A W-Band Spillover-Tolerant Mixer-First Receiver for FMCW Radars
Author:
Affiliation:
1. Stanford University,Department of Electrical Engineering,USA
Funder
Semiconductor Research Corporation (SRC)
DARPA
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/10186107/10186112/10186120.pdf?arnumber=10186120
Reference12 articles.
1. A 20–40 GHz High Dynamic Range HBT N-Path Receiver with 8.9 dBm OOB B1dB and 8.55 dB NF Consuming 130 mW
2. A Low-Power 70–100-GHz Mixer-First RX Leveraging Frequency-Translational Feedback
3. 18.1 A W-Band Transceiver Array with 2.4GHz LO Synchronization Enabling Full Scalability for FMCW Radar
4. Optimized Design of N-Phase Passive Mixer-First Receivers in Wideband Operation
5. A 77 GHz 8RX3TX transceiver for 250-m long range automotive radar in 40-nm CMOS technology;usugi;IEEE J Solid-State Circuits,2021
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1. An E-Band FMCW Radar Receiver Achieving 38dB Cancellation for Arbitrary-Path Spillover Up to -10dBm and 5.7dB NF in 65nm CMOS;2024 IEEE Radio Frequency Integrated Circuits Symposium (RFIC);2024-06-16
2. A 60–90 GHz Mixer-First Receiver With Adaptive Temperature-Compensation Technique;IEEE Microwave and Wireless Technology Letters;2024-04
3. A Monostatic D-Band Doppler MMIC With Very Compact I/Q Mixer Realization in SiGe BiCMOS Technology;IEEE Transactions on Microwave Theory and Techniques;2024-01
4. Design and Analysis of an LO Chain for an IQ Receiver in a 77~81 GHz Short-Range Radar System;The Journal of Korean Institute of Electromagnetic Engineering and Science;2023-12
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