• Which Products are you interested in ?

    CST offers a wide range of EM simulation software to address design challenges across the electromagnetic spectrum, from static and low frequency to microwave and RF, for a range of applications, including EDA & electronics, EMC & EMI and charged particle dynamics.

  • CST STUDIO SUITE
  • CST EMC STUDIO
  • CST BOARDCHECK
  • Antenna Magus
  • IdEM
  • FEST3D
  • Optenni Lab
  • Looking for a Training, Workshop or eSeminar ?

    CST STUDIO SUITE® is being demonstrated at trade shows and workshops all over the world. Take a look at the list of conferences and exhibitions CST will be attending and get further information regarding CST workshops, eSeminars and training days.

  • TrainingsRegular training courses are held in CST's offices in Asia, Europe, and North America. Please check our trainings section for detail of trainings in all over the globe. Advance registration is normally required.

  • WorkshopsCST hosts workshops in multiple languages and in countries around the world. Workshops provide an opportunity to learn about specific applications and refresh your skills with experienced CST support staff. Make sure you visit our workshop section.

  • eSeminarsThroughout the year, CST simulation experts present eSeminars on the applications, features and usage of our software. You can also view past eSeminars by searching our archive and filtering for the markets or industries that interest you most.

  • Check our latest Events
  • Why create a MyCST Account ?

    A MyCST account may facilitate your access to many of the offerings on the CST website, for example the registration for eSeminars and the watching of eSeminars recordings, setting email preferences, and there is more functionality to come. It is required to participate in workshops and trainings.

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  • EventsSearch for events by location, industry and application. Once you are registered, you will be able to manage your registrations and check important details about your events. This section also provides you with a repository for Workshop & Training material.

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    Customers can customize their accounts once they have completed the account creation process. This platform acts as vivid interface between CST and our customers.

    We therefore offer access to the latest Service Packs (including an automatic notification that a new Service Pack is available), a steadily growing database of Frequently Asked Questions (FAQs), Application Notes and Training Videos, as well as an individual FTP section for easy exchange of large files with our support team.

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  • How to request a Trial License ?

    Get your license in only three steps:

    1. Fill in the required fields in the contact form on the right and click "Send Us Your Request".

    2. Lean back and wait until one of our CST Experts contacts you.

    3. Enjoy a our trial license.

  • Student Edition

    Student Edition The CST STUDIO SUITE® Student Edition has been developed with the aim of introducing you to the world of electromagnetic simulation, making Maxwell’s equations easier to understand than ever. With this edition you have, bar some restrictions, access to our powerful visualization engine and some of the most advanced solvers of CST STUDIO SUITE.

    Student Edition

CST – Computer Simulation Technology

3rd European User Group Meeting Technical Sessions

Session 1 – Solvers Overview

  1. New features in the CST MWS Solvers - Munteanu, I. (CST AG)
  2. CST MWS integral equation solver overview - Eberhard, J. (CST AG) 
  3. Solver Comparison: Time-Domain vs Frequency Domain - Demming-Jansen, F. (CST AG)
  4. CST EM STUDIO®: New features and application examples - Leroux, E. (CST AG), Canova, A. (Politecnico di Torino) 

Session 2 – VBA

  1. Introduction in VBA macro usage and programming - Balk, M. (CST AG)  
  2. General Parameter Sweep: A Useful Macro - Bilik, V. (S-TEAM Lab, Bratislava, Slovakia)  
  3. Ways to perform electromagnetic simulation of very inhomogeneous media with CST MWS - Leroy, O. (Laboratoire de Physique des Gaz et des Plasmas Université Paris-Sud ORSAY, FRANCE) 
  4. A Versatile 3D Field Simulation of a GPR Setup - Teggatz, A. (Otto-von-Guericke-University of Magdeburg)   
  5. Extending the capabilities of CST MWS’s inbuilt result templates to aid cavity optimisation - Lingwood, C. (Lancaster University)  

Session 3 – EMC

  1. Analysis of the RF emission from differential busses - Worm, S.B. (Philips Applied Technologies / EMC)   
  2. Charged board model ESD simulation for printed wiring boards - Tarvainen, T. (Esju Oy, Oulu, Finland)  
  3. Aspects of modeling a GTEM cell using CST - Thye, H. (Leibniz Universität Hanover)  
  4. PCB simulation with attached cables - Tröscher, M. (SimLab Software GmbH)  
  5. Induced Currents due to Nearby Lightning Strike to a Mobile Radar System: an Hybrid 3D/circuit Analysis - Orlandi, A. (UAq EMC Laboratory, Dept. of Electrical Engineering, University of L’Aquila, L’Aquila, Italy), Leroux, E. (CST AG) 

Session 4 – Charged Particle Simulation

  1. Electric and magnetic fi eld calculations for a Time Projection Chamber Prototype with CST EMStudio - Schade, P. (DESY FLC TPC group) 
  2. ALBA storage ring cavities - Langlois, M.  
  3. RF Simulations with CST MWS at ACCEL - Schulz, C. (ACCEL) 
  4. CST PARTICLE STUDIO® - Balk, M. (CST AG) 

Session 5 – Mobile Communications

  1. Use of EM simulation tools for predicting the performance of mobile phone antennas - Sotoudeh, O.
  2. Design and Optimisation of a Planar UWB Antenna with Frequency Band-Notch Function - Visser, H.J (TNO).   
  3. Assessment of occupational exposure of MRI workers resulting from a time-varying magnetic fi eld associated with a cylindrical z-gradient coil - Li, Y. (Imaging Sciences Dept., Faculty of Medicine, Hammersmith Campus, Imperial College London) 
  4. SAR - Wittig, T. (CST AG)  

Session 6 – Signal Integrity

  1. Simulation of a large IBM package - Bender Perotoni, M. (CST AG) 
  2. Full Wave Characterization of a Small Quad Flat Package for High-Speed Serial Interface Application - Kakerow, R. (Nokia Research Center, Bochum), Munteanu, I. (CST AG) 
  3. Modeling of Connector to PCB Interfaces - Gneiting, T. (AdMOS GmbH)  
  4. CST STUDIO SUITE™ 2008: EDA interface - Sassi, L. (CST AG)   

Session 7 – Antennas and RFIDs

  1. Introduction into RFID development based on numerical simulations - Ramsch, G. (Checkpoint)   
  2. RFID System Read Range in Automotive Assembly Lines - Iliev, S. (DaimlerChrysler Group Research and Advanced Engineering)   
  3. A near field simulation on a UHF RFID reader problem - Doodeman, G.J.N. (TNO)   
  4. Benefits of Complete Technology for RFID applications - Wittig, T. (CST AG) 

Session 8 – Filter

  1. Application of CST Microwave Studio for the Development of Mobile Communication Infrastructure RF Filters - Rathgeber, R. (KATHREIN-Werke KG, Rosenheim, Germany)  
  2. Design and Realization of Microwave Lowpass Filters using Radial Line Stubs - Saglam, M.
  3. Cross-Coupled Filter Synthesis - Wild, M. (CoupleFil.com)  
  4. Filter Tuning Techniques - Hirtenfelder, F. (CST AG)   

Session 9 - Performance

  1. Performance Aspects - Timm, M. (CST AG)   
  2. Hardware based Performance Optimization - Senega, T. (CST AG)
  3. Complex Simulations in Minutes: The Present and Future of Hardware Acceleration for CST MICROWAVE STUDIO® - Dewis, A. (acceleware)   
  4. Performance optimizations on Intel® platforms - Brücher, B. (intel) 
  5. Multi-objective optimization for electronic devices - Poian, M. (ESTECO)  

Session 10 - Coupled Simulations

  1. EM/Circuit cosimulation: AWR Microwave Office and CST MICROWAVE STUDIO® - Wallace, A. (AWR)  
  2. EM Circuit Co-Simulation with CST DESIGN STUDIO™ - Becker, U. (CST AG)  
  3. Simulation of a Dual-Polarized Patch Antenna with CST Microwave Studio® - Hirtenfelder, F. (CST AG), Biedermann, T. (KATHREIN-Werke KG Rosenheim, Germany)    
  4. EM Thermal Co-Simulation - Becker, U. (CST AG)  

Posters

  1. Use of High Permittivity Dielectric (Ceramic) in Small Antenna Design - Arslan, R. (Chalmers University of Technology, Antenna Research Group)
  2. An Analysis of Metamaterial Unit-Cells - Bandlow, B. (Universität Paderborn, Theoretische Elektrotechnik)  
  3. Design and Tuning Coupled-Resonator Filters with group delay approach - Denti, D. (esa) 
  4. Sub-mm Wave Free-Standing Frequency Selective Surfaces - Dickie, R. (Queen’s University Belfast)
  5. Analysis of Metamaterials using Transmission Line Models - Fu, L. (Universität Stuttgart)  
  6. Simulation of negative refractive index materials - Gerken, N. (Universität Hamburg)
  7. Thickness dependence of the optical properties of splitring resonator metamaterials - Guo, H. (Universität Stuttgart)
  8. Design of Special Primary Feeds and Antenna Systems - Hazdra, P. (Czech Technical University in Prague)
  9. Planar antennas on Electromagnetic Band Gap substrates - Horak, J. (Brno University of Technology)
  10. Progress and problems in the simulation of multichannel transmit array properties - Kozlov, M. (Max Planck Institute for Human Cognitive and Brain Sciences)
  11. Array Simulation and Measurement of Different Patch Antenna Types - Kuharajasekaram, J. (BFH)
  12. Electromagnetic resonances in single and double splitring resonator metamaterials in the near infrared spectral region - Liu, N. (University of Stuttgart)
  13. Extraordinary Transmission Metamaterial - Navarro-Cía, M. (Millimeter Wave Laboratory, Electrical and Electronic Engineering Dept., UPNa. Campus Arrosadia, Spain.)
  14. Aufbau-, Verbindungstechnik - EMV - Palm, S. (Robert Bosch GmbH)  
  15. Studying Magnetic Loop Antennas by MWS - Schmidt, M. (University of Applied Sciences Jena)
  16. X-Band Squintless Horn Antenna Array - Steyn, W. (Reutech Radar Systems)   
  17. Simulation of a 4-Quadrant Slot Antenna and a Coaxial-to-CPW Interconnect - Talukder, P. (Ferdinand-Braun-Institut für Höchstfrequenztechnik)   
  18. A technique for designing constant bandwidth fi lters with the aid of CST MW studio - Valenti, D. (Com-Tech) 
  19. Cylindrical high impedance structure based on widthmodulated microstrip line - Vietti, G. (Politecnico di Torino)
  20. Analysis of Multilayered Meander-Line Polarizer for Arbitrary Linear Polarization - Vietti, G. (Politecnico di Torino)
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