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TECHNOLOGY AND ENGINEERING APPLICATIONS OF SIMULINK Edited by S.C. Chakravarty Technology and Engineering Applications of Simulink Edited by S.C. Chakravarty Published by InTech Janeza Trdine 9, 51000 Rijeka, Croatia Copyright © 2012 InTech All chapters are Open Access distributed under the Creative Commons Attribution 3.0 license, which allows users to download, copy and build upon published articles even for commercial purposes, as long as the author and publisher are properly credited, which ensures maximum dissemination and a wider impact of our publications. After this work has been published by InTech, authors have the right to republish it, in whole or part, in any publication of which they are the author, and to make other personal use of the work. Any republication, referencing or personal use of the work must explicitly identify the original source. As for readers, this license allows users to download, copy and build upon published chapters even for commercial purposes, as long as the author and publisher are properly credited, which ensures maximum dissemination and a wider impact of our publications. Notice Statements and opinions expressed in the chapters are these of the individual contributors and not necessarily those of the editors or publisher. No responsibility is accepted for the accuracy of information contained in the published chapters. The publisher assumes no responsibility for any damage or injury to persons or property arising out of the use of any materials, instructions, methods or ideas contained in the book. Publishing Process Manager Romina Skomersic Technical Editor Teodora Smiljanic Cover Designer InTech Design Team First published May, 2012 Printed in Croatia A free online edition of this book is available at www.intechopen.com Additional hard copies can be obtained from orders@intechopen.com Technology and Engineering Applications of Simulink, Edited by S.C. Chakravarty p. cm. ISBN 978-953-51-0635-7 Contents Preface IX Chapter 1 Analysis of Power Electronic Controllers in Electric Power Systems Using Simulink 1 Juan Segundo-Ramirez and A. Medina Chapter 2 Study of Inductive-Capacitive Series Circuits Using the Simulink Software Package 19 Titu Niculescu Chapter 3 Fixed Transmission Media 41 Rastislav Róka Chapter 4 Co-Simulation Procedure for PID and Fuzzy Logic Active Controls Strategies Applied to a Sprayers Boom Suspension 69 Cristiano Okada Pontelli and Mario Francisco Mucheroni Chapter 5 S-Function Library for Bond Graph Modeling 97 B. Umesh Rai Chapter 6 From Control Design to FPGA Implementation 129 Marcus Müller, Hans-Christian Schwannecke and Wolfgang Fengler Chapter 7 Describing Function Recording with Simulink and MATLAB 149 Krunoslav Horvat, Ognjen Kuljaca and Tomislav Sijak Chapter 8 Performance Evaluation of a Temperature Control Stage Used on a Semiconductor Gas Sensor 3D Electro-Thermal Model Through Simulink ® 167 E.N. Vázquez-Acosta, S. Mendoza-Acevedo, M.A. Reyes-Barranca, L.M. Flores-Nava, J.A. Moreno-Cadenas and J.L. González-Vidal VI Contents Chapter 9 Matlab Simulink ® Model of a Braked Rail Vehicle and Its Applications 189 Grażyna Barna Chapter 10 Using of Hybrid Supply for Electric or Hybrid Vehicles 219 N. Rizoug, G. Feld, B. Barbedette and R. Sadoun Chapter 11 The Uses of Artificial Intelligence for Electric Vehicle Control Applications 239 Brahim Gasbaoui and Abdelfatah Nasri Preface Building on MATLAB (the language of technical computing), Simulink provides a platform for engineers to plan, model, design, simulate, test and implement complex electromechanical, dynamic control, signal processing and communication systems. Simulink-Matlab combination is very useful for developing algorithms, GUI assisted creation of block diagrams and realisation of interactive simulation based designs. The eleven chapters of the book demonstrate the power and capabilities of Simulink to solve engineering problems with varied degree of complexity in the virtual environment. The first four chapters provide details of design, analysis, simulation and implementation of flexible AC transmission system devices to control the power variables, multi-component electric circuits, signal transmission through power distribution lines of different kinds and PID/fuzzy logic control of a boom suspension. Details of enhanced capabilities in simulation effects constitute the subject matter of the next three chapters on S-functions for custom made subroutines and bond graph models, development of model and HDL code on FPGA system and harmonic linearization method of non-linear characteristics of modulation techniques. The last four chapters deal with examples of electromagnetic and dynamic systems of thermo- electrical micro hot plate with temperature control circuit, braked railed vehicle wheel slide protection, replacement in a car battery by a hybrid supply of battery and super capacitors and a novel speed control logic for electric vehicle. I hope that both newcomers and professionals in the field would benefit by going through the details given in the above chapters of the book. S.C. Chakravarty Scientist (retired), Indian Space Research Organisation (ISRO), Bangalore or Hon Senior Professor, Indian Centre for Space Physics (ICSP), Kolkata, India [...]... harmonic spectrum at the bottom of the figure (a) Control System (b) Bandpass Filter (c) Vabc to Peak Value Fig 3 STATCOM PI control system (a) Main control system (b) Bandpass filter (c) Extraction of the peak value of a three-phase voltage in abc-reference 6 Technology and Engineering Applications of Simulink Fig 4 Blocks parameters of important components 7 (a) alfaE Analysis of Power Electronic Controllers... spectrum (bottom) 14 Technology and Engineering Applications of Simulink 3.2.2 Unified power flow controller (UPFC) The UPFC test system of Figure 15 and Figure 16 shows the Simulink implementation of the UPFC The network parameters are the same of those of Figure 2 The UPFC including the shunt control described in (Mahyavanshi & Radman, 2006) is schematically shown in Figure 18, and the series control... Technology and Engineering Applications of Simulink The current expression through the circuit after closing is the solution of the differential equation of the circuit (1) t i( t )   E (1 - e T ) R (2) where: T L R (3) and it represents the time constant of the circuit The voltage expression on the coil after connection is: t u(t )  L  di  Ee T dt (4) 2.2 SIMULINK model of the circuit The SIMULINK. .. voltage diagram and of the circuit current upon applying the step signal and a unitary impulse These are presented in Fig.8 and Fig.9 Fig 8 The coil voltage variation upon applying a step signal and a unitary impulse 24 Technology and Engineering Applications of Simulink Fig 9 The current variation upon applying a step signal and a unitary impulse We can use the Edit/Plot Configurations and Edit/ Viewer... Test system including the UPFC Analysis of Power Electronic Controllers in Electric Power Systems Using Simulink Fig 16 UPFC and its controllers Fig 17 Series controller 15 16 Technology and Engineering Applications of Simulink The dynamic response of UPFC controllers are presented in Figure 19 From this figure, it is possible to observe that the variation of the three-phase programmable voltage source... FFT window: 1 of 60 cycles of selected signal 200 100 0 -100 -200 0.984 0.986 0.988 0.99 0.992 0.994 0.996 0.998 Time (s) Fundamental (60Hz) = 170 , THD= 1.74% Mag (% of Fundamental) 1.2 1 0.8 0.6 0.4 0.2 0 0 20 40 60 Harmonic order 80 100 Fig 21 Steady state waveform of the voltage at the bus 1 (top) and its harmonic spectrum (bottom) 17 18 Technology and Engineering Applications of Simulink 4 Conclusions... selected 8 Technology and Engineering Applications of Simulink FFT window: 1 of 72 cycles of selected signal 400 200 0 -200 -400 1.184 1.186 1.188 1.19 1.192 1.194 1.196 1.198 Time (s) Fundamental (60Hz) = 179.6 , THD= 39.88% Mag (% of Fundamental) 20 15 10 5 0 0 10 20 30 40 50 Harmonic order 60 70 80 (a) alfaE Fig 6 Steady state waveform of the voltage at the bus 1 without passive filter (top), and its... visualization of the circuit current and the coil voltage if we apply a step voltage signal and a unitary impulse The electrical parameters of the circuit have the values: 22 Technology and Engineering Applications of Simulink R = 50[Ω]; L = 1[H] C ontrolled Voltage Source s - R L C urrent Measurement + + Scope I i - Step + v C o ntinuo us Voltage Measurement Scope U po we rgui Fig 5 SimPowerSystems model of. .. (UPFC) (Hingorani & Gyudyi, 2000) is the most versatile device of the family of FACTS devices, since it is able to control the active and the reactive power, respectively, as 2 Technology and Engineering Applications of Simulink well as the voltage at the connection node In Figure 1 a schematic representation of the STATCOM, the SSSC, and the UPFC are presented The compensating FACTS devices under... Analysis of Power Electronic Controllers in Electric Power Systems Using Simulink Fig 10 SSSC control Fig 11 Selected transient waveforms of the SSSC without passive filter (Top left) Series active power (Top right) Amplitude modulation ratio (Bottom left) Voltage across the dc capacitor (Bottom right) Phase angle of the voltage at the ac terminals 11 12 Technology and Engineering Applications of Simulink . TECHNOLOGY AND ENGINEERING APPLICATIONS OF SIMULINK Edited by S.C. Chakravarty Technology and Engineering Applications of Simulink Edited by S.C versatile device of the family of FACTS devices, since it is able to control the active and the reactive power, respectively, as Technology and Engineering Applications of Simulink 2 well. peak value of a three-phase voltage in abc-reference. Technology and Engineering Applications of Simulink 6 Fig. 4. Blocks parameters of important components. Analysis of Power Electronic

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