A Compact Ka-Band Eight-Element Four-Beam Receiver for Low-Earth-Orbit Satellite Communications in 65-nm CMOS
Author:
Affiliation:
1. Institute of Marine Electronics and Intelligent Systems, Ocean College, Zhejiang University, Zhoushan, China
2. Department of Electrical and Computer Engineering, University of California at Davis, Davis, CA, USA
Funder
Zhejiang Provincial Natural Science Foundation of China
National Key Research and Development Program of China
Leading Innovative and Entrepreneur Team Introduction Program of Zhejiang
Publisher
Institute of Electrical and Electronics Engineers (IEEE)
Link
http://xplorestaging.ieee.org/ielx7/9944983/10144809/10102435.pdf?arnumber=10102435
Reference8 articles.
1. An adaptive analog temperature-healing low-power 17.7-to-19.2 GHz RX front-end with ±0.005 dB/°C gain variation, < 1.6dB NF variation, and < 2.2 dB IP1 dB variation across ?15 to 85 °C for phased-array receiver;li;IEEE Int Solid-State Circuits Conf (ISSCC) Dig Tech Papers,2021
2. A 1.9-dB NF K-Band Temperature-Healing Phased-Array Receiver Employing Hybrid Packaged 65-nm CMOS Beamformer and 0.1-μm GaAs LNAs
3. A Four-Element 7.5–9-GHz Phased-Array Receiver With 1–8 Simultaneously Reconfigurable Beams in 65-nm CMOS
4. A Ka-Band Balanced Four-Beam Phased-Array Receiver With Symmetrical Beam-Distribution Network in 65-nm CMOS
5. A 24–28-GHz Four-Element Phased-Array Transceiver Front End With 21.1%/16.6% Transmitter Peak/OP1dB PAE and Subdegree Phase Resolution Supporting 2.4 Gb/s in 256-QAM for 5-G Communications
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4. A K-Band 4-Element 8-Beam Phased-Array Receiver with Hybrid Vector Interpolation and Impedance-Adapted Multibeam Combining Techniques for Satellite Communications;2024 IEEE Radio Frequency Integrated Circuits Symposium (RFIC);2024-06-16
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