Front-End Modules

The SKY58277-31 Front-End Module (FEM) for LTE and NR is a new addition to the Skyworks Sky5 portfolio of 5G technology products. This versatile and fully matched FEM supports ultra-high band 4G/5G and LTE/NR applications.

The SKY55951-11 front-end module (FEM) features an integrated L1 low-noise amplifier (LNA) and post-filter along with an L5 LNA and post-filter designed for Global Navigation Satellite System (GNSS) receiver applications.

The SKY58107-31 meets strict 5G NR and LTE advanced requirements where wider bandwidth (100 MHz) and carrier aggregation are used for higher data rates.

Qorvo offers the new QPB9318 highly integrated front-end module with operation in the 2.3 – 2.8 GHz frequency range for TDD base station, wireless infrastructure, small cell BTS, and pre-5G/5G massive MIMO applications. This LNA module integrates a two-stage LNA and a high power switch in a dual-channel configuration.

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. 

The RFFM8500Q is a 4.9GHz - 5.85GHz high-linearity Front End Module (FEM) integrated with a power amplifier (PA), a single pole double throw (SPDT) switch, an LNA and a power detector coupler to improve accuracy and meet RF front end needs for an IEEE 802.11 a/n WiFi system.

QPF5005 is a multi-die front-end module (FEM) designed for 8 - 12 GHz X-Band applications.

Qorvo offers a front end module (FEM) and two low noise amplifiers (LNAs) designed specifically for Wi-Fi applications such as access points and wireless routers.