RF Switches
ADI offers a wide range of high performance RF switches that are ideal for instrumentation, communications, military and aerospace applications. Manufactured in GaAs and Silicon (SOI) processes, RF switches feature higher power handling, better linearity and wider frequency band of operation compared to their CMOS counterparts. ADI’s new Silicon (SOI) RF switches offer unmatched performance in compact SMT form, which attains superior insertion loss, improved isolation, wider bandwidth and faster switching/settling times than any other solution.
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Product Selection Table
Analog Design Tool: ADIsimRF™
ADIsimRF is an easy-to-use RF signal chain calculator. It calculates Cascaded Gain, Noise Figure, IP3, P1dB and Power Consumption. The number of stages can be varied up to a maximum of 20. Stages can be easily inserted, removed or temporarily muted.
Latest Resources
Product Highlight
Press Releases
- Analog Devices’ 44 GHz Silicon Switches Offer Industry’s Lowest Insertion-Loss in Compact Land Grid Array Package
- Analog Devices’ Silicon Switch Reduces Size and Power Consumption in Cellular Radio RF Front Ends
- Analog Devices Silicon SPDT Switch Delivers Fast Settling Time for Demanding Test and Measurement Applications
- Analog Devices’ Multiplexers Offer High Robustness, Low Charge Injection and Low Leakage
- New Analog Devices Design Tool Simplifies RF Design and Speeds Time to Market
Design Notes
Technical Articles
- Design the Best Front End for UHF Partial Discharge Online Monitoring Systems
- Integrated Hardened DSP on DAC/ADC ICs Improves Wideband Multichannel Systems
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RF Signal Chain Discourse: Properties and Performance Metrics
Analog Dialogue
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SFDR Considerations in Multi-Octave Wideband Digital Receivers
Analog Dialogue
- Power-Up Phase Determinism Using Multichip Synchronization Features in Integrated Wideband DACs and ADCs
Product Selection Guide
Technical Books
Design Tools
Solutions Bulletins & Brochures
Webcasts
- RF Front End Design for the ADRV9002 Narrow/Wideband Transceiver
- Reducing Design Complexity and Development Time with LO and Clocking Signal Chains
- Multi-Channel System Improvements Using Hardened DSP in Digitizer ICs
- Explaining Phase Noise
- Solving the Elusive Baseband to Antenna Problem using RFDAC Technology