FEM

  1. 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.

  2. 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.

  3. Transmit/Receive Front End Modules
    11/16/2012

    These transmit/receive front end modules (FEMs) operate in the 169 to 170 MHz frequency range and are ideal for automated meter reading, advanced metering infrastructure, ISM systems, and other current-sensitive applications. Two different models are available. The SKY65367-11 Front End Module includes a Power Amplifier (PA) capable of more than +29 dBm of transmit output power, and the SKY66100-11 FEM includes a Power Amplifier (PA) capable of more than +24 dBm of transmit output power.

  4. 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.

  5. ZigBee®/Smart Energy Front-End Modules
    10/10/2012

    These 2.4 GHz RF Front-End-Modules (FEMs) have been designed for use in ZigBee®/smart energy and 802.15.4 applications. Their integrated RF blocks operate over a supply voltage range of 2.0 V to 3.6 V, allowing them to be used in battery-powered applications. These FEMs feature integrated inter-stage matching and harmonic filter, and digital controls compatible with 1.6 – 3.6 volt (V) complementary metal oxide semiconductor levels.