Front-End Modules

The SKY66431-11 is a multi-band multi-chip System-in Package (SiP) supporting 5G Massive IoT (LTE-M/NB-IoT) platforms.

QPF0219 is a multi-chip Front-End Module (FEM) designed for 2-18 GHz Wide-Band radar applications. The FEM integrates a T/R switch, a limiter, a low-noise amplifier and a power amplifier.

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.

Qorvo presents a new series of high-linearity 2.5 GHz Front-End Modules (FEMs) built for automotive Wi-Fi applications, 802.11b/g/n, and Bluetooth^® systems. These devices feature integrated b/g/n power amplifiers, directional power detectors, RX balun, and TX filtering. Each FEM contains an ultra-small form factor and integrated matching that greatly reduces the number of external components and layout area in the customer application.

Qorvo offers the QPF4530 integrated front end module (FEM) for Wi-Fi 5 (802.11ac) systems. The QPF4530 integrates a 5 GHz power amplifier (PA), regulator, single pole two throw switch (SP2T), bypassable low noise amplifier (LNA) into a single device. With a compact form factor and integrated matching, this module minimizes the layout area required for its application.

The Qorvo QPF7250 is an integrated front end module (iFEM) designed for Wi-Fi 6 (802.11ax) systems which marries the advantages of active components with edgeBoost filter technology.

The QPF4010 is a high frequency, high performance MMIC front-end module targeted for 5G - n258 at 26 GHz phased array base stations and terminals. It is fabricated on Qorvo's 90 nm pHEMT production process and combines a low noise high linearity LNA, a low insertion-loss high-isolation TR switch, and a high-efficiency multi-stage PA.

The SKY85334-11 and SKY85750-11 are 2.4 GHz and 5 GHz front-end modules (FEMs) respectively, and compliment Skyworks' expansive portfolio of FEMs designed for growing retail, carrier and enterprise Wi-Fi 6 applications. The modules offer high linearity, low power dissipation, and efficiency for access points, routers and gateways where regulatory, thermals or Power-over-Ethernet limitations demand low current consumption. These highly integrated FEMs incorporate switching, low-noise amplifier (LNA) with bypass and power amplifier (PA) and are housed in a compact package.