Multi-window functionality: Users can use the tabs within the graphical user interface to seamlessly switch between an unlimited number of projects, regardless of the associated product, while consuming only one frontend.įrontend blocked during simulation: When a simulation is launched on a tab, the tab stays active and the associated frontend is blocked until the simulation is completed.
The number of solver modules specifies how many of each solver module can be used at a time, as long as the total number of simulations does not exceed the total number of simulation processes. The number of simulation processes specifies the maximum number of simulation runs that can be performed at a time. The frontend provides a user with the ability to build or import a new model, define the solver settings and display results including post processing.
#Cst microwave studio 2019 upgrade#
Number or Frontends, Simulation Processes, Solver Modules Number of Acceleration Tokens Import and Export Options Multiplatform Upgrade (Windows / Linux) Network Type (LAN, WAN, Node-Locked) Perpetual or Limited Term license CST STUDIO SUITE Graphical User Interfaceġ) NUMBER OF FRONTENDS, SIMULATION PROCESSES, AND SOLVER MODULES A license can be configured to the needs of each customer by making choices about the following parameters: All CST STUDIO SUITE solvers are seam-lessly integrated into a common interface. Applications include elec-tron guns, traveling wave tubes, magnetrons and wakefields.ĬST CABLE STUDIO (CST CS): for signal integrity and EMC/EMI analysis of cables and cable harnesses.ĬST PCB STUDIO (CST PCBS): for the simulation of signal and power integrity effects and EMC/EMI on printed circuit boards.ĬST MPHYSICS STUDIO (CST MPS): a multiphysics module for thermal simula-tions and mechanical stress analysis.ĬST DESIGN STUDIO (CST DS): a versatile tool that facilitates 3D EM/circuit co-simulation, system simulation and synthesis.ĬST STUDIO SUITE represents a highly modular concept in which each STUDIO product covers a certain frequency or application range. Applications areas include micro-waves & RF, optical applications, EDA/electronics and EMC/EMI.ĬST EM STUDIO (CST EMS): for the design and analysis of static and low frequency EM applications such as motors, sensors, actuators, transformers and shielding enclosures.ĬST PARTICLE STUDIO (CST PS): a specialized product dedicated to the fully consistent simulation of free-moving charged particles. ĬST MICROWAVE STUDIO (CST MWS): our industry-leading tool for the fast and accurate simulation of high frequency devices. Our standard terms & conditions are available at.
The described options and licensing policy are subject to change. This guide explains what licensing options exist and helps to choose the license confi guration that fi ts best your needs. This strategy of broad-band polarization conversion and its attempt to design a Cassegrain antenna lays a foundation for high-performance functional devices, promising great potential in real-world applications.CST MICROWAVE STUDIO | CST EM STUDIO | CST PARTICLE STUDIO CST PARTICLE STUDIO | CST CABLE STUDIO | CST EMC STUDIOĬST PCB STUDIO | CST MPHYSICS STUDIO | CST DESIGN STUDIO Then, by introducing a polarized grating as a subreflector and simultaneously fixing the designed metasurface as the main reflector, a planar Cassegrain antenna is facilitated with a low profile, high gain, and high polarization purity in a broad frequency band. With a hyperbolic phase profile imposed on the surface, a metasurface is engineered that can conduct both focusing and polarization conversion into its cross-polarization component.
#Cst microwave studio 2019 full#
A quasi- I-shaped meta-atom is first optimized with both high cross-polarization conversion efficiency and a full span of phase modulation in a broad bandwidth. We design a broadband cross-polarization conversion metasurface and apply it to form a directionally radiated Cassegrain antenna with a low profile and high polarization purity.
Polarization conversion has been widely explored in the study of metasurfaces in order to achieve broad operation bandwidths, but its application is still restricted to a few practical scenarios.