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PCIM Expo 2025: Jetzt Aussteller werden

Präsentieren Sie Ihre Produkte der internationalen Leistungselektronik-Community und vernetzen Sie sich branchenweit. Entdecken Sie jetzt Ihre Teilnahmemöglichkeiten und sichern Sie sich Ihre Standfläche.

Konferenzthemen

Konferenzthemen

Die Themen der Konferenz umfassen aktuelle Entwicklungen bei Leistungshalbleitern, passiven Bauelementen, Produkten zur Wärmebeherrschung, Energiespeicherung, Sensoren, neuen Materialien und Systemen. Im Fokus der Konferenz stehen die Trends der Leistungselektronik. Sehen Sie hier alle Themen im Überblick.

  • A01 Si IGBTs and High Power Semiconductors
  • A02 Si MOSFETs
  • A03 Smart Power ICs
  • A04 Fast Recovery Diodes
  • A05 SiC Devices
  • A06 GaN Devices
  • A07 Novel and Advanced Semiconductor Devices
  • B01 Novel Materials for Thermal Management
  • B02 Thermal Management Performance Verification and Measurements
  • B03 Advanced Cooling Systems
  • B04 Thermal Modelling and Simulations
  • C01 Encapsulation Material
  • C02 High Temperature Materials
  • C03 Die Attach Materials
  • C04 Active Area Interconnection Materials
  • C05 Substrate Materials
  • C06 Heat Spreaders
  • C07 Material Characterization and Modelling
  • D01 High Power Density Designs  
  • D02 Integration Technologies
  • D03 Power Electronic Components Reliability
  • D04 Stress Monitoring
  • D05 Lifetime Predictions
  • E01 Control Methods for Power Electronic Converters
  • E02 Advanced Digital Control Algorithms
  • E03 Pulse Width Modulation Methods  
  • E04 Intelligent Gate Drive Units
  • E05 Intelligent Power Modules
  • E06 Control ICs, FPGAs, ASICs and their Applications 
  • E07 Micro Controllers, DSPs and their Applications
  • F01 Switched Mode Power Supplies
  • F02 DC-DC Hard- and Soft-Switched Converters
  • F03 AC-DC and DC-AC Converters
  • F04 EMI/EMC in Power Electronics
  • F05 Lamp Ballasts and Lighting Systems  
  • F06 Power Electronics for Physics and Accelerators
  • F07 Wireless Power Transfer
  • G01 Solid State Transformers
  • G02 DC-DC Hard- and Soft-Switched Converters
  • G03 AC-DC and DC-AC Converters
  • G04 AC-AC, Cyclo- and Matrix Converters
  • G05 Medium Voltage Multilevel Converters
  • G06 Modular Multilevel Converters
  • G07 Novel Converter Topologies
  • G08: HVDC Systems
  • G09 FACTS
  • G10 Solid State Breakers
  • H01 Power Electronics for E-Mobility
  • H02 Power Electronics for Railway Applications
  • H03 Power Electronics for Aerospace Applications
  • H04 Power Electronics for Marine Applications
  • H05 Transportation Infrastructure Related Solutions
  • H06 Charging Stations Technologies
  • H07 Drives for Hybrid and Electric Cars
  • I01 Design Optimization   
  • I02 High Performance Motors
  • I03  Advanced Actuator Technologies and Principles
  • I04 FEM Modelling and Simulations
  • I05 Novel Materials for Actuators
  • I06 Special Magnetic Devices
  • J01 System Modelling and Simulations
  • J02 Estimation and Identification Techniques
  • J03 New Control Methods  
  • J04 Servo and Step Positioning Systems
  • J05 High Performance Intelligent Drives
  • J06 Sensorless Drives
  • J07 Actuator Specific Control Techniques
  • K01 Mechatronic systems
  • K02 Servo and Variable Speed Drives Applications
  • K03 Embedded Control and Integration
  • K04 Drives and Motion Control for Specific Applications
  • K06 Control of Multi-Axis Decentralized Drive Systems
  • K07 Functional Safety
  • L01 Wind Energy Systems
  • L02 Solar and Photovoltaic Energy Systems
  • L03 Hydro Power Plants
  • L04 Wave Energy Systems
  • L05 Geothermal Energy Systems
  • L06 Biomass
  • L07 Sustainable Energy Systems
  • M01 Battery and Storage Technologies
  • M02 Battery Management Systems
  • M03 Safety Solutions
  • M04 Mechatronic Design and Cooling Concepts
  • M05 Charging Strategies
  • M06 Battery Characterization
  • N01 Smart Grids
  • N02 Cybersecurity Technologies in Power Electronics Systems
  • N03 Cognitive and Smart Drives
  • N04 IIoT
  • N05 Micro Grids, E-LANs (Energy networks) and IoE (Internet of Energy)
  • N06 Communication and Cybersecurity for Electric Cars
  • N07 DC Grids
  • O01 Power Quality Problems and Mitigation Techniques
  • O02 Power Quality Standards
  • O03 Power Factor Correction Methods and Technologies 
  • O04 UPS and Active Filters
  • O05 Smart Metering, Diagnostics and Condition Monitoring
  • O06 Power Quality Indices  
  • O07 Measurement Techniques, Methods and Equipment
  • O08 Electromagnetic Compatibility and Immunity
  • P01 Modelling and Simulation of Power Electronic Components and Systems
  • P02 Design Optimization Methods and Tools
  • P03 Virtual Prototyping
  • P04 Rapid Prototyping Tool and Methods  
  • P05 Digital Twinning
  • P06 Design Automation
  • P07: AI Supported Design
  • Q01 Voltage and Current Sensors  
  • Q02 Motion and Actuation Sensors
  • Q03 Thermal Measurement Devices
  • Q04 Measurement Techniques and Methods
  • Q05 Renewable Energy System Sensors
  • Q06 High Frequency Measurement Techniques and Sensors
  • Q07 Embedded Digital Signal Processing for Sensors
  • R01 Capacitors and Supercapacitors
  • R02 Inductors and Transformers
  • R03 Magnetic Materials
  • R04 Resistors, Varistors, Thermistors
  • R05 Fuses
  • R06 Dielectric and Insulation Materials
  • R07 Connectors and Interface Technologies
  • S01 Reliability and Availability of Power Electronics Systems
  • S02 Fail-Safe and Fault-Tolerant Applications
  • S03 Redundancy Concepts in Power Electronics
  • S04 Life Cycle Cost Analysis
  • S05: Condition and Health Monitoring