Products and Services

  1. GPS Filter-LNA Front-End Module: ALM-1912
    12/2/2009
    The Avago ALM-1912 is a GPS front-end module that combines a GPS FBAR filter with High-gain Low-noise amplifier (LNA). The LNA uses Avago's proprietary GaAs enhancement-mode pHEMT process to achieve high gain with very low noise figure and high linearity.
  2. 5 GHz 802.11ac Front-End Module: SKY85717-21
    5/18/2016

    Skyworks offers the SKY85717-21 as a highly-integrated, 5 GHz front-end module comprised of a 5 GHz single-pole, double-throw (SPDT) transmit/receive switch, a 5 GHz low noise amplifier with bypass, and a 5 GHz power amplifier. The module is ideal for 802.11 ac set-top boxes, networking, personal computer systems, and WLAN enabled wireless video systems.

  3. 2 GHz To 5 GHz Front-End Modules For 802.11ax WLAN Applications
    1/8/2018

    Skyworks offers four new front end modules operating in frequencies from 2 GHz to 5 GHz. They are designed to provide full functionality of a fully matched power amplifier (PA), power detector, harmonic filter, and low-noise amplifier (LNA). They are ideal for networking and personal computing systems, PC cards, PCMCIA cards, mini-cards, half mini-cards, and WLAN-enabled wireless video systems.

  4. Front End Module (FEM) for WiMAX Applications: RFFM7600
    5/21/2012

    This Front End Module (FEM) is ideal for applications involving WiMAX, LTE TDD, Customer Premises Equipment (CPE), Data Card and Terminals, and Spread-Spectrum and MMDS Systems.

  5. Front End Module (FEM) for ISM Band Applications: RFFM6403
    1/31/2013

    This front end module is an ideal solution for applications involving wireless automatic metering, portable battery powered equipment, Smart Energy, the 400 MHz ISM band, and other areas that require a solution that complies with the need for size reduction and a reduction in the number of components outside of the core chipset.

  6. 3.3V, 2.4GHz Front End Module: RF6505
    8/9/2011
    The RF6505 3.3V, 2.4GHz Front End Module integrates a complete solution in a single Front End Module (FEM) for WLAN and ZigBee® applications in the 2.4 GHz to 2.5 GHz band. This FEM integrates the PA plus harmonic filter in the transmit path and the LNA with bypass mode in the receive side. It provides a single balanced TDD access for RX and TX paths along with two ports on the output for connecting a diversity solution or a test port.
  7. GPS Filter-LNA-Filter Front-End Module: ALM-2712
    3/29/2010
    Avago Technologies’ GPS Filter-LNA-Filter Front-End Module: ALM-2712 is an ultra low-noise GPS front-end module that combines a low-noise amplifier (LNA) with GPS FBAR filters. The LNA uses Avago Technologies’ proprietary GaAs Enhancement-mode pHEMT process to achieve high gain with very low noise figure and high linearity.
  8. WiFi Front End Modules
    12/5/2012

    These WiFi Front End Modules are ideal for applications involving gaming, Smart Energy, tablets, mobile devices, netbooks/notebooks, TV/Monitors/Video, cellular handsets, and more. These high performance FEMs feature excellent linearity, a wide voltage supply range, input and output matched to 50 ohms (resulting in a high level of integration) a low height package (ideal for SiP and CoB designs), and much more.

  9. 5 GHz WLAN Front-End Module: SKY85712-21
    1/20/2017

    Skyworks offers the SKY85712-21 as a highly-integrated, 5 GHz front-end module comprised of a 5 GHz single-pole, double-throw (SPDT) transmit/receive switch, a 5 GHz low noise amplifier with bypass, and a 5 GHz power amplifier. The module is ideal for 802.11 ac networking, personal computer systems, and WLAN enabled wireless systems.

  10. 860 To 930 MHz RF Front-End Modules For High-Power Industrial, Scientific, Medical (ISM) Band Applications
    5/21/2018

    Skyworks’ newest family of compact, high performance RF front-end modules (FEMs) is specifically designed for LPWAN – supporting LoRa®, SigFox and other unlicensed band technologies – as well as high-power Industrial, Scientific, Medical (ISM) applications operating in the 860-930 MHz frequency range.  These new solutions deliver improved sensitivity and more than quadruple the operating range versus a standalone system-on-chip (SoC). They also occupy minimal board space and consume low power, making them ideal for IoT and industrial platforms including sensors, beacons, smartwatches, thermostats, wireless cameras, medical pendants and smoke and CO detectors.