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Education in Power Electronics at ETH Zurich Johann W. Kolar Swiss Federal Institute of Technology (ETH) Zurich Power Electronic Systems Laboratory www.pes.ee.ethz.ch. ETH Zurich Strategy of Electrical Engineering 2008 → 11. Energy Science. Energy Systems also part of ETH/ ESC
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Education in Power Electronics at ETH Zurich Johann W. Kolar Swiss Federal Institute of Technology (ETH) Zurich Power Electronic Systems Laboratory www.pes.ee.ethz.ch
ETH Zurich Strategy of Electrical Engineering 2008 →11 Energy Science Energy Systems also part of ETH/ ESC Activity
ETH ZurichEducation in IT/EE MasterInformation &Communication Master Biomedical Engineering Communications Micro- & Optoelectronics Computers & Networks Energy Systems & Mechatronics MasterMicro- and Nano- Systems FocusAreas MasterBiomedical Engineering Bachelor Practicals Projects Seminars Micro- & Optoelectronics Communications Energy Systems & Mechatr. Comp. & Networks MasterEnergy Science MasterRobotics & Automation otherDepts. Department Information Technology & Electrical Engineering commondegrees
U. Drofenik S. Round J. Biela J.Schönberger Senior Researchers Post-Docs J. W. Kolar Industry Relations P. Albrecht R. Coccia P. Maurantonio B. Seiler D-ITETPower Electronic Systems Laboratory D. Aggeler U. Badstübner M.Bartholet D.Bortis L. Dalessandro T. Friedli F. Giezendanner G. Gong M. Hartmann M. Heldwein Ph. Imoberdorf Ph. Karutz D. Krähenbühl F. Krismer J. Miniböck K. Mino H. Plesko K. Raggl F. Schafmeister T. Schneeberger L. Serpa St. Waffler C. Zhao Ch. Zwyssig Director Secretariat Administration 2 Visiting Profs. Electronics Lab, Syst. Admin. H. Altorfer P. Seitz M. Berger Leading Univ. in Europe 24 Ph.D. Students
Education Courses in Power Electronics Seminar LE PE Systems II PE Systems I Laboratory Course PE II Laboratory Course PE I Fundamentals of PE Semester 2.3.4. 5. 6. 7.8. Lecture NotesLectures on Power Electronics, Vol. I, II Springer Lehrbuch 06/2005
Education Courses in Mechatronics and Drive Systems Seminar Mechatronics Traction II Energy Conversion in Mechatronics Drive Systems II Mechatronics Traction I Drive Systems I Lab Courses El. Machines II Lab Courses El. Machines I Semester 2.3.4. 5. 6. 7.8.
Education General Courses and Special Topics Sensor a. Actuator Syst. II Renewable Energy Syst. Sensor a. Actuator Syst. I Construction of El. Apparatus Projects Problem-Based PPS Seminare Lab Courses Semester 2.3.4. 5. 6. 7.8.
Practical Projects (PPS) in Power Electronics ■ Electronics and Measurements ■ Switch-Mode Power Supplies ■ Magnetic Levitation ■ CAD Circuits and PCB Design New! Solar Climber Model Solar Car Mains Interface
Solar Car Race Input Voltage 17.1V Output Power 3.2W
Solar Car Race Input Voltage 17.1V Output Power 3.2W
Solar Car Race Input Voltage 17.1V Output Power 3.2W
Renewable Energy Mains Interface Output Power 30W Input Voltage 14V … 20V Digital MPPT PIC16F870 Grid-Tied Solar Power Inverter with Maximum Power-Point Tracking (MPPT)
Levitated Magnet Theoretical Part System Identification & Control Practical Work PCB Assembling, Initial Operation of an Electronic Circuit
Examples of • Student Projects • Space Elevator
Examples of • Student Projects • Model of • Space Elevator
Examples of • Student Projects • Model of • Space Elevator
Excited • Students
ETHZ Novel Education Technology
DC-AC Electronic Power Conversion PWM Full-Bridge Principle of Operation − Square Wave Operation − Bipolar PWM − Unipolar PWM − Relation of DC- and AC-side Quantities − AC-side Current Ripple − Hysteresis Contr. / Switching Frequ. Var. − Phasor Diagram / Operating Range Single-Phase bidirectional PWM Full-Bridge Principle of Operation − Square Wave Operation − Sinusoidal PWM, Single Carrier − Sinusoidal PWM, Individual Carriers − Zero-Sequence Voltage Inj. PWM − Overmodulation − Relation of DC- and AC-side quantities − Load Neutral Connection − Hysteresis Current Control, open Neutral − Hysteresis Current Control, conn. Neutral Space Vector Calculus − Space Vector Transformation − Decoupling of Zero Sequ. Quantity − Space Vector Modulation − Output Curr. Trajectory − Unbal. Mains / Inp. Curr. Distortion − Output Curr. Ripple Space Vector − Hysteresis Control System Dimensioning − Transistor / Diode Current − Power Flow in Three-Phase Systems − Inst. React. Current − DC Cap. Current Stress Three-Phase ! Novel Interactive Power Electronics Seminar DC-DC unidirectional DC-DC Isolated Full-Bridge Conv. bidirectional AC-DC Basic Thyristor Function Principle of Operation − AC and DC-side Current − Commutation − Effects on the Mains / Voltage Distortion − Control Characteristics − Rectifier / Inverter Operation − Active and Reactive Power Thyristor Bridge unidirectional AC-DC bidirectional AC-AC
ETHZ / ECPE Interactive Power Electronics Seminar
ETHZ Converter Lab Measurement Equipment Power Supply Oscilloscope Current Probe Power Analyzer Multi-Meter Laptop / Simulation
ETHZ Converter Lab Power Circuit Control Board
ETHZ Converter Lab Highly Versatile Laboratory Setup Teaching in Industry-Related Form System Topology
ETHZ Converter Lab 13 Exercises ■Bridge Rectifierswith Capacitive or Inductive Smoothing ■Buck, Boost Converteralso Two-Phase Interleaved ■Buck/Boost ■Flyback ConverterSingle-Switch and Two-Switch ■Forward ConverterAsymmetric, Half and Full Bridge ■Power Factor Correction1~ and 3~ ■Four-Quadrant ConverterRectifier and Inverter Mode ■Four-Quadrant SupplyDC Machine, Brushless DC ■Three-Phase PWM Rectifier ■Three-Phase InverterAsynchronous or Synchronous Machines
ETHZ Drives Lab DSP Control of PMSM / IM / DCM - Matlab / SIMULINK Interface
Source: PEARL Future Challenges • Integrate • Electrical • Electromagnetic • Electromechanical • Thermal • Structural • Mechanic • Turbomachinery • Thermodynamic • MEMS • Issues ► Educate for Multi-Domain / Cross-Discipline Engineering
Modern Education in PowerElectronics Interactive (iPES) Simulation Tools
Numbers of Students Enrolled 03/04 – 06/07