Antenna Magus is a software tool to help accelerate the antenna design and modeling process. It increases efficiency by helping the engineer to make a more informed choice of antenna element, providing a good starting design. Validated antenna models can be exported to CST Studio Suite from a huge antenna database of over 330 antennas, which means that the engineer can get to the customization phase of an antenna design quickly and reliably.
Fest3D is a software tool capable of analyzing complex passive microwave components based on waveguide and coaxial cavity technology in very short computational times with high accuracy. This suite offers all the capabilities needed for the design of passive components such as optimization and tolerance analysis. Moreover, Fest3D advanced synthesis tools allow designing bandpass, dual-mode and lowpass filters from user specifications.
Idem is a user friendly tool for the generation of macromodels of linear lumped multi-port structures (e.g., via fields, connectors, packages, discontinuities, etc.), known from their input-output port responses. The raw characterization of the structure can come from measurement or simulation, either in frequency domain or in time domain. A suite of advanced and well conditioned rational fitting modules grants applicability to virtually any kind of characterization. The resulting models are cast in common SPICE formats for the system-level simulations required in your design flow. Thus, Idem enables SPICE processing for any kind of linear structure, component, interconnect, package, whatever your native characterization and application area.
Spark3D is a unique simulation tool for determining the RF breakdown power level in a wide variety of passive devices, including those based on cavities, waveguides, microstrip and antennas. Field results from CST Studio Suite® simulations can be imported directly into Spark3D to analyze vacuum breakdown (multipactor) and gas discharge. From this, Spark3D calculates the maximum power that the device can handle without causing discharge effects.