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Common Engineering Courses ENG001 - Engineering Mathematics (Calculus I) Mathematical induction and the binominal theorem Functions Limits and continuity Derivatives and rules for differentiation Applications of differentiation Integration The definite and indefinite integral Integration of simple functions ENG004 - Engineering Mathematics (Calculus II) Transcendental functions Integration techniques Improper integrals Conic sections Polar co-ordinates Partial derivatives Complex numbers Introduction to matrices and determinants ENG006 - Engineering Mathematics (Advanced Algebra and Differential Applications) Ordinary first order differential equations Linear higher order differential equations Infinite series and Taylor's theorem ENG007 - Engineering Mathematics (Vector Analysis) The straight line and the plane Space curves derivatives and integrals of vectors curves the unit tangent Arc length Surfaces Partial derivatives of vectors The gradient vector Vector fields Vector differential operators Line integrals Gradient fields Surface integrals in the plane Green's theorem Surface integrals in space Centers of mass and moments of inertia Stoke's theorem Volume integrals Center of mass and moments of inertia Gauss' divergence thermo Center of mass and moments of inertia of 1-, 2-, and 3-dimensional bodies ENG102 - Applied Computer Programming (Matlab) Introduction to structured programming language Arithmetic and logic Program flow control Sub-program procedures and function procedures Data types - arrays Sets and records Graphics Practical applications to engineering problems Emphasis on modular programming for engineering applications ENG002 - Applied Mathematics (Statics) Vectors Forces Sum of forces at a point Direction cosines and direction angles Components and component vectors Scalar product Vector product Moment of a force Force system on rigid bodies Equivalent force systems Couples Line of action of resultant Equilibrium of a rigid body Trusses Friction Center of mass Kinematics in one dimension ENG005 - Applied Mathematics (Dynamics) Derivatives and integers of vectors Kinematics in one, two and three dimensions Relative velocities The laws of motion in a straight line with constant forces the harmonic oscillator Forces in the plane Parabolic motion in a circle and other plane curves The principle of work and energy Power Conservation laws Energy Momentum and impulse Angular momentum The rigid body Determination of mass and center of mass Rigid body kinematics Momentums of inertia Rigid body translation, rotation about a fixed axis and motion parallel to the plane ENG106 - Applied Mathematics (Linear Algebra) Vectors and matrices Solution of linear equations Vector spaces and subspaces Orthogonality Determinants Eigen-values and eigenvectors Linear transformations Numerical linear algebra ENG103 - Engineering Drawing Projection planes Points Lines and planes in space Trace points of lines and trace lines of planes True lengths and true angles between lines and planes True angles between planes New projection planes Shadows Interpenetrations Developments Isometric projections Works drawings 1st and 3rd angle projections Line alphabet Dimensioning Scale view drawing layout Auxiliary views Hidden detail Sections and cross-hatching ENG003 - Engineering Physics Geometrical optics Principles of mechanics and heat Properties of wave motion and the application thereof to different types of waves Introduction to the microscopical description of matter and the implications of atomic and nuclear structure for properties of matter ENG104 - Engineering Design Philosophy Impact of technology on society Influence of culture on worldview The role of information technology Ethics in engineering Philosophy of science Science and culture 2. Core Course Section 1 EEL101 - Electrotechnics (Circuit Analysis) Elementary electrical circuit laws, theorems and circuit analysis Power and energy The electrostatic field Capacitance and elementary RC-circuits Magnetism and magnetic circuits Electromagnetism, self - and mutual induction and elementary RL - circuits ENG110 - Strength of Materials Basic concepts Axial forces Bending moments and shear forces Stresses and deformations due to axial forces Bending moments and shear stresses Stresses as shear forces and deformations due to torsion of round bars EEL103 - Systems and Signals I (Signal System Basics) Techniques of circuit analysis Topology in circuit analysis The operational amplifier First order and second order electric circuits Mutual inductance Sinusoidal steady state analysis and power calculations Balanced 3-phase circuits. EEL108 - Signals and Systems II (Frequency Systems) The Laplace transform and its applications to dynamic circuits Transfer functions and Bode plots: Fourier series Fourier transforms and applications to circuits Two-port networks Filters EEL113 - Signals and Systems III (Signal Theory) Time/frequency transformation as underlying principle The Fourier transform and the discrete Fourier transform Applications in AM, SSB, FM, FDM, TDM auto-correlation and PDS Applications for power systems DE modulation circuits with theoretical verification EEL124 - Signals and Systems IV (Signal Processing) Sampling and frequency duality Discrete Fourier series (DFE) Continuous Fourier transformations of discrete-time signals The discrete Fourier transform (DFT) The fast Fourier transform (FFT) Convolution by means of FFT Describing and characterizing discrete-time systems using the z-transform Impulse response Difference equations Design of simple filters using auto-correlations and cross-correlations EEL102 - Digital Systems Boolean algebra Combinational and sequential design at gate and register level Introduction to hardware description languages EEL104 - Programming for Engineers (Programming in C and C++) Introduction to C programming C programming basics, functions, structures, control, arrays, pointers, characters and strings, input-output, file processing, data structures, processor, classes, classes and data abstraction, operator overloading, streams input-output, and templates Introduction to object orient programming and Java Modular division and debugging of large program systems Internet and web resources. EEL105 - Electronics I (Semiconductors and Design) Semiconductor physics PN junctions Bipolar transistors Small signal dynamic transistor models Single stage transistor amplifiers Simple logic circuits. EEL111 - Electronics II (Design with Semiconductors) Junction FET's and MOSFET's Frequency response of amplifiers Ideal operational amplifiers Current sources EEL116 - Electronics III (Circuit Design) Current sources Differential amplifiers Practical operational amplifiers Feedback amplifiers and stability Signal generators and wave shaping circuits 3. Core Course Section 2 EEL106 - Electrical Energy Systems I (Power Systems Analysis and Design) Introduction to power systems Single and three phase alternating current theory Per-unit system Symmetrical components power transformers Modeling of transmission lines Steady state operation of transmission lines Introduction to power flow EEL112 - Electrical Energy Systems II (Electrical Machines) Magnetic circuits Principles of DC machines Principles of AC machines DC machine dynamics Principles of synchronous machines Single phase machines Induction machines EEL122 - Electrical Power Systems III (High Voltage Engineering) High voltage Theory and characteristics of insulating materials Testing and measurement Discharges EEL107 - Computer Systems I Assembler language programming Microprocessor architecture Bus, data, memory and input-output systems Digital electronics design EEL125 - Computer Systems II Computer architecture that leads to the support of operating system functions Con-current processes from hardware level to operating level to the support of distributed systems EEL109 - Control Systems I Linear feedback systems Analysis and synthesis Classic and state variable models Mathematical modeling Stability Transient and steady state response Closed loop design methods Root locus Nyquid and Bode plots Compensation techniques EEL114 - Control Systems II Continuous system predictive observers Separation principle Sampled data control systems analysis and design Z-transformation and discrete state variables Pole placing for finite time response EEL110 - Electromagnetics I Lorentz force law Laws of Coulomb, Ampé re, Faraday and Gauss Maxwell's equations Vector analysis Electro-quasistatics Charges on conductors Potential fields Laplace and Poisson equations Methods of images Boundary value solutions dielectrics and capacitors Ohomic conduction Charge relaxation EEL115 - Electromagnetics II Magneto-quasistatics Law of Biot and Savart Inductance Magnetic diffusion Skin effect Energy and force Heating Transmission line theory Radiation EEL117 - Digital Communications (Telecommunications) Channel capacity Base-band data transmission inter symbol interference and error probabilities Signal to noise ratios in ratios in analogue modulation systems (AM, FM) Probability of error for digital modulation schemes (ASK, PSK, FSK) Digital transmission of analogue signals (PCM) and quantization noise Forward error correction codes EEL119 - Electronic Design The design of simple analogue open-loop circuits with discrete transistors and operational amplifiers to meet given specifications Component tolerances Simulation Electromagnetic compatibility Circuit board layout Report writing EEL120 - Dynamic Systems Non-linear circuits and systems Linearization Energy methods Chaotic systems EEL123 - Microwave Techniques Electromagnetic theory Transmission line theory Transmission lines and waveguides Microwave network analysis Impedance matching and tuning Microwave resonators Power dividers and directional couplers Microwave filters Theory and design of ferromagnetic components Active microwave circuits Design of microwave amplifiers and oscillators Introduction to microwave systems 4. Core Course Section 3 EEL126 - Engineering Management Aspects of management practice including planning, organizing, staffing and training Leadership and control Management of matrix organizations consisting of line and project functions and speciallity staff Project management and engineering and new product development techniques Industrial psychology Motivation, leadership creativity and entrepreneurial behavior Social responsibility and ethics EEL127 - Engineering Economy Introduction to accounting Balance sheet Profit and loss account Cash flow statements Ratio analysis and interpretation of financial statements Manufacturing cost analysis Time value of money Discounting techniques Economic analysis of investment proposals Taxation influence after tax analysis 5. Course Section 4 Electives: select any three from - EEL121 - Power Electronics Principles of power electronics Power devices, diodes and transistors: Thyristors and triggering Converter circuits DC to controlled AC AC to DC with and with no control AC to Ac controlled Resonant converters Power factor correction Converter control Power supplies Motor drives Temperature control EEL123 - Microwave Techniques Electromagnetic theory Transmission line theory Transmission lines and waveguides Microwave network analysis Impedance matching and tuning Microwave resonators Power dividers and directional couplers Microwave filters Theory and design of ferromagnetic components Active microwave circuits Design of microwave amplifiers and oscillators Introduction to microwave systems EEL131 - Antenna Engineering Introduction Antenna basics The antenna family Arrays of point sources The electric dipole and thin linear antennas The loop antenna End fire antennas - The helical beam antenna and the Yagi-Uda array Slot, patch and horn antennas Flat sheet, corner and parabolic reflector antennas Broadband and frequency independent antennas Antenna temperature, remote sensing and radar cross-section Self and mutual impedances The cylindrical antenna and the moment method The Fourier transform relation between aperture distribution and far-field pattern Arrays of diploes and of aperture Lens antennas Frequency selective surfaces and periodic structures Practical design considerations of large aperture antennas Some examples of large or unique antennas Antennas for special applications Terahertz antennas Baluns Antenna measurements References EEL132 - Solid Sate Device Technology Introduction Physics and properties of semiconductors P-N junction diode Bipolar transistor Thyristors Metal-semiconductor contacts JFET and MESFET MIS diode and CCD MOSFET Tunnel devices IMATT and related transit-time diodes Transferred electron devices LED and semiconductor lasers Photo detectors Solar Cells IND005 - Control Engineering Block diagram algebra Classical and state space approach to modeling of dynamic systems Industrial controllers and steady state behavior Root locus methods Frequency response analysis Practical applications and use of a computer package EEL133 - Optical Fiber Technology Introduction Refractive index and velocity of light Classification of optical fibers Fiber fabrication Fiber cables Optical fibers and cylindrical waveguides Fiber losses Dispersion in optical fibers Light sources for optical fibers Photo-detectors Noise control in optical fibers Optical couples Splicing Multiplexers De-multiplexres Communication systems Fiber optic sensors Modulation Optical fiber communications systems Special applications Measurements on optical fibers EEL134 - Radio Waves Communication Signals Switched communication systems Modulation Demodulation Radio communication systems Radio receivers noise Aerials Propagation of waves Broad-band communications Picture signal transmission and reception Radar and navigation Sound and acoustical systems Basic information theory Recording and digital processing of video signals |
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