FEMs

  1. Front-End Solutions for LTE Platforms
    3/9/2015

    Skyworks offers a family of LTE devices comprised of power amplifier modules and front-end modules for a suite of scalable and reconfigurable front-end system solutions for a variety of emerging communications markets.

  2. Low-Noise Amplifier Front-End Module With GPS/GNSS/BDS Pre- And Post-Filters: SKY65903-11
    5/17/2016

    Skyworks offers the SKY65903-11 front-end module (FEM) with an integrated low-noise amplifier (LNA) and pre- and post-filters that is ideal for GPS/GNSS/BDS receiver applications. The LNA uses surface-mount technology (SMT) in the form of a 2.5 x 2.5 mm Multi-Chip Module (MCM) package, which allows for a highly manufacturable and low-cost module solution.

  3. Low-Noise Amplifier Front-End Modules With BDS/GPS/GNSS Pre-Filters
    12/28/2015

    The SKY65713-11 and SKY65715-81 are global navigation front-end modules (FEM) with integrated low-noise amplifiers (LNA) and pre-filters designed for Beidou Global Positioning System/Global Navigation Satellite System (BDS/GPS/GNSS) receiver applications. These devices feature high linearity, excellent gain, a high 1 dB input compression point (IP1dB), and a superior noise figure.

  4. Miniature FEMs for 2.5G and 3G/4G Handsets: SkyOne™ Mini
    3/28/2015

    Skyworks’ SkyOne™ is a family of scalable Front-end-modules (FEMs) that integrate all of the high-performance RF and analog content between a transceiver and antenna. This platform supports carrier aggregation, additional frequency bands, and industry-leading baseboards with MIPI® interfaces, and the SkyOne® Mini is designed for those looking for the full functionality it provides, but at a reduced cost and size.

  5. Reduce Complexity in Next Gen Smartphones
    3/25/2015

    The SkyOne® family of scalable devices integrates high-performance RF and analog content between a smartphone or tablet’s transceiver and antenna. The SkyOne Ultra is comprised of a PA block, separate WCDMA blocks operating in low bands, and a logic control block. It’s ideal for multiband 3G handsets, multiband FDD LTE handsets, and WCDMA/LTE applications.

  6. SkyLiTE™ 2.0 Next Generation Front-End Solutions Powering LTE Devices
    4/14/2016

    The SkyLiTE™ 2.0 Front-End Modules are part of a highly integrated platform enabling smartphone manufacturers with complete front-end systems that meet today’s carrier aggregation (CA) design challenges. These devices are baseband agnostic and are designed to incorporate the amplification, switching, Wi-Fi filtering, and coupler functionality required to support all major FDD/TDD bands. SkyLiTE™ 2.0 addresses new global downlink CA performance standards with an integrated diplexer and harmonic filtering functionality. This series is optimized for regional use, providing OEMs with scalable and reconfigurable architectures for faster time to market.

  7. SkyOne® Ultra 2.0 Front-End Module For FDD/TDD LTE Bands: SKY78117
    5/31/2016

    The SKY78117 SkyOne® Ultra 2.0 is a multimode multiband front-end module (FEM) designed for optimal performance in FDD/TDD LTE-modulated handsets for bands 7, 30, 38, 40, and 41. The RF input and output ports are internally matched to 50 ohms which minimizes the need for external components.

  8. SkyOne® Ultra 2.0 Front-End Module For WCDMA/LTE Bands: SKY78113
    5/31/2016

    The SKY78113 SkyOne® Ultra 2.0 is a multimode multiband front-end module (FEM) designed for optimal performance in CDMA/WCDMA/HSPA/HSPA+/FDD LTE-modulated handsets for bands 26, 8, 12/17, 13, 20, 28, 29, BC0, and BC10. The RF input and output ports are internally matched to 50 ohms which minimizes the need for external components.

  9. Transmit/Receive Front-End Module: SKY65377-11
    5/21/2015

    The SKY65377-11 is a transmit/receive (T/R) front-end module designed to provide a complete T/R train with T/R switches. Mounted in a 28-pin, 6x6mm Multi-Chip Module (MCM) surface-mount technology package, this device provides a highly manufacturable low-cost solution for many transmit/receive applications.