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Broadband Linear Gain Block
Tuning Range: 0.01 to 9 GHz
The GRF2013 is a broadband gain block with a low noise figure (NF) and high linearity designed for small cell, wireless infrastructure, and other high-performance applications. It exhibits outstanding broadband NF, linearity, and return loss over 700 to 3800 MHz with a single match.
Optimizing the bias inductor and coupling capacitors for lower frequency operation will yield strong performance down to 10 MHz. For applications above 4 GHz, the addition of simple external matching yields outstanding linearity and gain performance up to 9 GHz.
The device can be operated from a supply voltage of 2.7 to 8 V with a selectable IDDQ range of 15 to 100 mA for optimal efficiency and linearity.
Consult with the GRF applications engineering team for custom tuning/evaluation board data and device S-parameters.
Product Categories
Applications
- Linear Driver Amplifier
- Small Cells and Cellular Repeaters
- IF Amplifiers
- Wireless Backhaul
Features
Reference: 5V/90mA/1.9GHz
- Gain: 18.5 dB
- NF: 1.3 dB
- OIP3: 38.5 dBm
- OP1dB: 22.5 dBm
- Low Noise Figure
- Flat Gain
- Flexible Biasing
- Internally Matched to 50 Ω
- Process: GaAs pHEMT
- Compact 1.5 x 1.5 mm DFN-6 Package
| Name | Part ID |
|---|---|
| Broadcom | AVT-51663 |
| Broadcom | AVT-53663 |
| Broadcom | AVT-54689 |
| Broadcom | AVT-55689 |
| Broadcom | MGA-31189 |
| Broadcom | MGA-31389 |
| Broadcom | MGA-31489 |
| Broadcom | MGA-31716 |
| Broadcom | MGA-83563 |
| Qorvo | TQP3M9008 |
| Qorvo | TQP3M9009 |
| Qorvo | TQP3M9018 |
| Qorvo | TQP3M9019 |
| Qorvo | TGA5108 |
| Qorvo | SBA5086Z |
| Qorvo | SBA5089Z |
| Qorvo | SBB2089Z |
| Qorvo | SBB5089Z |
| Qorvo | SBF5089Z |
| Qorvo | TQL9062 |
| Qorvo | QPA4586A |
| Skyworks | SKY65017 |
NOTE: Charts represent a compilation of datasets that may span more than one tuning configuration, and apparent discontinuities in the plots may result. Please note that alternative tunes will likely resolve any such irregularities in the plots. Contact [email protected] for further guidance.