RF Amplifiers
Analog Devices RF amplifiers are designed using the company’s leading amplifier and RF IC expertise that meet the challenge of your next design. Our RF Amplifiers range from Low Noise Amplifiers (LNAs) to high power amplifiers including GaN technology spanning from kHz to ~100GHz. There are a variety of products optimized for bandwidth, efficiency, power, linearity, low noise, low phase noise, etc. to meet the most challenging performance requirements. These RF amplifiers are often used in Communications, Instrumentation, Space, and Defense applications but also enjoy a broad range of end markets.
Latest Resources
Application Notes
- AN-772: A Design and Manufacturing Guide for the Lead Frame Chip Scale Package (LFCSP)
- Thermal Management Calculations for RF Amplifiers in LFCSP and Flange Packages (Rev. 0) PDF
- AN-1389: Recommended Rework Procedure for the Lead Frame Chip Scale Package (LFCSP) (Rev. 0) PDF
- AN-1142: Techniques for High Speed ADC PCB Layout (Rev. 0) PDF
Press Releases
- Analog Devices’ Wideband GaN MMIC Amplifier Offers High Gain, Power and Efficiency in Compact Design
- Distributed Power Amplifiers Cover 2-50 GHz to Simplify Instrumentation and Microwave Radio Applications
- Analog Devices’ Wideband Differential Amplifier Drives High Frequency A/D Converters with Industry’s Best Distortion and Noise Performance
- New Analog Devices Design Tool Simplifies RF Design and Speeds Time to Market
Design Notes
Technical Articles
- 5G Technology Devices for an O-RAN Wireless Solution
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RF Signal Chain Discourse: Properties and Performance Metrics
Analog Dialogue
- Why a Fully Integrated Translation Loop Device Achieves the Best Phase Noise Performance
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SFDR Considerations in Multi-Octave Wideband Digital Receivers
Analog Dialogue
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Nonlinear Simulation of RF IC Amplifiers in Keysight Genesys and SystemVue
Analog Dialogue
Circuit Note
Technical Books
Solutions Bulletins & Brochures
Webcasts
- Multi-Channel System Improvements Using Hardened DSP in Digitizer ICs
- An Introduction to 5G Open RAN Architecture, Solutions and ADI’s Newest Transceiver
- Non-Linear Simulation of RF Amplifiers in Keysight Genesys, SystemVue and ADS
- Explaining Phase Noise
- Overcoming Challenges in GaN Power Amplifier Implementations
Videos
- ADL5580 Fully Differential 10 GHz ADC Driver with 10 dB Gain
- ADI & Mouser Chalk Talk: CbM Impact on Smart Manufacturing
- Analog Devices @ IMS Virtual Conference 2020 Recap Highlight
- 16 Channel Tx/Rx S-Band Phased Array RADAR Platform
- Stingray: X/Ku Band Phased Array Protyping System by ADI
Tutorials
Frequently Asked Questions
- What is input voltage range and how is it determined?
- How does the input bias current of an amplifier affect my circuit?
- My reference voltage changes when I connect it to the amplifier's input?
- What is the output headroom or voltage range of an amplifier and how is it determined?
- Why can't I get my amplifier to go to my full-scale output voltage?