QPQ2455

    2.4 + 5 - 7 GHz coexBoost™ BAWplexer

    Key Features

    • Integrated 2.4GHz Rejection in LTE B7/B41/B38/B40
    • Wide passband that incorporates all Wi-Fi 6 channels in the UNII 1-8 bands
    • Low insertion loss in both passbands
    • Extended temperature performance from -20 to +95 °C
    • High power handling to +28dBm averaged Input Power

    The Qorvo® QPQ2455 is a high-performance, high power, BAWplexer which takes advantage of Qorvo's coexBoost™ technologies to deliver extremely steep skirts, simultaneously exhibiting low loss in the Wi-Fi bands and high near-in rejection to prevent interference with LTE B7/B41/B38 and B40 signals, to a diplexer that has a low loss bandpass covering UNII1-8 Wi- Fi channels (5150-7125MHz.)

    The BAWplexer enables single antenna implementation combining both 2.4 GHz and 5-7 GHz Wi-Fi applications. The 2.4 GHz path integrates a BAW filter to enable simultaneous usage of Wi-Fi and LTE signals without interference thus leading to longer range of Wi-Fi and an increase in network capacity. The 5-7 GHz path is a low-loss bandpass incorporating the expanded spectrum including all Wi-Fi channels in the UNII1-8 bands. The diplexer is designed for thermally challenging environment and exhibits excellent power handling capabilities. Using advanced laminate module packaging techniques to achieve high integration in an industry leading compact footprint.

    The QPQ2455 negates the challenges of matching the filter to the diplexer helping end customers achieve a faster time to market.

    Typical Applications

      • Access Points
      • Wireless Routers
      • Residential Gateways
      • Customer Premise Equipment
      • Internet of Things
    Technology BAW
    Type Infrastructure
    Bands LTE B7 / B41 / B38 / B40
    Frequency(MHz) 2,402 to 2,484,
    5,150 to 7,125
    Bandwidth(MHz) 40, 60
    Insertion Loss(dB) 1.2, 1.0
    Package Type Laminate
    Package(mm) 1.9 x 1.5 x 0.9
    RoHS Yes
    Lead Free Yes
    Halogen Free Yes
    ITAR Restricted No
    ECCN 5A991G