ELECTRICAL ENGINEERING
1st Semester |
S. No. |
Course Code |
Subject |
L |
T |
P |
Credits |
|
1 |
EE 501
EE 502
EE 519 |
Dynamic Systems and Control /
Advanced Power System Analysis/
Machine Modeling & Analysis |
4 |
0 |
0 |
4 |
|
2 |
EE 503
EE 504 |
Power Electronics Devices & Circuits /
Discrete Time Control Systems |
4 |
0 |
0 |
4 |
|
3 |
MA501 |
Advanced Mathematics |
4 |
0 |
0 |
4 |
|
4 |
… |
Elective I |
4 |
0 |
0 |
4 |
|
Elective I |
S. No. |
Course Code |
Subject |
|
|
|
|
|
Power System Group |
|
|
|
1 |
EE 507 |
Power System Operation and Control |
|
|
2 |
EE 525 |
Neural Networks & Fuzzy Logic |
|
|
3 |
EE 526 |
Advanced Power System Stability |
|
|
|
4 |
EE 527 |
Fast Transients in Power System |
|
|
|
|
|
Control System Group |
|
|
|
|
|
|
1 |
EE 509 |
System Dynamics and Meta Systems |
|
|
|
2 |
EE 525 |
Neural Networks & Fuzzy Logic |
|
|
|
|
|
3 |
EE 528 |
Operation research |
|
|
|
|
|
Power Electronics & Drives |
|
|
|
|
|
1 |
EE 525 |
Neural Networks & Fuzzy Logic |
|
|
|
|
|
2 |
EE 529 |
Applications of Power Electronics to Power Systems |
|
|
3 |
EE 530 |
PLC & Micro Controllers |
|
|
|
|
|
Course Name : DYNAMIC SYSTEMS AND CONTROL
Course Code : EE 501
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
INTRODUCTION (4)
Dynamical systems and transformations.
LINEAR CONTROL THEORY (8)
Linear dynamical systems, basics, state space solutions and realizations, stability, liapunov theory, controllability & observability, state feedback and state estimation.
OPTIMAL CONTROL (15)
Optimiation problems of dynamic Systems, optimization problems with path constaints, optimal feedback control, linear systems with quadratic criteria, optimal feedback control in the presence of uncertainity, Bellman’s equation & dynamical programming: (a) calculus of variations, (b) computational aspects.
APPLIED NONLINEAR CONTROL (15)
Nonlinear system analysis: (a) phase plane analysis, (b) Lyapunov theory, (c) advanced stability theory
Nonlinear Control Systems Design: (a) Feedback linearization (b) sliding mode control (c) adaptive control (d) control of multi-input physical systems (e) schochastic and adaptive control.
BOOKS:
- C.T.Chen, Linear System Theory & Design, Oxford University Press
- Robert F.Stengel, Optimal Control & Estimation, Dower Publications.
REFERENCES:
- T.Kailath, A.H.Sayed, and B.Hassibi, Linear Estimation, Prentice Hall
- H.K.Khalil, Nonlinear Systems, Prentice Hall
- R.Bellman, Adaptive Control Process, Princeton University Press
- A.E. Bryson and Y.C. Ho, Applied Optimal Control, Hemisphere Publishing Co. New York.
Course Name : ADVANCED POWER SYSTEM ANALYSIS
Course Code : EE 502
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
Formation of network matrices, Singular and non-singular Transformation. Algorithms for formation of bus admittance and bus impedance matrices. Sparsity Technique and optimal ordering.
(10)
Load flow studies using Y bus Gauses- Soidel, Newton-Raphson, Fast decoupled power flow. Z-bus formulation for load flow solution. Comparison of various methods of load flow solution.
(15)
Three phase networks: Three phase network elements, three phase balanced network, Transformation matrices. Three phase unbalanced network elements. Algorithm for formation of three phase bus impedance matrix. Modification of three phase bus impedance matrix for changes in the network.
(08)
Network fault and contingency analysis: Fault computation using Z-bus. Short-circuit calculations for three phase networks using Z bus. Contingency analysis for Power systems.
(15)
State estimation from line measurements.The line power flow state estimator. State estimation and noisy measurements. Monitoring the power system Determination of variance Z2 – to normalize measurements, Improving state estimates by adding measurements.
(12)
BOOKS:
1. Glonn N. Stagg and ahmed H. El-Abiad, “Computer Methods in Power System Analysis” McGraw Hill, International Edition 1988.
2. Grangier & Stevenson –“Power System Analysis”, McGraw Hill International Students Edition
REFERENCES:
- George L.Kusic, “Computer-aided Powersystem Analysis”, Prentice Hall, 1986.
- J.Arrillaga, C.P. Amold and B.J. Harker, “Computer Modelling of Electrical Power Systems, John willey & Sons, 1983.
- O.I. Elgard,Electric Energy Systems– An Introduction, TataMcgraw Hill, 1971.
- M.A. Pai, Computer Techniques in Power System Analysis, Tata McGraw Hill, 1979.
- A Bramaller, R.N. Allan, Y.M. Hamam, Sparsity, Pitman Publishing, 1976.
- P.M. Anderson, Analysis of Faulted Power Systems, IEEE Press Book.
Course Name : POWER ELECTRONICS DEVICES AND CIRCUITS
Course Code : EE 503
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
DC – DC SWITCH-MODE CONVERTERS (7)
Control of dc-dc converters Buck Converters, Boost Converters, Buck-Boost converters, Cuk dc-dc converters, Full bridge dc-dc converter, Dc – dc converter comparison
SWITCHED MODE DC-AC INVERTERS (8)
Basic Concepts of switch mode Inverters, Single phase inverters, three phase inverters
, Effect Of blanking Time on Output Voltage in PWM inverters, other Inverter switching Schemes, Rectifier Mode of Operation
RESONANT CONVERTERS (10)
Zero-voltage/ zero-current switching, Classifications of resonant converters, Basic Resonant Circuit concepts, Load Resonant converters, Resonant-switch converters, Zero-voltage switching, Clamped voltage topologies, Resonant dc-link Inverters with zero-voltage switchings, High Frequency – Link Integral-half-cycle Converters
SWITCHING DC POWER SUPPLIES (8)
Linear Power supplies, Overview of switching power supplies, Dc-dc converters with electrical isolation, Control of switch-mode dc power supplies, Power supply protection, Electrical Isolation in the Feedback loop, Designing to meet the power supply specifications
POWER CONDITIONERS AND UNINTERRUPTED POWER SUPPLIES (5)
Power Line Disturbances, Power Conditioners and UPS
APPLICATIONS OF POWER ELECTRONICS IN MOTOR DRIVES (8)
Control methods, - voltage drive and current drive, quasi-square wave, PWM, sinewave, Kramer, Synchronous motor drives - dc link, starting, power converter, Brushed dc drive systems - Equations of motion and characteristics of operation. Methods of controlling using constant voltage and constant current techniques. Integration into a complete servo system.
BOOK:
- Power Electronics converters, applications and Devices – Mohan, Undeland Robbins
REFERENCES:
- Cyril, W.Lander, Power Electronics, McGraw Hill, International Edition, 1993.
- M.H Rashid, Power Electronics, Prentice Hall of India – 1994.
- M.D Singh and KB Kanchandani, Power Electronics, T.M.H New Delhi, 1998
Course Name : DISCRETE TIME CONTROL SYSTEMS
Course Code : EE 504
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
Introduction: control system terminology, computer based control, control theory (history & trends)
(3)
Signal processing in digital control: advantages of digital control, basic digital control scheme, principle of signal conversion, basic discrete-time signals, time domain &transfer function models, stability in z –plane, sampling, sampled spectra & aliasing, filtering, principles of discretization.
(10)
Models of digital control devices and systems: z-domain description of sampled continuous, time plants, z- domain description of systems with dead- time, implementation of digital controllers.
(8)
Design of Digital Control algorithms: z-plane specifications of control system design, digital compensator design using frequency response and root locus plots, z- plane synthesis.
(6)
State Variable Analysis of Digital Control System: state description of digital processors, state description of sampled continuous- time plants, solution of state difference equations controllability and observability.
(9)
Digital Control System with State Feedback, dead beat control by state feedback and dead beat observers, lyapunov stability analysis for discrete –time systems.
(7)BOOK: 1. Gopal, M., Digital control and state variable methods, Tata McGraw-Hill Publishing company limited.REFERENCES: 1. Kuo, B.C., Digital control systems.,Orlando Florida: Saunders College Publishing
2. G.F. Franklin, J.D. Powel and M.L. Workmen, Digital Control of Dynamic Systems, Joh Wiley & Sons
3. Gayakward, R and L sokoff, analog and digital control systems, Englewood cliffs, New jersey: Prentice- hall
4. Ogata, k. discete –time control systems, Englewood cliffs, New jersey: Prentice-hall
Course Name : ADVANCED MATHEMATICS (Special functions, Conformal mappings and Matrices)
Course Code : MA 501
Credits : 4
L T P : 4 0 0
Lecture wise breakup No. of Lectures
SPECIAL FUNCTIONS (24)
Series solution of differential equations, Power series methods, Legendre’s polynomial, generating functions, Recurrence relations
Frobenius method, Series solution of Bessel’s differential equation, Modified Bessel’s functions, generating functions, Recurrence relations
Equations reducible to Bessel’s equation
Sturm Liouville’s problem, orthogonal functions, orthogonality of eigen functions, eigen function expansions
Applications
CONFORMAL MAPPINGS (8)
Conformal mapping, Exponential function,, trigonometric function, logarithmic function, power function, bilinear and Schwarz-Christoffel transformation, Applications to engineering problems.
MATRICES (13)
Matrices, Minimal polynomial of a matrix, Reduction of a matrix into Jordan canonical form
Functions of square matrices, Sylvester’s interpolation formula, Quadratic and Hermitian forms
Linear vector matrix differential equations, Matrix Riccati equations BOOK1. Advanced Engineering Mathematics, Wylie and Barrett, Mc Graw Hill, 6th edition, 1995.REFERENCES1. Advanced Engineering Mathematics, Kreyszig, John Wiley and Sons, 8th edition, 2001.
2. State space Analysis Of Control Systems, K Ogata, 1967, Prentice Hall Inc.
Course Name : POWER SYSTEM OPERATION AND CONTROL
Course Code : EE 507
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
POWER SYSTEMS OPERATIONAL SECURITY AND DISPATCH (08)
Review of security concept and state of operation, contingency analysis; generation dispatch; dynamic security; power system state estimation; maximum likelihood weighted least-squares estimation; bad measurements; network observabilities and pseudo-measurements; applications in system control.
FREQUENCY CONTROL AND AGC (10)
Review of theory of frequency dynamics. Multi-area frequency dynamics. Load-frequency and tie-line power flow control. Theory of Automatic Generation control, AGC implementation methods.
INTERCONNECTED SYSTEMS OPERATION (06)
Need of system interconnection. Operating policies. Economic interchange. Optimal multi-area Operation.
UNIT COMMITMENT (08)
Priority lists, Integer Programming, Dynamic Programming, Lagrangian Relaxation and Neural Net Methods.
ENERGY MANAGEMENT SYSTEMS AND REAL-TIME CONTROL (10)
Energy management systems. Software systems, Computer hardware resources and configurations. Data management. Communications and distributed computing. Expert systems for contingency and security evaluation, event analysis, system restoration and reactive control. Short range load forecasting. BOOK:1. Wood and Wollenberg "Power Generation Operation and Control", John Wiley, 1984.
REFERENCES:
1. OI Elgerd "Electric Energy Systems Theory", McGraw Hill, 1983.
2. Mahalanabis et al., "Computer-aided power system analysis" Tata McGraw, 1988.
3. Anderson & Fouand "Power system control and stability" Iowa State University Press, 1977.
4. "Fundamentals of supervisory systems" IEEE Tutorial Course Text, 91EH0337-6-PWR, 1991.
Course Name : SYSTEM DYNAMICS AND META SYSTEMS
Course Code : EE 509
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
General systems theory, system, system dynamics, models, mental, models, relationship between system Dynamics and cybernetics
(3)
Rate processes- stock and flows, levels and rates, exercises on graphical integration
(3)
Lab exercises,
(5)
Importance of Non-linearity, delay, initial conditions, Dimensional consistency,
(3)
Lab exercises
(5)
Causal loop diagrams, Reinforcing and balancing loops, positive and negative feedback, conceptualization exercises ,loop polarity and shift in loop dominance.
(3)
Lab exercises
(5)
Model formulation, rate equations, auxiliary equation, table function, Levels, delays representation of decision process
(3)
Lab exercises.
(5)
Generic structures, S shaped growth, unexpected behavior of Ist order, 2nd order, 3rd order, and 4th order loops,. Exponential, oscillating systems.
(5)
Transferability of structures, Archetypes
(4)
Group modeling, system thinking as paradigm, necessity and benefit of system dynamics, exercise in group modeling.
(6)
Meta system Engineering-system schema ,world schema, pattern, form, holon, system domains, Emergent properties, domain engineering, world engineering, whole system design.
(10)
BOOK:
1. Introduction to System Dynamics by Jay Forrestor, MIT press.
REFERENCES:
1. Introduction to Systems Science, Jay Forrestor, Fifth discipline- Peter Senge by Century Business
Course Name : MACHINE MODELLING AND ANALYSIS
Course Code : EE 519
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lecture
Basic Two-pole DC machine – primitive 2-axis machine – Voltage and Current relationship – Torque equation, Mathematical model of separately excited DC motor and DC Series motor in state variable from – Transfer function of the motor – Numerical problems, Mathematical model of D.C. shunt motor and D.C. Compound motor instate variable from – Transfer function of the motor – Numerical Problems.
Linear transformation – Phase transformation (a,b,c to α,β,o)- Active transformation (α,β,o to d,q), Circuit model of a 3 phase Induction motor – Linear transformation – Phase Transformation – Transformation to a Reference frame – Two axis models for Induction motor. Voltage and Current Equations in stator reference frame – Equation in Rotor reference frame – Equations in a synchronously rotating frame – Torque equation – Equations in state-space from.
Circuit model of a 3 ph Synchronous motor – Two axis representation of Syn. Motor. Voltage and current Equations in State – space variable from – Torque equation.
BOOKS:
- Electric Motor Drives Modelling Analysis & Control by R. Krishnan Pearon education.
- The general Theory of Alternating current Machines: Application to Practical problems, Bernard ADKINS, Ronald G. Harley, Published by Chapman & Hall Ltd., London 1975
REFERENCES:
1. Thyristor control of Electric Drives – Vedam Subramanyam.
2. Analysis of electric machinery and Drive systems – Paul C.Krause, Oleg wasynezuk, Scott D. Sudhoff
Course Name : NEURAL NETWORKS AND FUZZY LOGIC
Course Code : EE 525
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
INTRODUCTION
Biological neuron & their artificial models, Models of Artificial neural networks, Neural processing, Learning and adaptation, Neural network learning rules-hebbian, perception, delta, windrow-Holf learning rule. Winner Take all, outstan learning, Adalin & Madaline networks.
SUPERVISED LEARNING
Single layer networks, Perception-linear separability, Limitations, Multilayer networks back propagation, algorithm and their training limitations, applications, Feed forward networks – Radial basis function.
UNSUPERVISED-
Winner
takes all networks, Hamming networks, Maxnet, counter propagation network; adaptive resonance theory, Kohem’s self organizing maps.
ASSOCIATE MEMORIES
Auto Associate memories and Bidirectional memories.
SPECIAL NETWORKS
Cognitron, Neocognition, statistical methods-Boltzmann machine, Cauchy’s machine, simulated annealing.
OPTIMIZATION-
Hopfield Network – TSP, A/D converter.
FUZZY LOGIC
Fuzzy sets & membership ,Operation & properties of classical sets, Fuzzy set operation and properties of fuzzy sets, Features of MF, standard forms and boundaries, Fuzzification, Membership value of assignments.
Cut for fuzzy sets and fuzzy relations, defuzzification methods.
Fuzzy Rule Based Systems ,simple fuzzy logic controllers, BOOKS:
- Introduction to Artificial neural networks, J.M.Jurada, Jaico Publishers Mumbai, 1997.
- Fuzzy logic with Engineering Applications by Timothy J. Ross – McGraw Hill, Inc.
REFERENCES:
- Simon Haykin, Neural Networks – A Comprehensive Foundation, Macmillan Publishing Co., New York, 1994.
- Neural Network, Fuzzy logic and Genetic Algorithms Synthesis and applications – S. Rajasekaran & G.A.Vijaylakshmi Pai.
- Understanding Neural Networks and Fuzzy logic by S.V.Kartalo Poulos – PHI.
- Fuzzy Sets & Fuzzy logic Theory & applications by George J. Klir/Bo Yaun-PHI.
- IEEE papers.
- Neural computing: Theory & Practice by Philip D. Wasserman Auza Research Inc. Van Nostrand 1989.
Course Name : ADVANCED POWER SYSTEM STABILITY
Course Code : EE 526
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
Modelling of Synchronous Machine, Excitation and Prime Mover Controllers, transmission Lines, Loads, and SVC.
(14)
Concepts of stability of dynamic systems. Small signal stability Analysis of single machine system Power system Stabilizers. Small signal stability Analysis of Multimachine system.
(14)
Review of transient stability, numerical integration methods. Transient stability analysis of single machine connected to infinite bus. Transient stability analysis of Multimachine system. Evaluation of transient stability by direct method.
(14)
Introduction to Voltage stability
(2)
Stability enhancement measures for all type of stability.
(7)
BOOKS:
1. K.R.Padiyar, Power System Dynamics: Stability and Control, Interline Publishing Pvt Ltd., Banglore,
REFERENCES:
- P.Kundur, Power System Stability And Control, McGraw-Hill Inc. , 1994
- V.A. Venikov, Transient Phenomena in power system, Mir Publications.
- A.A. Fouad and P.M.Anderson, Power system stability and control, Iowa University Press, Ames, Iowa, 1977.
- E.W. Kimbark, Power system Stability, Vol.I and III, John Wiley and Sons, Inc., New York, 1948.
Course Name : FAST TRANSIENTS IN POWER SYSTEMS
Course Code : EE 527
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
INTRODUCTION TO FAST TRANSIENTS (10)
Origin and nature of power system Transients, traveling waves on transmission system, the line equation, the shape attenuation and distortion of waves, reflection of traveling waves , successive reflections, traveling waves on multi conductor systems, transition points on multi conductor circuits.
LIGHTNING (5)
Charge formation , mechanism of lightning stroke. Mathematical model of lightning stroke.
THEORY OF GROUNDS WIRES (5)
Direct stoke to a tower, effect of reflection up and down the tower , the counterpoise.
SWITCHING SURGES (8)
Normal frequency effects, high charging currents, cancellation waves, recovery voltage, restricting phenomena. Protection of transmission systems against surge.
HIGH FREQUENCY OSCILLATIONS AND TERMINAL TRANSIENTS OF TRANSFORMER (4)
INSULATION COORDINATION (12)
Insulation coordination procedures (IEC) for high voltage systems: Design criteria, classification of overvoltages, insulation design for switching, lightning and temporary overvoltages, pollution, application of arresters for protection of lines and stations, statistical methods of insulation coordination, risk of failure, test prescriptions. Insulation coordination procedures (IEC) for low voltage systems: representative overvoltages, selection of clearance and creepage distances, macro and micro environments, testing techniques, transient (switching and lightning) voltage surge suppression in industrial and commercial electrical installations, protection of electronic devices.
BOOK:
1. Allan Greenwood , Electrical Transients in power Systems , Wiley Iterscience, 1971
REFERENCES:
1. L.V Bewley, Travelling waves on transmission system , power publications Inc. New York, 1963.
2. R Rudenterg, Electric Stroke waves in power systems, Harvard University press, Cambridge, Massachusetts, 1968.
3. Transmission Line Reference Book, EPRI, USA, 1982
4. Gonen, T., “Electric Power Transmission System Engineering: Analysis and Design”, Wiley, 1988.
Course Name : OPERATION RESEARCH
Course Code : EE 528
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
Linear Programming Problem, Formulation – Graphical method – Simplex method – Artificial variable techniques – Big-M tune – phase methods.
Duality theorem – Dual simplex method – Sensitivity analysis – effect of changes in cos coefficients, Constraint constants, Additional/Deletion of variables and constraints.
Transportation problem – formulation – Initial basic feasible solution methods – Northwest, Least cost and Vogels methods, MODI optimization – Unbalanced and degeneracy treatment.
Assignment problem – Formulation – Hungarian method – Variants of assignment problems, Sequencing problems – Flow shop sequencing – n jobsx2 machines sequencing – n jobsx3 machines sequencing – Job-shop sequencing – 2 jobsxm machines sequencing – Graphical methods.
Game Theory-Introduction-Terminology – Saddle point games – with out Saddle point games – 2x2 games, analytical method – 2xn and mx2 games – graphical method – dominance principle.
Dynamic Programming – Bellman’s principle of optimality – short route – capital investment – inventory allocation.
Non linear optimization – Single variable optimization problem – Unimodal function – Elimination methods – Fibinocci and Golden reaction methods – Interpolation methods – Quadratic and cubic interpotation method. Multi variable optimization problem – Direct research methods – Univariant method – Pattern search methods – Powell’s, Hook-Jeaves and Rosen-brock’s search method.
Geometric programming – Polynomial – Arithmetic – Seametric inequality – Unconstrained G.P – Constraint G.P with ≤ type constraint.
Simulation: Definition – Types – steps – Simulation of simple electrical systems – Advantages and Disadvantages.
BOOKS:
- Optimization theory and Applications – S.S.Rao, New Age Internationals.
- Operations Research – S.D.Sharma, Galgotia publishers.
REFERENCES:
- Optimization techniques: Theory and Practice – M.C.Joshi and K.M. More Ugalya, Narosa Publications.
- Optimization : Theory and Practice – Beweridze, Mc Graw Hill
- Simulation Modelling and Analysis – Law and Kelton – TMH
- Optimization Concepts and Applications in Engineering – A.D. Belegundu, J.R.Chandrupata, Pearson Education, Asia.
- Operations Research – Kausur and Kumar, Spinger Publishers
Course Name : APPLICATIONS OF POWER ELECTRONICS TO POWER SYSTEMS
Course Code : EE 529
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
Steady state and dynamic problems in AC systems. Flexible AC transmission systems (FACTS). Principles of series and shunt compensation. Description of static var compensators (SVC)
(6)
Thyristor Controlled series compensators (TCSC), Static phase shifters (SPS), Static condenser (STATCON), Static synchronous series compensator (SSSC) and Unified power flow controller (UPFC).
(10)
Modelling and Analysis of FACTS controllers. Control strategies to improve system stability.
(6)
Power Quality problems in distribution systems, harmonics, harmonics creating loads
(6)
Modelling, harmonic propagation, Series and parallel resonances, harmonic power flow
(6)
Mitigation of harmonics, filters, passive filters, Active filters, shunt, series hybrid filters, voltage sags & swells, voltage flicker. Mitigation of power quality problems using power electronic conditioners. IEEE standards.
(8)
BOOK:
1. T.J.E. Miller, Static Reactive Power Compensation, John Wiley & Sons, New York, 1982.REFERENCES:1. G.T. Heydt, Power Quality, Stars in a Circle Publications, Indiana, 1991.
2. Recent publications on Power Systems and Power Delivery.
Course Name : PROGRAMMABLE LOGIC CONTROLLERS & MICRO CONTROLLER
Course Code : EE 530
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
PLC BASICS:
PLC System, I/O modules and interfacing, CPU processor, programming equipment, programming formats, construction of PLC ladder diagrams, devices connected to I/O modules.
PLC PROGRAMMING:
Input instructions, outputs, operational procedures, programming examples contacts and coils, Drill press operation.
DIGITAL LOGIC GATES
Programming in the Boolean algebra system, conversion examples. ladder diagrams for process control: Ladder diagrams and sequence listings, ladder diagram construction and flow chart for spray process system.
PLC REGISTERS
Characteristics of Registers, module addressing holding registers, input registers, output registers.
PLC FUNCTIONS:
Timer functions and Industrial applications, counters, counter function industrial applications, Arithmetic functions, Number comparison functions, number conversion functions.
DATA HANDLING FUNCTIONS:
SKIP, Master control Relay, jump, Move , FIFO, FAL ONS, CLR and Sweep functions and their applications.Bit Pattern and changing a bit shift register, sequence functions and applications, controlling of two axis and three axis Robots with PLC, matrix functions.
ANALOG PLC OPERATION:
Analog modules and systems, Analog signal processing, multi bit data processing, analog output application examples, PID principles, position indicator with PID control, PID modules, PID tuning , PID functions.
BOOK:
- Programmable Logic Controllers- Principle and Applications by john W. Webb and Ronald a. Reiss, Fifth Edition, PHI
REFERENCES:
- Programmable Logic controllers- Programming method and applications by JR. Hackworth and F.D Hackworth Jr.- Pearson , 2004.
Home