pro_details

SKY13716-11

Low-Band LNA Front-End Module (B26/B5/B18/B19, B8, B20, B12/13/17, B28A, B28B, and B29)

The SKY13716-11 is an LNA diversity module used in cellular mobile devices. The module is typically placed close to the cellular diversity receiver antenna enabling improved system signal-to-noise ratio (SNR), improved user equipment (UE) sensitivity and higher data throughout rates.

High-performance LNAs with five variable-gain modes are integrated in this device to enable compatibility for next-generation LNA-less LTE transceivers.

It is compatible with 3GPP GSM, WCDMA, and LTE standards and supports the following cellular bands: B26/B5/B18/B19, B8, B20, B12/13/B17, B28A, B28B, and B29.

The SKY13716-11 is packaged in a small 4.0 x 3.0 x 0.7 mm, 24-lead surface-mount package. No external DC blocking capacitors are required on the RF paths as long as no DC voltage is applied. The part can operate over the temperature range of -30 °C to +85 °C.

Features

    • Rx diversity FEM with seven selectable filters and LNA paths, two Auxiliary ports for extended band support
    • Low insertion loss
    • High-performance TC-SAW filter technology
    • High-performance variable-gain LNAs
    • SAW filters:
    • B29 (717 to 728 MHz)
    • B12/13/B17 (729 to 756 MHz)
    • B28A (758 to 788 MHz)
    • B28B (773 to 803 MHz)
    • B20 (791 to 821 MHz)
    • B26/B5/B18/B19 (859 to 894 MHz)
    • B8 (925 to 960 MHz)
    • Integrated MIPI interface
    • Small (4.0 x 3.0 x 0.7 mm [max]) 24-lead MCM package (MSL3, 260 °C per JEDEC J-STD-020)

Images & Diagrams

Specifications

    • Frequency (MHz)
    • 717-960
    • Description
    • Low-band Low Noise Amplifier Front-end Module(Bands 26 / 5 / 18 / 19 / 8 / 20 / 12 / 13 / 17 / 28A / 28B / 29)
    • Package
    • MCM, 24-lead
    • Package (mm)
    • 4 x 3 x 0.7

Skyworks uses cookies to analyze website traffic, deliver customized experiences, and advertise. Learn more, including how to manage your preferences, in our Website Privacy Policy. By using our website you agree to our use of cookies.