FEM
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169 – 170 MHz Transmit/Receive Front-End Module: SKY66121-11
12/21/2020
The SKY66121-11 is a 169 – 170 MHz transmit/receive (T/R) front-end module designed to provide a complete T/R train with T/R switches. Mounted in a 16-pin, 6 x 6mm Multi-Chip Module (MCM) surface-mount technology package, this device provides a highly manufacturable low-cost solution for automated meter reading, advanced metering infrastructures, and ISM systems.
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WiFi 6E High-Power WLAN Front-End Modules
12/21/2020
The SKY85780-11 is a highly integrated, front-end module (FEM) incorporating a single-pole, double-throw (SPDT) transmit/receive (T/R) switch, a high-gain low-noise amplifier (LNA) with bypass, and a power amplifier (PA) for high-power WiFi 6E applications and systems.
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5.9 GHz 802.11p DSRC High-Power Front-End Module: SKYA21043
11/20/2020
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.
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Mid- And High-Band Front-End Module For 3G, 4G, And 5G Applications: SKY5®-8085-11
11/20/2020
The SKY58085-11 is a mid- and high-band front end module (FEM) designed to support 3G/4G/5G mobile devices and operate efficiently in 3G/4G/5G modes. This model meets stringent 5G NR and LTE advanced requirements where wider bandwidth and carrier aggregation are utilized for high data rates.
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Front-End Modules For Wi-Fi 6 (802.11ax) Applications
6/17/2020
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.
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Dual 2.4 GHz, 802.11ax High-Linearity, High-Efficiency Front-End Module: SKY5®-5242-11
4/30/2020
Skyworks offers the SKY5®-5242-11 dual 2.4 GHz, 802.11ax high-linearity, high-efficiency front-end module (FEM) specifically designed for Wi-Fi 6 enabled devices including handsets, tablets, and mobile devices supporting WLAN and Bluetooth® protocols.
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5 GHz 1024 QAM WLAN Front-End Module: SKY85772-11
1/9/2020
Skyworks offers the SKY85772-11 as a highly integrated 5 GHz front-end module (FEM) designed for portable 802.11ax applications and systems. Features include a fully matched input and output, integrated logarithmic power detector and directional coupler, a transmit gain of 32 dB, and a receive gain of 15 dB.
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GPS Front-End Modules For Mobile Applications
10/4/2019
Skyworks introduces new shielded GPS low-noise amplifier front-end modules (FEMs), the SKY65725-11 and SKY65728-11, designed for use in mobile applications such as smartphones and tablets. Both devices feature high linearity, excellent gain, and superior noise figure to enable design flexibility and high levels of integration. Pre-filters provide the low in-band insertion loss and excellent rejections of the cellular, PCS, and WLAN frequency bands.
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Front-End Modules For Bluetooth IoT Applications
8/27/2019
Skyworks offers the SKY66118-11 and the SKY66407-11, 2.4 GHz front-end modules (FEMs) for Bluetooth Internet of Things (IoT) applications including smartwatches, trackers, connected home systems, wireless and gaming headsets, and more.
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802.11ax (Wi-Fi 6) Front-End Modules
7/26/2019
Skyworks introduces the SKY85330-21 and SKY85748-11 as new front-end modules (FEMs) for enterprise 802.11ax (Wi-Fi 6) applications, and for use in access points, routers, and gateways. These fully integrated solutions feature a logarithmic power detector that supports wide dynamic ranges, and low power consumption for improved thermal management.