Antenna Magus is the most extensive antenna synthesis tool available today. It supports over 350 antenna types, which can be designed to meet the system criteria and exported to integrate seamlessly with your design workflow. Many additional tools and utilities useful for efficient antenna and array design or evaluation are also included.
Antenna Magus Learning Edition makes design capabilities for 12 popular antenna types available and can generate high quality simulation models of these designs. It can also be used to synthesize basic antenna arrays and includes a selection of useful utilities. All simulation models generated using Antenna Magus Learning Edition are fully compatible with CST Studio Suite and some models are also compatible with CST Studio Suite Student Edition
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Antenna Magus is a software tool for the acceleration of the antenna design and modeling process.
Validated antenna models can be exported to CST Studio Suite from a huge antenna database of over 350 antennas.
Antenna Magus has proven to be an invaluable aid to antenna design engineers and to anyone who requires antenna models for antenna placement and/or electromagnetic interference studies.
An engineer can make a more informed choice of antenna element, providing a good starting design and thus increasing efficiency.
The antennas listed below are available in the Antenna Magus database. For each of these antennas, Antenna Magus offers detailed information, synthesis algorithms, performance estimations and ready-to-run simulation models.
Antenna Magus is an expert system for antenna design that is suitable for a broad range of applications because of the number of antennas in its database. Its feature set is targeted at aiding engineers to get to the customisation phase of an antenna design quickly and reliably. Validated, parametric models of the initial design are exported seamlessly into FEKO or CST MICROWAVE STUDIO, where customisation can be done in tried-and-trusted analysis tools. Antenna Magus will expand both the number of antennas it can design and export, as well as in the number of analysis tools it interfaces with.
Antenna Magus is a new software tool to help engineers accelerate the antenna design and modelling process. It has a huge database of designed antennas which can be exported to CST MICROWAVE STUDIO for further analysis and optimization...
Antenna Magus is a new software tool to help engineers accelerate the antenna design and modelling process. It has a huge database of designed antennas which can be exported to CST MICROWAVE STUDIO for further analysis and optimization. This simplifies the day-to-day work of antenna designers and modellers ensuring that more projects are completed within specification and on time.
Antenna Magus offers an extensive database of antennas which is easily searchable. It not only highlights the unique characteristics of an antenna, but also gives other general information. This helps engineers find and select antennas according to given requirements as well as compare relevant information between antennas.
Its feature set is targeted at aiding engineers to get to the customisation phase of an antenna design quickly and reliably. Validated, parametric models of the initial design are exported seamlessly into CST MICROWAVE STUDIO, where in-depth analysis and optimization can be performed.
It is expected that Antenna Magus will become an invaluable aid to antenna design engineers, to EMC engineers requiring antenna models and to system integrators who require antenna models for antenna placement studies.
- Evaluate Antenna Magus For Free -
The evaluation version is limited to only a few antennas but is fully functional, so you can explore the database, design, estimate performance, and export your chosen antenna design to CST MICROWAVE STUDIO.
I wonder if anyone have experience with adding e.g. 10dB antenna gain, and getting signals further out (how much on a regular basis)? Or is this simply a matter of limititations by the geometry of curvature & height?
You can easily determine your max range set by curvature of earth, terrain, and height of antenna by method given in first post of the following thread. If it is more than what you get now, you can consider using a high gain antenna or an amplifier.
Thanks for the replies guys. Yes I know I would have to ask Flightaware for approval, before changing antenna (or adding diversity antennas). But my post here was just to hear what other have experienced, using yagis.
For now I will just move the antenna slightly, so its above of my other antenna on the chimney.
Later I will get rid of the 15m long feedline, and place the receiver close to the antenna.
I cannot use preamp here, as I transmit 1kW on HF & 50MHz nearby.
There is a built in bandpassfilter in the unit, but filters are not infinite, so using 1kW close to the antenna will probably overload the receiver somewhat, even if its 1GHz lower. I looked at the settings on the F.A. receiver (v10) now, but it was no way to change gain settings using the screen.
Antennas are crucial parts of any connected device, from phones to medical implants. With so many different use cases and frequencies, there is a bewildering range of antenna types all suited to various applications.
For example, a Bluetooth earpiece requires an antenna is small, cheap, and omnidirectional, while a spacecraft may require a high-power, high-gain antenna capable of receiving very faint signals from earth.
The first step is to find which antenna designs can meet the specifications. Antenna Magus contains a library of over 300 antenna types, each tagged according to their properties. For common applications such as Wi-Fi and GPS, Antenna Magus offers pre-defined Specifications which can be chosen immediately upon starting a project. For bespoke applications, a custom Specification is created, which can be stored for re-use in future projects.
Once the individual antennas have been optimized, the entire system can then be simulated. Simulating an entire football field with multiple sensor and tag antennas as a single 3D model would be challenging. Instead, each antenna can be simulated individually and the generated fields can be exported as a farfield or nearfield source. This source replaces the detailed antenna model in the system simulation, significantly reducing the computational requirements of the calculation.
Antenna Magus is a tool created to help accelerate the antenna design and modelling process. Its huge database of over 250 antennas can be explored to choose the optimal topology, which can be designed to meet the system criteria and exported to seamlessly integrate with your design workflow. Validated antenna models can be exported to CST MICROWAVE STUDIO from a huge antenna database which means that the engineer can get to the customisation phase of an antenna design quickly and reliably.
Antenna Magus is a software tool for the acceleration of the antenna design and modeling process. Validated antenna models can be exported to CST Studio Suite from a huge antenna database of over 350 antennas.
Antenna Magus is a software product for the design and simulation of various types of antennas, including a database of models (more than 350) that can be subsequently exported to the CST Studio Suite for analysis and optimization. Antenna Magus is an indispensable tool for modeling antenna placement in space and studying electromagnetic interference. With Antenna Magus, antenna designers, EMC specialists, and system integrators involved in large-scale antenna site evaluations can make the most informed decision regarding the selection and placement of antenna design elements to improve antenna performance.
The new version of Antenna Magus adds a range of printed antennas ranging from broadband LTSAs to extremely compact WLAN monopoles. Particular attention should be paid to the new model of a two-band PIFA antenna, which is widely used in mobile devices of the GSM 900/1800 standard. It is notable for the ability to take into account parasitic elements that form an additional bandwidth (when compared with classic PIFA antennas previously available in Antenna Magus).
A number of dielectric leaky antennas have been added, as well as a multimode cone horn with a helical dielectric insert. Although there are many implementations available for dielectric rod antennas, in most cases they are a tapered rod of circular or rectangular cross section. In this case, the feeder waveguide excites part of the input power in the form of a surface wave propagating along the rod with minimal reflection. The resulting wave begins to radiate continuously, gradually transforming from a limited to a wave in free space.
Also added to Antenna Magus are a number of practical models of broadband planar helical antennas with an additional absorbing layer. Layers of absorbing material are used to produce unidirectional radiation while maintaining the multi-octave working range of helical radiators.
Antenna Magus is an expert system for antenna design which is suitable for a broad range of applications because of the number of antennas in its database. Its feature set is targeted at aiding engineers get to the customization phase of an antenna design quickly and reliably. Validated, parametric models of the initial design are exported seamlessly into FEKO or CST MICROWAVE STUDIO, where customization can be done in tried-and-trusted analysis tools. Antenna Magus will expand both the number of antennas it can design and export, as well as in the number of analysis tools it interfaces with.
Magus (Pty) Ltd develops antenna design software. Antennas designed using its software can be used in a wide variety of applications at various frequency bands, including, but not limited to, telecommunications, mobile devices, aerospace, satellite, automotive, radio astronomy and defense.
FEKO is a comprehensive computational electromagnetics code (CEM code) used widely in the telecommunications-, automobile- , space- and defense-industry. FEKO offers several solution techniques (MoM, MLFMM, PO, UTD and FEM) enabling the analysis of a very broad spectrum of EM problems e.g. 3D antenna design, antenna placement on electrically large structures, microstrip-antennas, microstrip-circuits, EMC, biomedical and scattering. FEKO has a well established global distribution and technical support network. 17dc91bb1f