Microsoft Word - CEU Course P. Wilson_ECCE 2016



“The BLACK BOX”Modeling and Simulation of Power ElectronicsA one day courseSaturday, September 17, 2016 (Prior to ECCE 2016 Milwaukee)Breakfast: 8:00 am Course: 9:00 am – 5:00 pmHyatt Regency Milwaukee“Crystal Room”333 West Kilbourn AvenueMilwaukee, WI 53203Phone +1 414‐276‐1234Presented by:Professor Peter Reid WilsonElectronic and Electrical Engineering, University of Bath, UKA full day credited course (8 hours) prior to ECCE 2016 has been organized to offer ContinuingEducation Units (CEUs) to engineers.Earn 0.8 CEUs / 8 PDHs for participatingCost for the course: $185 (*Breakfast, Lunch and 2 Coffee Breaks included) For additional information contact Donna Florek d.florek@ or call +1 732 465 6480AbstractA persistent problem for designers of power electronic systems has been the difficulty in carrying out accurate and robust simulations of a complete power network, while including numerous models from a variety of individual equipment suppliers. Often the models are of variable or low quality, with ill‐defined parameters or behavior, and in many cases of the wrong level of abstraction to be appropriate for large scale network simulations. In addition, individual equipment suppliers often provide poor models for network integration, with a common issue being low robustness of models leading to lack of convergence, excessive simulation times and delays in development due to the need for rework and extensive testing of these models.This tutorial will describe the techniques used to achieve more robust models for power electronic systems, using model based engineering, the integration of specific equipment models into the complete power network and the validation of the behavior. The tutorial will provide a case study of a complete aircraft power network highlighting how individual models were integrated into the overall aircraft power network model and the inherent robustness of the individual models ensured effective, accurate and robust simulations.The tutorial will provide detailed instructions on how to use modelling tools (ModLyng, Model Architect and Paragon) and integrate the models into simulations using the Saber simulator (a required standard for Airbus and GM), although the techniques are applicable in general to most circuit simulators available.SCHEDULE09:00 – 10:30 Part 1:1.0 Modeling and Simulating Power Electronic Devices and Circuits1.1 Power Diodes1.2 Power MOSFETs1.3 IGBTs1.4 Simplified Switch modeling for fast system simulation1.5 Electric‐Thermal Modeling of Devices1.6 Graphical Tools for Modeling Power Electronic Devices and Components2.0 Electro‐Magnetic Modeling2.1 Non Linear Magnetic Material Modeling Techniques2.2 Inductors2.3 Transformers10:30 – 10:45 Coffee break10:45 ‐ 12:00 Part 2:3.0 AC to DC conversion3.1 6 Pulse Rectification3.2 12 Pulse Rectification3.3 Advanced Rectification Schemes4.0 DC to DC conversion4.1 Buck Converters4.2 Boost Converters4.3 Forward Converters4.4 Behavioral Models of DC/DC converters – including averaged models and fast analog techniques12:00 ‐ 13:00 Lunch13:00 ‐ 14:30 Part 35.0 DC to AC Conversion5.1 Single Phase Inverter5.2 Three Phase Inverter6.0 Machines, Generators and Loads6.1 Fundamental Principles and mixed domain modelling techniques6.2 DC Motors6.3 AC Motors6.4 Mechanical Loads6.5 Variable Frequency Starter Generators7.0 Power Electronic Drive Systems7.1 Chopper Circuit7.2 Three Phase bridge circuit7.3 Mixed Signal Modeling and Control14:45 ‐ 15:00 Coffee break15:00 – 17:00 Part 48.0 Advanced Design Techniques8.1 Reliability modeling8.2 Thermal characteristics8.3 Stress and derating8.4 Case Study: Aircraft Variable Frequency Starter Generators and Network Simulation17:30 End of course:About The Author:Professor Peter Reid WilsonElectronic and Electrical Engineering, University of Bath, UKPrw30@bath.ac.ukProfessor at the University of Bath, Department of Electronic and Electrical EngineeringExtensive Academic and Industrial Experience of over 25 yearsStrong Background in Electrical & Electronic Engineering, in particular Power Electronics, Magnetic Devices, and Integrated Circuit Design (Digital, Analogue and Mixed Signal)More than 100 Journal, Conference and other Articles, book chapters, 3 Books & 1 patentExecutive Vice President of IEEE Power Electronics Society (Standards)Fellow IET, Fellow BCS and Senior Member IEEEAcademic Lead ?1M EPSRC Funded Integrated Structures and Sensors Facility (ISSF) PI on 9 Grants (including EPSRC/EU), CI on numerous Grants (EPSRC), and external Industrial FundingCourse Founder and Leader, MSc “System on Chip”, Course Leader MSc “Microelectronics Systems Design”, Course Founder and Leader “Erasmus Mundus Programme on Embedded Systems - EMECS”Team Director – University of Southampton Solar Electric Boat Team (2009,2010,2012 World Championships – Silver Medallists 2010)IEEE Award for technical contribution to IEEE Standard 1076.1.1 - 2006University of Southampton Vice Chancellor’s Award 2008 for TeachingUniversity of Southampton Vice Chancellor’s Award 2010 for Contribution to the University ................
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