RGPV 4th sem CBCS Electrical Syllabus | RGPV Elex CBCS Syllabus 4th Sem 2nd Year www.rgpv.ac.in - CETJob

# RGPV 4th sem CBCS Electrical Syllabus | RGPV Elex CBCS Syllabus 4th Sem 2nd Year www.rgpv.ac.in

## RGPV 4th sem CBCS Electrical Syllabus | RGPV Elex Engg CBCS Syllabus 4th Sem 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 (4th Sem Syllabus)

### RGPV CBCS Electrical Machine-I Syllabus Electrical Branch

Transformer-I:Working principle, e.mf. equation, construction, phasor diagrams, equivalent
circuit, voltage regulation, losses, separation of hysteresis and eddy current losses, efficiency,
tests: open circuit and short circuit, load, Sumpner’s test, Condition for maximum efficiency
and regulation, Power and distribution transformer, allday efficiency, Excitation phenomenon.
Autotransformer: working, advantages, its equivalent circuit and phasor diagram.
Transformer-II:Three phase transformer: its construction, groups and connections, their
working and applications; Scottconnection; Parallel operation of Transformers: application,
Pulse and high frequency transformers.
Three phase Induction Motor- I:Working principle, construction, comparison of slip ring
and squirrel cage motors, steady state analysis, phasor diagram and equivalent circuit, power
flow diagram, torque-speed and power-speed characteristics, Losses and efficiency, No load
and block rotor test, circle diagram
Three phase Induction Motor-II:Starting of squirrel cage and slip ring motors, power factor
control, Cogging & Crawling, Double cage &Deep bar Indication Motor, impact of
unbalanced supply and harmonics on performance, speed control, braking, Induction
Generator. Applications
Single Phase Motors:Single Phase Induction motor; double revolving field theory,
equivalent circuit and its determination, performance calculation, starting methods and types
of single phase Induction motors: their working principle and applications, comparison with
three phases Induction Motor. Single phase A.C. series motor, Servo motors, Linear
Induction Motor

### RGPV CBCS System Engineering Syllabus Electrical Branch

What is System Engineering, Origin, Examples of Systems requiring systems
engineering,Systems Engineer Career Development Model, Perspectives of Systems
Engineering, Systems Domains, Systems Engineering Fields, SystemEngineering Approaches.
Structure of Complex Systems, System Building Blocks and Interfaces, Hierarchy of Complex
Systems, System Building Blocks, The System Environment, Interfaces and Interactions,
Complexity in Modern Systems.
Concept Development and Exploration, Originating a New System, Operations Analysis,
Functional Analysis, Feasibility, System Operational Requirements, Implementation of Concept
Exploration.
Engineering Development, Reducing Program Risks, Requirements Analysis, Functional
Analysis and Design, Prototype Development as a Risk Mitigation Technique, Development
Testing, Risk Reduction.
Integration and Evaluation, Integrating, Testing, And Evaluating The Total System, Test
Planning And Preparation, System Integration, Developmental System Testing, Operational Test
And Evaluation, Engineering For Production, Transition From Development To Production,
Production Operations.

### RGPV CBCS Digital Electronics Logic Design Syllabus Electrical Branch

Number Systems and Codes: Digital number systems, base conversion, Binary, Decimal,
octal, Hexadecimal, number system with radix r, Gray codes.Alphanumeric codes – ASCII
code and BCD codes, concept of parity, complementr’s& (r-1)’s, subtraction with
complements, signed Binary numbers, Error Detecting & Correcting codes. Basic Theorems &
Properties of Boolean algebra: AND, OR, NOT operators, laws of Boolean algebra,
Demorgon’s theorem, Boolean expression & logic diagram. Negative logic, Alternate logic
gate representation (concept of bubbled gates) canonical and standard Forms
(Minterms&Maxterms), sum of minterms& product of maxterms, conversion between
canonical forms. Truth table & maps, 2,3,4,5 and 6 variable maps, solving digital problems
using Maps, Don’t care conditions, Tabular minimization. Sum of product & product of sum
reduction, Exclusive OR & Exclusive NOR circuits, Parity generator &checkers.
Combinational Circuits: Design procedure, Adders (half and Full), subtractor (half and full)
code convertors, Analysis of design, Universal building blocks, Implementation of any logic
circuit with only NAND gates or with only NOR gates, Binary serial adder, parallel adder,
comparator, Decoder, Demultiplexer, Encoders, priority encoder, Multiplexers &
implementation of combinational logic diagram.
Sequential Logic Circuit : Latches, SR latch with NAND & NOR gates, D latch, edge
triggered flip flop, J-K flip flop, T flip flop, Master slave flip flop, Analysis of clocked
sequential circuit, state table, state diagram, state reduction state equations, state assignments,
flip flop excitation table & characteristic equations, Design procedure for sequential circuits,
Design with state reduction, Applications of flipflop.
Registers and Counters : Asynchronous and Synchronous counter, counters with MOD
numbers, Down counter, UP/DOWN counter, propagation delay in ripple counter,
programmable counter, Pre- settable counter, BCD counter, cascading, counter applications,
Decoding in counter, Decoding glitches, Ring Counter, Johnson counter, Rotate left & Rotate
right counter, Registers – Buffer, Shift left, shift right, shift left/Right registers, parallel in
parallel out, serial in serial out, parallel in serial out, serial in parallel out registers.
Random Access Memory, Timing waveform, Memory Decoding, Internal Construction,
implementation, Type of ROMs, combinational PLDs, Programmable Logic Array (PLA),
Programmable Array Logic (PAL), sequential programmable device. Analog todigital
conversion – Ramp type, dual slope, integration, successive approximation, parallel conversion,
parallel/ serial conversion, convertor specifications, Digital to Analog convertors – Binary
weighted & R/2R D to A convertors.

#### RGPV CBCS Power System -I Syllabus Electrical Branch

An overview of Electrical Energy Generation General background, structure and components of