HYBRID EVENT:
November 23rd, 2022, 3-4 PM
Virtual
Prototyping
by Ole Wolff
How to speed up development processes
through simulations
hosted by
Sound Hub Denmark
Peter Bangs Vej 17
7600 Struer
Learn to reduce time from idea to finished product
Short time to market is crucial for a successful launch. The needs for more frequent update cycles require shorter development cycles. New ways of reducing time from idea to finished product is therefore in high demand.
Learn how to reduce the number of physical prototypes, when we invite in for Virtual Prototyping seminar together with Ole Wolff.
Discover how design optimizations through simulations create value, and experience the knowledge that virtual prototypes brings into the design steps and development workflow through design examples of small speaker- and earphone applications. And learn how Ole Wolff utilizes tools such as Comsol Multiphysics ™ and SoundCheck ™ to help customers reach performance targets faster.
Come and join us! Now is your chance to learn from experts at Ole Wolff — one of the leaders in providing custom-designed solutions for a wide range of first-tier companies in the consumer electronic sector.
You are welcome to join physically at Sound Hub or on-line by using below Teams link.
Teams link
Programme
2:50 PM
Check-in of on-line guests via Teams link
Coffee and snacks served for physical attendees
3 PM
Welcome by Sound Hub Denmark
and Per Christian Jensen, R&D engineer at Ole Wolff
3 PM - 3:45 PM
Virtual Prototyping
Faster prototyping - Processes, simulations and measurements
3:45 PM - 4 PM
Sum up incl. Q&As
Note
A public event for product developers and engineering students.
...
Sign up below.
No sign-up fee applied.
Opportunity for mingling and tour
at Sound Hub Denmark after the seminar
Automatic registration in Sound Hub Denmark database upon sign-up and shared with Ole Wolff
3D finite element simulation using Comsol Multiphysics™, Equivalent diagram based on custom-made acoustic modules, 2D & 3D magnetic and diaphragm simulations, System performance simulations based on Thiele Small parameters, Optimization of transducer’s parameters and structures based on acoustic requirements and cost.
