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Siemens Service offers a wide range of support options and possibilities, including Siemens user manuals. This makes sure you get the best care available, if support should be necessary. Get help and support. CST Studio Suite® is a high-performance 3D EM analysis software package for designing, analyzing and optimizing electromagnetic (EM) components and systems. Electromagnetic field solvers for applications across the EM spectrum are contained within a single user interface in CST Studio Suite.
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Cst Microwave Studio 2013 User Manual Pdf
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CST STUDIO SUITE® is a collection of electromagnetic simulation software. It is an integrated design environment that contains tools for the design and optimization of devices in a wide range of frequencies from static to optical. CST Studio Suite® gives customers the choice of multiple powerful solver modules, including modules based on numerous different methods including finite element method (FEM), method of moments (MoM), multilevel fast multipole method (MLFMM) and shooting boundary ray (SBR), each offering distinct advantages in their own domains.
CST STUDIO SUITE contains various modules. We are currently supporting the following modules in batch: CST MICROWAVE STUDIO® (MWS), CST EM STUDIO®, CST PARTICLE STUDIO®, and CST MPHYSICS STUDIO®. With Rescale's scalable compute workflow, users can run conveniently run CST SUDIO SUITE models on multiple cores to achieve low run times.
CST MICROWAVE STUDIO
CST MICROWAVE STUDIO® is a specialist tool for the 3D EM simulation of high frequency components. CST MWS' unparalleled performance is making it first choice in technology leading R&D departments. The flagship modules include Time Domain solver and Frequency Domain solver.
Transient Solver Example
This is an example of the response of a boron and gallium-doped silicon wafer solved in the time domain.
This model uses 4 million mesh cells. The following image shows a schematic of the silicon wafer model. The transient impedance response of an electrical lead is also shown below.
Simulation Code | CST MICROWAVE STUDIO - 2017 Transient Solver |
Analysis Type | Transient Response |
Description | Transient lossy metal surface impedance response |
Suggested Hardware | Onyx / 1 core |
Command | |
Estimated Run Time | 24 minutes |
Frequency Domain Solver Example
This is an example of a microwave radiation simulation from a circular horn antenna solved in the frequency domain. The circular horn antenna is modeled as a perfect electric conductor (PEC) in a vacuum farfield. The antenna is being operated at a frequency of 10 GHz.
This model used 48,608 mesh cells. The Ludwig-3 horizontal polarization image below shows the resultant radiation pattern emitted by the antenna.
Simulation Code | CST MICROWAVE STUDIO - 2017 Frequency Domain Solver |
Analysis Type | Electromagnetic Radiation |
Description | Radiation field emitted by a circular horn antenna |
Suggested Hardware | Onyx / 1 core |
Command | |
Estimated Run Time | 6 minutes |
CST EM STUDIO Example
CST EM STUDIO® (CST EMS) is dedicated to the simulation of static and low frequency devices. Embedded in the same CST user interface, CST EMS features a variety of solver module to tackle electrostatics, magnetostatics, current flow and low frequency problems, and can be coupled to other CST STUDIO SUITE® modules for charged particle and multiphysics simulations.
Applications include: actuators, brakes, EMC, generators, motors, sensors, transformers measurement instrumentation, and shielding effects.
This is an example of an electromagnetic radiation simulation through an RJ45 connector. A 1V potential is applied to the end of RJ45 contacts. Every other wire is connected to a metallic ground plane.
This model used 198,240 mesh cells. The electric potential through the RJ45 connector is shown below.
Simulation Code | CST EM STUDIO - 2017 Electrostatic Field Solver |
Analysis Type | Electromagnetic Field |
Description | Electromagnetic field simulation through RJ45 connector |
Suggested Hardware | Onyx / 1 core |
Command | |
Estimated Run Time | 5 minutes |
CST PARTICLE STUDIO Example
CST PARTICLE STUDIO is a specialist tool for the fast and accurate analysis of charged particle dynamics in 3D electromagnetic fields. Powerful and versatile, it is suitable for tasks ranging from designing magnetrons and tuning electron tubes to modeling particle sources and accelerator components.
Cst Microwave Studio 2013 User Manual Download
The particle tracking solver can model the behavior of particles through static fields, and with the gun iteration, space charge limited emission. The particle-in-cell (PIC) solver, which works in the time domain, can perform a fully consistent simulation of particles and electromagnetic fields. For relativistic applications, the wakefield solver can calculate how the fields generated by particles traveling at (or close to) the speed of light interact with the structure around them.
This is an example of a stationary particle tracking solution in an electromagnetic field. This model used 150,336 mesh cells. The trajectories of charged particles from a multibeam gun emitter is shown below.
Simulation Code | CST PARTICLE STUDIO - 2017 Particle Tracking Solver |
Analysis Type | Particle Dynamics |
Description | Particle tracking simulation from a multibeam emitter |
Suggested Hardware | Onyx / 1 core |
Command | |
Estimated Run Time | 5 minutes |
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