Fourier series, Fourier Transform and its properties, Probability, random variables & their moments, their significance, convolution, auto correlation, cross Correlation & power spectral density, Gaussian & Rayleigh probability density Function, mean, variance & standard deviation, central limit theorem, voltage & Power decibel scales. Signal Processing: Types of signal, deterministic & random, periodic & non Periodic, analog & discrete, energy & power signals, Representation of sinusoid in different forms & their conversion
Need of modulation in a communication system, block schematic of a typical Communication system. AM modulation system, modulation index, generation & detection of AM wave, side bands & power content in an AM wave, DSB-SC, SSB, their methods of generation & detection, vestigial side Band modulation, AM transmitter block diagram, comparison of various AM system, modulation & demodulation circuits. Relationship between phase & freq. modulation, FM wave & its spectrum, phasor diagram of a narrow band FM signal, wide band FM, methods of generation & detection of FM, discriminators, pre-emphasis & de- emphasis, Stereophonic FM broadcasting, FMtransmitters.
TRF receiver & its limitations, necessity of heterodyning, super heterodyning Receivers, IF amplifiers, selection of intermediate frequency. RF amplifiers, detectors, AGC, AVC, FM receivers, AFC.
Nyquist sampling theorem, TDM, pulse modulations & PCM, quantization error, necessity of non linearquantizer, A-law, µ -law, FSK & PSK, QPSK, QAM. Source of noise, no ise figure, noise bandwidth, effective noise temperature, performance of AM, FM & digital system in presence ofnoise.
Satellite system block diagram, satellite freq. bands, satellite multiple access Format like TDMA, FDMA, transponders, earth station & satellite eclipses, Link calculation
Taub& shilling, Communication System,TMH
Singh &Sapre, Communication System, TMH
B.P. Lathi, Modern Digital and ana communicationsystem,
Simon Haykins, Communication System. JohnWilly
Wayne Tomasi, Electronic Communicationsystem.
Schaum outline Series, Analog and digitalcommunication
Martin S. Roden, Analog & Digital Communication System., DiscoveryPress.
John G. Prokis,MasoudSalehi, Gerhard Bauch, Contemporary communication sytems using MATLAB, Cengage learning 2004.
Unit -I
Unit-II pricing of energy and transmissionservices.
Unit-III
Unit-IV
Unit-V
Reactive Power & Voltage control –Protection & Absorption of Reactive Power Method of Voltage Control
, Static VAR systems, Different types, Application ,characteristics, characteristics of an excitation system, DC AC and static excitation system, General block diagram representation of voltageregulators.
I.J. Nagrath& D.P. Kothari , Modern Power System Analysis, Tata Mc Graw – Hill Publication Company Ltd 2nd edition.
C.L.Wadhwa,ElectricalPowerSystems,NewAgeInternational(P) LimitedPublishers,2ndedition1998.
T.J.E. Miller , Reactive power Control in Electric Systems, John Wiley &Sons.
A Chakrawarti, Power System Analysis:Operation and Control PHI Learning 3rdedition
Elgerd O.I., “Electric Energy Systems Theory”, TMH, New Delhi, Second Edition1983.
PrabhaKundur, “Power system stability and control”, Mc-Graw Hill Inc, New York,1993.
Taylor C.W., “Power System Voltage Stability”, Mc-Graw Hill Inc, New York,1993.
Nagrath IJ, Kothari D.P., “Power System Engineering”, Tata Mc-Graw Hills, New Delhi1994.
Weedy B.M. “Electric Power System” John Wiley and Sons, 3rdedition.
P.S.R. Murthy, “Power System Operation and Control”, B SPubl-ication
Power Generation, Operation and Control by A.J. wood and B.F. Wollenberg John Wiley& Sons Inc. 1984.
T.K. Nagsarkar, M.S. Sukhiza, -“Power System Analysis”, Oxford UniversityPress.
Economic Operation of Power Systems- by L.K. Kirchmayer Wiley EasternLtd.
W.e.f. :- July-2010 Academic Session-2010-11
To develop a program in Matlab for information of Y-bus matrix for N bussystem.
Loadflowsolutionfor3-bussystemusingGauss-Seidel,NewtonRaphsonandFDLFmethodsupto3iteration.
Load flow solution for IEEE 6-bus and 30-bus system in Matlab using Newton Raphsonmethod.
Assessment of transient stability of a single machinesystem.
Effect of compensation on voltage profile of IEEE 6-bussystem.
Study of any software tools (PSAT, EDSA, MY POWER, ETAPetc).
Microprocessor 8086 Introduction to 16-bit 8086 microprocessors, architecture of 8086,Pin Configuration, mode, timing diagram, Memory interfacing, interrupts, Instruction set of 8086, Addressing mode, Assembler directives & operations, assembly and machine language programming, subroutine call and returns, Concept of stack, Stack structure of 8086, timings anddelays.
Input-Output interfacing: Memory Mapped I/O and Peripherals I/O. PPI 8255 Architecture and modes of operation, Interfacing to 16-bit microprocessor and programming, DMA controller (8257) Architecture, Programmable interval timer 8254, USART 8251.
Microcontroller 8051 Intel family of 8 bit microcontrollers, Architecture of 8051, Pin description, I/O configuration, interrupts; Interrupt structure and interrupt priorities, Port structure and operation, Accessing internal & external memories and different mode of operations, Memory organization, Addressing mode, instruction set of 8051 and programming.
8051 Interfacing, Applications and serial communication 8051 interfacing to ADC and DAC, Stepper motor interfacing, Timer/ counter functions, 8051 based thyristor firing circuit, 8051 connections to RS-232, 8051 Serial communication , Serial communication modes, Serial communication programming, Serial port programming inC.
Microcontroller 8096 Introduction to 16-bit Microcontroller, functional block-diagram, memory status, complete 8096 instruction set, classification of instruction set, addressing modes, programming examples using 8096, hardware features of 8096,parallel ports, control &status Registers, Introduction to 16/32 bit PIC microcontrollers and DSPIC.
Hall Douglas V.,Microprocessor and interfacing, Revised second edition 2006,Macmillan, McGraw Hill .
A.K. Ray &K.M.Bhurchandi, Advanced Microprocessors and peripherals- Architecture, Programming and Interfacing, Tata McGraw - Hill, 2009 TMHreprint..
SenthilkumarSaravananjeevananthanshah,Microprocessors and Interfacing,oxford university press,2012
Kenneth J. Ayala, The 8086 microprocessor: programming and interfacing the PC, Indian
-edition , CENGAGELearning.
Muhammad Ali Mazidi and Janice Gillespie Mazidi, The 8051 Microcontroller and Embedded Systems, Pearson education,2005.
6.Kenneth J. Ayala, The 8051 Microcontroller Architecture, III edition, CENGAGELearning.
V. Udayashankara and M.S. Mallikarjunaswamy, 8051 Microcontroller: Hardware, Software & Applications, Tata McGraw - Hill,2009.
McKinlay, The 8051 Microcontroller and Embedded Systems - using assembly and C, PHI, 2006 / Pearson,2006.
Tim Wilmshurst, Designing embedded system with PIC microcontrollers Principles and applications. 2nded. 2011 Bsp books pvtltd.
LIST OF EXPERIMENTS
Programs for 16 bit arithmetic operations for 8086 (using Various Addressing Modes).
Program for sorting an array for 8086.
Program for searching for a number or character in a string for 8086
Program for string manipulations for 8086.
Program for digital clock design using 8086.
Interfacing ADC and DAC to 8086.
Parallel communication between two microprocessors using 8255.
Serial communication between two microprocessor kits using 8251.
Interfacing to 8086 and programming to control stepper motor.
Programming using arithmetic, logical and bit manipulation instructions of 8051. 11. Program and verify Timer/Counter in 8051.
Program and verify Interrupt handling in 8051.
UART Operation in 8051.
Communication between 8051 kit and PC.
Interfacing LCD to 8051.
Interfacing Matrix/Keyboard to 8051.
Data Transfer from Peripheral to Memory through DMA controller 8237/8257. Note: Minimum of 12 experiments to be conducted.
Unit-I
Introduction to CRO, Different parts of CRO, Its Block diagram, Electrostatic focusing, Electrostatic deflection, post deflection acceleration, Screen for CRTs, Graticule, Vertical & Horizontal deflection system, Time base circuit, Oscilloscope probes and transducers, Attenuators, Application of CROs, Lissajous patterns, Special purpose CROs- Multi input, Dual trace, Dual beam, Sampling, Storage (Analog & Digital)Oscilloscopes.
Unit-II
A.C. Bridge Measurement Sources and detectors, Use of Bridges for measurement of inductance, Capacitance & Q factor Maxwells bridge, Maxwells inductance capacitance bridge, Hays bridge, Andersons bridge, Owen's Bridge, De-sauty's Bridge, Schering Bridge, High Voltage Schering bridge, Measurement of relative permittivity, Heaviside cambell's bridge, Weins bridge, Universal bridge, Sources of errors in Bridge circuit, Wagner's Earthing device, Q meter and its applications and measurementmethods.
Unit-III
Transducers : Transducers definition and classification, mechanical devices as primary detectors, Characteristic & choice of Transducers, Resistive inductive and capacitive transducers, strain gauge and gauge factor, Thermistor, Thermo couples, LVDT, RVDT, Synchros, Piezo-Electric transducers, Magnet elastic and magnetostrictive Hall effect transducers, Opto-electronic transducers such as photo voltaic, Photo conductive, photo diode and photo conductive cells, Photo transistors, Photo optic transducers. Introduction to analog & Digital data acquisition systems-Instrumentation systems used, Interfacing transducers to electronic control & measuring systems Multiplexing - D/A multiplexing A-D Multiplexing, Special encoders. Digital controldescription
Unit-IV
Signal Generators Fixed & variable frequency AF oscillators, Sine wave generators, Standard signal generator, AF Sine and Square wave generator Function generator, Square and pulse generator, Random noise generator, Sweep generator, TV Sweep generator, Marker generator, Sweep- Marker generator, Wobblyscope, Video pattern generator Vectroscope, Beat frequency oscillator Wave analyser Basic wave analyzer, Frequency selective wave analyzer, Heterodyne wave analyzer, Harmonic distortion, analyzer, spectrum analyzer digital Fourieranalyzer.
Unit-V
Measurement of inductance of a coil using Anderson Bridge.
Measurement of capacitance of a capacitor using scheringbridge.
LVDT and capacitance transducers characteristics andcalibration.
Resistance strain gauge- Strain Measurement andcalibration.
Measurement of R,L,C& Q using LCR-Q meter.
Study & measurement of frequency using Lissajouspatterns.
Measurement of pressure using pressuresensor.
Study of Piezo-electric Transducer and Measurement of impact using Piezo-electricTransducer
Measurement of Displacement usingLVDT.
Measurement of speed of a Motor using photoelectrictransducer.
Study & Measurement using ph meter.
Temperature measurement & Control using thermo couple & usingthermistor.
References:
1) Albert. D. Helfrick, W.D. Cooper, Modern Electronic Instrumentation and measurement techniques, PHI. 2)Kalsi H.S., Electronic Instrumentation, TMH.
A.K. Sawhney, Electrical and Electronic measurements and Instrumentation, Dhanpat Rai and Co.
E.W. Golding, Electrical Measurement and Measuring Instruments Sir Isaac Pitman and Sons, Ltd. London 1940
C.S. Rangan, G.R. Sarma, V.S.V. Mani, Instrumentation Devices and Systems Tata McGraw-Hill Publishing Company Ltd. B.C. Nakra, K.K. Choudhry, Instrumentation, Measurement andAnalys
Unit-I
Illumination Engineering Nature of light, units, sensitivity of the eye, luminous efficiency, glare.
Production of Light; Incandescent lamps, arc lamps gas discharge lamps- fluorescent lamps- polar curves, effect of voltage variation on efficiency and life of lamps, Distribution and control of light, lighting calculations, solid angle, inverse square and cosine laws, methods of calculations, factory lighting, flood lighting and street lighting, Direct diffused and mixed reflection & transmission factor, refractors, light fittings.
Unit-II
Unit-III
Unit-IV
Unit-V
Open Shaw ,Taylor, .Utilization of electrical energy., Orient Longmans,1962.
H. Pratap, Art and Science of Utilization of ElectricalEnergy.
Gupta, J.B., Utilization of Elect. Energy ,Katariya and sons, NewDelhi.
Garg, G.C., Utilization of Elect. Power and Elect.Traction.
Hancok N N, Electric Power Utilisation, WheelerPub.
Introduction to Digital Signal Processing. Discrete time signals & sequences, linear shift invariant systems, stability and causality. Linear-constant coefficient difference equations. Frequency domain representation of discrete time signals and systems.
Applications of z-transforms, solution of difference equations of digital filters. System function, stability criterion, frequency response of stable systems. Realization of digital filters - direct, canonic, cascade & parallel forms.
Discrete Fourier series: Properties of discrete Fourier series, DFS representation of periodic sequences. Discrete Fourier Transforms: Properties of DFT: Fast Fourier Transforms (FFT) - Radix-2 decimation in time and decimation in frequency FFT Algorithms. Inverse FFT.
IIR DIGITAL FILTERS: Analog filter approximations - Butterworth and Chebyshev. Design of IIR Digital filters from analog filters. Bilinear transformation method, step & impulse invariance techniques. Spectral Transformations.
FIR DIGITAL FILTERS: Characteristics of FIR Digital Filters frequency response. Design of FIR Digital Filters using Window Techniques. Comparison of IIR and FIR filters.
Oppenheim & Schaffer, Digital Signal Processing, PHI.
John G. Proakis Digital Signal Processing: Principles, Algorithms, And Applications, 4/E
A. Anand Kumar Digital Signal Processing ,PHI
S.K. Mitra, Digital Signal Processing, TMH
Prof. N. Sarkar, Elements of Digital Signal Processing, Khanna Publication
Ludeman Fundamental of Digital Signal Processing, wileyindia
A. Antoniou, Digital Filters Analysis & Design, TMH
Course Objective
Acquaint the students with the basic concepts of Intellectual Property Rights; and sensitize the students with the emerging issues in IPR and the rationale for the protection of IPR.
UNIT I Introduction
Introduction and Justifications of IPR, Nature of IP, Major forms of IP- Copyright, Patent, Trade Marks Designs, Geographic indication, layout design of Semi conductors, Plant varieties, Concept & Meaning of Intellectual Property.
Major international documents relating to the protection of IP - Berne Convention, Paris Convention, TRIPS. The World Intellectual Property Organization (WIPO).
UNIT II Copyright
Meaning and historical development of copyright , Subject matter , Ownership of copyright, Term of copyright, Rights of owner, Economic Rights, Moral Rights. Assignment and licence of rights, Infringement of copyright, Exceptions of infringement, Remedies, Civil, Criminal, Administrative, Registration Procedure.
UNIT III Patents
Meaning and historical development,. Criteria for obtaining patents, Non patentable inventions, Procedure for registration, Term of patent, Rights of patentee, Compulsory licence, Revocation, Infringement of patents, Exceptions to infringement, Remedies, Patent office and Appellate Board.
UNIT IV – Trade Marks, Designs & GI
Trade Marks: Functions of marks, Procedure for registration, Rights of holder, Assignment and licensing of marks, Infringement, Trade Marks Registry and Appellate Board.
Designs: Meaning and evolution of design protection, Registration, Term of protection, Rights of holder, unregistered designs.
Geographical Indication: Meaning and evolution of GI, Difference between GI and Trade Marks, Registration, Rights, Authorised user.
UNIT V Contemporary Issues & Enforcement of IPR
IPR & sustainable development, The Impact of Internet on IPR. IPR Issues in biotechnology, E-Commerce and IPR issues, Licensing and enforcing IPR, Case studies in IPR
Course Outcome:
Students will be able to understand Primary forms of IPR
Students will be able to asses and critique some basic theoretical justification for major forms of IP Protection
Students will be able to compare and contrast the different forms of IPR in terms of key differences and similarities.
Students will be able understand the registration procedures related to IPR.
Students will be exposed to contemporary issues and enforcement policies in IPR.
References:
P. Narayanan, Intellectual Property Law, Eastern Law House
. Neeraj Pandey and Khushdeep[ Dharni, Intellectual Property Rights, PHI, 2014
N.S Gopalakrishnan and T.G. Agitha, Principles of Intellectual Property, Eastern Book Co. Lucknow, 2009.
Anand Padmanabhan, Enforcement of Intellectual Property, Lexis Nexis Butterworths, Nagpur, 2012.
Managing Intellectual Property The Strategic Imperative, Vinod V. Sople, PHI.
Prabuddha Ganguli, “ Intellectual Property Rights” Mcgraw Hill Education, 2016.
RAJIV GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Electrical & Electronics Engineering, VI-Semester
EX-6006 – Software/Simulation-II
Exercise 1
MATLAB Basic
simulation Mechanism and Simulation Tools, Starting and Ending MATLAB, MATLAB Desktop, Help Browser, Types of Files, Command Input Assistance,Operators and Special Characters, Variables and Arrays, Handling Arrays, Useful Built-in Functions, Control Structures, Input/Output Commands, File Handling
Exercise 2
Introduction to Plotting
The plot command, Formatting and Labeling a Plot, Multiple Plots, Adding Legend, Sub Plots, Plotting Complex Data, 2-D and 3-D Plots, Plotting a Function, Plot Editor, Interactive Plotting using Plotting Tool
Exercise 3
Programming in MATLAB
MATLAB Editor, MATLAB Programming, Debugging MATLAB Programs, MATLAB Debugger, Functions and Function Files, Differential Equation Solver, Symbolic Mathematics, Programming Examples
Exercise 4
Basic Electrical and Networks Applications
Analysis of Electrical Networks – Experiments based on Solution of Series-Parallel Circuits, Solution of system with linear equations - Experiments based on mesh and nodal analysis, Experiments for Validation of Network Theorems, Solution of Network Problems, Solution of First Order Differential Equation – Experiments for the study of Transients, Experiments for AC Signal Waveform Analysis, Study of Resonance in AC Circuit, Study of FrequencyResponseWaveformAnalysis,StudyofResonanceinACCircuit,StudyofFrequen cyResponse
Exercise 5
System Modeling using SIMULINK
Simulation Steps, Getting Simulink, Creating and Simulating a Simulink Model, Simulink Solution of Differential Equation, Assigning Variables, Observing Variables During Simulation, Storing/Saving Data, Linking M-file with Model file, Creating and Masking Sub-systems, Solution using Laplace Transform Approach, Solution using Laplace Transform Approach, Study of dynamic response, Simulation of Non-Linear System, Examples such as Simulink model to generate sine, cosine waveform and rampsignal
BOOKS
“Modelling And Simulation Using Matlab- Simulink”,2011DrShailendra Jain, Willey India.
“Matlab Programming”,Rudraprasad.
RAJIV GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Electrical & Electronics Engineering, VI-Semester EX-6007 Creativity and Entrepreneurship Development
Course Objective:
Understand and use tools for generating entrepreneurial ideas and problem solving.
Understand and use tools for the selection of ideas.
Understand and gain the skills that are needed to implement ideas in today’s society
Understand Entrepreneurship’s part in process that includes idea generation and implementation.
Understand the concept of Entrepreneurship and its place in today’s society
Course Outcomes:
Recognize an opportunity for a user group and frame an appropriate design challenge that addresses the need for the user.
Practice observation, interview and empathy skills to evolve a thorough understanding of the needs of the user.
Share and integrate team leanings.
Generate, develop and describe creative ideas that address the design challenge.
Syllabus:
The concept of Entrepreneurship, its history and its place in society.
The concept of Entrepreneurship and its relation to concept of innovation.
Creative processes for idea generation and problem solving.
Business plan.
Role of creativity, innovation and business research.
Entrepreneurship opportunities in contemporary business environment.
Reference Books :
Dollinger M.J. “Entrepreneurship strategies and resources,” 3rd edition Pearson Education New Delhi.
Panda, Shiba charan “Entrepreneurship development”, Anmol publication New Delhi.
Richard Blundel & Nigel locket, “Exploring Entrepreneurship : practices & perspectives Oxford.
Charles E. Banford & Garry D. Bruton, “Entrepreneurship – A small business Approach, Mcgrawhill Education.
P. Narayana Reddy, “Entrepreneurship” : Text and cases, Cengage learning
Rajeev Roy, “Entrepreneurship” Oxford.
Fourier series, Fourier Transform and its properties, Probability, random variables & their moments, their significance, convolution, auto correlation, cross Correlation & power spectral density, Gaussian & Rayleigh probability density Function, mean, variance & standard deviation, central limit theorem, voltage & Power decibel scales. Signal Processing: Types of signal, deterministic & random, periodic & non Periodic, analog & discrete, energy & power signals, Representation of sinusoid in different forms & their conversion
Need of modulation in a communication system, block schematic of a typical Communication system. AM modulation system, modulation index, generation & detection of AM wave, side bands & power content in an AM wave, DSB-SC, SSB, their methods of generation & detection, vestigial side Band modulation, AM transmitter block diagram, comparison of various AM system, modulation & demodulation circuits. Relationship between phase & freq. modulation, FM wave & its spectrum, phasor diagram of a narrow band FM signal, wide band FM, methods of generation & detection of FM, discriminators, pre-emphasis & de- emphasis, Stereophonic FM broadcasting, FMtransmitters.
TRF receiver & its limitations, necessity of heterodyning, super heterodyning Receivers, IF amplifiers, selection of intermediate frequency. RF amplifiers, detectors, AGC, AVC, FM receivers, AFC.
Nyquist sampling theorem, TDM, pulse modulations & PCM, quantization error, necessity of non linearquantizer, A-law, µ -law, FSK & PSK, QPSK, QAM. Source of noise, no ise figure, noise bandwidth, effective noise temperature, performance of AM, FM & digital system in presence ofnoise.
Satellite system block diagram, satellite freq. bands, satellite multiple access Format like TDMA, FDMA, transponders, earth station & satellite eclipses, Link calculation
Taub& shilling, Communication System,TMH
Singh &Sapre, Communication System, TMH
B.P. Lathi, Modern Digital and ana communicationsystem,
Simon Haykins, Communication System. JohnWilly
Wayne Tomasi, Electronic Communicationsystem.
Schaum outline Series, Analog and digitalcommunication
Martin S. Roden, Analog & Digital Communication System., DiscoveryPress.
John G. Prokis,MasoudSalehi, Gerhard Bauch, Contemporary communication sytems using MATLAB, Cengage learning 2004.
Unit -I
Unit-II pricing of energy and transmissionservices.
Unit-III
Unit-IV
Unit-V
Reactive Power & Voltage control –Protection & Absorption of Reactive Power Method of Voltage Control
, Static VAR systems, Different types, Application ,characteristics, characteristics of an excitation system, DC AC and static excitation system, General block diagram representation of voltageregulators.
I.J. Nagrath& D.P. Kothari , Modern Power System Analysis, Tata Mc Graw – Hill Publication Company Ltd 2nd edition.
C.L.Wadhwa,ElectricalPowerSystems,NewAgeInternational(P) LimitedPublishers,2ndedition1998.
T.J.E. Miller , Reactive power Control in Electric Systems, John Wiley &Sons.
A Chakrawarti, Power System Analysis:Operation and Control PHI Learning 3rdedition
Elgerd O.I., “Electric Energy Systems Theory”, TMH, New Delhi, Second Edition1983.
PrabhaKundur, “Power system stability and control”, Mc-Graw Hill Inc, New York,1993.
Taylor C.W., “Power System Voltage Stability”, Mc-Graw Hill Inc, New York,1993.
Nagrath IJ, Kothari D.P., “Power System Engineering”, Tata Mc-Graw Hills, New Delhi1994.
Weedy B.M. “Electric Power System” John Wiley and Sons, 3rdedition.
P.S.R. Murthy, “Power System Operation and Control”, B SPubl-ication
Power Generation, Operation and Control by A.J. wood and B.F. Wollenberg John Wiley& Sons Inc. 1984.
T.K. Nagsarkar, M.S. Sukhiza, -“Power System Analysis”, Oxford UniversityPress.
Economic Operation of Power Systems- by L.K. Kirchmayer Wiley EasternLtd.
W.e.f. :- July-2010 Academic Session-2010-11
To develop a program in Matlab for information of Y-bus matrix for N bussystem.
Loadflowsolutionfor3-bussystemusingGauss-Seidel,NewtonRaphsonandFDLFmethodsupto3iteration.
Load flow solution for IEEE 6-bus and 30-bus system in Matlab using Newton Raphsonmethod.
Assessment of transient stability of a single machinesystem.
Effect of compensation on voltage profile of IEEE 6-bussystem.
Study of any software tools (PSAT, EDSA, MY POWER, ETAPetc).
Microprocessor 8086 Introduction to 16-bit 8086 microprocessors, architecture of 8086,Pin Configuration, mode, timing diagram, Memory interfacing, interrupts, Instruction set of 8086, Addressing mode, Assembler directives & operations, assembly and machine language programming, subroutine call and returns, Concept of stack, Stack structure of 8086, timings anddelays.
Input-Output interfacing: Memory Mapped I/O and Peripherals I/O. PPI 8255 Architecture and modes of operation, Interfacing to 16-bit microprocessor and programming, DMA controller (8257) Architecture, Programmable interval timer 8254, USART 8251.
Microcontroller 8051 Intel family of 8 bit microcontrollers, Architecture of 8051, Pin description, I/O configuration, interrupts; Interrupt structure and interrupt priorities, Port structure and operation, Accessing internal & external memories and different mode of operations, Memory organization, Addressing mode, instruction set of 8051 and programming.
8051 Interfacing, Applications and serial communication 8051 interfacing to ADC and DAC, Stepper motor interfacing, Timer/ counter functions, 8051 based thyristor firing circuit, 8051 connections to RS-232, 8051 Serial communication , Serial communication modes, Serial communication programming, Serial port programming inC.
Microcontroller 8096 Introduction to 16-bit Microcontroller, functional block-diagram, memory status, complete 8096 instruction set, classification of instruction set, addressing modes, programming examples using 8096, hardware features of 8096,parallel ports, control &status Registers, Introduction to 16/32 bit PIC microcontrollers and DSPIC.
Hall Douglas V.,Microprocessor and interfacing, Revised second edition 2006,Macmillan, McGraw Hill .
A.K. Ray &K.M.Bhurchandi, Advanced Microprocessors and peripherals- Architecture, Programming and Interfacing, Tata McGraw - Hill, 2009 TMHreprint..
SenthilkumarSaravananjeevananthanshah,Microprocessors and Interfacing,oxford university press,2012
Kenneth J. Ayala, The 8086 microprocessor: programming and interfacing the PC, Indian
-edition , CENGAGELearning.
Muhammad Ali Mazidi and Janice Gillespie Mazidi, The 8051 Microcontroller and Embedded Systems, Pearson education,2005.
6.Kenneth J. Ayala, The 8051 Microcontroller Architecture, III edition, CENGAGELearning.
V. Udayashankara and M.S. Mallikarjunaswamy, 8051 Microcontroller: Hardware, Software & Applications, Tata McGraw - Hill,2009.
McKinlay, The 8051 Microcontroller and Embedded Systems - using assembly and C, PHI, 2006 / Pearson,2006.
Tim Wilmshurst, Designing embedded system with PIC microcontrollers Principles and applications. 2nded. 2011 Bsp books pvtltd.
LIST OF EXPERIMENTS
Programs for 16 bit arithmetic operations for 8086 (using Various Addressing Modes).
Program for sorting an array for 8086.
Program for searching for a number or character in a string for 8086
Program for string manipulations for 8086.
Program for digital clock design using 8086.
Interfacing ADC and DAC to 8086.
Parallel communication between two microprocessors using 8255.
Serial communication between two microprocessor kits using 8251.
Interfacing to 8086 and programming to control stepper motor.
Programming using arithmetic, logical and bit manipulation instructions of 8051. 11. Program and verify Timer/Counter in 8051.
Program and verify Interrupt handling in 8051.
UART Operation in 8051.
Communication between 8051 kit and PC.
Interfacing LCD to 8051.
Interfacing Matrix/Keyboard to 8051.
Data Transfer from Peripheral to Memory through DMA controller 8237/8257. Note: Minimum of 12 experiments to be conducted.
Unit-I
Introduction to CRO, Different parts of CRO, Its Block diagram, Electrostatic focusing, Electrostatic deflection, post deflection acceleration, Screen for CRTs, Graticule, Vertical & Horizontal deflection system, Time base circuit, Oscilloscope probes and transducers, Attenuators, Application of CROs, Lissajous patterns, Special purpose CROs- Multi input, Dual trace, Dual beam, Sampling, Storage (Analog & Digital)Oscilloscopes.
Unit-II
A.C. Bridge Measurement Sources and detectors, Use of Bridges for measurement of inductance, Capacitance & Q factor Maxwells bridge, Maxwells inductance capacitance bridge, Hays bridge, Andersons bridge, Owen's Bridge, De-sauty's Bridge, Schering Bridge, High Voltage Schering bridge, Measurement of relative permittivity, Heaviside cambell's bridge, Weins bridge, Universal bridge, Sources of errors in Bridge circuit, Wagner's Earthing device, Q meter and its applications and measurementmethods.
Unit-III
Transducers : Transducers definition and classification, mechanical devices as primary detectors, Characteristic & choice of Transducers, Resistive inductive and capacitive transducers, strain gauge and gauge factor, Thermistor, Thermo couples, LVDT, RVDT, Synchros, Piezo-Electric transducers, Magnet elastic and magnetostrictive Hall effect transducers, Opto-electronic transducers such as photo voltaic, Photo conductive, photo diode and photo conductive cells, Photo transistors, Photo optic transducers. Introduction to analog & Digital data acquisition systems-Instrumentation systems used, Interfacing transducers to electronic control & measuring systems Multiplexing - D/A multiplexing A-D Multiplexing, Special encoders. Digital controldescription
Unit-IV
Signal Generators Fixed & variable frequency AF oscillators, Sine wave generators, Standard signal generator, AF Sine and Square wave generator Function generator, Square and pulse generator, Random noise generator, Sweep generator, TV Sweep generator, Marker generator, Sweep- Marker generator, Wobblyscope, Video pattern generator Vectroscope, Beat frequency oscillator Wave analyser Basic wave analyzer, Frequency selective wave analyzer, Heterodyne wave analyzer, Harmonic distortion, analyzer, spectrum analyzer digital Fourieranalyzer.
Unit-V
Measurement of inductance of a coil using Anderson Bridge.
Measurement of capacitance of a capacitor using scheringbridge.
LVDT and capacitance transducers characteristics andcalibration.
Resistance strain gauge- Strain Measurement andcalibration.
Measurement of R,L,C& Q using LCR-Q meter.
Study & measurement of frequency using Lissajouspatterns.
Measurement of pressure using pressuresensor.
Study of Piezo-electric Transducer and Measurement of impact using Piezo-electricTransducer
Measurement of Displacement usingLVDT.
Measurement of speed of a Motor using photoelectrictransducer.
Study & Measurement using ph meter.
Temperature measurement & Control using thermo couple & usingthermistor.
References:
1) Albert. D. Helfrick, W.D. Cooper, Modern Electronic Instrumentation and measurement techniques, PHI. 2)Kalsi H.S., Electronic Instrumentation, TMH.
A.K. Sawhney, Electrical and Electronic measurements and Instrumentation, Dhanpat Rai and Co.
E.W. Golding, Electrical Measurement and Measuring Instruments Sir Isaac Pitman and Sons, Ltd. London 1940
C.S. Rangan, G.R. Sarma, V.S.V. Mani, Instrumentation Devices and Systems Tata McGraw-Hill Publishing Company Ltd. B.C. Nakra, K.K. Choudhry, Instrumentation, Measurement andAnalys
Unit-I
Illumination Engineering Nature of light, units, sensitivity of the eye, luminous efficiency, glare.
Production of Light; Incandescent lamps, arc lamps gas discharge lamps- fluorescent lamps- polar curves, effect of voltage variation on efficiency and life of lamps, Distribution and control of light, lighting calculations, solid angle, inverse square and cosine laws, methods of calculations, factory lighting, flood lighting and street lighting, Direct diffused and mixed reflection & transmission factor, refractors, light fittings.
Unit-II
Unit-III
Unit-IV
Unit-V
Open Shaw ,Taylor, .Utilization of electrical energy., Orient Longmans,1962.
H. Pratap, Art and Science of Utilization of ElectricalEnergy.
Gupta, J.B., Utilization of Elect. Energy ,Katariya and sons, NewDelhi.
Garg, G.C., Utilization of Elect. Power and Elect.Traction.
Hancok N N, Electric Power Utilisation, WheelerPub.
Introduction to Digital Signal Processing. Discrete time signals & sequences, linear shift invariant systems, stability and causality. Linear-constant coefficient difference equations. Frequency domain representation of discrete time signals and systems.
Applications of z-transforms, solution of difference equations of digital filters. System function, stability criterion, frequency response of stable systems. Realization of digital filters - direct, canonic, cascade & parallel forms.
Discrete Fourier series: Properties of discrete Fourier series, DFS representation of periodic sequences. Discrete Fourier Transforms: Properties of DFT: Fast Fourier Transforms (FFT) - Radix-2 decimation in time and decimation in frequency FFT Algorithms. Inverse FFT.
IIR DIGITAL FILTERS: Analog filter approximations - Butterworth and Chebyshev. Design of IIR Digital filters from analog filters. Bilinear transformation method, step & impulse invariance techniques. Spectral Transformations.
FIR DIGITAL FILTERS: Characteristics of FIR Digital Filters frequency response. Design of FIR Digital Filters using Window Techniques. Comparison of IIR and FIR filters.
Oppenheim & Schaffer, Digital Signal Processing, PHI.
John G. Proakis Digital Signal Processing: Principles, Algorithms, And Applications, 4/E
A. Anand Kumar Digital Signal Processing ,PHI
S.K. Mitra, Digital Signal Processing, TMH
Prof. N. Sarkar, Elements of Digital Signal Processing, Khanna Publication
Ludeman Fundamental of Digital Signal Processing, wileyindia
A. Antoniou, Digital Filters Analysis & Design, TMH
Course Objective
Acquaint the students with the basic concepts of Intellectual Property Rights; and sensitize the students with the emerging issues in IPR and the rationale for the protection of IPR.
UNIT I Introduction
Introduction and Justifications of IPR, Nature of IP, Major forms of IP- Copyright, Patent, Trade Marks Designs, Geographic indication, layout design of Semi conductors, Plant varieties, Concept & Meaning of Intellectual Property.
Major international documents relating to the protection of IP - Berne Convention, Paris Convention, TRIPS. The World Intellectual Property Organization (WIPO).
UNIT II Copyright
Meaning and historical development of copyright , Subject matter , Ownership of copyright, Term of copyright, Rights of owner, Economic Rights, Moral Rights. Assignment and licence of rights, Infringement of copyright, Exceptions of infringement, Remedies, Civil, Criminal, Administrative, Registration Procedure.
UNIT III Patents
Meaning and historical development,. Criteria for obtaining patents, Non patentable inventions, Procedure for registration, Term of patent, Rights of patentee, Compulsory licence, Revocation, Infringement of patents, Exceptions to infringement, Remedies, Patent office and Appellate Board.
UNIT IV – Trade Marks, Designs & GI
Trade Marks: Functions of marks, Procedure for registration, Rights of holder, Assignment and licensing of marks, Infringement, Trade Marks Registry and Appellate Board.
Designs: Meaning and evolution of design protection, Registration, Term of protection, Rights of holder, unregistered designs.
Geographical Indication: Meaning and evolution of GI, Difference between GI and Trade Marks, Registration, Rights, Authorised user.
UNIT V Contemporary Issues & Enforcement of IPR
IPR & sustainable development, The Impact of Internet on IPR. IPR Issues in biotechnology, E-Commerce and IPR issues, Licensing and enforcing IPR, Case studies in IPR
Course Outcome:
Students will be able to understand Primary forms of IPR
Students will be able to asses and critique some basic theoretical justification for major forms of IP Protection
Students will be able to compare and contrast the different forms of IPR in terms of key differences and similarities.
Students will be able understand the registration procedures related to IPR.
Students will be exposed to contemporary issues and enforcement policies in IPR.
References:
P. Narayanan, Intellectual Property Law, Eastern Law House
. Neeraj Pandey and Khushdeep[ Dharni, Intellectual Property Rights, PHI, 2014
N.S Gopalakrishnan and T.G. Agitha, Principles of Intellectual Property, Eastern Book Co. Lucknow, 2009.
Anand Padmanabhan, Enforcement of Intellectual Property, Lexis Nexis Butterworths, Nagpur, 2012.
Managing Intellectual Property The Strategic Imperative, Vinod V. Sople, PHI.
Prabuddha Ganguli, “ Intellectual Property Rights” Mcgraw Hill Education, 2016.
RAJIV GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Electrical & Electronics Engineering, VI-Semester
EX-6006 – Software/Simulation-II
Exercise 1
MATLAB Basic
simulation Mechanism and Simulation Tools, Starting and Ending MATLAB, MATLAB Desktop, Help Browser, Types of Files, Command Input Assistance,Operators and Special Characters, Variables and Arrays, Handling Arrays, Useful Built-in Functions, Control Structures, Input/Output Commands, File Handling
Exercise 2
Introduction to Plotting
The plot command, Formatting and Labeling a Plot, Multiple Plots, Adding Legend, Sub Plots, Plotting Complex Data, 2-D and 3-D Plots, Plotting a Function, Plot Editor, Interactive Plotting using Plotting Tool
Exercise 3
Programming in MATLAB
MATLAB Editor, MATLAB Programming, Debugging MATLAB Programs, MATLAB Debugger, Functions and Function Files, Differential Equation Solver, Symbolic Mathematics, Programming Examples
Exercise 4
Basic Electrical and Networks Applications
Analysis of Electrical Networks – Experiments based on Solution of Series-Parallel Circuits, Solution of system with linear equations - Experiments based on mesh and nodal analysis, Experiments for Validation of Network Theorems, Solution of Network Problems, Solution of First Order Differential Equation – Experiments for the study of Transients, Experiments for AC Signal Waveform Analysis, Study of Resonance in AC Circuit, Study of FrequencyResponseWaveformAnalysis,StudyofResonanceinACCircuit,StudyofFrequen cyResponse
Exercise 5
System Modeling using SIMULINK
Simulation Steps, Getting Simulink, Creating and Simulating a Simulink Model, Simulink Solution of Differential Equation, Assigning Variables, Observing Variables During Simulation, Storing/Saving Data, Linking M-file with Model file, Creating and Masking Sub-systems, Solution using Laplace Transform Approach, Solution using Laplace Transform Approach, Study of dynamic response, Simulation of Non-Linear System, Examples such as Simulink model to generate sine, cosine waveform and rampsignal
BOOKS
“Modelling And Simulation Using Matlab- Simulink”,2011DrShailendra Jain, Willey India.
“Matlab Programming”,Rudraprasad.
RAJIV GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Electrical & Electronics Engineering, VI-Semester EX-6007 Creativity and Entrepreneurship Development
Course Objective:
Understand and use tools for generating entrepreneurial ideas and problem solving.
Understand and use tools for the selection of ideas.
Understand and gain the skills that are needed to implement ideas in today’s society
Understand Entrepreneurship’s part in process that includes idea generation and implementation.
Understand the concept of Entrepreneurship and its place in today’s society
Course Outcomes:
Recognize an opportunity for a user group and frame an appropriate design challenge that addresses the need for the user.
Practice observation, interview and empathy skills to evolve a thorough understanding of the needs of the user.
Share and integrate team leanings.
Generate, develop and describe creative ideas that address the design challenge.
Syllabus:
The concept of Entrepreneurship, its history and its place in society.
The concept of Entrepreneurship and its relation to concept of innovation.
Creative processes for idea generation and problem solving.
Business plan.
Role of creativity, innovation and business research.
Entrepreneurship opportunities in contemporary business environment.
Reference Books :
Dollinger M.J. “Entrepreneurship strategies and resources,” 3rd edition Pearson Education New Delhi.
Panda, Shiba charan “Entrepreneurship development”, Anmol publication New Delhi.
Richard Blundel & Nigel locket, “Exploring Entrepreneurship : practices & perspectives Oxford.
Charles E. Banford & Garry D. Bruton, “Entrepreneurship – A small business Approach, Mcgrawhill Education.
P. Narayana Reddy, “Entrepreneurship” : Text and cases, Cengage learning
Rajeev Roy, “Entrepreneurship” Oxford.