- 13th October 2021
4:00 pm - 5:00 pm
13 October 2021
11 AM EST / 4 PM BST / 8:30 PM IST
Learn how FreeFall Aerospace is using Ansys HFSS to design their innovative antenna system that features a dramatic increase in data rate with minimum mass, power, complexity and cost.
FreeFall Aerospace is developing revolutionary new antenna technology for ground, air and space.
Learn how FreeFall Aerospace is using Ansys HFSS to design their innovative antenna system that features a dramatic increase in data rate with minimum mass, power, complexity and cost.
During this webinar, we’ll learn how the ability of Ansys HFSS to solve multiple simulation challenges in different domains enabled FreeFall engineers to analyze performance and make design changes more quickly and with better data. Learn more about:
- HFSS automatic meshing capabilities to deliver reliable and accurate results.
- HFSS finite element method (FEM) without limits on design types that can be simulated.
- HFSS Optimetrics and HPC, allowing parallel simulation of multiple design points.
- Intuitive simulation interface providing more granular control over the simulation process.
Registration / Further Information
Simply choose one of the following options to receive further information or to register.
- Complete the form opposite
- Call us on +44 (0)161 474 6886
- Email us at events@WildeAnalysis.co.uk
Please note that this event is free to attend but registration is essential. If you are unable to attend the webinar, please register to receive a copy of the recording when it becomes available.
Location
Venue: Online
Address:
Description:
Details on how to join the webinar will be emailed to you once registered.
Learn more about:
- HFSS automatic meshing capabilities to deliver reliable and accurate results.
- HFSS finite element method (FEM) without limits on design types that can be simulated.
- HFSS Optimetrics and HPC, allowing parallel simulation of multiple design points.
- Intuitive simulation interface providing more granular control over the simulation process.