Guerrilla RF GRF2013 RF Broadband Linear Gain Amplifiers
Guerrilla RF GRF2013 RF Broadband Linear Gain Amplifiers are broadband gain blocks with low noise figures and high linearity. These RF amplifiers are designed for small cell and wireless infrastructures to provide outstanding broadband noise figures, linearity, and return-losses over 0.7GHz to 3.8GHz frequency range. The GRF2013 amplifiers are internally matched to 50Ω at the input and output ports, with only external DC blocks and a bias choke on the output. These broadband gain blocks are operated over a supply voltage of 2.7V to 5V with a selectable IDDQ range of 30mA to 100mA for optimal efficiency. Applications include broadband driver amplifiers, general-purpose linear amplifiers, and small cellular repeaters.
Features
- 1.3dB low noise figure
- 18.5dB operating gain
- 30mA to 120mA selectable IDDQ range
- 0.05GHz to 8GHz operating frequency range
- -40°C to +105°C operating temperature range
Applications
- 802.11ac
- Linear driver amplifiers
- IF amplifier
- Small cells and cellular repeaters
- Wireless backhaul
- General purpose linear amplifiers
Application Schematic
Pin Diagram
Additional Resources
- GRF2012 1000 to 3200MHz
- GRF2013 50 to 2200MHz
- GRF2013 50 to 100MHz
- GRF2013 800 to 860MHz
- GRF2013 1200 to 1500MHz
- GRF2013 2000 to 6000MHz
- GRF2013 3600MHz
- GRF2013 6000 to 7000MHz
- GRF2013 3.3V 20mA 100 to 1000MHz
- GRF2013 400 to 1000MHz
- GRF2013 70 to 6000MHz
- GRF2013 700 to 900MHz S11 S22 Optimized
- GRF2013 1700 to 2000MHz S11 S22 Optimized
- GRF2013 2500 to 2700MHz S11 S22 Optimized
- GRF2013 7750 to 8250MHz
- GRF2013 3000 to 6000MHz
- GRF2013 5855 to 5925MHz
- GRF2013 3300 to 3450MHz 3p3V 40mA
- GRF2013 8300 to 8500MHz
- GRF2013 8400 to 9000MHz
- GRF2013 400 to 5000MHz
- GRF2013 174 to 240MHz
- GRF2013 3.3V 100 to 6000MHz
- GRF2013 5000 to 7200MHz 3.3V
- GRF2013 30 to 100MHz
- GRF2013 100 to 3200MHz
- Designing for Low Noise and Excellent Matching in Amplifier Applications
- Amplifier Design: Improving Gain Flatness Without Sacrificing Return Loss
- Capitalizing on the Design Flexibility of Common Footprint DFN-6 Packages
- Leveragning Differences in Packaging to Customize Amplifier Performance
- Customizing an Amplifier's Psat Output level
- Proper Procedures for Powering Up and Powering Down an RF Amplifier
- Design Considerations for Ensuring Amplifier Stability
- Is Matching the LNA Input for ΓOPT Always Worth the Effort?
- Designing an Amplifier Lineup for SDARS Applications
- Designing a High Performance, Single-SAW SDARS Solution
เผยแพร่แล้ว: 2560-09-08
| อัปเดตแล้ว: 2566-05-26