Front-End Modules
PRODUCTS AND SERVICES
Qorvo offers the QPB9325 highly integrated front-end module with operation in the 3.6 – 3.8 GHz frequency range ideally suited for TDD base station, wireless infrastructure, and macro or picocell base station applications. This LNA module integrates RF functional blocks such as a pin-diode based high power switch along with two LNA stages.
The SKY66431-11 is a multi-band multi-chip System-in Package (SiP) supporting 5G Massive IoT (LTE-M/NB-IoT) platforms.
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 SKY58107-31 meets strict 5G NR and LTE advanced requirements where wider bandwidth (100 MHz) and carrier aggregation are used for higher data rates.
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 SKY68031-11 is a hybrid, multi-band multi-chip RF front-end (RFFE) module supporting LTE-M/NB-IoT transceiver platforms. The module integrates the entire RF front end necessary for an LTE multi-band radio operating in low-band and mid-band frequencies.
The SKYA21043 is a highly integrated, 5 GHz front-end module (FEM) designed specifically for 802.11p V2V and V2X applications. The module incorporates a 5 GHz single-pole, double-throw (SPDT) transmit/receive (T/R) switch, a 5 GHz high-gain low-noise amplifier (LNA) with bypass, and a 5 GHz power amplifier (PA) intended for high-power 802.11p applications and systems.
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.