An Inductor-Less All-Passive Higher-Order N-Path Filter Based on Rotary Clocking in N-Path Filters
Author:
Affiliation:
1. Columbia University,NY,USA
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/9865233/9865240/09865397.pdf?arnumber=9865397
Reference11 articles.
1. Inductorless, Widely Tunable N-Path Shekel Circulators Based on Harmonic Engineering
2. A Fully Passive RF Front End With 13-dB Gain Exploiting Implicit Capacitive Stacking in a Bottom-Plate N-Path Filter/Mixer
3. Design of all-passive higher-order CMOS N-path filters
4. Design of Active N-Path Filters
5. Tunable Blocker-Tolerant On-Chip Radio-Frequency Front-End Filter With Dual Adaptive Transmission Zeros for Software-Defined Radio Applications
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1. Passive Frequency Shifting of N-Path Filters Through Rotary Clocking: Analysis and Design;IEEE Transactions on Circuits and Systems I: Regular Papers;2024-01
2. A Third-Order Quasi-Elliptic N-Path Filter With Enhanced Linearity Through Clock Boosting;IEEE Journal of Solid-State Circuits;2023-12
3. Analysis and Design of Baseband Circuits for Higher-Order Reflection-Mode N-Path Filters;IEEE Transactions on Circuits and Systems I: Regular Papers;2023-12
4. Harmonic-Resilient Fully Passive Mixer-First Receiver for Software-Defined Radios;IEEE Journal of Solid-State Circuits;2023-12
5. Frequency-Domain-Equalization-based Full-Duplex Receiver with Passive-Frequency-Shifting N-Path Filters Achieving >53 dB SI Suppression Across 160 MHz BW;2023 IEEE Radio Frequency Integrated Circuits Symposium (RFIC);2023-06-11
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