EE 650 Linear Systems Theory

Similar documents
Chhattisgarh Swami Vivekanand Technical University, Bhilai

Sri Satya Sai University of Technology and Medical Sciences, Sehore(M.P.) ADVANCED MATHEMATICS MEPS 101

Ph.D. Syllabus (Odd Semester) EE 701 RANDOM SIGNALS AND FILTERING THEORY

DEPARTMENT OF ELECTRICAL ENGINEERING DIT UNIVERSITY, DEHRA DUN EA5210: POWER ELECTRONICS

TEE 601: SWITCHGEAR AND PROTECTION

A Sliding Mode Controller for a Three Phase Induction Motor

Control of Electric Machine Drive Systems

9/17/2015. Contents. ELEC-E8101 Digital and Optimal Control (5 cr), autumn 2015

International Journal of Modern Engineering and Research Technology

POWER- SWITCHING CONVERTERS Medium and High Power

Subject-wise Tests Tests will be activated at 06:00 pm on scheduled day

PhD PRELIMINARY WRITTEN EXAMINATION READING LIST

Design and Simulation of Fuzzy Logic controller for DSTATCOM In Power System

SEMESTER V. Unit I: Modelling of power system components - single line diagram per unit quantities bus impedance and admittance matrix.

Topic wise Tests. Complex Variables, Numerical Methods, Probability and Statistics & Transfrom Theory.

A Comparison on Power Electronic Inverter Topologies

AUTOMATIC CONTROL TOPICS

B.Tech Academic Projects EEE (Simulation)

1. Kandasamy, P.,Thilagavathy,K.,and Gunavathy,S.,`Numerical Methods', Chand and Co.,2007.

HIGH PERFORMANCE CONTROL OF AC DRIVES WITH MATLAB/SIMULINK MODELS

Analysis of Effect on Transient Stability of Interconnected Power System by Introduction of HVDC Link.

Modeling & Simulation of PMSM Drives with Fuzzy Logic Controller

Digital Control of Dynamic Systems

CL Digital Control Kannan M. Moudgalya

[Mahagaonkar*, 4.(8): August, 2015] ISSN: (I2OR), Publication Impact Factor: 3.785

EVALUATION OF A NEW MODEL FOR UPFC OPERATING AS IMPEDANCE COMPENSATION APPLIED TO MULTI- MACHINE SYSTEMS WITH NONLINEAR LOAD

CHAPTER 3 VOLTAGE SOURCE INVERTER (VSI)

Comparative Analysis of Space Vector Pulse-Width Modulation and Third Harmonic Injected Modulation on Industrial Drives.

Acknowledgements Introduction p. 1 Electric Power Quality p. 3 Impacts of Power Quality Problems on End Users p. 4 Power Quality Standards p.

Size Selection Of Energy Storing Elements For A Cascade Multilevel Inverter STATCOM

II SEMESTER ME (CONTROL & INSTRUMENTATION) DIGITAL SIGNAL PROCESSING & APPLICATIONS

Abstract: PWM Inverters need an internal current feedback loop to maintain desired

CHAPTER 3 WAVELET TRANSFORM BASED CONTROLLER FOR INDUCTION MOTOR DRIVES

Published by: PIONEER RESEARCH & DEVELOPMENT GROUP(

Digital Control of MS-150 Modular Position Servo System

Simulation of Speed Control of Induction Motor with DTC Scheme Patel Divyaben Lalitbhai 1 Prof. C. A. Patel 2 Mr. B. R. Nanecha 3

Control of Power Converters for Distributed Generation

SYLLABUS PROPOSED FOR ME ELECTRICAL [E.P.S.] FIRST SEMESTER EP2101 ADVANCED CONTROL SYSTEMS

Generation of Voltage Reference Signal in Closed-Loop Control of STATCOM

FACULTY OF ELECTRICAL ENGINEERING

Majmaah University. College of Engineering. Course Description. Electrical Engineering

CHAPTER 2 CURRENT SOURCE INVERTER FOR IM CONTROL

TRACK VOLTAGE APPROACH USING CONVENTIONAL PI AND FUZZY LOGIC CONTROLLER FOR PERFORMANCE COMPARISON OF BLDC MOTOR DRIVE SYSTEM FED BY CUK CONVERTER

International Journal of Advance Engineering and Research Development

Design of A Closed Loop Speed Control For BLDC Motor

EE 350: Electric Machinery Fundamentals

Step vs. Servo Selecting the Best

Brief Course Description for Electrical Engineering Department study plan

POWER ISIPO 29 ISIPO 27

Three Phase Induction Motor Drive Using Single Phase Inverter and Constant V/F method

Chhattisgarh Swami Vivekanand Technical University, Bhilai

ADVANCED DC-DC CONVERTER CONTROLLED SPEED REGULATION OF INDUCTION MOTOR USING PI CONTROLLER

Stability Enhancement for Transmission Lines using Static Synchronous Series Compensator

Design of Fractional Order Proportionalintegrator-derivative. Loop of Permanent Magnet Synchronous Motor

Svpwm Technique to Eliminate Harmonics and Power Factor Improvement Using Hybrid Power Filter and By Using Dsp Tms 320lf2407

Simulation of Solar Powered PMBLDC Motor Drive

Electrical Power Systems

INSTANTANEOUS POWER CONTROL OF D-STATCOM FOR ENHANCEMENT OF THE STEADY-STATE PERFORMANCE

International Journal of Scientific & Engineering Research, Volume 5, Issue 6, June ISSN

SVC Compensated Multi Terminal Transmission System Digital Protection Scheme using Wavelet Transform Approach

Upgrading from Stepper to Servo

POWER ELECTRONICS. Converters, Applications, and Design. NED MOHAN Department of Electrical Engineering University of Minnesota Minneapolis, Minnesota

Various Modeling Methods For The Analysis Of A Three Phase Diode Bridge Rectifier And A Three Phase Inverter

Investigations of Fuzzy Logic Controller for Sensorless Switched Reluctance Motor Drive

ACADEMIC PLAN FOR 5th SEM B.Tech( ECE) Class: 5th SEM B.Tech Subject code: BEC 301 Subject: Digital Systems Design and VHDL

EXPERIMENTAL INVESTIGATION OF THE ROLE OF STABILIZERS IN THE ENHANCEMENT OF AUTOMATIC VOLTAGE REGULATORS PERFORMANCE

Temperature Control in HVAC Application using PID and Self-Tuning Adaptive Controller

1. Introduction 1.1 Motivation and Objectives

Reduction of Harmonics and Torque Ripples of BLDC Motor by Cascaded H-Bridge Multi Level Inverter Using Current and Speed Control Techniques

NPTEL

ANALYSIS OF POWER QUALITY IMPROVEMENT OF BLDC MOTOR DRIVE USING CUK CONVERTER OPERATING IN DISCONTINUOUS CONDUCTION MODE

Speed control of sensorless BLDC motor with two side chopping PWM

Analysis of Voltage Source Inverters using Space Vector PWM for Induction Motor Drive

DESIGN OF A MODE DECOUPLING FOR VOLTAGE CONTROL OF WIND-DRIVEN IG SYSTEM

CHAPTER 4 FUZZY BASED DYNAMIC PWM CONTROL

Ballari Institute of Technology & Management Ballari Department of Electrical and Electronics Engineering. Vision & Mission of the Institute

Bachelor of Science in Electrical Engineering Freshman Year

Dead-Time Compensation Method for Vector-Controlled VSI Drives Based on Qorivva Family

Kalman Filter Based Unified Power Quality Conditioner for Output Regulation

Bidirectional Ac/Dc Converter with Reduced Switching Losses using Feed Forward Control

Literature Review. Chapter 2

Optimal Voltage Control using Singular Value Decomposition of Fast Decoupled Load Flow Jacobian

Bahram Amin. Induction Motors. Analysis and Torque Control. With 41 Figures and 50 diagrams (simulation plots) Springer

SYLLABUS FOR B.TECH. PROGRAMME IN ELECTRICAL ENGINEERING INSTITUTE OF TECHNOLOGY

IN MANY industrial applications, ac machines are preferable

Control Strategies and Inverter Topologies for Stabilization of DC Grids in Embedded Systems

Page ENSC387 - Introduction to Electro-Mechanical Sensors and Actuators: Simon Fraser University Engineering Science

AUXILIARY POWER SUPPLIES IN LOW POWER INVERTERS FOR THREE PHASE TESLA S INDUCTION MOTORS

INFLUENCE OF VOLTAGE SAGS ON PM SYNCHRONOUS MOTOR DRIVES

Modeling and Simulation of Induction Motor Drive with Space Vector Control

INTERNATIONAL JOURNAL OF ELECTRICAL ENGINEERING & TECHNOLOGY (IJEET)

INTERNATIONAL JOURNAL OF PURE AND APPLIED RESEARCH IN ENGINEERING AND TECHNOLOGY

Sliding Mode Vector Control Of Three Phase Induction Motor

BLDC TORQUE RIPPLE MINIMIZATION USING MODIFIED STAIRCASE PWM

Type of loads Active load torque: - Passive load torque :-

Static Synchronous Compensator (STATCOM) for the improvement of the Electrical System performance with Non Linear load 1

Actuators. EECS461, Lecture 5, updated September 16,

Improved direct torque control of induction motor with dither injection

Intelligence Controller for STATCOM Using Cascaded Multilevel Inverter

Vector Control of Three-Phase Active Front End Rectifier

Transcription:

EE 650 Linear Systems Theory 3-0-0 6 Essentials of linear algebra: vector spaces, subspaces, singular value decomposition; state variable modeling of linear dynamical systems; transfer function matrices; Stability theory: Lyapunov theorems; controllability and observability; realization theory: balanced realization, Kalman canonical decomposition; linear state feedback and estimation. Introduction to linear robust control: model uncertainty, model reduction and co-prime factorization; robust stability and robust performance. 1. S. Lang, Introduction to Linear Algebra, Springer-Verlag, 2/e, 1997. 2. L. A. Zadeh and C. A. Desoer, Linear System Theory: The State Space Approach, Springer-Verlag, 2008. 3. C.T. Chen, Linear System Theory and Design, Oxford University Press, 3/e, 1999. 4. W. Rugh, Linear System Theory, Prentice Hall, 2/e, 1995.

EE 581 Modern Power Systems 3-0-0 6 Introduction to modern power system: interconnected power system, main objective in operation of power system, structure of Indian power system; Power Component static and dynamic modeling: static modeling of transmission lines, transformer, and capability curve of generator ; Power flow analysis: Gauss-Seidel, Newton-Raphson (polar and rectangular form), decoupled load flow, fast decoupled power flow, DC load flow, Distribution system power flow ; Contingency analysis: contingency ranking, DC and AC sensitivity analysis ; Power system stability: equal area criteria, rotor angle and voltage stability, energy function approach towards transient stability prediction; Power system Operation and Control: Economic load dispatch, load frequency control. 1. J. J. Grainger and W D. Stevenson, Power System Analysis, Tata McGraw-Hill, 2003. 2. A. J. Wood and B. F. Wollenberg, Power Generation Operation and Control, John Wiley and Sons, 2nd Edition, 2005. 3. N. G. Hingorani and L. Gyugyi, Understanding FACTS, Wiley-IEEE Press, 1999. 4. J. Arrillaga, High voltage direct current transmission, IEE Power Engineering Series, 2nd Edn., 1998. 5. P. Kundur, Power System Stability and Control, McGraw-Hill, 1995.

EE 683 Advanced Power Electronics 3-0-0 6 Introduction to power electronics converters, Harmonic distortion, Modulation of one invert phase leg, Modulation of single phase voltage source inverter, Zero space vector placement modulation strategies, Modulation of current source inverters, Overmodulation of inverters, Programmed modulation strategies, Programmed modulation of multilevel converters, Carrier based modulation strategies, Space vector PWM, Implementation of modulation controllers. 1. D. Grahame Holmes, Thomas A. Lipo, Pulse Width Modulation for Power Converters: Principles and Practice, Wiley-IEEE Press, 1 st Edition, 2003. 2. Ned Mohan, Power Electronics: Converters, Applications, and Design, Wiley, 3 rd Edition, 2002.

EE 558 Applied Control Lab 0-0-3 3 1. DC Motor Speed Control: Using PLC to control the speed of DC Motor to understand the principles of feedback control, PWM and PLC programming. The objective is to study the following: a. Open loop speed control b. Close loop speed control c. Use of PLC for the speed control d. Acceleration and deceleration ramps programming in PLC e. To Monitor the duty cycle of the motor 2. AC Machine Control: The objective will be to study: a. Open loop speed control b. Close loop speed control c. Frequency converter and its control d. Acceleration and deceleration ramps programming in the controller e. PWM programming 3. Process Measurement and Control: The objective of this experiment is to understand: a. Industrial measurements b. The control systems used in industry c. The programming techniques of the controller to achieve specific purpose d. Process supervision through PC e. Various transducers and sensors used in the industry.

EE 551 Optimal and Adaptive Control 3-0-0 6 Basic mathematical concepts, Conditions for optimality, Calculus of variations, Pontryagin s maximum principle, Hamilton Jacobi-Bellman theory, dynamic programming, structures and properties of optimal systems, various types of constraints, singular solutions, minimum time problems, optimal tracking control problem Model reference adaptive control, gain scheduling, adaptive internal model control, adaptive variable structure control, adaptive backstepping design, introduction to system identification, direct and indirect adaptive control. 1. D. E. Kirk, Optimal Control Theory: An Introduction, Prentice-Hall, 2004. 2. B.D.O. Anderson and J.B. Moore, Optimal Control: Linear Quadratic Methods, 2007. 3. M. Krstic, P. V. Kokotovic, I. Kanellakopoulos, Nonlinear and Adaptive Control Design, John Willey and Sons, 1995. 4. K. J. Astrom and B. Wittenmark, Adaptive Control, 2/e, 2008. 5. G. Feng and R. Lozano, Adaptive Control Systems, Oxford University Press, 1999..

EE 652 Digital Control 3-0-0 6 Discrete-time system representations: modeling discrete-time systems by linear difference equations and pulse transfer functions, time responses of discrete systems; discrete state-space models, stability of discrete-time systems. Finite settling-time control design: deadbeat systems, inter sample behavior, time-domain approach to ripple-free controllers, limitations and extensions of the deadbeat controller. State-feedback design techniques: linear system properties, state feedback using Ackermann's formula, tracking of known reference inputs. Output-feedback design techniques: observer design, observer-based output feedback design. 1. B. C. Kuo, Digital Control Systems; Oxford University Press, 2/e, Indian Edition, 2007. 2. K. Ogata, Discrete Time Control Systems; Prentice Hall, 2/e, 1995. 3. M. Gopal, Digital Control and State Variable Methods; Tata Mcgraw Hill, 2/e, 2003. 4. G. F. Franklin, J. D. Powell and M. L. Workman; Digital Control of Dynamic Systems; Addison Wesley, 1998, Pearson Education, Asia, 3/e, 2000. 5. K. J. Astroms and B. Wittenmark, Computer Controlled Systems - Theory and Design; Prentice Hall, 3/e, 1997.

EE 580 Control of Electrical Drives 3-0-0 6 Mode ling of DC Machines, Phase Controlled DC Motor Drives, Chopper Controlled DC Motor Drives, Modeling of Polyphase Induction Machines, Phase Controlled Motor Drives, Frequency Controlled Induction Motor Drives, Vector Controlled Induction Motor Drives, Permanent Magnet Synchronous and Brushless DC Motor Drive Modeling and Control. 1. R. Krishnan, Electric Motor Drives: Modeling, Analysis and Control, Prentice Hall, 2002. 2. Mohamed El-Sharkawi, Fundamentals of Electric Drive, CL- Engineering, 1st Edition, 2000.

EE 654 Advanced Power and Control Lab 0-0-3 3 Study of 3-phase inverter, Study of 3-phase rectifier, Control of buckboost converter, Position control of servo-motor, Speed control of 3- phase AC motor, Speed and position control of stepper motor, Load flow analysis with power flow control using series compensation, Control of power flow using back-to- back converter, Effect of SVC (Static Var Compensator) in controlling the bus voltage, Synchronization of alternators. 1. C. S. Indulkar, Laboratory Experiments in Electrical Power Engineering, Khanna Publishers, 1/e, 2003. 2. 2. G. K Dubey, Fundamentals of Electrical Drives, Narosa Publishing House, 2/e, 2002. 3. O. P. Arora, Power Electronics Laboratory: Theory, Practice & Organization, Narosa Publishing House, 1/e, 2007. 4. P. Kundur, Power System Stability and Control, McGraw-Hill, 1/e, 1994.

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback