Front-End Modules
PRODUCTS AND SERVICES
Qorvo’s integrated front end modules (FEMs) are included with a compact form factor and integrated matching that minimizes the layout area in Wi-Fi 802.11 a/n/ac and 802.11 b/g/n system applications. Their performance is focused on conserving power consumption while maintaining the highest linear output power and leading edge throughput.
he QPM2637 is a Gallium Nitride MMIC front-end module (FEM) designed for X-Band radar applications within the 9-10.5 GHz range. The MMIC combines a T/R switch, low-noise amplifier, and a power amplifier. The receive path has dual-outputs which offer 21dB gain and 2.7dB noise figure. The transmit path delivers 4W of saturated power with 23dB large signal gain. The FEM is robust up to 4W of input power into the ANT port eliminating the need for a limiter.
QPF4209 is a Wi-Fi 7 front end module that integrates a PA, SP2T switch, and LNA. It offers optimized performance, low power consumption, and a compact design.
The SKY66122-11 is a high-performance, highly integrated RF front-end module (FEM) designed for high-power Industrial, Scientific, Medical (ISM) band, Wi-SUN, and other IOT applications operating in the 863 to 928 MHz frequency range.
The Qorvo QPF4656 is an integrated front end module (FEM) designed for Wi-Fi 6 & 6E (802.11ax) systems. The small form factor and integrated matching minimizes layout area in the application.
Qorvo offers the QPF4551 integrated front end module (FEM) for Wi-Fi 6 (802.11ax) systems. With a compact form factor and integrated matching, this module minimizes the layout area required for its application. It is ideally used for access points, wireless routers, residential gateways, residential gateways, premise equipment, and Internet of Things applications.
The QPB9378 is a highly integrated RF front-end module targeted for 5G TDD base stations. The module integrates a two-stage LNA and a high-power SPDT switch in a dual-channel configuration.
The SKY53759-11 is a highly integrated LNA filter module that enables users to support new 5G New Radio (NR) bands in the 3.3 to 4.2 GHz frequency ranges.