th ieee symposium of diagnostics for electrical...
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SDEMPED 2013
9th IEEE Symposium of Diagnostics for
Electrical Machines, Power Electronics &
Drives
August 27-30, 2013
Valencia, Spain
Welcome Message from the symposium Chairs:
It is a great pleasure and honor to welcome, on behalf of the Organizing Committee, to all the participants of the 9th IEEE Symposium on Diagnostics for Electrical Machines, Power Electronics & Drives (SDEMPED 2013) in Valencia, Spain. It has been 16 years since the first SDEMPED edition was held in Carry-Le-Rouet (France, 1997); subsequent editions took place in Gijon (Spain, 1999), Grado (Italy, 2001), Atlanta (USA, 2003), Vienna (2005, Austria), Cracow (Poland, 2007), Cargèse (France, 2009) and Bologna (Italy, 2011). SDEMPED is a well established biennial event which attracts regularly friends and colleagues both from industry and academia. Co-founded by Professor Gerard Capolino from University of Picardie (France) and Professor Giussepe Buja from the University of Padova (Italy), the purpose of this symposium is to provide a forum for presentation and discussion of the state-of-the-art of diagnostics and monitoring for electrical machines, power electronics, adjustable speed drives and related areas. All this, in a very frienly atmosphere, where both experienced and young professors and researchers can share their knowledge and hold fruitful discussions on the fault diagnosis and prognosis field. The SDEMPED Symposium is financially and technically sponsored by the IEEE Power Electronics Society (PELS) and technically co-sponsored by the IEEE Industrial Electronics Society (IES) and the IEEE Industry Applications Society (IAS). The technical program of SDEMPED 2013 will include three Plenary Sessions with invited papers, three tutorial Sessions and eighteen Regular and Special Sessions where 104 papers from 33 different countries will be presented. These papers have been selected among the 150 submissions received in the website. All the submitted papers have been reviewed by at least three independent reviewers. SDEMPED 2013 will be held in the facilities of the Escuela Tecnica Superior de Ingenieros Industriales (ETSII) at the Universitat Politècnica de València. It will be a four-day symposium organized from 27 august (reserved for the tutorials) and 30 august, and includes morning and afternoon sessions. The city of Valencia is the capital of the ‘Comunidad Valenciana’ and the province of Valencia. It is located in the middle-east of Spain, on the shore of the Mediterranean Sea. The city is considered the third largest city of the Spanish State, according to its population rate, 1.500.000 inhabitants. The province of Valencia has an area of approximately 10,807 km2. Inland, you can
find mountainous areas whilst on the coast the land is completely flat, and has many beaches as well as a big lake called “La Albufera”. Valencia was founded by the Romans in 138 BC, and named “Valentia”, which has remained up to the present day. Valencia has seen a variety of different cultures throughout its long history: The Romans, the Visigoths, the Muslims and the Christian, made the city an important centre of culture and finance. During the 15th and 16th centuries, it became one of the great economic forces of the Mediterranean; this period is known as “Valencian Golden Century”, which emphasizes its artistic splendor. Since 1982 it has been the capital of the Valencian Region. We wish all conference participants can have some relaxing moments to enjoy the city of Valencia.
Finally, we would like to thank all the individuals who helped a lot in the SDEMPED’2013 organization: the steering committee, the local organizing committee, the technical program chairs, tutorials chairs, special sessions chairs, publicity chairs and track chairs, the reviewers as well as the staff of the Department of Electrical Engineering (DIE), Escuela Tecnica Superior de Ingenieros Industriales, Centro de Transferencia Tecnológica (CTT) and Centro de Formación Permanente (CFP) of the Universitat Politècnica de València for helping us in many aspects of the organization. We would like to thank the keynote speakers, tutorial presenters ans Special Sessions organizers for their fundamental contribution to the edition. Especially, we would like to thank Dr. Luca Zarri from University of Bologna for his valuable help and support to the organization of SDEMPED 2013. Last but not least, we would like to thank all the authors and all the attendees of SDEMPED 2013 because the scientific success of this event belongs to them.
Martin Riera-Guasp
Jose A. Antonino-Daviu
SDEMPED 2013 General Co-Chairs
SPONSORS
Financial sponsors
IEEE Power Electronics Society (PELS)
Generalitat Valenciana-
Conselleria d’Educació, Culture i Esport
Technical Co-Sponsors
IEEE Industrial Electronics Society (IES)
IEEE Industry Applications Society (IAS)
Universitat Politecnica de Valencia (UPV)
Industrial sponsors
SIEMENS
COMMITTEES
General Co-Chairs Martin Riera-Guasp (SPAIN)
Jose A. Antonino-Daviu (SPAIN)
Technical Program Co-Chairs Manuel Pineda-Sánchez (SPAIN)
Sang Bin Lee (KOREA)
Honorary Co-Chairs Gerard-André Capolino (FRANCE)
Giuseppe Buja (ITALY)
Special Sessions Co-Chairs Joan Pons-Llinares (SPAIN)
Luca Zarri (ITALY)
Publicity Co-Chairs Vicente Climente-Alarcón (SPAIN)
Antonio J. Marques-Cardoso (PORTUGAL)
Tutorials Co-Chairs Rubén Puche-Panadero (SPAIN)
Ronald Harley (USA)
Awards Chairs Alberto Bellini (ITALY)
Local Organizing Committee José Roger-Folch (SPAIN)
Juan Pérez-Cruz (SPAIN)
Francisco Vedreño-Santos (SPAIN)
Miguel Delgado (SPAIN)
Oscar Duque-Pérez (SPAIN)
Manés Fernández-Cabanas (SPAIN)
Antoni Garcia (SPAIN)
Manuel Garcia Melero (SPAIN)
Daniel Moríñigo-Sotelo (SPAIN)
Juan Antonio Ortega (SPAIN)
Jordi-Roger Riba Ruiz (SPAIN)
Jose Luis Romeral Martínez (SPAIN)
International Steering Committee Gérard-André Capolino (Chair)
Fiorenzo Filippetti (Vice-Chair)
Sang Bin Lee (Secretary)
Manes Fernandez-Cabanas
Alberto Bellini
Giuseppe Buja
Thomas Habetler
Ronald Harley
Humberto Henao
Marian Kazmierkowski
Christian Kral
Antonio J. Marques Cardoso
Tadeusz Sobczyk
Elias Strangas
Ernesto Wiedenbrug
GENERAL INFORMATION
Conference Venue SDEMPED 2013 will be held in Universitat Politècnica de Valencia, at the Escuela Técnica Superior de Ingenieros Industriales (ETSII). It is placed on Building 5F of the University Campus. All sessions will take place in the ‘Sala d’ Actes’ and ‘Sala de Graus’ of the aforementioned Faculty that are at the second Floor of Building 5F. G.P.S. coordinates: 39.482255,-0.343267 Address: Universitat Politècnica de València Camino de Vera s/n - Edificio 5F 46022 Valencia (España) http://www.etsii.upv.es/presentacion/contacto-es.php
Lunches All lunches will take place in Cafeteria La Vella, located in Universitat Politècnica de Valencia, Building 1B G.P.S. coordinates: 39.48256,-0.348672 Address: La Vella Cafetería - Restaurante Camino de Vera s/n 46022 - Valencia (España) Tel. 96 387 70 21
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Travel Info Getting to the UPV
Address: Universitat Politècnica de València Camino de Vera, s/n 46022 Valencia Tel. (+34) 96 387 70 00 Fax (+34) 96 387 90 09 [email protected] Latitude and longitude: +39° 28' 56.53", -0° 20' 36.88" · 39.482369, -0.343578
From Barcelo Valencia**** Hotel:
Walking distance: 2,7 km, 35 min
By bus (line 40): 10 min
From Silken Puerta Valencia**** Hotel:
Walking distance: 1,5 km,19 min
By bus (line 89+walking / line18+walking /line 40+walking ): 25 min
Registration desk The registration desk will be placed at the second floor of building 5F. It will be opened every day between 27-30 August, from 8:30 till 17:00.
Official language The official language of the Symposium is English, both for presentations, discussions ad conference activities.
Tutorials All the tutorials will be given on August 27, 2013. The access to the tutorials is free for any attendee registered to SDEMPED 2013. However, every individual attending a tutorial must register before via the Conference website. Please, note that the number of seats of some sessions is limited.
UPV
Weather August is the last month of the year that experiences the height of the stifling heat of the summer. The temperatures are at their peak for the year, there is plenty of sunshine seen each day and there is a very low expectation of any wet weather. The sea is also lovely and warm at this time of year, meaning it is the perfect time of the year to hit the beach. You may see some crowds on the beach, though, as this is peak tourism season and crowds come to Valencia to experience the beautiful weather. The average daily temperature in Valencia in August is 25°C (77°F), which can reach an average high of 29°C (84°F), and drop to an average minimum temperature of 20°C (68°F). Valencia sees on average 9 hours of sunshine per day in August. The average temperature of the sea in Valencia in August is 26°C (78°F). There is an average rainfall of 20 mm expected in Valencia in this month.
Presenters All SDEMPED presentations are oral. Every author presenting a paper is kindly requested to meet his/her session co-chairs in the session room 30 minutes before the starting is scheduled in order to upload his/her presentation in the computer. The presenter must provide the co-chairs with a PowerPoint or PDF presentation on a USB key. It is not possible to change the computer in between presentations. The length of each presentation is restricted to 20 minutes, including questions. The authors are encouraged to conclude their oral presentation within 15 minutes (around 15-20 slides) and to let 5 minutes for questions. Before the presentation a session co-chair will read the short bio uploaded by the author during the paper submission process.
Session Chairs The session chairs have the responsibility to make the schedule strictly respected. Each presentation plus questions should not exceed 20 minutes. In the event of “no-show”, the session chair must wait 20 minutes for the next paper or to close the session if it is the last paper. The session chair will read the brief bio uploaded by the presenter before starting the corresponding presentation. Each session chair has to fill a form (one per session) with the evaluation of all the papers of the session and to bring it back to the registration desk. All the rooms will be equipped with a video projector and a screen. The session chairs will be assisted by a conference organization member in each room from the beginning of the session till the end.
Internet access A free Internet wireless access will be provided to all SDEMPED 2013 participants. Please, do bring a laptop with Wi-Fi facilities. An access code will be provided to the attendees in the registration desk.
Date Time Room: Sala d’actes
9h Registration
Tuesday, August 27
9h30 Tutorial 1: Condition monitoring of electric machines. Prof. Thomas G. Habetler
11h Coffee break
11h30 Tutorial 2: Fault detection and fault tolerant operation of adjustable speed switched reluctance and
permanent magnet synchronous motor drives. Prof. Babak Fahimi
13h Lunch (Cafetería la Vella)
15h30 Tutorial 3: Modeling faults with a numerical software. Dr. Vicente Aucejo
20h Welcome Party (Hotel Barceló)
Wednesday, August 28,
Room: Sala d’actes
9h Registration
9h30 Opening Ceremony
10 Plenary Session 1: Life estimation of copper bars in induction motors: multi-physics approach. Dr. Pedro
Jover Rodríguez
10h45 Coffee break
11h15 Plenary Session 2: Electrical Machines in wind turbines- Maturity of technology. Mr. Javier Ibáñez Mayayo, Mrs Clara Mateo Martínez de Albornoz
12h Plenary Session 3: Plenary Session 3- The Reliability of Machine Windings in Adjustable Speed Drives: Stress, Strength, Design, Qualification & Diagnostics. Dr. Martin Kaufhold
12h45 Lunch (Cafetería la Vella)
Room: Sala d’Actes Room: Sala de Graus
14h30 SS1-A1 Fault tolerant Power Converters, electrical machines and drives
RS1-G1 Power Electronics (I)
16h30 Coffee break
17 RS2-A2 Rotor Faults (I) RS3-G2 Tools for Diagnostics (I) . Signal Analysis Techniques
Thursday, August 29
Room: Sala d’Actes Room: Sala de Graus
8h30 RS4-A3 Rotor Faults (II) RS5-G3 Tools for Diagnostics (II) . AI Techniques
10h30 Coffee break
11h RS6-A4 Stator Faults (I) RS7-G4 Adjustable Speed Drives and Power Converters
13h Lunch (Cafetería la Vella)
14h30 RS8-A5 Stator Faults (II) RS9-G5 Rotor Faults (III)
16h30 Coffee break
17 RS10-A6 Permanent Magnet Machines RS11-G6 Tools for Diagnostics 3 . Mechanical faults
21h Gala Dinner (L’alqueria del Pi)
Friday, August 30
Room: Sala d’Actes Room: Sala de Graus
8h30 RS12-A7 Test for predictive maintenance. Partial discharge tests
SS4-G7 Failure Prognosis Methods In Electrical Drives
10h30 Coffee break
11h SS3-A8 Advanced Artificial Intelligence Approaches Applied to Fault Characterization and Classification for Electrical Machines Diagnostic Purposes
SS1-G8 Fault tolerant Power Converters, Electrical machines and drives (II)
13 Lunch (Cafetería la Vella)
14h30 RS13-A9 Rotor Faults (IV) RS14-G9 Power Electronics (II), Power Converters
16h30 Coffee break
17 Closing Ceremony
SDEMPED 2013: The program at a Glance
TUTORIALS
Tutorial 1-Condition monitoring of electric machines
Prof. Thomas G. Habetler, Georgia Institute of Technology, Atlanta, USA
Topic: Induction motor performance at a level not often enough considered can be
greatly enhanced through the use of condition monitoring and diagnostics. These are
becoming very important issues in power and power electronic systems since they can
greatly improve reliability, availability and maintainability in a wide range of sensitive
applications. Furthermore, the addition of condition monitoring functions to existing
systems need not be expensive or complicated. Existing sensors and hardware can
provide a vast array of system information that has traditionally not been used.
Traditional monitoring of motors has consisted only of protection. This means that
typically, a motor is protected from an overload condition (i.e., misuse) by an overload
relay that monitors the current and estimates, usually in a very crude way, the
temperature of the machine windings. It is only in the case of expensive, or sensitive
load applications that condition monitoring is extended to include fault prediction.
Traditionally, sensors are added to motors to detect specific faults. These include
thermal and proximity sensors for bearing faults, accelerometers for vibrations, etc.
Fault prediction implies that an impending failure is sensed in the monitored device
prior to shutdown, so that maintenance can be performed without incurring unscheduled
downtime. Protection and fault prediction, therefore, are philosophically quite different.
When both are used with sensible preventative maintenance, low operating costs AND
high availability rates can both be achieved.
This tutorial will present methods for the protection and condition monitoring of electric
machines using only the quantities typically available in a motor control center; the
terminal voltage and current. Examples will be shown for condition monitoring of both
induction motors and PM synchronous machines. In addition, the issues involving
monitoring of drive-connected machines will also be presented. An overview of each of
these methods for complete motor monitoring and protection will be presented.
Biography of Prof. Thomas G. Habetler
Dr. Thomas G. Habetler received the B.S.E.E. degree in 1981 and the M.S. degree in
1984, both in electrical engineering, from Marquette University, Milwaukee, WI, and
the Ph.D. degree from the University of Wisconsin-Madison, in 1989.
From 1983-1985 he was employed by the Electro-Motive Division of General Motors
as a Project Engineer. Since 1989, he has been with the Georgia Institute of
Technology, Atlanta, USA, where he is currently a Professor of Electrical and
Computer Engineering. His research interests are in protection and condition monitoring
of electric machines and building electrical systems, power electronics and drives. He
has published over 300 technical papers in the field. He is a regular consultant to
industry in the field of condition-based diagnostics for electrical systems.
Dr. Habetler received the 2012 IEEE-PELS Harry A. Owen Distinguished Service
Award, and the 2012 Gerald B. Kliman Innovator Award from IAS. He was the
inaugural recipient of the IEEE-PELS “Diagnostics Achievement Award,” and a
recipient of the EPE-PEMC “Outstanding Achievement Award.” He has also received a
number of IEEE-IAS prize paper awards. He has served on the IEEE Board of Directors
as the Division II Director, and on the Technical Activities Board, the Member and
Geographic Activities Board, the IEEE-USA Board of Directors, and is a past president
of the Power Electronics Society. In addition, Dr. Habetler has served in numerous chair
and committee positions at the corporate level of the IEEE. Dr. Habetler is a Fellow of
the IEEE, with the citation, "for contributions to electric motor control and condition
monitoring".
Tutorial 2- Fault Detection and Fault Tolerant Operation of Adjustable Speed Switched Reluctance and Permanent Magnet Synchronous Motor Drives
Prof. Babak Fahimi, University of Texas at Dallas
Topic: An increasing use of adjustable speed motor drives in mission critical
applications such as large scale energy harvesting, biomedical, automotive, and
aerospace products calls for timely and accurate condition monitoring and post fault
management mechanisms. Detection methods are based on precise extraction of
electrical, electromagnetic, thermal, and structural signatures and timely processing of
these diagnostics to detect potential faults in various parts of the machine, power
converter, or sensory systems. Fault management usually requires reconfiguration of
hardware and software to (a) avoid catastrophic faults by disengaging the faulty
components and (b)to ensure continued service after fault is properly isolated. This
tutorial is focused on fundamentals of fault detection techniques, state-of-the-art, and
future trends in fault detection and management in two families of adjustable speed
motor drives namely, Permanent Magnet Synchronous Motor drives, and Switched
Reluctance Motor drives. Examples of experimental implementation of fault diagnostics
and fault management will be offered to shed more light on challenges and
opportunities in industrial implementation of the proposed techniques.
Biography of Prof. Babak Fahimi
Dr. Babak Fahimi received his PhD in Electrical Engineering
from Texas A&M University in 1999. Dr. Fahimi has been the
recipient of DAAD scholarship (1993-1995), IEEE R.M. Bass
Power Electronics Young Investigator Award (2003), Office
of Naval Research Young Investigator Award (2004), SAE
Ralph Teetor Educational award (2008), and Fulbright
scholarship in 2010. Dr. Fahimi has co-authored 215 (55
Journal and 160 peer reviewed conference papers) scientific
articles, 15 book chapters, and several technical reports in the
general area of adjustable speed motor drives and power
electronics. He holds eight US patents and has six more
pending. Dr. Fahimi has served IEEE in various capacities
including chairing of the IEEE Vehicle Power and Propulsion Conference (2007),
chairing of the IEEE International future energy challenge competition (2009), chairing
the electric machines committee in IEEE-IES (2007-2009) and chairing the 2010 IEEE
Applied Power Electronics Conference and Expo. Dr. Fahimi is/has been an associate
editor of the IEEE Transactions on Industrial Electronics, IEEE Transactions on Energy
Conversion, IEEE Transactions on Vehicular Technology, and IEEE Transactions on
Power Electronics. Dr. Fahimi has supervised 10 PhD (one tenured associate, three
tenure track assistant professors, and the other six in industry) and 14 M.S. students. His
research has been funded by ARPA-E, DOE, NSF, ONR and various small and large
industries.
Tutorial 3- Modelling Faults with a numerical software
Dr. Vicente Aucejo, INDIELEC, SPAIN
Topic: In this tutorial we’ll introduce several strategies to model faults in electrical
machines using a Finite Element Method based software.
We’ll start with a review of the main features of a Finite Element Software tool, in order
to know the capabilities of this software to model electrical machines for several
working modes (motor, generator, rated conditions, no-load, locked rotor, …). After
this, several strategies to model different failures, like faults in the stator and rotor
conductors (for induction machines), eccentricities, permanent magnet demagnetization
among others, will be presented.
Finally, we’ll propose a practical exercise in which attendees have to model a fault in an
electrical machine and compare the simulation results of the faulty machine with a
healthy one. The attendee will have the chance to model by himself a fault and compute
all the quantities, e.g. in order to compare with patterns.
Biography of Dr. Vicente Aucejo
Dr. Vicente Aucejo was born in Valencia (Spain) in 1970 and after obtaining his BsC
in Electrical Engineering (University Politécnica de Valencia) and MsC (University
Paris VI), he did his PhD in computation methods of forces with numerical methods at
University Paul Verlaine in Metz (France).
He is currently CAE manager in INDIELEC, a Spanish SME dedicated to electrical
engineering and simulation, and he is mainly involved in modeling tasks of
electromagnetic devices like electrical motors.
PLENARY SESSIONS
Plenary Session 1- Life estimation of copper bars in induction
motors: multi-physics approach
Dr. Pedro Jover Rodríguez, ABB Corporate Research, Sweden
Induction motors (IM) are robust machines. However, in high power machines, IM are
rotor limited, being the copper bars the part most probably to fail. An initial crack
would be no harmful for the machine but could develop to a total damage of the
machine. Moreover, there are some applications like explosive, hazardous environment
where a crack in a bar is very dangerous. In all cases cracks in the bars reduce the
machine performance, decreasing the efficiency and increasing the level of harmful
vibrations. Thus, prognosis of bar condition is desired in the industry. A first approach
could be based on statistics and measurements. However, the main drawback is the lack
of statistic data to calculate the required statistic variables due to the great variety of
motor designs and ratings, tailored applications and diversity of real working
conditions.
A second alternative is the analytical approach; in this case the calculation of stresses is
based on merely analytical formulas which do not take into consideration the structural
reaction to the acting forces. It is also limited to the application of the superposition of
the different physical phenomena. In general, the copper bars are subjected to the
thermal, magnetic and mechanical stresses, which lead to the failures. Even though IMs
are the workhorses of the industry, there are only few scientific papers analyzing the
copper bar deterioration. Most of these papers are pure descriptive and there are just few
making 3D modeling of the rotor cage, which is required to understand the phenomena
accurately. Most of the analyses are restricted to only electromagnetic analyses or only
thermal analyses without taken into account the most detrimental duty cycles.
A general consensus from engineers and scientists is that copper bar breaks due to
fatigue, where the magnitude of stresses and temperature play a very important role.
Thus, a third approach, is a time stepping numerical analysis using 2D or 3D multi-
physics modeling as a possible solution for stress calculation since there exist a
combination of thermal, mechanical and electromagnetic stresses which produce the
bending and cracking of the bars. Such a model is difficult to build and solve with the
actual calculation tools, however under some assumptions still possible to be
implemented. Therefore research and experiment are needed in this area.
Our vocation as a service results from our commitment to society. We provide our
students with the knowledge they need to be able to work as graduates in their
professional field, and we offer them an all-round education where they acquire
technological skills, as well as a humanistic and cultural education.
We train people and we train professionals because we believe it is our duty to give our
students not only knowledge but also experience. By so doing we believe that we are
helping them to become free, responsible people who are aware of social problems, are
capable of taking on commitments and have prospects for the future. The teaching and
administrative staff engaged by the UPV work to offer our students the high quality
education they need.
Biography of Dr. Pedro Jover Rodríguez:
Dr. Pedro Vicente Jover Rodríguez was born in Santiago de Cuba, Cuba, on April 13,
1967. He graduated from the Orient University (ISPJAM), Santiago de Cuba in 1990 as
Electronic Engineer. He graduated as Master of Science from Helsinki University of
Technology (AALTO), Finland in 2002 (electrical machines), where continued his
studies and obtained the Ph. D in 2007. Since 2008, he has been working with ABB
Corporate Research, Sweden as a researcher in the field of rotating electrical machines
(CRC Västerås, Sweden). His field of interest included electrical machine modeling,
fault diagnostic, signal processing and soft-computing techniques. He is author or co-
authors of about 30 publications in journals, and conferences and has been granted
about 8 patents in this area.
Plenary Session 2- Electrical Machines in wind turbines- Maturity
of technology
Mr. Javier Ibáñez Mayayo, Clara Mateo Martínez de Albornoz Experiencia Operativa
Renovables, Iberdrola ,Dirección Técnica
Current onshore wind turbines are now considered a mature technology thanks to a
decade of significant optimization efforts. This paper explains the modifications
implemented to adapt the technology to the special requirements of wind sites and the
resulting life time extension of components and availability rate improvements – close
to 100%.
The large quantity of assets to be monitored and the fact that they are distributed
throughout a large geographical area make the management of these systems very
challenging. The final section of the article includes a description of the development of
diagnostic tools and predictive maintenance equipment, particularly with regard to
electrical components of the Wind Turbine, to support the daily management of the
assets.
The availability of wind turbines is one of the main aspects of the operation of the wind
farms. When considering offshore technology, this is of greater significance due to the
harsh operating environment and access limitations. For these reasons, it is even more
necessary to improve the reliability and redundancy of offshore technology.
Biography of Javier Ibañez Mayayo:
Javier Ibañez Mayayo has thirteen years’ experience in the energy sector with
'International Electronics SA' (manufacturer of high power electronic devices to control
torque and speed in industrial motors) and Iberdrola. He has worked in Renewables for
the past eight years.
He has a Master's Degree in Industrial Engineering from the Politecnica University of
Madrid, specializing in Electrical Engineering, and is currently Lead Engineer
responsible for Wind Turbines in the Technical Division of Iberdrola Energy
Renewables.
Previous roles include Project Manager of Reactive Power Regulation in existing wind
farms. Prior to working in Iberdrola Renewables he participated in the design of a full
converter for a 2MW wind turbine (MADE/Gamesa) and before this, he design
softstarters and rotor converters for motors up to 11kV and 9MW.
Biography of Clara Mateo Martínez de Albornoz:
Clara Mateo Martínez de Albornoz has a Master's Degree in Industrial Engineering
from the University of Zaragoza, and her professional career has been focused in the
field of Electrical Engineering applied to Wind Energy. She has more than 6 years’
experience in the wind energy sector, working for the Renewables Division of Iberdrola,
one of the world leaders in renewable generation. She is in charge of the electrical
components of the wind turbines, mainly generators, transformers and protective
elements, conducting root-cause analyses of failures and managing projects related to
the optimization of components and improvement in the efficiency of the wind turbines.
She also provides technical support to the company in her areas of expertise.
Plenary Session 3- The Reliability of Machine Windings in
Adjustable Speed Drives: Stress, Strength, Design,
Qualification & Diagnostics
Dr. Martin Kaufhold ,Siemens AG Industry, Drive Technologies, Large Drives Vice
President.
Electrical drive systems and decentralized electrical power generation often work with
variable speed of the motors or generators. By that, efficiency and functionality of these
drive systems get improved and extended, compared to fix speed solutions.
For this, motors or generators will be fed by converters, which may create higher
electrical stresses for their winding insulation systems. The contribution describes the
dependency of these stresses on the topology of the converter and also on the design
of the whole e-drive plant.
The understanding of stress and strength of winding insulation systems in VSDs is an
inevitable prerequisite for their optimized and reliable design. First IEC Standards
support sound qualification processes for winding insulation systems. The new editions
even specify Voltage Impulse Insulation Classes to be machines to be qualified and
labeled for
Furthermore it is shown here, that understanding of the voltage generation at machine
terminals, the behavior of machine winding insulations and diagnostic opportunities
ingeneral allow for reliable, efficient and economic VSDs – within the automation
system.
Biography of Dr.Martin Kaufhold
Dr. Martin Kaufhold was born in 1964 in Berlin, Germany. After finishing a technical
apprenticeship and high school, as well working as a technician he graduated as Dipl.-
Ing. Electrical Engineering in 1991 and worked at the Dresden Institute for High
Voltage and High Current Engineering in the field of high-voltage and diagnostic
technologies, as well as machine insulation and converter technologies. In 1994 he
obtained his Ph.D. degree there in electrical engineering.
From 1994–1996 he joined the National Research Council of Canada as a Postdoc
Fellow and Research Officer, resp., driving projects of high-voltage engineering and
dielectric diagnostics for energy transmission using HV cables, GIS/GIL and overhead
power lines.
Since 1996, he has been working with Siemens Large Drives in various positions, in the
development of insulation, winding and diagnostic technologies, in the development
and project management of large synchronous machines and in the technical sales of
large ship propulsion drives. In 2002 he has been appointed as Director of advanced
technological research and development for the Business Unit Large Drives and in 2007
Quality Management was added to this his responsibility in global Siemens Large
Drives. Dr. Kaufhold is now Vice President Quality and technology in the global
Siemens Large Drives Group, heading the Quality Managers in all Large Drives
Factories and Business Segments as well as the Large Drives Technology Management.
He is a member of IEEE, CIGRE and VDI/VDE and he issued more than 50
publications in Electrical Drives Technology related Conferences, journals and books
over the past 20 years. Dr. Kaufhold contributes to several IEC WGs and he has been
the convener since the beginning of the IEC TC2 working group MT10 on Functional
Evaluation and Qualification of Winding Insulation Systems for rotating machines and
Converter Drive Systems, taking care of the IEC 60034-18 series.
Dr. Martin
TECHNICAL PROGRAM
Tuesday, August 27
Room: Sala d’Actes
Tutorials
9h Registration
9h30
Tutorial 1-Condition monitoring of electric machines
Prof. Thomas G. Habetler
Georgia Institute of Technology, Atlanta, USA.
11h Coffee break
11h30
Tutorial 2-Fault detection and fault tolerant operation of adjustable speed
switched reluctance and permanent magnet synchronous motor drives
Prof. Babak Fahimi
University of Texas at Dallas, USA.
13h Lunch (Cafeteria la Vella)
15h30
Tutorial 3-Modelling faults with a numerical software
Dr. Vicente Aucejo
INDIELEC, SPAIN.
20h Welcome Party (Hotel Barceló)
Wednesday, August 28, morning
Room: Sala d’Actes
Opening Ceremony and Plenary Sessions
Session Chair: Gerard A. Capolino
9h Registration
9h30 Opening Ceremony
10h Plenary Session 1- Life estimation of copper bars in induction motors: multi-physics
approach
Dr. Pedro Jover Rodríguez
10h45 Coffee break
11h15 Plenary Session 2- Electrical Machines in wind turbines- Maturity of technology
Mr. Javier Ibáñez Mayayo, Mrs.Clara Mateo Martínez de Albornoz
12h Plenary Session 3- The Reliability of Machine Windings in Adjustable Speed
Drives: Stress, Strength, Design, Qualification & Diagnostics Dr. Martin Kaufhold
12h45 Lunch (Cafeteria la Vella)
Sala d'actes Sala de Graus
Wednesday 28, Afternoon
14h30 SS1-A1 Fault tolerant Power Converters, Electrical machines and drives (I)
RS1-G1 Power Electronics (I)
17h RS2-A2 Rotor Faults (I) RS3-G2 Tools for Diagnostics (I) . Signal Analysis Techniques
Thursday 29, Morning
8h30 RS4-A3 Rotor Faults (II) RS5-G3 Tools for Diagnostics (II) . AI Techniques
11h RS6-A4 Stator Faults (I) RS7-G4 Adjustable Speed Drives and Power Converters
Thursday29, Afternoon
14h30 RS8-A5 Stator Faults (II) RS9-G5 Rotor Faults (III)
17h RS10-A6 Permanent Magnet Machines
RS11-G6 Tools for Diagnostics (III) . Mechanical faults
Friday 30, Morning
8h30 RS12-A7 Test for predictive maintenance. Partial Discharge tests
SS4-G7 Failure Prognosis Methods In Electrical Drives
11h SS3-A8 Advanced Artificial Intelligence Approaches
SS1-G8 Fault tolerant Power Converters, Electrical machines and drives (II)
Friday 30, Afternoon
14h30 RS13-A9 Rotor Faults (IV) RS14-G9 Power Electronics II, Power Converters
Sessions Distribution
Wednesday, August 28, Afternoon
Room: Sala d’Actes
SS1-A1 Fault tolerant Power Converters, Electrical machines and drives
Session Chairs: Fiorenzo Filippetti Yasser Gritli
1
14h30
A Simple and Robust Method for Open Switch Fault Detection in Power
Converters
Mehdi Salehifar, Ramin Salehi Arashloo, Manuel Moreno-Eguilaz, Vicent
Sala, L. Romeral
ID 453
2
14h50
Efficiency Optimization on Vector Controlled Six-Phase Induction Motor in
Healthy and Faulted Mode
M. Moghadasian, A. Sivert, A. Yazidi, F. Betin, G.A. Capolino
ID 495
3
15h10
Magnetic Optimization of a Fault-Tolerant Linear Permanent Magnet
Modular Actuator for Shipboard Applications
M. Bortolozzi, C. Bruzzese, F. Ferro, T. Mazzuca, M. Mezzarobba, G. Scala,
A. Tessarolo, D. Zito
ID 470
4
15h30
Fault Tolerant High Voltage Resonant Power Converter Application
A. Hultgren, S. Bui, J. Linnér, P. Ranstad, M. Lenells ID 425
5
15h50
Experimental Evaluation of Combined Reference Frames Transformation
for Stator Fault Detection in Multi-Phase Machines
C. Bianchini, F. Immovilli, E. Lorenzani, A. Bellini, E. Fornasiero
ID 530
6
16h10
The Performance of a Three-Phase Induction Motor fed by a Three-Level
NPC Converter with Fault Tolerant Control Strategies.
B. R. O. Baptista, M.B. Abadi, A.M. S. Mendes, S. M. A. Cruz
ID559
16h30 Coffee break
RS2-A2 Rotor Faults (I)
Session Chairs: Ronald Harley
Jose A. Antonino-Daviu
1
17h
Evaluation of Different Broken Bar Fault Diagnostic Means in Double-Cage
Induction Motors with FEM
Konstantinos N. Gyftakis, Dimitrios K. Athanasopoulos and Joya Kappatou,
ID 332
2
17h20
A Hybrid Kangaroo Algorithm to Assess the State Of Health of Electric
Motors
H. Razik, M.El.K. Oumaamar, G. Clerc
ID 338
3
17h40
Optimal Wavelets for Broken Rotor Bars Fault Diagnosis
Pu Shi, Zheng Chen, Yuriy Vagapov, Zoubir Zouaoui ID 361
4
18h
New Quantitative Rotor Fault Evaluation in Wound Rotor Induction
Machine Drives Under Time-Varying Conditions
Y. Gritli, M. Mengoni, C. Rossi, F. Filippetti, D. Casadei
ID 480
5
18h20
Induction Motor Broken Rotor Bar Detection Using Vibration Analysis – A
Case Study
Ž. Kanović, D. Matić, Z. Jeličić, M. Rapaić, B. Jakovljević, M. Kapetina
ID 357
6
18h40
Faults classification of Induction Motor based on Pitch Synchronous
Wavelet Transform and Multiclass Wavelet SVM
H. Keskes, A. Braham, Z. Lachiri
ID 345
Wednesday, August 28, Afternoon
Room: Sala de Graus
RS1-G1 Power Electronics (I)
Session Chair: Subhasis Nandi Thomas Wolbank
1
14h30
On-Line Algorithm for Early Stage Fault Detection in IGBT Switches
Jason M. Anderson, Robert W. Cox, Paul O’Connor ID536
2
14h50
Onboard Condition Monitoring of Solder Fatigue in IGBT Power Modules
B. Ji, V. Pickert, W. P. Cao, and L. Xing ID440
3
15h10
Power MOSFET failure and degradation mechanisms in flyback topology
under high temperature and high humidity conditions
Ilkka Vaalasranta, Juha Pippola, and Laura Frisk
ID459
4
15h30
Circulating Current Minimization and Current Sharing Control of Parallel
Boost Converters Based on Droop Index
Sijo Augustine, Mahesh K. Mishra, N. Lakshminarasamma
ID360
5
15h50
Low-Cost IC less Self Oscillating Boost PFC Converter
S. Borekci, I. M. Luleci ID522
6
16h10
The Intelligent application of RFID technology in areas of touristic interest
Di Zhang , Noel Jackson ID378
16h30 Coffee break
RS3-G2 Tools for Diagnostics (I) . Signal Analysis Techniques
Session Chair: Martín Riera-Guasp Pedro Rodríguez
1
17h
Diagnosis of Induction Motor Faults using a DSP and Advanced
Demodulation Techniques
M. Pineda-Sanchez, J. Perez-Cruz, J. Roger-Folch, M. Riera-Guasp, A.
Sapena-Baño, R. Puche-Panadero
ID571
2
17h20
On the Use of Spectral Kurtosis for Diagnosis of Electrical Machines
E. Fournier, A. Picot, J. Régnier, M. Tientcheu Yamdeu, J-M. Andréjak, P.
Maussion
ID450
3
17h40
Air-gap Power and Rotor Loss Estimation for Induction Motor Efficiency
Monitoring based on Kalman Filtering
N. Jirasuwankul, C. Manop
ID369
4
18h
Diagnosis of Induction Machines under Non-Stationary Conditions by
means of the Spectral Filter
F. Vedreño-Santos, M. Riera-Guasp, M. Pineda-Sánchez
ID514
5
18h20
Fault Detection and Classification in Permanent Magnet Synchronous
Machines using Fast Fourier Transform and Linear Discriminant Analysis
Reemon Z. Haddad, Elias G. Strangas
ID427
6
18h40
An Integrated Artificial Neural Networks/Optimal Time-Frequency Based
Classification in Condition Monitoring of Synchronous Reluctance Motor
Stator Fault
I. Bouchareb, A. Bentounsi and A. Lebaroud
ID337
Thursday, August 29, Morning
Room: Sala d’Actes
RS4-A3 Rotor Faults (II)
Session Chairs Sang Bin Lee
Pascal Maussion
1
8h30
Early Broken Rotor Bar Detection Techniques in VSD-fed Induction Motors
at Steady-state
R. J. Romero-Troncoso, D. Morinigo-Sotelo, O. Duque-Perez, P. E. Gardel-
Sotomayor, R. A.,Osornio-Rios, A. Garcia-Perez
ID 368
2
8h50
Use of Discrete and Optimized Continuous TFD Tools for Transient-Based
Diagnosis in Controversial Fault Cases
J. Pons-Llinares, J. Antonino-Daviu, M. Riera-Guasp, S.B. Lee, T-J. Kang , C.
Yang
ID 521
3
9h10
A New Method to Separate Broken Rotor Failures and Low Frequency Load
Oscillations in Three-Phase Induction Motor
T. Göktaş, M. Arkan, and Ö. F. Özgüven
ID 414
4
9h30
Analysis of Mixed-Eccentric Induction Machine
Rijaniaina Njakasoa Andriamalala, Hubert Razik, François-Michel Sargos,
Bruno Francois
ID 526
5
9h50
Motor Current Signature Analysis Apply for external Mechanical Fault and
Cage Asymmetry in Induction Motors
A. J. Fernández Gómez, T. J. Sobczyk
ID 455
6
10h10
Dynamic Model of Induction Machine with Faulty Rotor in Field Reference
Frame
Vanja Ambrožic, Rastko Fišer, Mitja Nemec, Klemen Drobnic
ID 409
10h30 Coffee break
RS6-A4 Stator Faults (I)
Session Chair: Antonio J. Marques Cardoso
Remus Pusca
1
11h
Evaluation of the Applicability of FRA for Inter-Turn Fault Detection of in
Stator Windings
F. R. Blánquez, Carlos. A. Platero, E. Rebollo, F. Blázquez
ID 349
2
11h20
Detection of Stator Slot Magnetic Wedge Failures for Induction Motors
without Disassembly
Kun Wang Lee, Jongman Hong, Doosoo Hyun, Sang Bin Lee, Ernesto
Wiedenbrug, Mike Teska, Chaewoong Lim
ID 434
3
11h40
Induction Motor Model Validation using Fast Fourier Transform and
Wavelet tools
F.J. Villalobos-Piña, R. Alvarez-Salas, Eduardo Cabal-Yepez, Arturo Garcia-
Perez
ID 429
4
12h
A Novel Non-Invasive Method for Detecting Missing Wedges in an
Induction Machine
Maciej Orman, Agnieszka Nowak, J.R. Ottewill, C. T. Pinto
ID 393
5
12h20
Stator circulating currents as media of fault detection in synchronous
motors
Pedro Rodriguez, Pawel Rzeszucinski, Maciej Sulowicz, Rolf
Disselnkoetter, Ulf Ahrend, Cajetan T.Pinto, James R. Ottewill, Stephan
Wildermuth.
ID 373
6
12h40
An accurate and Fast Technique for Correcting Spectral Leakage in Motor
Diagnosis
Javier Martinez, François Philipp, Manfred Glesner, Antero Arkkio
ID 400
13h Lunch (Cafeteria la Vella)
Thursday, August 29, Morning
Room: Sala de Graus
RS5-G3 Tools for Diagnostics (II) . AI Techniques
Session Chairs: Daniel Moríñigo Sotelo
Oscar Duque Pérez
1
8h30
A New Controller Based on Fuzzy Logic and PSS for Enhancing the Stability
of a Single Machine Infinte-Bus Power System
F. Mayouf (Adjeroud), F. Djahli, A. Mayouf, T. Devers
ID553
2
8h50
Support Vector Machine for Diagnosis of Induction Motors: a
Comparative Analysis in Terms of the Quantity and the Signal Processing
Tool Used to Build the Feature Space
A. Sapena-Bañó, M. Pineda-Sanchez, R. Puche-Panadero, J.Roger-Folch, J.
Perez-Cruz, M. Riera-Guasp
ID390
3
9h10
Detection of Induction Machine Winding Faults Using Genetic Algorithm
M. Alamyal, S. M. Gadoue and B. Zahawi ID352
4
9h30
Broken bar condition monitoring of an induction motor under different
supplies using a Linear Discriminant Analysis
M. Fernandez-Temprano, P.E. Gardel-Sotomayor, O. Duque-Perez,D.
Morinigo-Sotelo
ID436
5
9h50
Neural networks invariant to Fourier transform for fault diagnosis of
nonlinear power systems
Gerasimos G. Rigatos, Perluigi Siano
ID527
6
10h10
Intelligent Sensor based on Acoustic Emission Analysis applied to Gear
Fault Diagnosis
Daniel Zurita, Miguel Delgado, Juan Antonio Ortega Redondo, Luis
Romeral
ID531
10h30 Coffee break
RS7-G4 Adjustable Speed Drives and Power Converters
Session Chair: Manuel Pineda-Sanchez Ruben Puche-Panadero
1
11h
Analysis of Electrical and Non-Electrical Causes of Variable Frequency
Drive Failures
Osama A. Al-Naseem, Mohamed A. El-Sayed
ID540
2
11h20
Detecting High-Resistance Connection Asymmetries in Inverter Fed AC
Drive Systems
G. Stojčić, T. M. Wolbank
ID461
3
11h40
FPGA-based Smart-sensor for Fault Detection in VSD-fed Induction Motors
A.G. Garcia-Ramirez, R.A. Osornio-Rios, A. Garcia-Perez, R.J.,Romero-
Troncoso
ID372
4
12h
IGBT Fault Diagnosis using Adaptive Thresholds during the Turn-on
Transient
M. A. Rodríguez-Blanco, A. Vázquez-Pérez, L. Hernández-González, A.
Pech-Carbonell, M. May-Alarcón.
ID539
5
12h20
Fault-Tolerant Converter for AC Drives using Vector-Based Hysteresis
Current Control
Nuno M. A. Freire, A. J. Marques Cardoso
ID396
6
12h40
13h Lunch (Cafeteria la Vella)
Thursday, August 29, Afternoon
Room: Sala d’Actes
RS8-A5 Stator Faults (II)
Session Chair: Alberto Bellini
Franck Betin
1
14h30
Finite Element Investigation of the Short-Circuit Fault in the Stator
Winding of Induction Motors and Harmonics of the Neighboring Magnetic
Field
V. Fireteanu, A-I. Constantin, R. Romary, R. Pusca, S. Ait-Amar
ID 406
2
14h50
Modeling and Simulation of Stator Turn Faults. Detection Based on Stator
Circular Current and Neutral Voltage
Yassine Maouche, Abdelfettah Boussaid, Mohamed Boucherma,
Abdelmalek Khezzar
ID 432
3
15h10
Temperature Field Analysis of Winding Short-circuits in DFIGs
Zheng Liu, Wenping Cao, Zheng Tan, Xueguan Song, Bing Ji, and Guiyun
Tian
ID 423
4
15h30
Induction Motor Stator Faults Diagnosis by Using Parameter Estimation
Algorithms
Fang Duan, Rastko Zivanovic
ID 421
5
15h50
Diagnosis of Stator Winding Inter-turn Short Circuit in Three-Phase
Induction Motors by Using Artificial Neural Networks
P. J. Broniera, W. S. Gongora, A. Goedtel, W. F. Godoy
ID 449
6
16h10
Naïve Bayes classifier for Temporary short circuit fault detection in Stator
winding
D. A. Asfani, M. H. Purnomo, D. R. Sawitri
ID 447
16h30 Coffee break
RS10-A6 Permanent Magnet Machines
Session Chair: Jordi-Roger Riba Ruiz
Claudio Bruzzese
1
17h
On-line Inter-Turn Short-Circuit detection in Permanent Magnet
Synchronous Generators
B. Aubert, J. Regnier, S.Caux, D. Alejo
ID354
2
17h20
Saturation Independent Detection of Dynamic Eccentricity Fault in Salient-
Pole Synchronous Machines
T. Ilamparithi, Subhasis Nandi
ID520
3
17h40
Coupled Magnetic Circuit Based Magnetic Vibrations Modeling of PMSM
Guillaume Verez, Ouadie Bennouna, Yacine Amara, Ghaleb Hoblos,
Georges Barakat
ID451
4
18h
2-pole turbo-generator eccentricity diagnosis by split-phase current
signature analysis
Claudio Bruzzese
ID391
5
18h20
Study of Excitation and Governor Power System Stabilizers Effect on the
Stability Enhancement of a Multimachine Power System
F. Mayouf (Adjeroud), F. Djahli, A. Mayouf, T. Devers
ID435
6
18h40
21h Gala Dinner, Award Ceremony (L’Alquería del Pi)
Bus service: 20h30 Barceló Hotel, 20h30 Siliken Hotel, 20h45 Galileo Hotel
Thursday, August 29 , Afternoon
Room: Sala de Graus
RS9-G5 Rotor Faults (III)
Session Chair: Thomas G. Habetler
Joan Pons Llinares
1
14h30
Analytical study of pulsating torque and harmonic components in rotor
current of six-phase induction motor under healthy and faulty conditions
Yassine Maouche, Abdelfettah Boussaid, Mohamed Boucherma,
Abdelmalek Khezzar
ID 433
2
14h50
The Zero-Sequence Current Spectrum as an On-Line Static Eccentricity
Diagnostic Mean in Δ-Connected PSH-Induction Motors
K. N. Gyftakis, J. C. Kappatou
ID 422
3
15h10
Broken Rotor Bar Detection of Single Phase Induction Motor Using
Wigner-Ville Distributions
Sara Hafeez, Syed Sajjad H. Zaidi
ID 543
4
15h30
Discriminating time-varying loads and rotor cage fault in Induction motors
A. E. Mabrouk, S. E. Zouzou, M. Sahraoui and S. Khelif ID 426
5
15h50
Mathematical Modeling of Eccentricities in Induction Machines by the
Mono-harmonic Model
A. J. Fernández Gómez, A. Dziechciarz, T. J. Sobczyk
ID 431
6
16h10
Winding Function Approach for Induction Machine Fault Detection
Pu Shi, Zheng Chen, Yuriy Vagapov, Zoubir Zouaoui ID 362
16h30 Coffee break
RS11-G6 Tools for Diagnostics 3 . Mechanical faults
Session Chair:
René Romero-Troncoso Guy Clerc
1
17h
A New Approach of Preprocessing with SVM Optimization Based on PSO
for Bearing Fault Diagnosis
T. Thelaidjia, S. Chenikher
ID407
2
17h20
Gear Tooth Surface Damage Fault Detection Using Induction Machine
Electrical Signature Analysis
Shahin Hedayati Kia, Humberto Henao, Gérard-André Capolino
ID512
3
17h40
Sensorless Speed Estimation and Diagnosis of Induction Motors Based on
Purified Space Vectors
Dongfeng Shi
ID411
4
18h
Bearing Faults Detection in Induction Machines Based on Statistical
Processing of the Stray Fluxes Measurements
Ciprian Harlişca, Loránd Szabó, Lucia Frosini, Andrea Albini
ID472
5
18h20
Identification of variable mechanical parameters using extended Kalman
filters
M. Perdomo, M.Pacas, T. Eutebach , J. Immel
ID386
6
18h40
Induction Motor Bearing Fault Detection Based on Envelope Analysis of
Stator Current
V. C. M. N. Leite, J. G. Borges da Silva, G. F. C. Veloso, L. E. B. da Silva, and
G. Lambert-Torres
ID371
20h30 Gala Dinner, Award Ceremony (L’Alquería del Pi)
Bus service: 19h45 Barceló Hotel, 20h Siliken Hotel, 20h15 Galileo Hotel
Friday, August 30, Morning
Room: Sala d’Actes
RS12-A7 Test for predictive maintenance. Partial discharge tests
Session Chair: Manés Fernández-Cabanas Joaquín G. Norniella
1
8h30
A Novel Type of Online Oil Monitoring Method in Gearbox of Wind Turbine
Zhang Bo, Shen Zhu, Zhou Jiwei ID515
2
8h50
Partial Discharge measurements in Electrical Machines controlled by
Variable Speed Drives: from Design Validation to permanent PD
Monitoring
Luca Fornasari, Andrea Caprara, Gian Carlo Montanari
ID350
3
9h10
Fault Detection and Diagnosis for HVAC: Overview and Outlook
D. He, R.G. Harley, T. G. Habetler ID467
4
9h30
An Applied Laboratory Characterisation Approach for Electric Machine
Insulation
D. F. Kavanagh, D. A. Howey and M. D. McCulloch
ID560
5
9h50
On-line Diagnostic Methods Synergy: Measurements and Location of
Discharges and Vibration in Power Transformers, Hydro- and Turbine
Generators, Pattern Analysis Results
Y.P. Aksenov, I. V. Yaroshenko, A. V. Andreev, G. Noé
ID347
6
10h10
A Wideband Partial Discharge Meter using FPGA
Radek Sedláček, Josef Vedral, Ján Tomlain ID534
10h30 Coffee break
SS3-A8 Advanced Artificial Intelligence Approaches Applied to Fault Characterization and Classification for Electrical Machines Diagnostic Purposes
Session Chair: Luis Romeral Juan A. Ortega
1
11h
Bearing Fault Detection Using Relative Entropy of Wavelet Components
and Artificial Neural Networks
Helder L. Schmitt, Lyvia B. Silva, Paulo R. Scalassara, Alessandro Goedtel
ID 463
2
11h20
Dedicated Hierarchy of Neural Networks applied to Bearings Degradation
Assessment
Miguel Delgado, Giansalvo Cirrincione, Antonio Garcia Espinosa, Juan
Antonio Ortega, Humberto Henao
ID 399
3
11h40
A Dedicated Application of Artificial Ants for the Condition Monitoring of
Induction Motors
A. Soualhi, H. Razik, G. Clerc
ID 398
4
12h
Comparison of supervised classification algorithms combined with feature
extraction and selection : Application to a turbo-generator rotor fault
detection
Alexandre Bacchus, Mélisande Biet, Ludovic Macaire, Yvonnick Le Menach
and Abdelmounaïm Tounzi
ID 420
5
12h20
Neural Approach for Bearing Fault Detection in Three Phase Induction
Motors
W. S. Gongora, H. V. D. Silva, A. Goedtel, W. F. Godoy, S. A. O. da Silva
ID 444
6
12h40
Early Detection of Unbalance Voltage in Three Phase Induction Motor
Based on SVM
D. R. Sawitri, D. A. Asfani, M. H. Purnomo, I. K. E. Purnama, M. Ashari
ID 502
13h Lunch (Cafeteria la Vella)
Friday, August 30, Morning
Room: Sala de Graus
SS4-G7 Failure Prognosis Methods In Electrical Drives
Session Chair:
Elias G. Strangas
Hubert Razik
1
8h30
Exploitation of Induction Machine’s High-Frequency Behavior for Online
Insulation Monitoring
Peter Nussbaumer, Markus A. Vogelsberger, Thomas M. Wolbank
ID 389
2
8h50
Long-Term Prediction of Bearing Condition by the Neo-Fuzzy Neuron
A. Soualhi, G. Clerc, H. Razik, F. Rivas ID 385
3
9h10
Bar Breakage Mechanism and Prognosis in an Induction Motor
Vicente Climente-Alarcon, Jose Alfonso Antonino-Daviu, Elias Strangas,
Martin Riera-Guasp
ID 342
4
9h30
Time-Frequency Complexity Based Remaining Useful Life (RUL) Estimation
for Bearing Faults
Rodney K. Singleton II, Elias G. Strangas, Selin Aviyente
ID 486
5
9h50
Improvements on Lifespan Modeling of the Insulation of Low Voltage
Machines with Response Surface and Analysis of Variance
Antoine Picot, David Malec, Pascal Maussion
ID 457
6
10h10
Diagnosis and Prognosis of In-Service Electric Machine in the Absence of
Historic Data Related to Faults and Faults Progression
Syed Sajjad H. Zaidi
ID 448
10h30 Coffee break
SS1-G8 Fault tolerant Power Converters, Electrical machines and drives (2)
Session Chair: Domenico Casadei
Babak Fahimi
1
11h
Full Detection of High Resistance Connection in Multiphase Induction
Motor Drives
L. Zarri, M. Mengoni, A. Tani, Y. Gritli, G. Serra, F. Filippetti, D. Casadei
ID324
2
11h20
Improved Fault Detection Based on Current Average in Multiphase Fault
Tolerant Converters
Mehdi Salehifar, Manuel Moreno-Eguilaz, Vicent Sala, Ramin Salehi
Arashloo, L.Romeral
ID 454
3
11h40
Inter-turn Fault Detection in Five-Phase PMSMs. Effects of the Fault
Severity
Harold Saavedra, Jordi-Roger Riba, Luís Romeral
ID395
4
12h
Detection of Coupling Inductor Faults in Three-Phase Adjustable Speed
Drives with Direct Power Control-Based Active Front-End Rectifiers
Joaquín G. Norniella, José M. Cano, Gonzalo A. Orcajo, Carlos H.
Rojas,Joaquín F. Pedrayes, Manés F. Cabanas Manuel G. Melero
ID404
5
12h20
Study of fault – tolerant inverter
F.khelifi, B.Nadji ID533
6
12h40
13h Lunch (Cafeteria la Vella)
Friday, August 30, Afternoon
Room: Sala d’Actes
RS13-A9 Rotor Faults (IV)
Session Chair: Humberto Henao Shahin Hedayati Kia
1
14h30
A Novel Methodology for the Broken Bar Fault Diagnosis in Single and
Double Cage Induction Motors Fed by Asymmetrical Voltage Supply
K. N. Gyftakis, D. K. Athanasopoulos , J. C. Kappatou
ID 510
2
14h50
Broken Bar Detection Using Current Analysis - A Case Study
Dragan Matić, Željko Kanović, Dejan Reljić, Filip Kulić, Đura Oros, Veran
Vasić
ID 376
3
15h10
A Novel Broken Rotor Bar Fault Detection Method Using Park’s Transform
and Wavelet Decomposition
Ramin Salehi Arashloo, José Luis Romeral Martinez, Mehdi Salehifar
ID 573
4
15h30
Analytical Evaluation of inductances for induction machine with dynamic
eccentricity using MWFA and FE methods
S. Hamdani, O. Touhami, R. Ibtiouen and M. Hasni
ID 353
5
15h50
Diagnosis of Induction Motors Rotor Faults Using the Hybrid Park’s Vector-
TSA Approach
N. Ngote, S. Guedira, M. Cherkaoui, M. Ouassaïd
ID 401
6
16h10
Particle swarm optimization of feature vectors dedicated to fault
diagnosis
Abdesselam Lebaroud, Tahar Boukra, Karim Baiche
ID487
16h30 Coffee break
17h Closing Ceremony
Friday, August 30, Afternoon
Room: Sala de Graus
RS14-G9 Power Electronics 2, Power Converters
Session Chairs: Antoni Garcia Espinosa Miguel Delgado Prieto
1
14h30
Analysis of radiated EMI for power converters switching in MHz frequency
range
A. Majid, J. Saleem, F. Alam, K. Bertilsson
ID500
2
14h50
Design of Current Source DC/DC Converter and Inverter for 2kW Fuel Cell
Application
A. Andreiciks, I. Steiks, O. Krievs, F. Blaabjerg
ID394
3
15h10
An adaptive robust position control for induction machines using a sliding
mode flux observer
Oscar Barambones
ID518
4
15h30
Calculation of Stator Winding Parameters to Predict the Voltage
Distributions in Inverter Fed AC Machines
Oliver Magdun, Sébastien Blatt and Andreas Binder
ID403
5
15h50
Remote Monitoring System of Electrical Machines via INTERNET
O. Touhami, R. Sadoun, A. Belouchrani, S. Hamdani, A. Boukoucha and S.
Ouaged
ID374
6
16h10
16h30 Coffee break
17h Closing Ceremony
SDEMPED AWARDS
SDEMPED Prize Paper Award
The SDEMPED Prize Paper Award of the Technical Committee on Diagnostics, IEEE Power Electronics Society, is established to honor innovators who contributed to the technical areas of this committee. The award is to be presented biennially (once every two years (odd years)) for up to three technical papers (in no order), for outstanding technical competence displayed in a paper presented at an IEEE SDEMPED conference.
The 2013 Diagnostics Achievement Award
This award was established to honor innovators who contributed to the technical areas of this committee. The award is to be presented biennially (once every two years (odd years) to an individual, for outstanding sustained technical contributions and services in the field of monitoring and diagnostics for electrical machines, power electronics, and drives.
These award will be presented at the gala dinner of the IEEE SDEMPED conference
COMMITTEE MEETING
The committee meeting is scheduled on Thursday 29th August at 13h in Room Sala de Juntas
SOCIAL EVENTS
Welcome reception
Tuesday, August 27 , 20h
Hotel Barcelo
Avenida de Francia, 11
Gala Dinner
Thursday, August 29, 20h30
L’alqueria del Pi
Camino Viejo de Godella, 55
There are scheduled a bus service for transfers between the conference
hotels (Barceló, Silken Puerta de Valencia and Galileo Galilei) and the
restaurant
LIST OF CONTRIBUTORS
A Abadi, M.B.
Ahrend, Ulf
Ait-Amar, S.
Alam, F.
Alamyal, M.
Albini, Andrea
Alejo, D.
Al-Naseem, Osama A.
Alvarez-Salas, R.
Amara, Yacine
Ambrožic, Vanja
Anderson, Jason M.
Andreiciks, A.
Andréjak, J-M.
Andriamalala,Rijaniaina Njakasoa
Antonino-Daviu, Jose Alfonso
Arashloo, Ramin Salehi
Arkan, M.
Arkkio, Antero
Asfani, D. A.
Ashari, M.
Athanasopoulos , D. K.
Athanasopoulos , Dimitrios K.
Aubert, B.
Augustine, Sijo
Aviyente, Selin
B Bacchus, Alexandre
Baiche, Karim
Baptista, B. R. O.
Barakat, Georges
Barambones, Oscar
Bellini, A.
Belouchrani, A.
Bennouna, Ouadie
Bentounsi, A.
Bertilsson, K.
Betin, F.
Bianchini, C.
Biet, Mélisande
Binder, Andreas
Blaabjerg, F.
Blánquez, F. R.
Blatt, Sébastien
Blázquez, F.
Bo, Zhang
Borekci, S.
Borges da Silva, J. G.
Bortolozzi, M.
Bouchareb, I.
Boucherma, Mohamed
Boukoucha, A.
Boukra, Tahar
Boussaid, Abdelfettah
Braham, A.
Broniera, P. J.
Bruzzese, C.
Bruzzese, Claudio
Bui, S.
C Cabal-Yepez, Eduardo
Cabanas, Manés F.
Cano, José M.
Cao, W. P.
Cao, Wenping
Capolino, Gérard-André
Caprara, Andrea
Casadei, D.
Caux, S.
Chen, Zheng
Chenikher, S.
Cherkaoui, M.
Cirrincione, Giansalvo
Clerc, G.
Climente-Alarcon,Vicente
Constantin, A-I.
Cox, Robert W.
Cruz, S. M. A.
D da Silva, L. E. B.
da Silva, S. A. O.
Delgado, Miguel
Devers, T.
Disselnkoetter,Rolf
Djahli, F.
Drobnic, Klemen
Duan, Fang
Duque-Perez, O.
Dziechciarz, A.
E El-Sayed, Mohamed A.
Eutebach, T.
F F. Djahli
Fernández Gómez, A. J.
Fernandez-Temprano, M.
Ferro, F.
Filippetti, F.
Fireteanu, V.
Fišer, Rastko
Fornasari, Luca
Fornasiero, E.
Fournier, E.
Francois, Bruno
Freire, Nuno M. A.
Frisk, Laura
Frosini, Lucia
G Gadoue, S. M.
Garcia Espinosa, Antonio
Garcia-Perez, Arturo
Garcia-Ramirez, A.G.
Gardel-Sotomayor, P. E.
Glesner, Manfred
Godoy, W. F.
Goedtel, A.
Goedtel, Alessandro
Göktaş, T.
Gongora, W. S.
Gritli, Y.
Guedira, S.
Gyftakis, K. N.
H Habetler, T. G.
Haddad, Reemon Z.
Hafeez, Sara
Hamdani, S.
Harley, R.G.
Harlişca, Ciprian
Hasni, M.
He, D.
Hedayati Kia, Shahin
Henao, Humberto
Hernández-González, L.
Hoblos, Ghaleb
Hong, Jongman
Howey, D. A.
Hultgren, A.
Hyun, Doosoo
I Ibtiouen, R.
Ilamparithi,T.
Immel, J.
Immovilli, F.
J Jackson, Noel
Jakovljević, B.
Jeličić, Z.
Ji, Bing
Jirasuwankul, N.
Jiwei, Zhou
K Kang, T-J.
Kanović, Ž.
Kanović, Željko
Kapetina, M.
Kappatou, J. C.
Kavanagh, D. F.
Keskes, H.
Khelif, S.
khelifi, F.
Khezzar, Abdelmalek
Krievs, O.
Kulić, Filip
L Lachiri, Z.
Lakshminarasamma, N.
Lambert-Torres, G.
Le Menach, Yvonnick
Lebaroud, A.
Lee, Kun Wang
Lee, S.B.
Lee, Sang Bin
Leite, V. C. M. N.
Lenells, M.
Lim, Chaewoong
Linnér, J.
Liu, Zheng
Lorenzani, E.
Luleci, I. M.
M Mabrouk, A. E.
Macaire, Ludovic
Magdun, Oliver
Majid, A.
Malec, David
Manop, C.
Maouche, Yassine
Marques Cardoso, A. J.
Martinez, Javier
Matić, D.
Matić, Dragan
Maussion, Pascal
May-Alarcón, M.
Mayouf (Adjeroud), F.
Mayouf, A.
Mazzuca, T.
McCulloch, M. D.
Melero, Manuel G.
Mendes, A.M. S.
Mengoni, M.
Mezzarobba, M.
Mishra, Mahesh K.
Moghadasian, M.
Montanari, Gian Carlo
Moreno-Eguilaz, Manuel
Morinigo-Sotelo, D.
N Nadji, B.
Nandi, Subhasis
Nemec, Mitja
Ngote, N.
Norniella, Joaquín G.
Nowak, Agnieszka
Nussbaumer, Peter
O O’Connor, Paul
Orcajo, Gonzalo A.
Orman, Maciej
Oros, Đura
Ortega, Juan Antonio
Osornio-Rios, R.A.
Ottewill ,James R.
Ottewill, J.R.
Ouaged, S.
Ouassaïd, M.
Oumaamar, M.El.K.
Özgüven, Ö. F.
P Pacas, M.
Pech-Carbonell, A.
Pedrayes, Joaquín F.
Perdomo, M.
Perez-Cruz, J.
Philipp, François
Pickert,V.
Picot, A.
Picot, Antoine
Pineda-Sanchez, M.
Pinto, Cajetan T.
Pippola, Juha
Platero, Carlos. A.
Pons-Llinares, J.
Puche-Panadero, R.
Purnama, I. K. E.
Purnomo, M. H.
Pusca, R.
R Ranstad, P.
Rapaić, M.
Razik, H.
Razik, Hubert
Rebollo, E.
Regnier, J.
Reljić, Dejan
Riba, Jordi-Roger
Riera-Guasp, M.
Riera-Guasp, Martin
Rigatos, Gerasimos G.
Rivas, F.
Rodriguez, Pedro
Rodríguez-Blanco, M. A.
Roger-Folch, J.
Rojas, Carlos H.
Romary, R.
Romeral, Luís
Romero-Troncoso, R. J.
Rossi, C.
Rzeszucinski, Pawel
S Saavedra, Harold
Sadoun, R.
Sahraoui, M.
Sajjad, Syed
Sala, Vicent
Saleem, J.
Salehifar, Mehdi
Sapena-Bañó, A.
Sargos, François-Michel
Sawitri, D. R.
Scala, G.
Scalassara, Paulo R.
Schmitt, Helder L.
Sedláček, Radek
Serra, G.
Shi, Dongfeng
Shi, Pu
Siano, Perluigi
Silva, H. V. D.
Silva, Lyvia B.
Singleton II, Rodney K.
Sivert, A.
Sobczyk, T. J.
Song, Xueguan
Soualhi, A.
Steiks, I.
Stojčić, G.
Strangas, Elias G.
Sulowicz, Maciej
Szabó, Loránd
T
Tan, Zheng
Tani, A.
Teska, Mike
Tessarolo, A.
Thelaidjia, T.
Tian, Guiyun
Tientcheu Yamdeu, M.
Tomlain, Ján
Touhami, O.
Tounzi, Abdelmounaïm
V Vaalasranta, Ilkka
Vagapov, Yuriy.
Vasić, Veran
Vázquez-Pérez,A.
Vedral, Josef
Vedreño-Santos, F.
Veloso, G. F. C.
Verez, Guillaume
Villalobos-Piña, F.J.
Vogelsberger, Markus A.
W Wiedenbrug, Ernesto
Wildermuth, Stephan
Wolbank, Thomas M.
X Xing, L.
Y Yang, C.
Yazidi, A.
Z Zahawi, B.
Zaidi, H.
Zarri, L.
Zhang, Di
Zhu, Shen
Zito, D.
Zivanovi´c, Rastko
Zouaoui, Zoubir
Zouzou, S. E.
Zurita, Daniel