PCIM-SA2014_ShowGuide_WEB.pdf

International Conference and Exhibition for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management

Show Guide São Paulo, 14 – 15 October 2014

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Foreword from Mesago Table of Content Foreword from Mesago Welcome Address Advisory Board Program at a Glance Tuesday Seminar Program Tuesday Keynote 1 Tuesday Conference Program Tuesday Poster Session Tuesday Keynote 2 Wednesday Seminar Program Wednesday Keynote 3 Wednesday Conference Program Wednesday Poster Session Wednesday Keynote 4 Floor Plan/List of Exhibitors Media Partners Exhibitors Registration Information General Information City Information São Paulo

Welcome to PCIM South America 2014 3 4 6 8 10 13 14 16 19 22 25 26 28 30 33 34 36 43 44 46

We would like to welcome all conference attendees, exhibitors and visitors to PCIM South America 2014. It serves for the second time as a meeting-point for experts in Power Electronics and its applications in Intelligent Motion, Renewable Energy and Energy Management and the place-to-be to discuss innovations and trends in the wide field of the power electronics industry in South America. Highlights of the conference are the four keynotes speeches on »Evolution and Revolution Cycles in Power Electronics«, »Electric Vehicle Charging Infrastructure«, »Advanced Measurement Technology for Power Electronic Systems« and »Challenges in Power Electronics«, as well as four half day seminars held by experts from ECPE, University Siegen, ETH Zurich and Mersen. In addition, seven oral sessions and two poster sessions provide an excellent overview on current trends and developments within the power electronic sector. Numerous, well-known experts from industry and science will attend this leading English conference. The successful and unique concept combining a conference and exhibition, fosters the fast and fruitful exchange between industry and science, for which PCIM is famous for. Our sincere thanks goes to those who have helped us with their professional advice during the preparation of the event. In particular, we would like to express our gratitude to the General Chairman, Prof. Marcelo Lobo Heldwein, the consultatory and technical board, whose members created the program, as well as the speakers for their high personal commitment and contribution. On behalf of Mesago PCIM GmbH, as supporter of the event, we wish all conference participants, exhibitors and visitors an informative and successful participation at PCIM South America 2014 in São Paulo.

Petra Haarburger President

Welcome Address

Welcome Address Dear PCIM South America 2014 participant, Welcome to PCIM South America! For those who attended the Power Electronics South America in 2012 it was an important step to the upcoming event. Now, with the official PCIM event fully developed, we expect that this year’s event becomes even more interesting and a forum for the South American Power Electronics community is consolidated. The focus of this event will be on the development of solutions for the region’s industry, where we hope the interactions between industry and academia add to the advancement of our region’s research and development capabilities to spur innovation. Power Electronics undergoes steep and challenging transformations, where converters for low power levels are being fully integrated and high power converters see an unprecedented number of applications. Typical requirements for improving performance, cost-effective, high reliability and application focused design have never been so strong. In addition, new issues including interactivity, extreme long life in rough environments and low environmental impact guarantee that Power Electronics engineers stay busy and constantly contribute to our society in its energy and sustainability challenges. It is as important as ever to keep ourselves updated, therefore the PCIM South America is a very good place at a perfect time to learn more on traditional topics and get acquainted with future applications.

smart power distribution. Thermal Management will be covered by an expert industry engineer, which will provide insights into this ever more important part of Power Electronics. The oral and poster sessions will present more than forty technical papers on very interesting subjects. These cover from innovative power converters to relevant power quality issues, including Renewable Energy, Novel Power Semiconductors, Modern Motor Drives, Motion Control, Modeling and Control of Power Electronics Systems and Applications. The trend towards application specific solutions is clear and will be addressed at PCIM South America. We would like to acknowledge the efforts of all the people who contributed to the event up to this moment. This includes a very active advisory board and many individuals who worked hard so that the event is successful. Finally, you as the participants are the main reason why the event exists. On the behalf of the Advisory Board, thank you and let’s make it two great days!

The keynotes will be on electric vehicles charging infrastructure, revolution, evolution and innovation in Power Electronics, advanced Power Electronics measurement technologies and the emerging challenges in high Power Electronics. These will certainly be incredible occasions to listen to and discuss exciting ideas for the future of important subjects with people that are building the future of Power Electronics around the world. The offered seminars are a great opportunity to interact with top Power Electronics professionals and see what thoughts and techniques they have to offer us at this moment. Novice or experienced engineers can review and learn more about motor drives design topics. The latest advances in Power Semiconductors will be discussed based on application specific demands. The seminar on solid state transformers represents a hot topic for the future of

Prof. Marcelo Lobo Heldwein Federal University of Santa Catarina, BR

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Advisory Board

Advisory Board Chairman

Technical Conference Board Prof. Maurício Aredes

Prof. José Mario Pacas

Federal University of Rio de Janeiro, BR

University of Siegen, D

Prof. Marcelo Lobo Heldwein

Ildo Bet

Norton Petry

Federal University of Santa Catarina, BR

PHB Eletronica Ltda., BR

WEG do Brasil, BR

Prof. Henrique A. Carvalho Braga

Prof. Humberto Pinheiro

Federal University of Juiz de Fora, BR

University of Santa Maria, BR

João Cairo

Prof. José Antenor Pomilio

Emerson Network Power do Brasil Ltda., BR

University of Campinas, BR

Prof. Renato Carlson

Prof. José Ramon Rodriguez Perez

Federal University of Technology of Parana, BR

Federal Technical University of Santa Maria, Chile

Nicholas Clark

Dr. Leonardo Serpa

Powerex, USA

ABB, CH

Prof. Jerôme Cros

Dr. Wanderlei M. da Silva

University of Laval, CA

CTMSP – Brazilian Navy Technological Center in São Paulo, BR

Consultatory Board

Prof. Ivo Barbi

Prof. Leo Lorenz

Federal University of Santa Catarina, BR

ECPE, D

Technical Conference Board

Prof. Roger Gules Federal University of Technology of Parana, BR

Dr. Joselito Anastácio Heerdt Prof. Maurício Aredes

Ildo Bet

Prof. Henrique A. Carvalho Braga

João Cairo

Prof. Renato Carlson

Nicholas Clark

Supplier Industria e Comercio de Eletro Electronicos, BR

Prof. Antonio M. Nogueira Lima Federal University of Campina Grande, BR

Günter Johann Maass Embraco, BR Prof. Roger Gules

Dr. Joselito Anastácio Heerdt

Prof. Antonio M. Nogueira Lima

Günter Johann Maass

Armando Cavero Miranda

Prof. Maria Marta Molinas

Alexandre Saccol Martins CP Eletrônica S.A., BR

Armando Cavero Miranda KOLFF, BR

Prof. Maria Marta Molinas Norwegian University of Science and Technology, N Geraldo Nojima

Prof. Demercil de Souza Oliveira Jr.

Prof. José Mario Pacas

N or to n P et ry

P ro f. H um ber to Pinheiro

Prof. José Antenor Pomilio

Geraldo Nojima Eaton Corporation, USA

Prof. Demercil de Souza Oliveira Jr. Federal University of Ceará, BR

Prof. José Ramon

Dr. Leonardo

Dr. Wanderlei

Dr. Grover

Dr. Grover Torrico-Bascopé Huawei Technologies Sweden AB, S

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Program at a Glance

Program at a Glance Tuesday, 14 October 2014 09:00 –12:30

Wednesday, 15 October 2014

Room Salão Anhanguera I – Seminar 1

Room Salão Anhanguera II – Seminar 2

Designing Drives for Automation Systems

Power Semiconductor Devices Development Trend – Challenges in the Application

09:00 –12:30

Room Salão Anhanguera I – Seminar 3

Room Salão Anhanguera II – Seminar 4

Solid State Transformers in Future Traction and Smart Grids

Thermal Management for Power Electronics Applications

12:30 – 18:30

Exhibition Visit

12:30 – 18:30

Exhibition Visit

13:15 –13:30

Room Salão Anhanguera I

13:30 – 14:15

Room Salão Anhanguera I – KEYNOTE

Conference Opening & Award Ceremony 13:30 – 14:15

Advanced Measurement Technology for Power Electronics Systems

Room Salão Anhanguera I – KEYNOTE

14:15 –16:15

Power Electronics for the Deployment of the Electric Vehicle Charging Infrastructure in a Sustainable Society 14:15 –16:15

16:15 – 18:00

Room Salão Anhanguera I – Oral Session

Room Salão Anhanguera II – Oral Session

Power Converter I

Drive and Motion Control

Foyer /Exhibtion ar ea

16:15 –18:00

18:00 –18:45

20:15 – 21:30

Room Salão Anhanguera I – KEYNOTE

18:45 –20:15

Room Salão Anhanguera I – Oral Session

Room Salão Anhanguera II – Oral Session

Power Electronics Components

Power Quality Solutions

Foyer

Get Together

Modeling and Control of Power Electronics Systems

Foyer /Exhibtion ar ea

Room Salão Anhanguera I – KEYNOTE

Emerging Challenges in High Power Electronics

Evolution and Revolution Cycles in Power Electronics 18:45 –20:15

Room Salão Anhanguera II – Oral Session

Power Converter II

Poster Session II & Coffee Break

Poster Session I & Coffee Break 18:00 –18:45

Room Salão Anhanguera I – Oral Session

Room Salão Anhanguera I – Oral Session

Advanced and Renewable Energy Systems

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Seminar Program Tuesday, 14 October 2014

Seminar Program

Tuesday, 14 October 2014 , 09:00 – 12:30

Room Salão Anhanguera I 09:00 – 12:30 Seminar 1:

Room Salão Anhanguera II 09:00 – 12:30 Seminar 2:

Designing Drives for Automation Systems

Power Semiconductor Devices Development

Prof. Dr.-Ing. Mario Pacas University of Siegen, D Mario Pacas received the Dipl.-Ing. and the Dr.-Ing. degree in electrical engineering from the University of Karlsruhe, Karlsruhe, Germany, in 1978 and 1985, respectively. From 1985 to 1996, he worked for BBC/ABB in Switzerland and Germany in different R&D and management positions with a very wide experience in international projects. In the last year with ABB, he was responsible for the development of servo drives and was later the Product Responsible Manager for these products. Since 1996, he has been a Member of the Faculty of Electrical Engineering and Computer Sciences, University of Siegen, Siegen, Germany, where he is also the Head of the Institute for Power Electronics and Electrical Drives. His special fields of interest are motion control, diagnostics, system identification and optimization of mechatronic systems.

Drives for automation have to a great extent become commodities. Therefore, one main challenge for manufacturers and developers is to offer unique features to the customers and to get the leadership in a given branch. So today, the development is driven by these forces as well as by the upcoming technologies in hard- and software. Departing from the requirements for drives in manufacturing machines and processes, the seminar addresses the current trends and their impact on the features of the systems. The topics to be included are among others: 1) General structure of drives for automation (power range 1-50kW) 2) Targets today: Intelligence and Efficiency 3) Migration from a technology driven design (»Drives for General Applications«) to a customer driven design (»Drives for specific Processes«) 4) Different lines of development: a. Torque kernel (field oriented control and DTC) b. Velocity and Position Control c. Application Control d. Control platform (dsp, fpga) e. Sensors f. Motors g. Inverter and AFE h. Design tools, engineering tools, mechanics 5) RAMS: Reliability, Availability, Maintainability and Serviceability

12:30 – 18:30

Exhibition Visit

13:15 – 13:30

Room Salão Anhanguera I

Conference Opening & Award Ceremony

Trend –

Challenges in the Application Prof. Dr. Leo Lorenz ECPE, D Prof. Dr. Leo Lorenz received the Dipl. Ing. Degree from TU-Berlin and the Dr.-Ing. Degree from the University of Munich, Germany in 1976 and 1984 respectively. From 1976 till 1980 he was with AEG, R&D-center for Power Electronics- in Berlin. In 1984 he joined Siemens Semiconductor Division which became Infineon Techno logies AG in 1999. Since this time he has been working on Power Semiconductor & Power IC’s in different functions and responsibilities. As a senior principal he was responsible for system engineering of industrial technologies and for the time being located in Munich. He published over 300 technical papers and has many patents in these fields. In 2001 he was nominated to become Professor for System Integration at the University of Ilmenau (Germany). He is the president of the ECPE (European Center of Power Electronics), an IEEE Fellow, a member of German Academy of Science and received several best paper and innovation awards.

The megatrends of our modern society such as energy efficiency, E-Mobility and SMART Grid is asking for green power electronic solutions. Power semiconductor devices are an enabling technology to meet these requirements. The major electrical improvement of the new generation of power devices is coming from the overall silicon utilization (vertical & horizontal device optimization).The reliability and ruggedness of these new power emiconductors is driven by an advanced chip interfacing and packaging technology. For ultra high efficiency and ultra high power density solutions WB-devices are being developed. However it has to be considered that the application engineer is faced with new challenges of how to manage all the parasitics, thermal management and circuit set up.

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Keynote

Tuesday, 14 October 2014 , 13:30 – 14:15

Room Salão Anhanguera I   13:30

KEYNOTE Power Electronics for the Deployment of the Electric Vehicle Charging Infrastructure in a Sustainable Society Prof. Dr. Enrique J. Dede ETSE University Valencia, ES Prof. Dr. Enrique J. Dede obtained his PhD in Electronics from the University of Valencia. Full Professor in Power Electronics at the University of Valencia since 1991 and R&D Director at the company GH Electrotermia S.A. Dr. Dede holds several international patents on high frequency inverters for induction heating and has written more than 200 papers in the field of Power Electronics. He has more than 30 years experience in the field of Power Electronics and particularly

in the design of high frequency inverters for induction heating, telecom power and recently in the conception and design of fast DC chargers f or EV´s. Prof. Dede was former member of the European Working Group of the IAS-IEEE, past President of the joint Spanish IEEE Chapter of the Power Electronics Society (PELS) and Industrial Electronics Society (IES) and was the General Chair of the European Power Electronics Conference-EPE 2009held in Barcelona (Spain), with more than 1.000 delegates. Dr. Dede i s actually serving as the Vice- President of the European Power Electronics Association (EPE) and he is member of the International Advisory Board of the PCIM-Europe and PCIM-Asia.

The presentation aims to give an overview on different aspects of the e- mobility, especially in charging Electric Vehicles, starting with the current Megatrends in the actual Society and corresponding regulations. EV´s charging modes and corresponding applicable standards are presented and the current power converter topologies for DC chargers are discussed including advantages and disadvantages of the different structures. A short discussion on wireless EV chargers and applicable standards is also in the scope of the presentation. The integration of chargers is smart grids is extensible described, as well as the actual ICT services for the smart charging of EV´s.

Conference Program Tuesday, 14 October 2014

Conference Program

Tuesday, 14 October 2014 , 14:15 – 16:15

Room Salão Anhanguera I

Power Converter I Chairman: Prof. Henrique A. Braga, Federal University of Juiz de Fora, BR

capability up to 200 % of the nominal value can be reached at low speeds without additional efforts. This paper explains the method to use the overload capability and analyzes the overload torque limits in the whole speed range.

Room Salão Anhanguera II

Drive and Motion Control Chairman: Norton Petry, WEG Automação S/A, BR

  15:15 Single-Input Multi-Output Insulated Bidirectional Cuk-Converter Prof. Dr.-Ing. Mario Pacas, Universität Siegen – Lehrstuhl Prof. Stevens, Siegen, D

  14:15 A New Approach to S ingle-Phase SevenLevel PWM Inverter with Reduced Number of Switches M.Sc. Martin Breus Meier, Federal University of Technology – Paraná, Curitiba, BR

A single-phase evenly spaced seven-level PWM inverter is presented with a new approach to reduce the number of used switches normally found in multi-level inverters. The topology operational principles and the switching logic are analyzed. Two series voltage sources with a full-brigde inverter have a bidirectional switch is added between each leg center and the voltage center tap in order to have a symmetrical multilevel inverter.   14:45 Overload Capability of the Modular Multilevel Matrix Converter for Feeding High Torque Low Speed Drives Dipl.-Ing. Felix Kammerer, Karlsruhe Institute of Technology (KIT), Karlsruhe, D

In drive systems, the semiconductors of conventional converters must be dimensioned for the maximum torque. This results in a converter over-sizing even for short time overload requirements near standstill, e.g. for mills in the mining industry. In contrast the Modular Multilevel Matrix Converter (M3C) has the characteristic that the installed switching power can be shared between the input and output side. Hence a overload

This paper presents the design and implementation of a single-input multi-output (SIMO) insulated bidirectional dc/dc Cuk converter featuring high power density. The system is intended to be used for feeding the dc-links of modular multilevel inverters e.g. cascaded H-bridge (CHB) topologies for applications in drives or systems of renewable energy generation. In this proposal the bidirectional Cuk converter is designed to operate with a single-input and six insulated outputs. The isolation is achieved by using six high frequency transformers connected in parallel at the primary side while the six secondary windings are separated and can be freely connected. Experimental results obtained on a 6kW laboratory setup are presented to verify the converter performance in both forward and backward modes of operation.   15:45 Integrated Motor Drive Design for an All-Electric Boat Dr. Andre Fuerback, Federal University of Santa Catarina, Florianópolis, BR

This work describes a packaging solution to the electric propulsion motor drive of an all-electric boat. The focus is on the integration of an electric propulsion motor and an inverter to control it in a single compact package. This enables that the drive system fits directly into the power head of an outboard boat.

12:30 – 18:30

Exhibition Visit

16:15 – 18:30

Poster Session I – please refer to page 16/17 Coffee Break

  14:15

Field Test Inverter to evaluate the Quality of Magnetization in Hermetic Compressors with Permanent Magnet Synchronous Motors M.Eng. Roberto Andrich, Embraco Electronics, Joinville, BR

This paper describes the implementation of a field test inverter to evaluate the quality of magnetization in hermetic compressors with permanent magnet synchronous motors (PMSM). The magnetization is evaluated by calculating the discrete fourier transform (DFT) of the PMSM motor induced voltage and then comparing its obtained harmonics to predefined limits from a reference PMSM motor.   14:45

Three-Phase/-Level Single-Stage NPC-Based Rectifier Integrating a Simple DCM PFC Technique Dr. Andre Fuerback, Federal University of Santa Catarina, Florianópolis, BR

This work presents a simple strategy to build a threephase isolated rectifier with near unity powerfactor (PF). It uses an NPC cell and passive elements to produce low distorted input currents, based on a discontinuous conduction mode (DCM) technique and a standard modulation to drive the NPC active switches.

  15:15

New Semiconductors Solutions Improve the Efficiency in AC Drives Dipl.-Ing. (FH) Klaus Vogel, Infineon Technologies AG, Warstein, D

New standards for power losses measurement for variable speed drives are presented. The power losses of typical variable speed drives are analyzed and future alternatives to increasetheir efficiency investigated. Solutions with Silicon (Si) technology in Three-Level topology or Silicon Carbide (SiC) switches in Two-Level circuit are possibilities to increase the inverter efficiency.   15:45

Efficiency Optimized Control of Brushless DC Motors Applied to Cyclic Loads M.Eng. Roberto Andrich, Embraco Electronics, Joinville, BR

This paper describes a method to optimize the efficiency of Brushless DC motors applied to cyclical loads, e.g. gas compression systems, which have a much higher torque during the compression cycle than the suction cycle. This torque profile causes distortions on the motor current, increasing its RMS value which decreases motor efficiency. In order to increase the motor efficiency it is proposed a method to eliminate the current distortions and so to minimize its RMS value by means of the adjustment of the voltage applied to the motor according to the ratio between the instantaneous and average motor speed. The results show a reasonable energy saving on gas compression systems with this efficiency optimized control.

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Conference Program Tuesday, 14 October 2014

Conference Program

Tuesday, 14 October 2014 , 16:15 – 18:00

Foyer /Exhibtion ar ea 16:15 – 18:00

Poster Session I & Coffee Break Chairman: Prof. Dr.-Ing. Mario Pacas, University of Siegen, D

  PP01

Stochastic System Identification Method Applied To a BLDC Motor B.Eng. Ana Iaremczuk, Federal University of Technology – Paraná, Curitiba, BR

System Identification is a very interesting method of modeling due to use only system data to build the mathematical model. However, if these data are corrupted by noise and the identification method doesn’t treat it properly, the model may not represent the system dynamics correctly. Stochastic models should be used to avoid this issue. This work demonstrates this characteristic by a BLDC motor stochastic identification.   PP02

Sensorless Speed Drive with Flux Optimization in Three-Phase Induction Motors Dr. Emerson Giovani Carati, Federal University of Technology – Paraná, Pato Branco, BR

This paper presents an analysis and implementation of a sensorless vector control strategy to three-phase induction motors (TIM). The strategy includes an IFOC approach and an MRAS estimator to implement a closed loop speed drive without the use of mechanical sensors. Moreover, a flux optimization algorithm is included in order to reduce global electrical losses in the drive system such the required power to drive TIM is significantly reduced. A drive platform is used to verify the performance of the proposed controller and estimator approach. Numerical and experimental results are included to demonstrate the good accuracy and fast response of the driving system.

  PP03

  PP05

A Decomposition Technique for Asymmetrical Double-star Machines Applying the Three Orthogonal Base System Approach

  PP07

A Single Stage High Voltage Gain Boost Converter Based on the Bidirectional Version of the Three-State Switching Cell

M.Sc. Paulo Sergio Dainez, State University of Campinas, Campinas, BR

B.Sc. Diego Alves, Federal University of Ceara, Fortaleza, BR

This paper presents a decomposition technique, named »Three Orthogonal Base System Approach«. It is designed for asymmetrical double-star machines. Each of the three orthogonal base systems generates two reference vectors for the drive set. The technique can be seen as an enhancement of the common decomposition approach, which allows to apply a fundamental reference voltage without any additional harmonics for low computational costs. The new approach is validated by digital simulations and experimental tests.

A new high voltage gain boost converter topology is proposed on this work. It is based on the bidirectional version of the three-state switching cell for battery charging using PV panels in a single conversion stage. The operation principle, equations, theoretical waveforms, simulation and experimental results are presented in order to support the proposed structure for a wide load range.

  PP04

High Efficiency High Power Density Onboard Battery Charger for Electric Vehicles Prof. Dr. Carlos Treviso, Universidade Estadual de Londrina, Londrina, BR

This work proposes a 6 kW two-stages onboard battery charger for EV applications. The proposed system is composed of a three-phase multi-state switching cell PFC rectifier and a novel dc-dc converter, based on a dual neutral point clamped (DNPC) switching network. Considering the individual characteristics of both converters, a high efficiency and high power density system is expected.

  PP06

Comparative Study of High Input Power Factor Voltage Doubler Rectifiers in Continuous Conduction Mode B.Sc. Denis de Castro Pereira, Federal University of São João del-Rei, São João Del Rei, BR

This work presents a comparative study of ac-dc static power converters used in power factor correction. Three rectifiers are analyzed, that are the conventional single-phase three-level boost converter, the singlephase three-level bridgeless boost converter, and the single-phase voltage doubler boost converter based on the 3SSC. Results are obtained, where aspects such as the input current, output voltage, harmonic content, and dynamic response are investigated.

SPWM strategy applied to AC-AC Modular Multilevel Converter M.Sc. Daniel Castellain, Santa Catarina State University, Joinville, BR

This paper presents a modulation technique applied to the single phase AC-AC modular multilevel converter (MMC). Experimental results shows the modulation technique applied to MMC considering input frequency is 60Hz and output frequency 1,2 kHz.   PP08

Control Design of Series Connected MOSFETs for High Voltage Applications Prof. Dr. Mirko Bodach, Westsächsische Hochschule Zwickau, Zwickau, D

A new electro-mechanical converter concept for renewables needs a special DC/DC converter. The converter has to transform a voltage of about 8 kV into a lower voltage of about 400 volts covering a power range of 250 up to 1,000 W. Using this type of converter, semiconductor switching lements are required, which can handle a voltage of about 8 kV and carrying a direct current of about 60 mA.

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Keynote

Tuesday, 14 October 2014 , 18:00 – 18:45

Room Salão Anhanguera I   18:00

KEYNOTE

Evolution and Revolution Cycles in Power Electronics Prof. Dr.-Ing. Mario Pacas University of Siegen, D Mario Pacas received the Dipl.-Ing. and the Dr.-Ing. degree in electrical engineering from the University of Karlsruhe, Karlsruhe, Germany, in 1978 and 1985, respectively. From 1985 to 1996, he worked for BBC/ABB in Switzerland and Germany in different R&D and management positions with a very wide experience in international projects. In the last year with ABB, he was responsible for the development of servo drives and was later the Product Responsible Manager for these products. Since 1996, he has been a Member of the Faculty of Electrical Engineering and Computer Sciences, University of Siegen, Siegen, Germany, where he is also the Head of the Institute for Power Electronics and Electrical Drives. His special fields of interest are motion control, diagnostics, system identification and optimization of mechatronic systems.

In all areas of research and development the advent of revolutionary inventions initiate evolutionary periods. This is not a new phenomenon however, the globalization and the existing demand for publications -as important criterion for measuring the quality of the research output- has changed the R&D landscape. In Power Electronics the innovation and driving forces for R&D arise in multiple disciplines: semiconductors, control theory, control electronics as well as in the intended applications. This makes the fascination and also the challenge of Power Electronics.

The presentation deals with the arising sources of innovation together with the challenges that Power Electronics faces in R&D in the industrial environment as well as in academia and how the interactions between revolution, evolution and applications lead to the definition of the road maps for each research group and to a process of innovation. The resulting risks and the chances for R&D are presented and discussed.

Conference Program Tuesday, 14 October 2014

Conference Program

Tuesday, 14 October 2014 , 18:45 – 20:15

Room Salão Anhanguera I

  19:15

Chairman: Geraldo Nojima, Eaton Corporation, Arden, USA

  18:45

Performance Comparison of Nanocrystalline with Ferrite in a 40kW 20kHz Application B.Eng. Kapila Warnakulasuriya, Carroll & Meynell Transformers Ltd, Stockton-On-Tees, UK

In this paper the performance of Nanocrystalline material in comparison with ferrite is evaluated for a high frequency high power transformer application. The major advantage of Nanocrystalline material over ferrite is its ability to go for higher design flux densities. However, this is limited with increased losses occurring with the increase of operating frequency. The situation is studied for a 40kW, 20kHz application. Samples of both versions are developed and a performance evaluation is made on the application. Based on the practical outcome a comparison is made in terms of power density per physical parameters such as weight and volume. The cost and manufacturability are also discussed.

Foyer

Get Together

Room Salão Anhanguera II Minimizing Form Factor and Parasitic Inductances of Power Electronic Modules: The p² Pack Technology

Power Electronics Components

20:15 – 21:30

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Power Quality Solutions Chairman:

Thomas Gottwald, Schweizer Electronic AG, Schramberg, D

Chip embedding into PCB constructions offer a real alternative for highly reliable and cost efficient power electronic devices. The p² Pack Technology is used to embed thin bare dies (MOSFETs or IGBTs) into a construction of lead frames and additional routing levels. First results from publicly funded project show outstanding results in terms of thermal dissipation, low parastic inductances and reliability.   19:45

Thin Wafer IGBT, Relaxed Field Cathode Diode and New Material Stack Contribute to Doubled Current Handling in Conventional Power Module Nicholas Clark, Powerex, Inc., Youngwood, USA

Power electronics applications demand ever-higher efficiency and density. A thin wafer IGBT chip realizes these demands with reduced losses. A Relaxed Filed Cathode diode has lower Qrr compared to conventional diodes. Reduced Qrr leads to better turn-on efficiency in the IGBTs. A new ceramic substrate allows for greater chip area and reduced thermal impedance. These changes allow the max current to be doubled for a given module size, while its weight can be reduced by nearly half.

Prof. Jose Pomilio, State University of Campinas, BR

  18:45

Power Quality Criteria for Connecting Solar Power Plants to Distribution Grid Rade Ciric, Higher Education Technical School of Professional Studies, Novi Sad, Serbia

The power quality terms and conditions the solar power plant must meet to be eligible to connect to distribution system are as follows: allowed flickers, allowed harmonics currents, voltage fluctuations due to the simultaneous connection and disconnection of the plant, as well as the voltage variation at steady state. 19:15

An Intelligent Battery-based Energy Storage System Based on Multilevel Inverter and the Conservative Power Theory M.Sc. Tiago Davi Curi Busarello, State University of Campinas, BR

This paper presents a Three-Phase Intelligent BatteryBased Storage (IBBS) able to perform in four different modes. The modes consist of charging and discharging the IBBS, injecting active power into the grid and operating as active filter simultaneously. The intelligence comes from a decision algorithm which defines the IBBS operation mode and it is based on the price of the energy, on the battery state-of-charge (SOC) and on a power quality (PQ) requirement.

19:45

Synchronous Voltage Control for Three-phase UPS Inverter Under Unbalanced Loads Jorge Caicedo, Federal University of Rio de Janeiro COPPE/POLI, Rio de Janeiro, BR

This paper presents a high performance voltage control topology for three-phase UPS inverter. A voltage controller for Positive and Negative sequence (P&N) in synchronous reference frame is proposed, this topology also includes resonant controllers in parallel and series configurations for harmonic and dead time compensation. The mathematical model, simulation and experimental results of a 5kVA prototype confirms the theoretical analysis and verify the effectiveness of the proposed control strategy.

Seminar Program Wednesday, 15 October 2014

Seminar Program

Wednesday, 15 October 2014 , 09:00 – 12:30

Room Salão Anhanguera I 09:00 – 12:30 Seminar 3

Room Salão Anhanguera II 09:00 – 12:30 Seminar 4

Solid State Transformers in Future Traction and Smart Grids

Thermal Management for Power Electronics Applications

M. Sc. Gabriel Ortiz ETH Zürich Power Electronic Systems Laboratory, Zürich, CH Gabriel Ortiz (M´10) received his M.Sc. degree in Electronics Engineering from Universidad Técnica Federico Santa María, Valparaíso, Chile, in December 2008. He received his Ph.D. degree from the Federal Institute of Technology (ETH), Zürich, Switzerland in 2013 where he worked with solid-state transformer technology and mainly with the implementation of the DC-DC converters integrating the medium frequency conversion stage. The focus of his current research is in solid-state transformers for future Smart Grid implementations and traction solutions. Specifically, his interests are in modeling optimization and design of high-power DC-DC converters operated in the medium frequency range with focus on modeling of soft-switching processes in IGBTs, unidirectional topologies and isolation properties of the medium frequency stage, among others.

Solid-State Transformers (SSTs), i.e. high power three-phase or single-phase AC-AC converters with integrated medium frequency (MF) isolation are providing – in contrast to passive line-frequency (LF) transformers – full control of the power flow as well as low construction volume and are therefore key components of future Smart Grids, e.g. for interfacing medium voltage (MV) and low voltage (LV) power distribution network, and in traction where a great benefit in efficiency and power density is achieved due to the operation at MF level. First, the history, basic properties and scaling laws of passive transformers are briefly reviewed and the evolution of the SST concept from early basic structures to complex modern arrangements featuring also a low voltage DC port is described and possible applications in traction/transportation and mircrogrids integrating renewable energy sources and battery storage systems are discussed.

Concerning SSTs for Smart Grid applications, the multiple concepts proposed in the literature are grouped into distinct categories, depending on their controllability and level of modularity concerning the partitioning of the overall power conversion function, the constitution of the three-phase property and the handling of the medium voltage. In this context also the series resonant operation of the Dual Active Bridge in discontinuous current mode which is frequently employed in SST structures is explained and related issues of zero current switching of IGBTs are discussed. The different previously proposed concepts for SSTs in traction which lead to the main considered three-stage input-series output-parallel structure, are presented with focus on the key aspects of the practical implementations. Further design considerations concerning MF transformer design, isolation, flux balancing and MV grid EMI regulations, among others, are addressed. Finally, an overall critical evaluation of the SST concept against a passive LF transformer and a LF transformer with series connected rectifier-inverter stage is given which highlights the challenge of simultaneously achieving a high functionality, high efficiency and low volume while ensuring reasonable costs and high reliability which is a prerequisite for employing SSTs in future power systems. 12:30 – 18:30

Exhibition Visit

Ahmed Zaghlol Mersen Canada Toronto Inc., Mississauga, CA Dr. Ahmed Zaghlol is t he Vice President of Engineering and Business Development wit h Mersen Canada Toronto Inc. located in Mississauga; a global company specializing in Electric and Thermal protection for Electric and Electronic circuits. Dr. Zaghlol received his Bachelor degree in Mechanical Engineering from the University of Alexandria, Egypt where he also obtained his Master degree. He received his Ph.D. in Engineering Science from the University of Western Ontario and later joined the Microelectronic Heat Transfer L aboratory (MHTL) at the University of Waterloo as postdoctoral Fellow. Since joining Mersen (Formerly Ferraz Shawmut) at 1999, Dr. Zaghlol is leading R&D efforts for new products, development and implementation of R-Tools, on-Line thermal modeling of heatsinks software. He has published and presented technical papers on new product at technical professional conferences. He has authored and coauthored several articles in technical trade show magazines. Dr. Zaghlol, a registered Professional Engineer in Ontario, Canada (PEO).

This course gives an overview of the thermal management for power electronics. As the density of circuits increases, so does the need to develop effective methods of thermal management and packaging. This need arises not only in the context of high-speed computers but also, in future UPS, power supplies, Converters, Variable speed motor drives, RF and Microwave amplifiers and automotive applications. This course helps engineers to develop thermal management knowledge that address both emerging thermal challenges and significantly improve thermal performance. This course is designed to provide participants with an over view of the necessary tools to perform thermal modelling and analysis of electronic systems. The fundamental and applied methods for a successful design are covered, and modelling tools are reviewed. The course outline will include the following topics: – Definition of electronics cooling and encountered challenges. – General problem solving technique for solution of thermal problems. – Heat transfer and fluid mechanics fundamentals as applied to electronics cooling. – Thermal design for the interface between the device and the heat sink. – Heat sink design with reference to performance and overall system design. – System thermal and Hydraulic performance.

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Keynote

Wednesday, 15 October 2014 , 13:30 – 14:15

Room Salão Anhanguera I   13:30

KEYNOTE

Advanced Measurement Technology for Power Electronics Systems M. Sc. Gabriel Ortiz ETH Zürich Power Electronic Systems Laboratory, Zürich, CH Gabriel Ortiz (M´10) received his M.Sc. degree in Electronics Engineering from Universidad Técnica Federico Santa María, Valparaíso, Chile, in December 2008. He received his Ph.D. degree from the Federal Institute of Technology (ETH), Zürich, Switzerland in 2013 where he worked with solid-state transformer technology and mainly with the implementation of the DC-DC converters integrating the medium frequency conversion stage. The focus of his current research is in solid-state transformers for future Smart Grid implementations and traction solutions. Specifically, his interests are in modeling optimization and design of high-power DC-DC converters operated in the medium frequency range with focus on modeling of soft-switching processes in IGBTs, unidirectional topologies and isolation properties of the medium frequency stage, among others.

Modern energy conversion equipment is required to reach unprecedented performance indexes in order to meet with today’s energy delivery standards. From an end user’s perspective, the main targeted performance indexes are the total energy losses (efficiency), floor space requirement (power density) and failure rate (reliability) among others, all of which must be met while complying with stringent EMI compatibility directives. These system-oriented performance figures are translated into specific requirements from the power electronics-based converter internal components, such as semiconductor switching devices and passive components. These high system- and component-oriented performance figures must be verified experimentally through highly accurate measurement equipment in order to ensure a suitable quality of the system.

Conference Program Wednesday, 15 October 2014

Conference Program

26 | 27

Wednesday, 15 October 2014 , 14:15 – 16:15

Room Salão Anhanguera I

Power Converter II Chairman: Prof. Henrique A. Braga, Federal University of Juiz de Fora, BR

  14:15

DC-AC Converter Using ZVT Cell Prof. Tiago Dequigiovani, Catarinense Federal Institute, Luzerna, BR

This paper presents an application of a soft-switching cell in DC-AC converter. The proposed structure provides soft-switching in both switches, main and auxiliary, also the reverse recovery losses of main diode are reduced. Experimental results are obtained through of a prototype of 1 kW and 40 kHz, and shows better performance in terms of efficiency and THD of the proposed converter, compared with other topology of ZVT cell and the Undeland snubber.   14:45 A Single Stage HPF Induction Heating System Tomas Hogan, Federal University of Technology – Paraná, Curitiba, BR

A high power factor induction heating system based on a single stage structure is presented, resulting in a simple and high efficiency converter. A full-bridge LLC resonant inverter is used for the induction heating application. Sharing a leg with this inverter, the power factor rectifier is composed by two boost converters operating in discontinuous conduction mode in a multiphase operation. For correct operation, a new modulation and control strategy is proposed.

15:15 Low Cost and High Power Factor Offline LED Drivers Based on Low Frequency Converters Prof. Henrique A. Braga, Universidade Federal de Juiz de Fora, Juiz de Fora, BR

This paper presents a discussion about the use of low frequency converters as offline LED drivers. These simple and low cost converters may provide high power factor, low input current distortion and compliance with IEC 61.000-2-3 Standard. A description and experimental study of the boost rectifier as an LED driver applied to a low power string of LEDs is presented. Similar low frequency LED drivers have been also studied.

Room Salão Anhanguera II

Modeling and Control of Power Electronics Systems Chairman: Prof. Marcelo Lobo Heldwein Federal University of Santa Catarina, BR

  15:15   14:15

Analysis of Parallel Connected VSIs in UPS Applications: Single/Three-phase and Three/Four-wire

15:45 DC-DC High Power Converter

Cesar Augusto Arbugeri, Federal University of Santa Catarina, Florianópolis, BR

B.Eng. Gustavo Lambert, Santa Catarina State University, Joinville, BR

This paper describes relevant experimental results on a control strategy that can be applied in the parallel operation of single-phase, three-phase three-wire and three-phase four-wire voltage source inverters (VSIs). All of then structures are used in UPS, thus the strategy is adequate for the parallel-connected of UPS. The proposed control system consists of two loops, one for parallelism and another for output voltage, both inside of each VSI. The parallelism control employs the feedback of the output current in each VSI and thus controls its power flow to the load. The strategy works based on a bus communication (CAN, analog signal, etc), which synchronizes the voltage reference of all inverters. There is no exchange of information among the VSIs regarding their operation points and the information flow occurs only in one direction, from the voltage reference bus to the VSI, which becomes the communication simple and fast. The control technique was verified through experimental results in single-phase, three-phase threewire and three-phase four-wire VSIs, and all of then it ensures the proper sharing of the load current and avoids current circulation among the inverters.

High power dc-dc converters are one of the key challenges for enabling the energy transmission and distribution in dc systems. Bidirectional converters have interesting capabilities but these are not always required. In the paper, a topology for dc-dc high power unidirec tional applications based on the arrangement of an inverter operating as a current source connected to a multipulse rectifier is described. The inverter selected to handle medium or high voltage is the MMC.

cascaded multilevel converters under fault conditions. With this algorithm, the converter is able to operate with a wider range of modulation indexes and fault conditions, when compared to previous reported strategies. The modulation aims to limit the converter switching losses and synthesize fairly balanced output line-to-line voltages. Simulation results are shown to demonstrate and validate the proposed SV overmodulation strategy.

  14:45

Extending the Operation of Asymmetrical Cascaded Multilevel Converters Under Fault Conditions Fernanda de Morais Carnielutti, Federal University of Santa Maria, Santa Maria, BR

This work proposes a Space Vector (SV) overmodula-

Dynamic Performance of a Back-to-Back HVDC based on MMC Switched at Line Frequency Braulio Chuco, Federal University of Rio de Janeiro COPPE/POLI, Rio de Janeiro, BR

This paper focuses on the dynamic performance of Back-to-Back HVDC system based on Modular Multilevel Converter (MMC) Switched at Line Frequency. The MMC sub-modules IGBTs are switched at line frequency in steady and transient state using Pulse Position Modulation (PPM) strategy to guarantee the sub-module capacitors voltage balance. The circulating current at twice the line frequency in the MMC leg is controlled. It is controlled through the compensation of decoupled d-q circulating current control in the main current vector control. HVDC system based on MMC dynamic performance is evaluated using the PSCAD tool. It is shown that the switching at the line frequency to control the active and reactive power and to balance the capacitors voltage work satisfactorily during steady-state and during fault conditions.   15:45 Hardware-in-the-Loop testing as a Key Element in the Development of High Performance Battery Emulators M.Sc. Maksym Shkadron, AVL LIST GmbH, Graz, A

To provide the required performance of battery emulator systems, modern control algorithms are required. Together with application software, they run on an appropriate target MCU/DSP platform. To ensure safety and optimize time of embedded software development for power electronics systems, Hardware-in-the-Loop testing can be used. This paper proposes a software development workflow using HIL system and evaluates

Conference Program Wednesday, 15 October 2014

Conference Program

28 | 29

Wednesday, 15 October 2014 , 16:15 – 18:00

Foyer /Exhibtion ar ea

PP11

  PP13

  PP15

Chairman :

An Accurate Frequency-Dependent Analytical Expression for Leakage Inductance Calculation in High Frequency Transformers

Proposal of associating a PV MPPT Algorithm based on Temperature Control with a PV Cooling System

Prof. Dr. Leo Lorenz ECPE, D

M.Sc. Amin Bahmani, Chalmers University of Technology, Götheburg, SE

M.Sc. Nuno Rocha, Federal University of Santa Catarina, Florianópolis, Brasilien

This paper presents a new analytical formula intended to accurately evaluate the leakage inductance of transformers in high frequency range. This expression accounts for high frequency behavior of the magnetic field and provides a very high accuracy when operating at high frequencies which makes it of interest for designers to avoid time consuming finite element simulations without compromising with accuracy. The expression is validated by 2-D FEM simulation, as well as with measurements.

Environmental changes affect the efficiency of a photovoltaic (PV) system. The use of Maximum power point tracking and PV cooling systems allows a minimization of those changes, by keeping the efficiency conversion at its highest. With the intent of achieving an even greater efficiency conversion level and as a suggestion for future works in this area, it is suggested the association of those systems. A generic model of a system that allows that combination is presented.

Poster Session II & Coffee Break

  PP09

FPGA-Based Multilevel PWM Single-Phase Cascaded Inverter for Power Electronics Research and Teaching Julio Faé, Federal University of Technology – Paraná, Curitiba, BR

In this paper, a compact and low cost FPGA-based multilevel pulse width modulation (PWM) cascaded inverter specifically designed for power electronics research and teaching is proposed. The initial results show that the proposed topology is suitable for basic research and can be used as an auxiliary tool to illustrate fundamental concepts of multicarrier PWM techniques and to evaluate novel control algorithms.   PP10

Adaptative Repetitive Control with Reset Logic for Uninterruptible Power Sources Prof. Cristiano Zimmermann, Federal University of Technology – Paraná, Pato Branco, BR

This paper proposes the use of a hybrid solution of adaptation gain and reset logic for repetitive controllers applied to three-phase uninterruptible power sources under variation between non-linear and linear loads.

PP14   PP12

System Benefits and the use of new Semiconductor Solutions in UPS Systems

Single Phase Wind Generation Distributed System Connected to Weak Grids: Analysis and Implementation

Dipl.-Ing. (FH) Klaus Vogel, Infineon Technologies AG, Warstein, D

B.Eng. Everton Luiz de Aguiar, Federal University of Technology – Paraná, Pato Branco, BR

Efficiency is known as the main lever for cost saving in UPS systems. Based on semiconductor power loss measurements and subsequent calculations, the losses and efficiency for a typical application are compared for Si-IGBT and SiC solutions using various topologies. The resulting costs for investment and operation are estimated for a typical 250kVA UPS system with both chip technologies. A comparison clearly shows the savings for SiC solutions, despite the fact of higher power module costs.

This paper proposes a detailed analysis and experimental evaluation of the single phase distributed wind generation system connection to a weak grid. The grid synchronization is carried out by a Kalman Estimator and voltage and currents control loops are presented, using synchronous reference frame. Numerical and experimental results are presented to demonstrate the implementation feasibility.

A high step-up DC-DC Interleaved Flyback Converter for DC Microgrids Applications Prof. Tiago Dequigiovani, Catarinense Federal Institute, Luzerna, BR

The aim of this paper is to present a study of an Interleaved Flyback converter of high stepup voltage to connect micro plants of renewable energy, power up to 1kw/48V, with a microgrid DC of 400V. Initially, it is presented a brief introduction of the concept of Microgrids and high step-up isolated converters, which analyzes the real performance of static in and efficiency. Furthermore, a review of the interleaved converters is presented emphasizing the Flyback isolated converter. It is proposed a converter integration to create a DC Mainframe.The simulation and the experimental results are presented in the end of this paper.   PP16

Features of Schematics, Design and Control Algorithms of Traction Electric Drives Converters Dr. Stanislav Florentsev, RUSELPROM-ElectricDrive Ltd., Moscow, RU

The report describes features of schematics and design of power integrated intelligent DC/AC converters, which are a part of a complete traction electric equipment sets (TEES) for electromechanical drivetrains (EMD) for various vehicles. There are discussed control algorithms of frequency and vector control applied in microcontrollers of these converters. There are given results of some benchmark and field tests of TEES used in various vehicles.

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Keynote

Wednesday, 15 October 2014 , 18:00 – 18:45

Room Salão Anhanguera I   18:00

KEYNOTE

Conference Program

Wednesday, 15 October 2014 , 18:45 – 20:15

Room Salão Anhanguera I

Advanced and Renewable Energy Systems

Emerging Challenges in High Power Electronics

Chairman: tba

Geraldo Nojima Eaton Corporation, Arden, USA Geraldo Nojima was born in Brazil and did electrical and computer engineering studies in São Paulo and in Switzerland. He has been working for over 30 years in Brazil, Switzerland and the United States researching and developing power conversion Equipment including DC and AC drives for both low and medium voltage applications. He was granted multiple patents domestically and internationally. He has taught technical classes, done marketing research, new product introduction and field service in 17 countries. He's been with Eaton Corporation for the past 12 years and is currently the chief technologist in Avery Creek, North Carolina, researching and developing Medium Voltage AC drives, EV DC Quick Chargers, HVDC converters and protection devices. Geraldo was elected the Eaton 2008 Engineer of the Year for the Electrical Sector Americas. Prior to joining Eaton, Geraldo was the R&D Director for SMC Electrical Products, USA; R&D Project Manager for Nordson Corporation, USA; Principal Engineer for Reliance Electric USA, now Rockwell; R&D Project Manager for Reliance Electric Dierikon, Switzerland and R&D Manager for Reliance Electric in São Paulo, Brazil. Presently one of the responsible researchers of medium voltage Static Circuit Breaker, SiC/GaN based Solid State Transformer and 60kV DC power transmission and distribution. Geraldo is fluent in English, Portuguese, Spanish and German.

At the dawn of another leap in the evolution of power semiconductors, old problems are being solved but new challenges are emerging. Meanwhile, as the world hunger for energy continues to escalate at an unprecedented pace, traditional and renewable sources of energy continue to be placed far away from the large metropolitan areas making the efficient transmission, distribution and control of electrical energy essential and urgent tasks for en gineers and companies worldwide. High voltage silicon carbide semiconductors with voltage and switching frequency capabilities well above those of their silicon counterparts hold the promise for the solution to these challenges. Following is an exposition of the industry’s state of wide-bandgap power semiconductors, specifically of high voltage SiC components. Reviewed here are the successes as well as the challenges for bringing these new components into mass production.

  18:45

Module Integrated Solar Battery Charger Employing the Zeta Converter Mário L. da Silva Martins, Federal University of Santa Maria, Santa Maria, BR

This paper proposes a comparative analysis between two Zeta converter topologies applied to a battery charger using a single photovoltaic panel. The comparison takes into account the losses in the magnetic components. To provide a fair comparison a single design guidelines are employed to both topologies. It accounts for the PV module and battery bank characteristics, considering the MPPT and the charging method adopted. The battery charging method is based on the Constant Current/Constant Voltage (CC/CV) method with a Perturb and Observe (P&O) maximum power point tracking (MPPT) algorithm. The MPPT mode is off in the cases where the battery charger reaches the maximum charge current or the equalization voltage that drives the converter operation to the CC mode or the CV mode, respectively. Since the Zeta converter operates in CCM mode during CC mode and undergoes DCM in CV mode, the design of the converter must ensure that charge current is always positive, even in DCM operation.

19:15 Full SiC Solar Inverter: A Technical and Cost Study Dipl.-Ing. (FH) Klaus Vogel, Infineon Technologies AG, Warstein, D

In today´s and future´s electrical power supply, regenerative energy generators like photovoltaic (PV) power systems consisting of PV panels and grid-connected inverters become more and more popular in domestic as well as in commercial power plants. A price battle among PV power system providers due to beating-down inverter's costs can be observed. Therefore different technical approaches have to be evaluated in overall power inverter system cost to get cost-optimized solutions. In this paper technical and system cost benefits in a grid-connected, transformerless multi-string PV inverter box by replacing its standard silicon (Si) IGBT modules with fast switching siliconcarbide (SiC) device modules will be shown and discussed.   19:45

Design and Implementation of a Feasible Microgrid Model in Brazil Felipe Cassias, Celesc S.A., Florianópolis, BR

This paper aims to present the topology and energy management solutions implemented in a 20kW microgrid project in Brazil, integrating renewable resources, backup power, controllable loads and the main grid. The objective of this project has been to develop a microgrid model for neighborhood/district application that may become feasible in the short term and guide local power utilities regarding the adoption of microgrid technologies.

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Floor Plan/List of Exhibitors 1401

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Entrada/Entry Exposição 1421

www.electronicspecifier.com.br

Conferência/Conference Conferência/Conference

1410 1415

1406 1405

1414

1408

Foyer  Exhibition 1420

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Conferência/Conference

Floor Plan

1401

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Exposição 1421

1410 1415

1406 1405

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Chegou ao Brasil a melhor fonte sobre novos componentes, produtos, tecnologias e projetos da Europa. Informação selecionada por brasileiros para o engenheiro brasileiro. Na sua linguagem. Para o seu mercado.

Para maiores detalhes sobre quaisquer produtos da linha Electronic Specifier envie um e-mail para Ben Price, Advertising Sales Manager em [email protected]

Exhibition 1420

HTMG / Hesse Keysight, Brazil Magmattec, Brazil Ohmini, Brazil Rohm, Brazil Sirio, Italy Sonoscan, USA TCT Brasil, Brazil

1418

1417

Booth ���� Booth ���� Booth ���� Booth ���� Booth ���� Booth ���� Booth ���� Booth ����

1416

Media Partners

Media Partners Associação Brasileira de Engenheiros Eletricistas de São Paulo

Editora Lumière Ltda.

R. dos Buritis 128, Bloco A, Cj. 508/509 CEP 04321-000 - São Paulo, Brazil Tel: +55 11 3459 3939 / 5539 8048 www.abee-sp.org.br

Rua Catalunha, 350 Jaguaré | CEP 05329-030 São Paulo - SP Tel/Fax: +55 (11) 2827-0660 www.jornaldainstalacao.com.br

Associação Brasileira de Energia Eólica

ElectronicSpecifier.com

Avenida Paulista 1337, 16º andar, Sala 162 CEP 01311-200 - São Paulo, Brazil Tel: +55 11 2368 0680 www.abeeolica.org.br

Comice Place Woodfalls Farm Gravelly Ways Laddingford ME18 6DA - Kent, Great Britain Tel: +49 1622 871944 www.electronicspecifier.com.br

Asociación Argentina de Energía Eólica José María Paz 1131, Florida B1602AXU - Buenos Aires, Argentina Tel: +54 11 4795 7860 www.argentinaeolica.org.ar

Associação Brasileira de Energia Nuclear Av. Rio Branco, 53, 17º andar, sala 1.702 CEP 20.090-004 - Rio de Janeiro, Brazil Tel: +55 21 2203 0577 / 2266 0480 www.aben.com.br

AGS Media Group Power Systems Design Europe 146 Charles Street MD 21401 - Annapolis, USA Tel: +1 410 212 7999 www.powersystemsdesign.com

A Media / Bodo’s Power Systems Katzbek 17a D-24235 - Laboe, Germany Tel: +49 4343 421790 www.bodospower.com

Aranda NET Editora Tecnica Alameda Olga, 315 CEP 01155-900 - São Paulo, SP Tel: +55 11 3824 5300 www.arandanet.com.br

CompChips GmbH Friedensstrasse 22A 65760 Eschborn, Alemanha Tel: +49 (6196) 9218 118 www.brasilchips.com

Editora IPESI Ltda. Rua Espartaco, 213 CEP 05045-000 - São Paulo, Brazil Tel: +55 11 36701677 www.ipesi.com.br

GM2 PUBLICACIONES TÉCNICAS, S.L. C/ Poema Sinfónico, 27 Esc B. 1º Pta 5 E-28054 Madrid, Spain Tel: +34 91 706 56 69 www.convertronic.net

How2Power PO Box 755 NY 11787 - Smithtown, USA Tel: +631 269 45401 www.how2power.com

Instituto Ideal Rua Lauro Linhares, 2123, Torre A, Sala 503 Trindade - Florianópolis - SC +55 48 3234-1757 CEP: 88036-003 www.institutoideal.org

ABRAGE - Associação Brasileira das Empresas Geradoras de Energia Elétrica Rua Alvarenga Peixoto, 1408, Sala 906 Belo Horizonte - MG www.abrage.com.br

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Exhibitors

Exhibitors HTMG / HESSE Rua Spiandorelli Neto, 30 Torre Araucária, Cj 403 Brazil Tel: 55 19 3829-5493 www.htmg.com.br Booth

1404

MAGMATTEC

Hesse Mechatronics is present in more than 30 countries and since 1995 is developing and producing High Tech equipment for Semiconductors Industry. Hesse deliverers specific equipment for back-end processes: heavy and thin wire wedge bonder, ultrasonic flipchip bonder and special systems.

Av Clemente Cifali 225 94935-225 Cachoeirinha Brazil Tel: +55-11-3469-4245 www.magmattec.com Booth

1420

In Brazil, Hesse Mechatronics has HTMG Company as its exclusive Commercial Representantive.

HTMG

Av. Marcos Penteado de Ulhoa Rodrigues, 939 – 6º Andar Castelo Branco Office Park – Torre Jacarandá –Tamboré CEP: 06460-040 Barueri – SP Tel: +55 (11) 4209-9823 www.keysight.com.br Agilent Technologies Electronic Measurement business is now Keysight Technologies. Booth

1401

When measurement matters, engineers, scientists, manufacturers, businesses, researchers, and government agencies rely on Keysight tools and solutions. From home entertainment to network reliability to communicating wirelessly, Keysight provides the measurement capabilities that make our world more productive and a safer place to live. No other company offers the breadth and depth of measurement tools and expertise to meet the world’s critical requirements for electronic measurement. With our long track record and our exclusive focus on measurement, Keysight is the global industry leader-by virtually any measure.

In Brazil, Magmattec was the first manufacturer of iron powder cores, and also amorphous and nanocrystalline magnetic cores. MAGMATTEC seeks to meet its customers requests in a personalized way, looking for personal solutions for each application. We consistently improve our products, use new materials and develop new products leading to complete customer satisfaction.

High Technology and Materials Group

Keysight Technologies

MAGMATTEC MAGNETIC MATERIALS TECHNOLOGY Ltda, have been working for ten years in power electronics providing magnetic components, inductors, transformes and magnetic cores.

Keysight Technologies Inc. (NYSE: KEYS) is the world’s leading electronic measurement company, transforming today’s measurement experience through innovation in wireless, modular, and software solutions. With its HP and Agilent legacy, Keysight delivers solutions in wireless communications, aerospace and defense and semiconductor markets with world-class platforms, software and consistent measurement science. The company’s 9,500 employees serve customers in more than 100 countries.

OHMINI Rua José Versolatto,111 sl 2306 Bloco B - Centro 09750-730 São Bernardo do Campo, Brazil phone: +55 11-3438-8434 www.ohmini.com.br Booth

1416

OHMINI - a business focused in new technologies to search in power electronics We have a wide experience in electronic loads, programmable fonts and specialized software Currently, we are the only representatives of Powersim in Brazil, with the famous PSIM.

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Exhibitors

ROHM Semiconductor do Brasil Ltda R. Dr. Candido Espinheira, 396 cj. 123/124 05004-000 São Paulo, Brazil Tel.: +55-11-3539-6320 www.rohm.com Booth

1418

Sirio Elettronica S.R.L. Via Selve 2 35037 Bresseo di Teolo (PD) Italy Tel. +39-049-9901090 www.sirio-ic.com Booth

1417

ROHM Semiconductor is an industry leader in system LSI, discrete components and module products, utilizing the latest in semiconductor technology. ROHM’s proprietary production system, which includes some of the most advanced automation technology, is a major factor in keeping it at the forefront of the electronic component manufacturing industry. In addition to its development of electronic components, ROHM has also developed its own production system so that it can focus on specific aspects of customized product development. ROHM employs highly skilled engineers with expertise in all aspects of

design, development and production. This allows ROHM the flexibility to take on a wide range of applications and projects and the capability to serve valuable clients in the automotive, telecommunication and computer sectors, as well as consumer OEMs.

Sirio Inductive Components was established in 1974 with the purpose of developing and producing quality electromagnetic components for applications in industrial and professional electronics, in particular in Power Conversion sector and High Frequency applications with high insulation. The registered office and headquarters of the company are placed in Italy in Bresseo di Teolo, Padua. At the present time the Sirio Group includes about 80 people, the turnover has reached over 6 million euros with more than 2,5 million components produced every year.

Application field of Sirio components are: Power Conversion for High Frequency, motor drives, welding, UPS, etc. Over 60 % of Sirio products are sold on the European and international market: from Germany to Russia, from United Kingdom to Brazil, from Spain to New Zealand, from Sweden to Taiwan, Australia and China. A second Sirio factory is open since 2008 to follow the production of big transformers. It is always placed in Italy, in Bresseo area. In 2010 was established Sirio India in New Delhi: this is a new point of reference for Sirio South-East Asia trade.

Sonoscan, Inc. Marketing Department 2149 E. Pratt Blvd. 60007 Elk Grove Village USA Tel. 001-847-437-6400 www.sonoscan.com Booth

1415

TCT Brasil Rua José Neves 635 04650-141 São Paulo Brazil Tel: +55-11-5545-9400 www.tctbrasil.com.br Booth

1421

Sonoscan is a leader and innovator in Acoustic Microscopy (AM) technology. Sonoscan manufactures acoustic microscope instruments and provides laboratory services to nondestructively inspect and analyze materials, devices, components and products. Sonoscan’s C-SAM systems provide unmatched accuracy for the inspection of products for hidden internal defects, such as delamination, etc.

Since 1992 TCT Brasil is acting as a franchised in the power semiconductor market, a heat sink manufacture and power stacks developer with an active team of engineers. As an active corporation and responsible with the society, we always seek the maximum compromising satisfaction of our customers, suppliers and employees, contributing together for the technological impulse of our country. Our ECommerce offer multiple options to purchase without minimum value, with fast delivery, technical and commercial support. Here you find the best brands, products, prices and delivery time: IR International Rectifier, Vishay, Crydom, Crouzet, Fuji Electric, Diotec, Coilcraft, IXYS, Concept, LittelFuse, Microchip, Fudan.

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Exhibitors

ZEZ SILKO

Nuremberg, 19 – 21 May 2015

Pod Cernym lesem 683 564 01 Zamberk Czech Republic phone: +420 465-673-111 www.zez-silko.cz Booth

Power for Efficiency pcim-europe.com

More information at +49 711 61946-0 [email protected] or pcim-europe.com

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ZEZ SILKO Ltd. is a reputable manufacturer of power capacitors, capacitors for power electronics, capacitors for induction heating and many other capacitor types. Company ZEZ SILKO Ltd. provides complete power factor correction service composed of: power system evaluation including harmonic analysis, technical and commercial quotations, capacitor banks production and commissioning. Components for power factor correction and regulation of electrical energy are also supplied. ZEZ SILKO products are being exported to more than 50 countries all around the world. They are for use on traction systems (locomotives, trams, troleybuses), green energy generation (wind and photovoltaic power plants), energy sector (power factor correction) and also induction heating equipment. Tradition of capacitor production in the Czech Republic dates back to year

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1934. This long term experience and getting know-how prove high quality and reliability of the products. Since year 1994 company has got the name ZEZ SILKO Ltd. Company gives a big emphasis to the technical development, completeness of services and product quality. Nowadays firm has only up-todate production technology. Since 1999 quality control system according to standard ISO 9001 has been implemented. In 2014 certification according to standard IRIS (International Railways Industry Standard) was achieved. It proves the highest possible quality of supplies for railways industry. For this reason ZEZ SILKO Ltd. can compete with all the world-wide known manufacturers. Ecology and environmental policy are of a great concern for ZEZ SILKO. Therefore the company has been using only non toxic, ecological insulation materials.

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Registration Information Registration Fees Until 31 August 2014

From 1 September 2014

2 days (Industry)

R$ 890.00

R$ 990.00

1 day (Industry)

R$ 690.00

R$ 790.00

University (Staff) only 2 day registrations

R$ 750.00

R$ 850.00

Students (40% discount) only 2 day registrations

R$ 445.00

R$ 490.00

Extra Seminars (in the mornings) half day fee

R$ 445.00

R$ 490.00

Note:

On-site Registration: please add R$ 100 per participant. All fees plus VAT. Further issues:

– Conference: participation at the conference days as booked, proceedings on USB-Flash, free admission to the exhibition (2 or 1 day ticket), show guide, coffee break (afternoon) and Get together on 14 October 2014. – Seminars: participation at the seminars as booked, printed course documentation, free admission to the exhibition (2 or 1 day ticket), show guide and coffee break (morning) and Get Together on 14 October 2014. – Co-Authors have to register as a conference attendee and pay regular prices.

Registration Terms Registration for the PCIM South America conference and seminars from 14 – 15 October 2014 is binding and only accepted online at: www.newpresspropaganda.com.br/p/cadastro.php. Participation fees are due on registration with payment by credit card (VISA, MASTER e AMEX). An invoice covering the fees will be issued by mail. Once the registration process is complete, you will receive an e-mail booking confirmation including an entry voucher to the exhibition; please make sure to bring this along. Your conference documents will be issued on site at the conference counter. Cancellations will be accepted in writing only. Cancellations received by 20 August 2014 will incur a processing fee of R$ 180. Thereafter, if the participant does not attend, the full fee will be due. If a participant is unable to attend the full fee will be due. If a participant is unable to attend, a substitute may be nominated. New Press and Mesago PCIM GmbH have the right to create videos, photographs, sound recording, and drawings of the conference for documentation purposes or for publication, on the internet and for advertising purposes in particular, or have them created. This right also applies to the persons photographed or recorded. New Press and Mesago reserve the right to cancel the conference/seminars due to poor booking or other reasons beyond our control. No further claims beyond the reimbursement of participation fees already paid will be accepted. The program or speakers are subject to change and no claims may be made in this respect. The conference language is English. Legally deviating simple contract conditions opposite the general terms and conditions for speakers (see Author’s information & Manual).

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Questions? Please contact

Stefanie Gaida

Stephany Delfino

Phone: +49 (711) 61946-977 [email protected]

Phone: +55 (11) 2532-9444 [email protected]

General Information

General Information Contact in Brasil

Conference & Exhibition

Stephany Delfino New Press Phone +55 11 2532-9444 Fax +55 11 2532-9444 [email protected]

Barbara Gessner Project Manager Phone +49 711 61946-13 Fax +49 711 61946-93 [email protected] Stefanie Gaida Administrative Clerk (Conference) Phone+49 711 61946-977 Fax+49 711 61946-11977 [email protected]

Venue Novotel Center Norte Avenida Zaki Narchi, 500 02029-000 São Paulo, Brazil Phone: +55 11 2224-4000

Opening Hours Exhibition opening hours Tuesday, 14 October 2014 Wednesday, 15 October 2014

12:00 – 18:30 hrs 12:00 – 18:30 hrs

Conference opening hours Tuesday, 14 October 2014 Wednesday, 15 October 2014

Organizer

09:00 – 20:15 hrs 09:00 – 20:15 hrs

Supporter Map

New Press Eventos e Propaganda Eireli Av. Brig. Faria Lima, 1234 – 19° And. Conj 194 – Edif. Paranagua 01451-913 – São Paulo, Brazil

Mesago PCIM GmbH Rotebuehlstrasse 83–85, 70178 Stuttgart, Germany Board of Management: Petra Haarburger, Johann Thoma Amtsgericht Stuttgart, HRB 720222

Our Partners I nsti tuti onal Support

Me di a partners

Directions Heading from Marginal Tiete towards Zona Norte, take the Ponte das Bandeiras bridge then go around Praca Campo de Bagatelli square (keeping to the right). At the traffic lights, turn right and continue under the viaduct. Continue straight for 150 m.

Parking: Private outdoor parking (paying) Airport: Guarulhos Airport

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City Information São Paulo Eighth largest city of the world by population and capital of the state São Paulo, the metropole has a strong influence in economy, politics and culture. The megacity is not only well known for its many skyscrapers, helicopter fleet, architecture, but also for its restaurants and pubs, which offer just the perfect atmosphere to relax from a hard exhibition and conference day. Several important monuments, museums, streets and parks such as the Ponte Estaiada, the Ibirapuera Park, the Paulista Avenue, which is the most important financial center of São Paulo, are well worth a visit. The city offers many high profile events, like the Brazil Grand Prix Formula 1 and the São Paulo Fashion Week.

Restaurants in São Paulo In this cosmopolitan city you can taste everything from modern Brazilian cooking to topclass sushi and classic Italian dishes.

Maní  An innovative twist on Brazilian cuisine. Rua Joaquim Antunes 210, Pinheiros, São Paulo www.manimanioca.com.br

Brasil a Gosto Ready for a taste of the Amazon? Chef Ana Luiza Trajano floats the finest ingredients of the jungle river to your table. Rua Azevedo de Amaral 70, Jardim Paulista, São Paulo www.brasilagosto.com.br

Hamatyo Cosy Japanese restaurant for impressive seasonal sushi. Avenida Pedroso de Moraes 393, Pinheiros, São Paulo www.hamatyo.com.br

Churrascaria Anhembi A gaúcho steakhouse with an international outlook and close to the Novotel. Avenida Olavo Fontoura 327, Santana, São Paulo www.churrascariaanhembi.com.br

Kaá Contemporary cuisine in a tropical setting. Avenida Juscelino Kubitschek 279, Itaim Bibi, São Paulo www.kaarestaurante.com.br