Eeu321 Electrical Engineering Materials
EEU 307 CONTROL SYSTEM ENGINEERING
S5 core
L / T / P / C3 / 1 / 0 / 4
Control System Components-Sensors and actuators- Concept of stability- stability criterion for Transfer Function models-Nyquist Stability criterion- Design of PID Controllers- Feedforward Control- Computer Aided Control system design-State space models for continuous time linear single input single output systems-Canonical forms- State Transition Matrix-Controllability, Observability and Stability -Lyapunov's Second -Pole Placement design -Ackerman' formula- Observers- z-Transform and Inverse z-Transforms.
EEU321 ELECTRICAL ENGINEERING MATERIALS
S5 Elective (D/G)
L / T / P / C3 / 0 / 0 / 3
Conducting materials: Review of metallic conduction on the basis of free electron theory - Materials for electric resistances-general electric properties – Semiconductors - Magnetic materials: Classification of magnetic materials - magnetic materials used in electrical machines instruments and relays. Dielectrics - dielectric loss insulator materials used - Special purpose materials and processes - Super conductors –applications of superconductors - Materials for electronic components – resistors –capacitors- inductors.
EEU351 ELECTRIC MACHINE DESIGN
S5 Elective (D)
L / T / P / C3 / 0 / 0 / 3
DC machine: Output equation - main dimensions - choice of specific electric and magnetic loadings - commutator, interpoles, design examples –Transformer: Output equation - single phase and three phase power transformers - main dimensions - choice of specific electric and magnetic loadings- design examples. Alternators: Output equation - salient pole and turbo alternators - main dimensions - design examples. Induction machines: Output equation - main dimensions - design examples
EEU353 ELECTRIC MACHINE MODELLING AND ANALYSIS
S5 Elective (D)
L / T / P / C3 / 0 / 0 / 3
Modeling and analysis of DC machines:Electro dynamical equations and their solution - DC Machines - analysis of simple DC machines using the primitive machine equations. Modelling and analysis of induction motors: The three phase induction motor - equivalent two phase machine by m.m.f equivalence - application of large signal and small signal equations.Modelling and analysis of synchronous machines:The three phase salient pole synchronous machine - three phase to two phase transformation - application of small oscillation models in power system dynamics. Dynamical analysis of interconnected machines:Machine interconnection matrices - the DC generator/DC motor system - the alternator/synchronous motor system
EEU 315 POWER SYSTEMS - I
S5 Core
L / T / P / C3 / 1 / 0 / 3
Brief syllabus
Conventional sources of electrical energy- Overhead transmission systems-Transmission line parameters- Performance of transmission lines- Distribution systems- Energy Conservation Measures- Power quality issues and mitigation techniques-distribution system planning and automation.
EEU 371 HIGH VOLTAGE ENGINEERING
S5 Elective-D
L / T / P / C3 / 0 / 0 / 3
Brief syllabus
Generation of High voltages and currents (DC, AC and impulse voltages and currents) - Measurement of high voltages and currents- High voltage testing of materials and apparatus- Breakdown studies in solid , liquid and gaseous dielectrics.
EEU 373 NON-CONVENTIONAL ENERGY SYSTEMS AND APPLICATIONS
S5 Elective-D/G
L / T / P / C3 / 0 / 0 / 3
Brief syllabus
Principle of renewable energy systems- solar energy conversion methods -Direct energy conversion (DEC)- DEC devices- Solar cells -Wind energy -Biofuels- ocean thermal energy conversion systems- Tidal and wave power- Fuel cells – MHD generators-micro, mini and pico hydel power.
EEU 391 ELECTRONICS LABORATORY II
S5 Core
L / T / P / C0 / 0 / 3 / 2
Brief syllabus
Experiments on OPAMP circuits – Comparator – Oscillators - Waveform generation - LP and BP filters - Analog to digital converter – Multivibrators – Counters – Adders - IC 555 applications.
EEU 323 CAD & COMPUTATIONAL GRAPHICS
S5 Elective-D/G
L / T / P / C3 / 0 / 0 / 3
Brief Syllabus
Computer Graphics-Representing and Interacting with Pictures. Raster Scan Graphic. Drawing Algorithm-Fundamentals of Anti-aliasing . Hidden Lines and Hidden Surfaces- Transformation-Scaling- Shearing Rotation, Reflection, Translation-Projections-Representation of Curves-Plane Curves-Space Curves, Programming Using C++ for Graphical Elements-Surface Description and Generation-Rendering-Illumination Models- Software Engineering for CAD.
EEU 329 Applications of ANALOG INTEGRATED CIRCUITS
S5 Elective-D/G
L / T / P / C3 / 0 / 0 / 3
Brief Syllabus
OPAMP - Review of Difference Amplifier - Simplified Schematic Circuit of a typical OPAMP – Characteristics and compensation of OPAMPs - Amplifiers for Signal Conditioning - Timer – Voltage References and Regulators - Active Filters - Log/Antilog Amplifiers - Analog Multipliers - Phase-Locked Loops - Grounding and Shielding - Power Supply Filtering and Noise reduction.
EEU 311 MICROPROCESSORS AND MICRO CONTROLLERS
S5 Core
L / T / P / C3 / 0 / 0 / 3
Brief Syllabus
Introduction of Microprocessor - Microcontrollers and related system concepts - Architecture of 8085 - Microprocessor and details - Various Peripheral devices connected in 8085 based system - Introduction to 8051 Microcontroller Architecture.
EEU 325 FUZZY LOGIC SYSTEMS
S5 Elective-D/G
L / T / P / C3 / 0 / 0 / 3
Fuzzy Sets and fuzzy relations-cardinality of fuzzy relations-Fuzzy Cartesian product and composition–fuzzy tolerance and equivalence relations- value assignments - cosine amplitude-max-min method. Fuzzification and De-fuzzification-defuzzification methods- Classical logic and fuzzy logic –Mamdani and Takagi-Sugeno fuzzy models- fuzzy control models-P-I-D like fuzzy control rules – implementation. Computer based simulation-Fuzzy nonlinear simulation- fuzzy classification - clustering – fuzzy pattern recognition - fuzzy control systems- fuzzy optimization - case studies – Introduction to fuzzy measures.
EEU 327 ELECTRICAL NETWORK THEORY
S5 Elective-D/G
L / T / P / C3 / 0 / 0 / 3
Network functions for the one port and two port –Ladders –Symmetrical two port reactive networks as filters –Low pass, high pass, band pass and band elimination filters- reliability –Positive real functions –Hurwitz polynomials –Synthesis of LC driving-point functions-Synthesis of RC and RL driving–point functions – Properties of RC network functions – First and Second Foster forms of RC& RL networks –First and Second Cauer forms of RL & RC networks –RLC one terminal-pair network synthesis –Method of Bott and Duffin –The LC ladder development - RC ladder development.