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FEKO Suite 6.2 introduces several completely new features to FEKO. Characteristic mode analysis (CMA) is the numerical calculation of a weighted set of orthogonal current-modes that are supported on conducting bodies (similar to waveguide modes). The eigencurrents are independent of any specific source or excitation and thus only depend on the shape and size of the conducting body.
Antenna Magus is the first antenna design tool of its kind. Its huge searchable collection of antennas can be explored to find, design and export models of the designed antennas to FEKO for further analysis, optimization or integration and placement on platforms.
FEKO offers several techniques (MoM, MLFMM, FEM, asymptopic high frequency PO, GO, UTD) and special extensions for the efficient solution of a broad spectrum of RF problems in a single code. Applications include analysis and design of antennas, antenna placement, scattering, RF and waveguide components, EMC, and radiation hazards.
Optenni Ltd. announces a new version of the Optenni Lab matching circuit optimization and antenna analysis software featuring a unique easy-to-use simultaneous multiport matching capability for antennas and other RF applications.
Read MoreNow in its 11th year, the FEKO Student Competition is open to all under-graduates and post-graduates who work on a supervised project in electromagnetic engineering and make use of FEKO. This annual competition is organised to give students an opportunity to showcase their work.
Read MoreOptenni Ltd has signed worldwide distribution agreements for the Optenni Lab matching circuit optimization software with both Computer Simulation Technology AG (CST) and EM Software & Systems-S.A. (Pty) Ltd (EMSS).
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MAGUS Ltd, EMSS Ltd., and CST AG, announced the version 4.0 release of Antenna Magus. It has crossed the 200 antenna mark, giving rise to the claims that it is the world’s leading antenna design tool.
Matching circuits for antennas and other RF components based on 3D models can now be easily optimized by designers who use FEKO together with Optenni Lab.
Introduction to 6.2, the latest version of the product, which offers new tools that provide more flexibility and deeper insights
Read MorePresents a detailed workflow for the design of a four-element transceiver array for 3 Tesla cardiac MRI with sufficient mutual decoupling and good field coverage
Read MoreDetails the complete workflow of an antenna design for the LTE mobile phone applications, starting from the antenna design to the bit rate channel capacity calculations
Read MoreThis introduction to FEKO formed part of the Altair Hyperworks Partner Alliance (http://www.hyperworksalliance.com) Introductory Webinar Series, presented in August 2011.
In this paper the authors investigate and present a patent pending novel micro-strip coupler structure that exhibits very low RF insertion loss (high coupling) while insuring high electrical isolation (>10kV) between the wireless Network Interface Card (NIC) RF connection and the external antenna.
DownloadMicrostrip filters, planar antennas and other RF structures are solved efficiently using the planar Green's function. Only the stripline or antenna needs to be discretised with this method. Ground planes are treated implicitly by the formulation and do not add to the number of unknowns.
DownloadAntennas are increasingly incorporated into the windscreens of automobiles. FEKO has a special formulation to design the antenna and calculate the effect of the vehicle on the radiation pattern of the antenna.
DownloadThe combination of the integral equation (MoM) and the differential equation (FEM) solvers allows the efficient solution of real world radiation hazard problems e.g. calculating the effect of an antenna's radiation on humans sitting inside a vehicle. SAR is calculated according to international standards.
DownloadThe combined MoM and the Multi-conductor Transmission Line (MTL) theory enables the analysis of coupling into and radiation from cable harnesses in their real-world environments.
DownloadSeveral extensions and special solvers are used in FEKO for efficient EMC analysis, e.g. adaptive frequency interpolation, cable harness analysis, SAR calculation, low frequency stabilisation, time domain analysis. Applications include shielding and coupling investigations, reverberation chamber design and EMC test environment modelling.
DownloadOffering both a MoM and a FEM solver FEKO is well-suited for the full-wave analysis of waveguide structures e.g. Magic-T coupler, slotted waveguide antenna, cavity- and waveguide filters. Port modes are specified or calculated and near-fields and S-parameters are extracted with ease.
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A case study, showing the design of an array antenna for the proximity fuse of an air defence missile, is performed to illustrate the combined use of Antenna Magus and FEKO.
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