• EEE 536: OPTIMIZATION AND CONTROL
  • EEE 538: ELECTRICAL MACHINE DESIGN
  • EEE 535: ILLUMINATION ENGINEERING




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    BACHELOR OF SCIENCE ELECTRICAL ELECTRONICS ENGINEERING

    EEE 535: ILLUMINATION ENGINEERING


    Fundamentals: electromagnetic radiation, radiant energy and light propagation. Colour. Measurements. Quantum electronics: excitation, ionisation, radiation, energy levels and spectra of lighting elements. Discharge: Town-send, glow and arc. Lamps: materials: glasses, ceramics, metals, seals, gases and phosphorus. Incandescent: construction, manufacturing techniques, quality and safety controls and environmental testing. Special lamps. Fluorescent, mercury, and sodium lamps: design, construction, manufacture, performance and application. Electro-luminescence: electro-luminescent panels, light emitting films, and light emitting diodes. Optical detectors, photo detectors, and optical displays. Luminnaires and Circuits: electrical and electronic circuits. Electrical characteristics of lamps, ballast, fluorescent and discharge lamps' circuits. Luminaries design and manufacture, design objectives, materials, production processes, specifications and testing. Interior Lighting: lighting objectives and criteria, design decisions, design calculations and equipment ratings. Aesthetic designs, cost optimization. Use of computers for interior lighting design.

    EEE 536: OPTIMIZATION AND CONTROL


    Review of control theory. Linear/non-linear programming. Quadratic optimal control, Dynamic programming and the Hamilton-Jacobian-Bellman (HJB) equation. Calculus of variations. Hamiltonian and costate equations. Pontryagin’s maximum principle. Kalman filters, Solution to common constrained optimization problems.

    EEE 538: ELECTRICAL MACHINE DESIGN


    Windings: Conductors, insulators, eddy currents, slot conductors, overhang conductors, transformer coils; permeable and conducting masses; electromotive force; transformer windings; D.C. field windings, a.c. armature windings: single layer windings; Double -layer windings; Fractional - slot windings; Types of double - layer winding; choice of winding, e.m.f. of windings, harmonics, magnetomotive force of windings. Transformers: Design Frames, thermal rating, momentary load limitations, output equation, specific iron and copper losses, insulation. Types of windings and connections. Cooling and ratings Iron core dimensions. Rotating Machine Design: Output equation; specific copper and iron losses: power/weight ratio, salient pole and cylindrical rotor. Air gap flux distribution and saturation; Insulation, heating; ventilation and ratings. Computer-Aided Electrical Machine Design.

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