATM) structure.

 

EME 511 ENGINEEIRNG LAW AND MANAGEMENT (2 CREDITS)

Engineering Profession: Professional ethics and conducts. Law: Definition and specifications, Applications of business law to engineering, patents and investigations, trademarks and copyright, contracts and contract documents. Engineering business types and structure and functions of organizations, professional problems, legal responsibilities, professional liability, role of energy in law suits.

Management: organization structure and behaviour, engineer to engineer manager transition, managerial functions, principles and techniques of planning, forecasting, organizing technical activities project selection and management leadership styles of leadership and management.

Technique in engineering management: Motivated, appraisal, participative and control techniques. Breakthrough and control management theory, personal management, labour and public relations. Wages and salary administration. Production and maintenance management, training, planning, organizing and controlling, motivating and appraisal of results.

 

EEE 410         SEMINAR AND INDUSTRIAL VISITS (1 CREDIT)

This course is designed to allow discussion of projects, research and industrial related projects by both staff and students. By so doing, the students are exposed to the techniques of how to present scientific ideas and technical reporting. At the end of the course, students are expected to present their technical reports in both oral and written form.

 

 

EEE 400:        SIWES – 15 CREDITS   

 

 

 

 

 

FINAL YEAR

 

EEE 511       ADVANCED CIRCUIT TECHNIQUES (3 CREDITS)

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.

EEE 512POWER ELECTRONICS AND DEVICES  (3 CREDITS)

Switching characteristics of diodes, transistors, thyristors, etc. analysis of diode circuit with reactive loads, analysis of circuits using transistors as switches, power control circuits, ac-dc converters, characteristics of switching transformers, power semi-conductor device protection, examples of power electronics circuits, solar devices.

 
EEE 513 CONTROL LOGIC CIRCUIT DESIGN  (2CREDITS)

Review of digital IC logic families: HTL; CMOS; TTL; Combinational Logic Design: tabular minimization, sequential logic design, state method for implementation, operational amplifiers, timers, multipliers, phase locked loops, A/D and D/A converters and their control applications. Control system components, thyristors, synchronous, relays, potentiometers as error detectors, transducers, control valves, hydraulic pumps. Logic circuit design for selected problems.

 
EEE 514TELECOMMUNICATION ENGINEERING  (3 CREDITS)

Cable telegraphy and telephony characteristics, cross talk, equation, poleliness, aerial and underground cables. Telegraph system: codes, radio systems, terminal equipment (teleprinters, relays, switching systems, repeaters). Telephone receivers, switching (crossbar, electronic switches), PAX, PABX, Transmission standard, Telephone network structure.

 

EEE 515         ANALOG AND DIGITAL COMPUTERS (3 CREDITS)

Definition of Analogue and Digital signals.Sources of analogue and Digital Signals.Characteristics of analogue and Digital Signals.Analogue Computers, Digital Computers Analogue computation, electrical analogue of electrical, electromechanical, systems and servomechanisms.Analogue computer elements, potentiometers, operational amplifiers, multipliers function generators, simulation of system transfer functions. Digital computer structure an elements – CPU, storage, peripherals, Arithmetic processes. Hybrid computer systems. Microcomputer Hardware and Software techniques.

 

EEE 516         MODELLING AND COMPUTER SIMULATION (2 CREDITS)

Introduction to system modellingFormation: System definition, classification of models, characteristics of models, Importance of mathematical models.Methodology: Defining and documenting the problem, analysis of data requirement, formulation of subsystems models, integration of subsystems, parameter estimation, debugging the simulator, validating and running the simulator. Introduction to MATLAB/SIMULINK Software. Practical applications: Curve fitting, Electrical networks, Transient Studies, Stability Studies (eigenvalue method).

 

 

 

 

EEE 517         ELECTRICAL MACHINE DESIGN (2CREDITS)

(Pre-requisite EEE 411-Electrical Machines II)

Electric machine construction: cables magnetic cores, insulating materials and their specification. Cooling: Heating and temperature rise data/curve and ventilation/cooling curves. Winding arrangements, flux flow and distribution in the cores for different windings. Flux wave approximations and calculations. Basic principles of electric machine design using machine output and dimensions. Design of inductors, transformers, dc machines, induction motor, synchronous machines: determination of machine core shapes and dimension, winding cable current rating. Insulation and cooling specifications for given output rating.

EEE 518         ELECTRIC POWER SYSTEM ANALYSIS, PLANNING AND PROTECTION (3 CREDITS)

(Pre-requisite EEE 321-Power Systems Principles II)

Modelling of power systems Components. Load flow studies. Fault studies. Power system stability, load growth and forecasting, Introduction to power systems planning and operation using mathematical programming techniques. Protection: requirement, current and voltage level protection, time grading, principles of simple differential protection schemes.

 

EEE 519 POWER SYSTEMS MODELING AND OPTIMIZATION (3 CREDITS)

Power system components functions, application and performance. Relative cost and sailing parameters, over-all planning problem considering present worth and cost benefit principles, system reliability, load forecasting.  Non-linear programming; constrained and unconstrained minimization methods LaGrange multi-pillars, Kuhn – Tucker conditions, Linear, Quadratic and Integer Programming. Applications of optimization techniques to power system e.g. dispatch, optimal load shedding, Transmission Planning, etc. Application of MATLAB/SIMULINK to power system modelling.

 

EEE 500         FINAL YEAR PROJECT I (3 CREDITS)

 

EEE 521 SOLID STATE ELECTRONICS – (3 CREDITS)

Physics and property of Semi-conductor including high field effects. Carrier injection and semi-conductor surface phenomena, device technology, bulk and epitomical materials growth and impurity control, metal-semi-conductors interface properties, stability and methods of characterization; controlled and surface-controlled devices.

 

EEE 522        RELIABILITY AND MAINTAINABILITY OF ELECTRICAL/ELECTRONIC COMPONENTS AND SYSTEMS

(2 CREDITS)

Introduction to reliability, maintainability, availability. Elementary reliability theory. Application to power system and electronic components. Test characteristics of electrical and electronic components. Types of faults. Designing for higher reliability. Packaging, mounting, ventilation. Protection from humidity, dust.

 

 

 

EEE 523 INDUSTRIAL ELECTRONICS DESIGN  (3 CREDITS)

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, solid state relays and stepping motors. Real time control and remote control concepts in instrumentation. Micro-processor and micro-computer based systems.

 
EEE 524 DIGITAL SIGNAL PROCESSING  (2 CREDITS)

Discrete signals and Z-transform, digital Fourier transform, fast Fourier transform. The approximation problem in network theory. Synthesis of low pass filters. Spectral transforms 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 525 CONTROL  SYSTEMS ENGINEERING  II – (3 CREDITS)

(Pre-Requisite EEE 416 Control Systems Engineering I)

State space description of linear systems, concepts of controllability and observability, state feedback, model control observers, realization of system having specified transfer function, applications to circuit synthesis and signal processing.

 
EEE 520 INTRODUCTION TO VLSI TECHNOLOGY (2 CREDITS)

Definition of Integrated circuits-small, large and very large scale integration. IC’s and Development; manufacturing process, 3 types of LSI package, IC’s and communications – data and PCH hybrids.Solid state hybrid review, micro components, microcircuits, transistance, semi conductor elements, silicon and germanium crystals, junction, transistors diodes, digital substrate, thick IC’s active substances, passive substrate, thick and thin films.IC’s current trands.

Hybrid micro century – stripline, microstrip photo etching, three key areas of Development – GaAs Crystal, Ojun diode, IMDIATT et.Negative resistance devices, feedback circuits. Impedance converters, NIB. Active filters of crystal filters.

 
EEE 526 ELECTRIC MOTOR DRIVES (3 CREDITS)

(Pre-requisite EEE 411-Electrical Machines II)

DC Motor Control: Basic equations for armature voltage and field flux control of  motor speed. Forward and reverse running, regenerative braking conditions; solid state dc motor control using controlled rectifiers and dc to dc choppers. Open loop and closed loop analysis of controlled separately excited dc motor. Three phase induction motor control. Basic speed torque control principles by pole changing, frequency and stator voltage variation; solid state induction motor, open loop drives using inverters, ac controllers, recovery schemes; closed loop control schemes by constant air gap. Flux control and slip frequency control; D-Q axis analysis of controlled induction motor. 3-phase synchronous motor control. Basic equations of armature voltage, frequency and rotor angle control of motor speed/torque. Inverter fed synchronous motor drive configurations, dynamic analysis of controlled 3-phase synchronous motors.

 
EEE 527 SWITCHGEAR AND HIGH VOLTAGE ENGINEERING (3 CREDITS)

Generation and measurement of high voltage and current; Breakdown theories for gaseous liquid and solid dielectrics, lightning phenomena, High voltage equipment, insulation co-ordination. Lighting protection, electric cables and condenser.

 

EEE528 POWER SYSTEM COMMUNICATION AND CONTROL(2 CREDITS)

Review of transmission line theory. High frequency communication on power lines. Carrier systems and power line carrier applications. Multiplexing, Telemetering, Signal processing and data transmission. Control of power generation, voltage control, system stability, automatic voltage regulators, regulating transformers.

 
EEE 529 ELECTRICAL SERVICE DESIGN  (2 CREDITS)

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 500         FINAL YEAR PROJECT II (3 CREDITS)