Following the success in the low-frequency applications, we decided to move to the microwaves with the same mission - to democratize the simulation software, make it accessible for every engineer. Mihails Scepanskis: “Two years ago we launched a specialized induction heating simulation software to cover the growing demand in the SME sector - smaller equipment manufacturers, tooling shops, and production plants. It is specialized for the simulation of microstrip- and wire-type antennas that include various geometries (fractal, helix, horn, loop, slot, patch, spiral, and others), as well as dipole and monopole antennas.ĬENOS co-founder Dr. For instance, the software is good for high Q, multi-port simulations with arbitrary 3D structures. Therefore, the results provided by CENOS are accurate for wide ranges of geometries and antennas, including very complex geometries. After a year of development and testing in close cooperation with its avid beta-tester community, the Antenna Design simulation software was finally released for public use at the end of April, 2021.ĬENOS Antenna Design is an intuitive FEM-based software that helps engineers to speed up RF antenna design, it solves Maxwell’s equations directly with no simplifications or limitations. Design radar absorbing materials (RAM).Electromagnetics simulation software company CENOS (Riga, Latvia) continues on its mission to democratize simulation software by releasing its newest application designed for radio frequency and antenna design engineers.ĬENOS released its first electromagnetics simulation software focused on the induction heating applications in 2019 and it proved to be a success - mainly because of the simple and straightforward user experience and the specialization and focus on a single industry.Design efficient radomes to protect and hide the antenna.Study the effect of the environment on the antenna performance, especially the ground.Study the effect of material and dimension on the antenna and field parameters.Account for both dielectric and conductor losses.Study the effect of radomes on the antenna parameters.Optimize the noise rejection of a receiving antenna.Respect the power rating of a transmitting antenna to avoid sparking and arcing.Achieve a good matching over a frequency range.Maximize the ratio of the radiation resistance to ohmic resistance of an antenna.Compute the resonant frequency of an antenna.Obtain the radiation pattern of any antenna over a frequency range.Obtain the vector frequency response of arbitrary 3D antenna structures.This antenna software module also helps you validate existing antenna designs and study a plethora of antenna design issues, including:
The antenna design module of HFWorks helps you optimize your antenna design by simulating various “what if” scenarios to meet the stringent requirements imposed by the Internet of Things and the 5G mobile technologies.
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