Copenhagen : NeoCortec is exhibiting at electronica in Munich, Germany from 15th to 18th November 2022 in Hall B5 Stand W11. Visitors will be able to talk with the technical experts from NeoCortec about their NeoMesh wireless mesh networking protocol and updated software stack and learn why they are ideally suited for specific wireless sensor network installations.
On 17th November from 16h-16.30h Thomas Steen Halkier, CEO of NeoCortec, will be giving a presentation entitled ‘Mesh networks – limitations and possibilities’ at the ‘Wireless Congress: Systems & Applications’ organised by German electronics magazine ‘Elektronik’ and running in parallel to electronica at the ICM – International Congress Center Messe München on 16th and 17th November.
The presentation will explain in detail how NeoMesh networks work and what the differences are compared to the other wireless technologies available on the market today. In addition, it will provide some application examples where NeoMesh is applied. There is no wireless technology that is perfect for all applications, therefore it is vital for design engineers to understand how the different technologies compare and how to best select the correct wireless technology for the next product design. For further information please visit: https://electronica.de/de/rahmenprogramm/electronica-conferences/wireless-congress/
NeoCortec develops mesh technologies and solutions for wireless sensor networks, enabling large-scale routing networks to operate in real time while simultaneously reducing power consumption. The unique NeoCortec protocol stack is offered for both 2.4GHz as well as sub 1GHz frequency bands, delivered in a series of pre-approved modules. Cost efficient and easy to integrate, the modules suit a broad range of applications based on IoT and Cloud-based sensor networks, including smart home and smart workplace, metering, security, agriculture, transportation, industry 4.0, medical and food distribution. All NeoCortec modules share the same tiny 11x18x2.6mm footprint, so the target product does not need to change to support a full range of frequency bands. Average power consumption is as low as 20 microA.