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CBCS RGPV 4th sem  EI Syllabus | RGPV Electronics & Instrumentation CBCS Syllabus 4th Sem 2nd Year




RGPV 3rd Sem Electronics & Instrumentation Engineering Subjects
RGPV 4th Sem Electronics & Instrumentation Engineering Subjects
·         Mathematics-III (Departmental Mathematics)
·         Signals and Systems
·         Electronic Devices & Circuits
·         Fundamentals of Measurement
·         Circuits analysis & synthesis
·         Communication Skills
·         Idea Generation
·         Learning Through Experts
·         Data Structures
·         EAS    System Engineering
·         DC    Analog Electronics
·         DC    Sensors and Transducers
·         DC    Digital Electronics
·         EAS    Material Science
·         EAS    Programming Tools
·         HU    NSS/NCC



RGPV 2nd year CBCS Electronics and Instrumentation Engineering Syllabus (4th Sem Syllabus)

Now RGPV Bhopal announced the 2nd year 4th sem syllabus of Electronics And Instrumentation  branch; it contain above mentioned subjects. The RGPV also give the detail of 4th sem CBCS EI practical list. If you want to download RGPV 4th sem CBCS Practical list of EI branch; please follow below links:


Download RGPV CBCS 4th Sem EI Syllabus  >>> Coming Soon



  • CBCS RGPV Data Structures Syllabus Electronics and Instrumentation Branch 

DATA STRUCTURES syllabus

COURSE CONTENT:

Basic Concept : Data Structure and algorithm preliminaries: Definitions; Data types, Time and Space analysis of Algorithms; Time and space trade-off, Pointers and dynamic memory allocation; Recursion.

Arrays and Structure: Concepts of Linear Search, Binary Search, Evaluation of Polynomial, Polynomial representation, Polynomial Addition, Structures: Internal representation of structure, Self–referential structure, Array: Definitions of Arrays and Lists, Strings, Row/Column major representation of Arrays.

Stack and Queues: Introduction to Stack, Static and Dynamic Representation, Operation, Application of Stack, Evaluation of Expression, postfix expression, Infix, prefix, Queue, Static and Dynamic Representation, Operation, Priority Queue, Circular Queue.

Linked List and Trees: Introduction to Linked List: Singly linked list, circular linked list, doubly linked list, operations on linked list, Introduction to Tree: Definition, Terminology, Generalised tree representation, Binary tree definitions and properties, Representation, Binary Tree Traversal In order, Pre order, Post order, Introduction to Binary Search Tree.

Graphs; Searching & Sorting: Introduction to Graphs: Representation, Adjacency Matrix and List, Indegree, out degree of Graph, Graphs Operation, DFS & BFS, Spanning Tree, Shortest path. Searching and Sorting Methods: Various Searching and Sorting algorithms with complexity analysis. 



  • CBCS RGPV System Engineering Syllabus Electronics and Instrumentation Branch 

COURSE CONTENT

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 ModernSystems.

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.


  • CBCS RGPV Analog Electronics Syllabus Electronics and Instrumentation Branch 

Analog Electronics 

Low frequency analysis of RC coupled amplifiers, effect of coupling and bypass Amplifier at high frequencies, Hybrid-Ď€model equivalent circuit in CE configuration, parameter, High frequency response of single/two stage amplifiers using BJT & FET. Gain-band width product. Effect of cascading on gain & bandwidth, Transformer coupled and Direct coupled amplifier.

Feedback Amplifier: General feedback theory, characteristics of negative feedback amplifiers, Effect of negative feedback on input and output resistance of amplifiers. Oscillators: Principle of oscillation, Barkhausen stability criterion, Audio frequency oscillator: Phase shift & Wien bridge oscillators, RF Oscillator: Colpitts & Hartley, Crystal Oscillator..

Operational amplifiers: Differential Amplifiers, swamping resistor, Constant current source and current mirror circuit, Equivalent circuit of Op-amp, Virtual ground, Offset error in voltages & currents & their temperature drift, Op-amp parameters such as CMRR, PSRR, Slew rate, frequency response of Op-Amp, Study of Op-amp ICs like 741,324,308 etc., Linear and non-linear application of Op-amp, Integrator, Differentiator, Log& antilog amplifiers, Precision rectifier, comparators, Schmitt trigger , Sample & hold circuit, Instrumentation amplifiers.

Tuned RF voltage amplifiers: Single and double tuned amplifiers, Gain and bandwidth  calculations, frequency response of under coupled, critically and over coupled circuits, Introduction to RFICs, Power supplies: Review of regulators using Zener diodes, series and shunt regulators, Over current protection using current limiting fold back and crowbar protection, Regulators using ICs, Multivibrators circuit using BJT and Op-amp, Emitter coupled binary circuit, 555 – Timer IC application, Square wave and Triangular wave and Sawtooth wave generators, Linear Wave shaping circuits, RC high pass & low pass circuit, Effect of Tilt or sage



  • CBCS RGPV Sensors and Transducers Syllabus Electronics and Instrumentation Branch 

Sensors and Transducers 

Role of transducers in instrumentation- Transducers construction, classification and characteristics. Principles of operation and characteristics, interfacing of transducers and signal conditioning Transducers for measurement of displacement, strain, velocity, acceleration etc. Potentiometer, LVDT, Strain gauge, capacitance gauge, piezoelectric transducers and accelerometers.

Force and pressure measurement:

Force: Standards and Calibration, Basic methods of force measurement (Spring, beam, diaphragm) Strain gauge: basic principal, gauge factor, types of strain gauge, materials and their properties, bonding material compensation techniques, bridge configuration, Rosettes, Tactile sensors, Piezoelectric sensors, LVDT as secondary sensor.

Pressure: Standards and calibration Units and relations. Positive Pressure Sensors:

Manometers – U tube, Well type, inclined tube, Ring balance, Micro manometer, use of seal pots, range of measurement Elastic – Bourdon, Diaphragm, Bellows and their types, materials and their properties, range of measurement Electronic – LVDT, Strain gauge, Capacitive, Piezoelectric, Thin film, Variable reluctance, Vibrating element (Diaphragm and Wire),

High Pressure Measurement – Bulk modulus cell, Bridgeman type Differential Pressure Measurement: Force balance, Motion balance, Capacitance delta cell, Ring balance DP cell. 

Vacuum measurement McLeod gauge, Thermal Conductivity (Pirani, Thermocouple), hot cathode ionization gauge, Molecular momentum (Knudsen) gauge, Cold Cathode ionization (Penning) gauge.

Calibrating Instruments – Dead Weight Tester (Pressure, Vacuum). 

Temperature measurement: Temperature Scales, Standards and Units and relations, Classification of temperature sensors. 

Mechanical: Bimetallic Thermometer – Working Principle, Various types, Filled system thermometers – SAMA classifications, Sources of errors and their remedies, Dip effect.

Electrical: Resistance Temperature Detectors – Principle, materials and their properties, Types and ranges, different sources of errors and compensations.

Thermistor: Types (NTC, PTC), Measuring Circuits

Thermocouple: Terminology, Types (B, E, J, K, R, S, T), determination of polarity, Characteristics, Laws of thermoelectricity, Study of thermocouple tables (calculation of intermediate temperature and voltage), Lead wire compensation, Cold junction compensation techniques, Protection (Thermo well), EMF Measurement methods, Thermopiles

Non-contact Types: Pyrometers: Total Optical, Infrared. Transducers for measurement of flow and level. Turbo magnetic, Electromagnetic and other flow meters. Various methods of level measurements, Ultrasonic level gauge. Measurement of humidity and moisture. Various sensors employed in instrumentation, introduction to MEMS, wireless sensors, finger print sensors



  • CBCS RGPV Digital Electronics Syllabus Electronics and Instrumentation Branch 

Digital Electronics 

Minimization Techniques And Logic Gates

Minimization Techniques: Boolean postulates and laws – De-Morgan’s Theorem -Principle of Duality - Boolean expression - Minimization of Boolean expressions-Minterm – Maxterm - Sum of Products (SOP) – Product of Sums (POS) – Karnaugh map Minimization – Don’t care conditions - Quine-McCluskey method of minimization.

Logic Gates: AND, OR, NOT, NAND, NOR, Exclusive–OR and Exclusive–NORImplementations of Logic Functions using gates, NAND–NOR implementations – Multi level gate  implementations- Multi output gate implementations. TTL and CMOS Logic and their characteristics – Tristate gates

Combinational Circuits

Design procedure – Half adder – Full Adder – Half subtractor – Full subtractor – Parallel binary adder, parallel binary Subtractor – Fast Adder - Carry Look Ahead adder – Serial Adder/Subtractor - BCD adder – Binary Multiplier – Binary Divider - Multiplexer/ Demultiplexer – decoder - encoder – parity checker – parity generators – code converters - Magnitude Comparator.

Sequential Circuits

Latches, Flip-flops - SR, JK, D, T, and Master-Slave – Characteristic table and equation– application table – Edge triggering – Level Triggering – Realization of one flip flop using other flip flops – serial adder/subtractor- Asynchronous Ripple or serial counter –Asynchronous Up/Down counter - Synchronous counters – Synchronous Up/Down counters – Programmable counters – 

Design of Synchronous counters: state diagram- State table –State minimization –State assignment - Excitation table and maps-Circuit implementation - Modulo–n counter, Registers – shift registers - Universal shift registers– Shift register counters – Ring counter – Shift counters - Sequence generators.

Memory Devices

Classification of memories – ROM - ROM organization - PROM – EPROM – EEPROM –EAPROM, RAM – RAM organization – Write operation – Read operation. Static RAM Cell- Bipolar RAM cell – MOSFET

RAM cell – Dynamic RAM cell. Implementation of combinational logic circuits using ROM, PLA, PAL. 

Synchronous Sequential Circuits: General Model – Classification – Design – Use of Algorithmic State Machine. 

Asynchronous Sequential Circuits: Design of fundamental mode and pulse mode circuits – Incompletely specified State Machines – Problems in Asynchronous Circuits.



  • CBCS RGPV Material Science Syllabus Electronics and Instrumentation Branch 

COURSE CONTENT

Atomic structure, molecules and general bonding principles, crystal system and structure , Miller indices, Bravais lattice, Bragg’s law, crystal structure for metallic elements, structural imperfections, dielectric parameters, polarsation, static dielectric constant of solids, ferroelectric materials, piezoelectricity, compex dielectric constant, dipolar relaxation, Debye equation , dielectric loss, insulating materials and their properties, composite materials

Magnetism: fundamental concepts pertaining to magnetic fields, magnetic dipole movement of current loops, orbital magnetic dipole movement and angular momentum of simple atomic model, classification of magnetic materials, spin magnetic moment, paramagnetism, ferromagnetism, spontaneous magnetization and Curie-Weiss law, ferromagnetic domains, magnetic anisotropy, magnetostriction, antiferromagnetism, ferrites and its applications, magnetic resonance

Conductors: introduction, atomic interpretation of Ohm’s law, relaxation time, collision time, mean free path , electron scattering, resistivity of metals, Linde’s rule, Joule’s law, thermal conductivity of metals, high conductivity materials, high resistivity materials, solder and electrical contact materials, carbon brushes, fuses, superconductivity-The free electron model, thermodynamics and properties of superconductors, meissner effect, classification of superconductors 

Semiconductors: chemical bonds in Ge and Si, carrier density, extrinsic semiconductor, n-type , p-type semiconductor, Hall effect, mechanism of current flow, drift current, diffusion current, Einstein relation, materials for fabrication of semiconductor devices, fabrication technology , continuity equation, capacitance of junction barrier, junction transistors, thermistor, variastors

Optical properties of materials: introduction, electromagnetic radiation spectrum, refractive index, reflection, Birefringence, Translucency, colourcentres, dispersion, absorption, excitons, photoelectric emission, electroluminescence , photoconductivity, photoelectric cells, lasers, ruby lasers, Nd-YAG laser, carbon dioxide laser, optical fibres, fibre materials, mechanism of refractive index variations, fabrication of fibre, fibre cables, solar cell, fuel cell, MHD generators.

  • CBCS RGPV Programming Tools Syllabus Electronics and Instrumentation Branch  

Programming Tools List of Experiments

1. Study of SPICE commands and Simulate basic analog circuits using SPICE tools.

2. Write SPICE programme for half and Full wave rectifier and simulate using SPICE simulator.

3. Write SPICE programme for Clipper and Clamper and Simulate using SPICE simulator.

4. Write SPICE programme for CE amplifier and Simulate using SPICE simulator.

5. Study of XILINX tool flow and simulate basic digital circuits using VHDL.

6. Write basic VHDL code for MUX/DEMUX and simulate using XILINX simulator.

7. Write VHDL code for Synchronous counter and simulate it.

8. Study of MATLAB tool and implement basic electronics circuits.



https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/ei270217034944.pdf

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