TS PGECET Syllabus for Electrical Engineering (EE) gives details of TS PGECET exam syllabus. Telangana conducts PG Engineering Entrance Exams for admission into M.Tech in various private engineering colleges in Telangana. For detail about the pattern of exam and general dates follow TSPGECET details. For details about colleges and fee please visit M.Techcutoff tools at InI.<\/p>\n
The Syllabus for TS PGECET Electrical Engineering (EE) is as follows<\/p>\n
Engineering Mathematics<\/strong><\/p>\n Linear Algebra:<\/strong> Matrices and Determinants, Systems of linear equations, Eigen values and eigen vectors.<\/p>\n Calculus<\/strong>: Mean value theorems, Theorems of integral calculus, Evaluation of definite and improper integrals,\u00a0Partial Derivatives, Maxima and minima, multiple integrals, Fourier series. Vector identities, Directional\u00a0derivatives, Line, Surface and Volume integrals, Stokes, Gauss and Green’s theorems.<\/p>\n Differential equations<\/strong>: First order equation (linear and nonlinear), Higher order linear differential equations with\u00a0constant coefficients, Method of variation of parameters, Cauchy’s and Euler’s equations, Initial and boundary value\u00a0problems, Partial Differential Equations and variable separable method.<\/p>\n Complex variables:<\/strong> Analytic functions, Cauchy’s integral theorem and integral formula, Taylor’s and Laurent’\u00a0series, Residue theorem, solution integrals. Probability and Statistics:<\/strong> Probability and Sampling theorems, Conditional probability, Probability Density\u00a0Function, Mean, median, mode and standard deviation, Random variables, Discrete and continuous distributions,\u00a0Exponential, Poisson, Normal and Binomial distribution, Correlation and regression analysis.<\/p>\n Numerical Methods:<\/strong> Solutions of non-linear algebraic equations, single and multi-step methods for differential\u00a0equations.<\/p>\n Electrical Engineering<\/strong><\/p>\n Electric Circuits and Fields<\/strong>: Network graph, KCL, KVL, node and mesh analysis, transient response of dc and ac\u00a0networks; sinusoidal steady-state analysis, resonance, basic filter concepts; ideal current and voltage sources,\u00a0Thevenin’s, Norton’s and Superposition and Maximum Power Transfer theorems, two-port networks, three phase\u00a0circuits; Gauss Theorem, electric field and potential due to point, line, plane and spherical charge distributions;\u00a0Ampere’s and Biot-Savart’s laws; inductance; dielectrics; capacitance.<\/p>\n Electrical Machines:<\/strong> Single phase transformer – equivalent circuit, phasor diagram, tests, regulation and\u00a0efficiency; three phase transformers – connections, parallel operation; auto-transformer; energy conversion\u00a0principles; DC machines – types, windings, generator characteristics, armature reaction and commutation, starting\u00a0and speed control of motors; three phase induction motors – principles, types, performance characteristics, starting\u00a0and speed control; single phase induction motors; synchronous machines – performance, regulation and parallel\u00a0operation of generators, motor starting, characteristics and applications; servo and stepper motors.<\/p>\n Power Systems<\/strong>: Basic power generation concepts; transmission line models and performance; cable performance,\u00a0insulation; corona and radio interference; distribution systems; per-unit quantities; bus impedance and admittance\u00a0matrices; load flow; voltage control; power factor correction; economic operation; symmetrical components; fault\u00a0analysis; principles of over-current, differential and distance protection; solid state relays and digital protection;\u00a0circuit breakers; system stability concepts, swing curves and equal area criterion; HVDC transmission and FACTS\u00a0concepts.<\/p>\n Control Systems:<\/strong> Principles of feedback; transfer function; block diagrams; steady-state errors; Routh and Niquist\u00a0techniques; Bode plots; root loci; lag, lead and lead-lag compensation; state space model; state transition matrix,\u00a0controllability and observability.<\/p>\n Electrical and Electronic Measurements<\/strong>: Bridges and potentiometers; PMMC, moving iron, dynamometer and\u00a0induction type instruments; measurement of voltage, current, power, energy and power factor; instrument\u00a0transformers; digital voltmeters and multimeters; phase, time and frequency measurement; Q-meters; oscilloscopes;\u00a0potentiometric recorders; error analysis. Power Electronics and Drives<\/strong>: Semiconductor power diodes, transistors, thyristors, triacs, GTOs, MOSFETs and\u00a0IGBTs – static characteristics and principles of operation; triggering circuits; phase control rectifiers; bridge\u00a0converters – fully controlled and half controlled; principles of choppers and inverters; basis concepts of adjustable\u00a0speed dc and ac drives.<\/p>\n Utilization:<\/strong> Electric traction and track electrification, speed-time curves, tractive effort, specific energy\u00a0consumption, mechanism of train movement, adhesive weight, coefficient of adhesion; High frequency eddy\u00a0current heating, di-electric heating, arc furnace, electric arc welding & electric welding: Illumination, laws of\u00a0illumination, MSCP, SV & MV lamps, factory, street and flood lighting.<\/p>\n All details and cutoffs for previous years are provided at Inspire n Ignite (InI). 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\nTransforms:<\/strong> Fourier series representation of continuous periodic signals, Sampling theorem, Fourier, Laplace and\u00a0Z-transforms.<\/p>\n
\nAnalog and Digital Electronics:<\/strong> Characteristics of diodes, BJT, FET; amplifiers – biasing, equivalent circuit and\u00a0frequency response; oscillators and feedback amplifiers; operational amplifiers – characteristics and applications;\u00a0simple active filters; VCOs and timers; combinational and sequential logic circuits; multiplexer; Schmitt trigger;\u00a0multi-vibrators; sample and hold circuits; A\/D and D\/A converters; 8-bit microprocessor basics (8085),\u00a0architecture, programming and interfacing.<\/p>\n