Mouser announces availability of Qorvo's QPF4656, QPF4730 Wi-Fi 6 and 6E FEMs - IoT global network

Press Releases

Mouser announces availability of Qorvo’s QPF4656, QPF4730 Wi-Fi 6 and 6E FEMs

October 7, 2022

Posted by: Shriya Raban

3 October 2022 – Mouser Electronics, Inc., the New Product Introduction (NPI) distributor with the widest selection of semiconductors and electronic components, is now stocking the QPF4656 and QPF4730 Wi-Fi 6 and 6E (802.11ax) front end modules (FEMs) from Qorvo. The FEMs tap into the full potential of the Wi-Fi 6E spectrum while also delivering up to 25% more power efficiency than current competitive solutions. Their small form factors and integrated matching help minimise layout area while providing substantial cost, size and thermal performance advantages.

Both FEMs incorporate a single-pole two-throw switch (SP2T), and a bypassable low noise amplifier (LNA) with a 5.945 GHz to 7.125 GHz power amplifier (QPF4656) or a 5.1 GHz to 7.125 GHz power amplifier (QPF4730). The FEMs provide transmit (Tx) gain values ranging from 30 to 32 dB and receive (Rx) gain of 14.5 dB, with noise figures of 2 dB.

The FEMs conserve power consumption while maintaining high linear output power and edge throughput at the maximum power levels supported by Wi-Fi 6E’s extended bandwidth. This wide bandwidth performance feature enables the operation of the QPF4656 in all channels from UNII5-8 (5.9 – 7.1 GHz) and the QPF4730 operation in all channels from UNII1-8 (5.1 – 7.1GHz) on the fly without any logic switching. The FEMs include die-level filtering for second and third harmonics, 2.4 GHz rejection for DBDC operation, and a voltage detector for application feedback. The QPF4632 also includes a coupler RF power detector.

Applications for the FEMs include access points, residential gateways, customer premises equipment, and Internet of Things (IoT) devices.

For development, Mouser also offers the QPF4656EVB and QPF4730EVB evaluation boards.

To learn more about the QPF4656 FEM, visit: here.

For more information about the QPF4730 FEM, go to here.

Comment on this article below or via Twitter @IoTGN