Widely-Tunable RF Receiver Employing Synthetic Diversity for Interference Mitigation
Author:
Affiliation:
1. Cornell University,Department of Electrical and Computer Engineering,Ithaca,NY,USA
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/9937201/9937203/09937610.pdf?arnumber=9937610
Reference8 articles.
1. A mixer-first receiver with enhanced selectivity by capacitive positive feedback achieving +39dBm IIP3 and <3dB noise figure for SAW-less LTE Radio
2. A 40 nm CMOS 0.4–6 GHz Receiver Resilient to Out-of-Band Blockers
3. A Passive Mixer-First Receiver With Digitally Controlled and Widely Tunable RF Interface
4. Circuit Techniques for Enhanced Channel Selectivity in Passive Mixer-First Receivers
5. The Impact of LO Phase Noise in N-Path Filters
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