QPF4206B

    2.4 GHz Wi-Fi Front End Module

    Production >

    For more information, please contact Qorvo Sales.

    Key Features

    • 2412 – 2484 MHz
    • POUT = +19 dBm MCS11 HE40 -43 dB Dynamic EVM
    • POUT = +20 dBm MCS11 HE40 -40 dB Dynamic EVM
    • POUT = +21 dBm MCS9 VHT40 -35 dB Dynamic EVM
    • POUT = +22.5 dBm MCS7 HT20 -30 dB Dynamic EVM
    • POUT = +25 dBm MCS0 HT20 Spectral Mask Compliance
    • Optimized for +5 V Operation
    • 33 dB Tx Gain
    • 2.1 dB Noise Figure
    • 15 dB Rx Gain & 6 dB Bypass Loss
    • 25 dB 5 GHz Rejection on Rx Path
    • Broad Range Integrated DC Power Detector

    The Qorvo QPF4206B is an integrated front end module (FEM) designed for Wi-Fi 802.11ax systems. The compact form factor and integrated matching minimizes layout area in the application. Performance is focused on optimizing the PA for a 5V supply voltage that conserves power consumption while maintaining the highest linear output power and leading edge throughput. Receive path matches the optimal technologies to maximize Rx sensitivity through noise figure performance that is consistent over a wider variety of conditions. Another key feature is the integration of a logarithmic power detector which enables power accuracy at lower powers. The QPF4206B integrates a 2 GHz power amplifier (PA), regulator, single pole two throw switch (SP2T), and a bypassable low noise amplifier (LNA).

    Typical Applications

      • Access Points
      • Wireless Routers
      • Residential Gateways
      • Customer Premise Equipment
      • Internet of Things
    Frequency Min(GHz) 2.4
    Frequency Max(GHz) 2.5
    Wi-Fi Standards Wi-Fi 6
    Vcc(V) 5
    11ac Pout(dBm) 21
    11ac EVM(%) 1.8
    11ac Current(mA) 250
    11n Pout(dBm) 22.5
    11n EVM(%) -30
    11n Current(mA) 265
    Tx Gain(dB) 33
    OP1dB(dBm) 28.5
    Rx Gain(dB) 15.5
    NF(dB) 2.1
    Bypass Loss(dB) 6
    Rx Current(mA) 22
    Package Type Laminate
    Package(mm) 3.0 x 3.0
    RoHS Yes
    Lead Free Yes
    Halogen Free Yes
    ITAR Restricted No