RGPV 3rd Sem Electrical Engg Syllabus | RGPV Electrical Engineering Syllabus CBCS 3rd Sem 2nd Year www.rgpv.ac.in - CETJob

RGPV 3rd Sem Electrical Engg Syllabus | RGPV Electrical Engineering Syllabus CBCS 3rd Sem 2nd Year www.rgpv.ac.in

RGPV CBCS 3rd Sem Electrical Engineering Syllabus | RGPV Electrical Engineering Syllabus CBCS 2nd Year

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 RGPV 3rd Sem Electrical Subjects RGPV 4th Sem Electrical Subjects ·         Mathematics-III ·         (Departmental Mathematics) ·         Electrical Measurements and ·         Instrumentation ·         Network Analysis ·         Analog Electronics ·         Signals and Systems ·         Communication Skills ·         Idea Generation ·         Learning Through Experts ·         Electrical Machine-I ·         EAS System Engineering ·         Digital Electronics Logic ·         Design ·         Power System -I ·         Control Systems ·         EAS    Material Science ·         EAS       Residential Load Simulation ·         HU    NSS/NCC
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RGPV 2nd year CBCS Electrical Engineering Syllabus (3rd Sem Syllabus)

RGPV CBCS 3rd Sem Electrical Measurements and Instrumentation Syllabus

Galvanometers – Theory, principle of operation and construction of ballistic galvanometer, D’arsonal galvanometer, Definition of analog & digital instruments, Classification of analog instruments, their operating principle, Operating force, Types of supports, Damping, Controlling.
Different types of Ammeter & Voltmeter – PMMC, MI, Electrodynamometer, Induction, Expression for control & deflection torque, their advantages, disadvantages & error, Extension of range of instruments using shunt & multiplier.
Digital Voltmeter, Ammeter, Multimeter and Wattmeter.
Instrument transformers: Potential and current transformers, ratio and phase angle errors, testing of instrument transformers, Difference between CT and PT, errors and reduction of errors.
Measurement of power: Power in AC and DC Circuit, Electrodynamometer type of wattmeter, Construction, theory, operation & error, Low power factor & UPF wattmeter, Double element and three element dynamometer wattmeter, Measurement of power in three phase circuit, one, two & three wattmeter method, Measurement of reactive power by single wattmeter, Measurement of power using CTs & PTs.
Measurement of Energy: Single phase and three phasedigital / Electronic energy meter – construction & operation – Energy flow and power calculations, errors – Testing by phantom loading, Tri-vector meter, Maximum demand meter, Ampere hour meter.
Power factor meter– Single phase and three phase Electro-dynamometer type & moving iron type.
Frequency meter – Vibrating reed, Resonance type & Weston type, Synchronoscope,
Ohmmeter –series & stunt type, Megger & Ratio meter.
Resistance Measurement – Classification of low, medium & high resistance – Voltmeter-Ammeter method, Wheatstone Bridge, Kelvin’s double bridge & loss of charge methods for resistance measurement, Earth resistancemeasurement.
Magnetic Measurement – B-H Curve, Hysteresis Loop determination, Power loss in sheet metal – Lloyd Fischer square for measurement of power loss.
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RGPV CBCS 3rd Sem Network Analysis Syllabus

Introduction to circuit elements R,L,C and their characteristics in terms of linearity & time dependent nature, voltage & current sources controlled & uncontrolled sources KCL and KVL analysis, Nodal & mesh analysis, analysis of magnetically coupled circuits, Transient analysis :-
Transients in RL, RC&RLC Circuits, initial conditions, time constants. Steady state analysis- Concept of phasor & vector, impedance & admittance, Network topology, concept of Network graph, Tree, Tree branch & link, Incidence matrix, cut set and tie set matrices, dual networks, Dot convention, coupling co- efficient, tuned circuits, Series & parallel resonance.
Network Theorems for AC & DC circuits- Thevenins & Norton’s, Superpositions, Reciprocity, Compensation, Substitution, Maximum power transfer, and Millman’s theorem, Tellegen’s theorem, problems with dependent & independent sources.
Frequency domain analysis – Laplace transform solution of Integro-differential equations,
transform of waveform synthesized with step ramp, Gate and sinusoidal functions, Initial & final value theorem, Network Theorems in transform domain
Concept of signal spectra, Fourier series co-efficient of a periodic waveform, symmetries as
related to Fourier coefficients, Trigonometric & Exponential form of Fourier series.
Network function & Two port networks – concept of complex frequency, Network & Transfer functions for one port & two ports, poles and zeros, Necessary condition for driving point &
transfer function. Two port parameters – Z, Y, ABCD, Hybrid parameters, their inverse & image parameters, relationship between parameters, Interconnection of two ports networks, Terminated two port network.
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RGPV CBCS 3rd Sem Analog Electronics Syllabus

Semiconductor Diodes: Theory of P-N junction, temperature dependence and break down
characteristics, junction capacitance, Zener diode, Varactor diode, Tunnel diode, PIN diode,
LED, Photo diode, Schottky diode, Diode applications: series –parallel configurations, full
wave and half wave rectification, voltage multiplier circuits, diode testing
Transistors: BJT, types& configuration, working principal, characteristics, and region of operation, load line, biasing methods, Small signal analysis of transistor (low frequency) using h-parameters, thermal runaway and thermal stability.FET, MOSFET, Transistor as an amplifier, gain,bandwidth, frequency response,
Feedback amplifierand Oscillators: Feedback amplifier, negative feedback, voltage-series,
voltage shunt,current series and current shunt feedback, Sinusoidal oscillators, L-C (Hartley- Colpitts) oscillators, RC phase shift, Wien bridge, and Crystal oscillators. Power amplifiers, class A, class B, class A B, C amplifiers, their efficiency and power Dissipation, Push-pull and complimentary symmetry push-pull amplifier.
Wave Shaping circuits: Switching characteristics of diode and transistor, turn ON, OFF time, reverse recovery time, transistor as switch, Multivibrators, Bistable, Monostable, Astable multivibrators. Clipper and clamper circuit, Differential amplifier, calculation of differential, common mode gain and CMRR using h- parameters, Darlington pair, Boot strapping technique. Cascade and cascade amplifier.
Operational Amplifier: Operational amplifier basics, practical Op-amp circuits &
characteristics, slew rate , bandwidth, offset voltage ,basic current, application, inverting, noninverting amplifier, summer, average, differentiator, integrator, differential amplifier,
instrumentation amplifier, log and antilog amplifier, voltage to current and current to voltage converters, comparators Schmitt trigger , active filters, 555 timer and its application.