TGP2109

    8 - 12 GHz 6-Bit Digital Phase Shifter

    Key Features

    • Frequency range: 8 to 12 GHz
    • 6-Bit digital phase shifter
    • Bi-directional
    • 360° coverage, LSB = 5.625°
    • RMS phase error: 4°
    • RMS amplitude error: 0.5 dB
    • Insertion loss: 6 dB
    • Return loss: 10 dB IRL; 15 dB ORL
    • Input P1dB: 29 dBm
    • Input IP3: >40 dBm
    • IM3: >50 dBc
    • Control voltage: 0/+5 V
    • Chip dimensions: 2.2 x 2.2 x 0.1 mm

    Qorvo's TGP2109 is a 6-bit digital phase shifter, fabricated on Qorvo's high performance 0.15um GaAs pHEMT process. It operates over 8 to 12 GHz and provides 360° of phase coverage with a LSB of 5.625°. It also achieves a low RMS phase error of 4° with 6 dB of insertion loss.

    The TGP2109 was developed for simply system integration. It uses positive only switch logic; eliminating the need for a negative voltage rail. In addition, both ports are matched to 50 ohms with DC blocking capacitors. Ease of use along with low insertion loss and a high degree of resolution makes the TGP2109 ideally suited for a variety of X band phased array applications including commercial and military radars and phase array communication systems.

    The device is lead-free and RoHS compliant.

    Typical Applications

      • Satellite Communications (Satcom)
      • X Band Radar
      • Massive MIMO
    Type Digital
    Frequency Min(GHz) 8
    Frequency Max(GHz) 12
    Insertion Loss(dB) 6
    RMS Amplitude Error(dB) 0.5
    RMS Phase Error(degrees) 4
    Bits 6
    Control Voltage(V) 0, 5
    Package Type Die
    Package(mm) 2.2 x 2.2 x 0.1
    RoHS Yes
    Lead Free Yes
    Halogen Free Yes
    ITAR Restricted No
    ECCN EAR99

    This product appears in the following application block diagrams:

    • Applications > Defense & Aerospace > Radar > X Band Radar

      X Band Radar

    • Applications > Defense & Aerospace > Radar > X-Band Radar Front End Module (FEM)

      X-Band Radar Front End Module (FEM)

    • Applications > Network Infrastructure > Wireless Infrastructure > Massive MIMO

      Massive MIMO