Sivers Semiconductors launches new state-of-the-art 28 GHz 5G mmWave RF Module at Mobile World Congress 2024
NEW YORK ,
Module BFM02803 – presented at the
The BFM02803 supports 2x2 MIMO with dual-layer polarization in both downlink and uplink for channels up to 1.2 GHz. The new module includes 32 dual-polarized antenna elements with 2D beam steering capabilities, in azimuth and elevation.
"
Autonomous calibration routines and simple baseband interfaces make the module easy to install and manage. With the use of an air-filled cavity in the PCB, the module is optimized for large-scale, low-loss, and low-cost assembly. Additionally, transmitted power greater than +50 dBm per polarization enables FWA product deployments in the most diverse applications with the lowest total cost of ownership.
The module BMF02803 will be showcased in a live demonstration of a fully-functioning and deployment-ready base station reference design based on NXP's Layerscape® Access LA12xx baseband processor,
The BMF02803 module is available for customer sampling.
The TRB02801 RFIC is available for volume production.
More information about this state-of-the-art 28GHz 5G mmWave RF module and live-demonstration will be presented at
To connect with us, stop by our booth or send an email to: sales@sivers-wireless.com
About BFM02803:
https://www.sivers-semiconductors.com/sivers-wireless/wireless-products/rf-modules/bfm02803/
About TRB02801:
https://www.sivers-semiconductors.com/sivers-wireless/wireless-products/rfics-and-bfics-for-licensed-and-unlicensed-5g/trb02801/
For more information please contact:
Tel: +46 70 262 6390
E-mail: anders.storm@sivers-semiconductors.com
The following files are available for download:
Sivers Semicondcutors@MWC_Product Launch PR_ENG_240226_Final |
|
https://news.cision.com/sivers-semiconductors/i/bfm02803-,c3271169 |
BFM02803 |
View original content:https://www.prnewswire.com/news-releases/sivers-semiconductors-launches-new-state-of-the-art-28-ghz-5g-mmwave-rf-module-at-mobile-world-congress-2024-302070808.html
SOURCE