EE2204 SYLLABUS PDF
Subject Code: EE Subject Name: Data Structures and Algorithms. Type: Lecture Notes. Syllabus Regulation: Attachment Type. EE Data Structures and Algorithms – SUBJECT CATALOG. SUBJECT RESOURCES: to search more about this subject. SYLLABUS. Content: EE / EE 36 / EE / Data Structures and Algorithms May/June Question Paper EEE 3rd Semester Regulation
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Atomic bonding, Bravais lattices, Miller indices, Structures of some common inorganic compounds and elemental solids, Braggs law, Structural imperfections, Alloys and Binary phase diagram. Load elongation curve, Elementary ideas about elastic and plastic deformation, creep, fatigue and fracture of materials. Lattice waves, Brillouin zone, Phonon dispersion, Lattice specific heat, Thermal expansion and thermal shock resistance.
Electron Theory of Solids: Fee electron theory of metals, elementary ideas about zone and band theory of solids, Classification of conductors, semiconductors and insulators, Hall effect, P-n junction.
Dia, Para, Ferro, antiferro, and ferrimagnetism, soft and hard magnetic materials and their applications. Zero resistance, Meissner effect, Soft and Hard Superconductors, Josephson Junction, High sy,labus superconductors, Applications of superconductors. Polarization mechanisms and their es2204 response, piezoelectric and ferroelectric materials and their applications, Examples of some common dielectric materials.
Magnetic circuits, coupled coils: General constructional features of static and rotating machines. MMF distribution in space and time domain. Special constructional features and limitations. Power balance EMF equation and torque equation. Operation as generator – separately and self excited modes.
Operation as motor-characteristics and their control, starting; Speed control; Braking; Applications; Losses and testing; Introduction to Cross-field machines. Special constructional features- Cruciform section, mitered joints, winding arrangements, cooling methodologies, Conservators and breathers.
Two winding transformers, syllabis turns balance, Phasor diagram, referred parameters equivalent circuit; Voltage regulation; No load current waveforms.
Vector groups; parallel operation and load sharing, phase conversion. Transformer for special purposes – pulse, high frequency, rectifier, welding, isolation. Systems Classification and their properties.
Syl,abus Mathematical descriptions of deterministic signals, signals classification. Network Elements and Their Characterization: Dependent and independent sources. Mathematical descriptions of passive elements. Modeling of Physical Systems: Models based on known physical laws, analogous systems. Network topology-Graph theoretical models of electrical networks and systems. Loop and modal equations.
Dual graphs and dual networks. Loop and Nodal Methods of Analysis: Matrix ssyllabus and network ee220. Circuit analysis by classical method. Natural and force responses.
Data Structures And Algorithms EE2204 ND13 3rd Semester Question Paper
Laplace transform method- Laplace transform. Analyses of electrical circuits Laplace transform. Power and power factor phasor method of analysis, Phasor diagrams and Resonant circuits. Three-Phase circuits balanced and unbalanced, Ee22204 measurements Feed-back systems, Massons formula and signal flow graph.
Philosophy of electrical measurements, theory ee22044 errors, electrical measuring instruments and their classification. General working principles and construction of indicating instruments. Electro-magnetic Instruments for the measurement of current, voltage, power and energy. Instruments for the measurement of power factor, frequency, phase sequence indicators. Measurement of Electrical Parameters: Sylllabus, medium and low resistance measurement.
Measurement of inductance, capacitance and mutual inductance. Bridges and null type measuring methods- Kelvin double bridge, inductance, capacitance and mutual inductance measurement using bridges. Flux meter, measurement of permeability, magnetic losses. Introduction to high voltage measurements.
Review of Maxwells equations, Poynting theorem.
Sources of electromagnetic field; Classification; Potentials; Boundary conditions. Boundary Value Problems in Electrostatics: Laplace and Poissons equations. Product solution method of solving Laplaces equation in Rectangular; Spherical and Cylindrical coordinate systems; Methods of Images; Field plotting methods.
Complex potential transformations involving circular and elliptical boundaries; Bilinear and Schwartz Christoffel transformations. Finite difference equivalent of Laplaces equation; Iteration and relaxation methods; Introduction to Finite Element method, Method of moments and charge simulation method, introduction to FEM package.
Application of field theory to electrical devices. Law of magneto static-vector potential, Boundary value problems in magneto static, current sheet and flux sheet. Relation between field theory and circuit theory; Numerical calculation of Capacitance, self inductance, mutual inductance, stored energy, co energy and different forces. Propagation of electromagnetic waves in dielectric and conductor, space sheet; Transmission lines.
Retarded potential, Hertzian dipole, Antenna pattern, directivity and gain. Introduction to Number System and Codes: Gray codes, Hamming codes for error detection and error correction. Postulates and fundamental theorems for Boolean algebra. Canonical forms of Boolean function. Karnaugh map and Quine McCluskey method. Synthesis of Switching Functions: Introduction, flip- flops, edge-triggered flip-flops, excitation table. Design of counters, shift- registers.
Generation of design ideas: Creativity in engineering design, evaluation and consolidation of ideas, design decisions, design development. Different Factors in Engineering Design: Human factors, economic factors, optimization and reliability design of electrical equipment and systems. Electrical rating, duty cycle, properties of material, design of coils, wiring safety standards, protection, Failure analysis.
Algebra of Operators and Interpolation: Error Analysis and estimation; Interpolation-ordinary difference operators E and D, divided differences, Newton-cotes formula, Lagranges formula, Central differences, method of ordinary least squares, cubic splines.
Solution of algebraic and transcendental equations: Matrix decomposition, triangulation of matrices, product form of inverse generalized matrix inverse, Inverse matrix modification. Solution of system of linear equations: Methods of elimination, methods of Relaxation, iterative method, ill conditioned system.
Method of successive approximations, Eulers method, Runge-Kutta method, Miline method. Method of undetermined coefficients, difference scheme based on quadrature formulas, solution of tridiagonal system, mixed boundary conditions, Boundary conditions at infinity, Nonlonear boundary-value problems, convergence of difference schemes, Linear eigenvalue problems. Active impedance transformers, power amplifiers, impedance matching.
RC and LC Oscillators. Analog switches and multiplexers. Network representations and transform methods of network analysis.
Poles and zeros, restrictions on pole and zero locations for driving point functions and transfer functions. Time-domain response from pole and zero plot. Stability of active networks. Characteristics of linear time-invariant networks, relationships among different network parameters, interconnections of networks. Image and scattering parameters, insertion loss.
Various types of attenuators. Transient response and reduction of overshoot, sensitivity.
Data Structures And Algorithms EE ND13 3rd Semester Question Paper | Knowledge Adda
Active filters- poles and zeros, filter design. Positive real function physical realizabilty conditions, properties of one port immittance functions and their synthesis. Foster and Cauer forms, RLC synthesis. Introduction to two-port network synthesis.
Generation, transmission and distribution of electrical power, AC and DC systems, underground and overhead lines. Cost of electrical energy, load and diversity factors, combined operation of power stations. Radial and ring systems, selection of feeders and distributors, DC and AC distribution, concentrated and distributed loads, design considerations of a distribution system, house and factory wiring, power factor improvement, economic aspects, tariff.
Constructional details of various types of cables, oil and gas-filled cables, voltage gradient, grading, sheath loss, thermal ratings, parameters.