The new NI AWR Design Environment™ V12.02 is an all-inclusive simulator system composed of Microwave Office, Visual System Simulator™ (VSS), Analog Office, AXIEM, and Analyst™. The new system is an advanced version of the V12, offering new load-pull features as well as improvements to the Analyst 3D element method electromagnetic simulator and layout, and to NI AWR Design Environment modeling, scripting, and stability analysis.
The challenges involved with measuring an antenna’s radiation characteristics when it’s mounted on a large platform stem from the fact that it’s very difficult to accurately simulate an antenna’s interaction with an electrically large environment.
Antenna technology is constantly advancing to meet the growing demands of industry. Likewise, Remcom has been keeping pace in order to provide engineers with a suite of tools that match their processes and help them meet their design requirements.
Some of the antenna analysis areas Remcom specializes in include:
For more than 20 years, one of the fields in which IDS Ingegneria Dei Sistemi has been involved is the design, prototyping and analysis of a large variety of specialized high technology and high performance antennas, from VHF to millimeter wave antennas.
HUBER+SUHNER offers an array of antenna solutions customized to meet specific application needs. Various modifications can be made including an individual bracket for faster installation, tailored lengths for saving space, and standard labels for simplifying logistics.
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...
HUBER+SUHNER develops and produces an extensive portfolio of directional and omni-directional antennas for a wide range of indoor and outdoor wireless connections. Among these antennas include Distributed Antenna Systems (DAS) for indoor coverage of mobile communication voice and data traffic, antennas with low visual impact and high data-traffic, and many other antennas optimized for wireless transportation communications, WLAN, and WiFi applications.
Antenna engineers favor advanced antenna systems capable of beam steering and multiple data stream transmission in order to meet 5G throughput requirements. Designing such a device is a difficult task because many factors are involved a device’s performance:
XFdtd and Wireless InSite ensure a comprehensive device design process, from simulating the initial antenna pattern to computing throughput performance in a multipath channel model. Together the products ensure a device will work well in its intended environment.