Design and analysis of CMOS baluns for 94 GHz image radar and 28 GHz 5G communication system

Two W-band CMOS elliptical baluns (i.e. balun-1 and balun-2) for 94 GHz image radar, and one miniature Ka-band CMOS square balun (i.e. balun-3) with short-terminal and input capacitor (for elimination of the inductive imaginary part of the input impedance at the input port) for 28 GHz 5G communicati...

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Bibliographic Details
Published in:Analog integrated circuits and signal processing 2020-06, Vol.103 (3), p.435-450
Main Authors: Lin, Yo-Sheng, Lan, Kai-Siang
Format: Article
Language:English
Subjects:
Baluns
Circuits and Systems
CMOS
Communications systems
Conversion
Electrical Engineering
Engineering
Extremely high frequencies
Input impedance
Phase shifters
Quadratures
Radar
Radar imaging
Signal,Image and Speech Processing
Thickness
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Summary:Two W-band CMOS elliptical baluns (i.e. balun-1 and balun-2) for 94 GHz image radar, and one miniature Ka-band CMOS square balun (i.e. balun-3) with short-terminal and input capacitor (for elimination of the inductive imaginary part of the input impedance at the input port) for 28 GHz 5G communication system are demonstrated. These baluns are applicable to a down-conversion mixer for conversion of the single RF and LO input signals to differential signals. They are also applicable to a phase shifter for conversion of the single I and Q signals (from the quadrature coupler) to differential I (i.e. I + and I −) and Q (i.e. Q + and Q −) signals. Instead of the traditional balun structure that uses three sections of thin M 5 (or M 8 ) interconnection lines (underneath the thick top M 6 (or top M 9 ) main structure), the proposed balun structures use only one section of thin M 5 (or M 8 ) interconnection line to enhance S 21 and S 31 . Balun-2 (with M 9 main structure thickness of 3.4 μm) attains S 21 of − 4.98 to − 4.57 dB, S 31 of − 4.85 to − 4.59 dB, amplitude imbalance magnitude (AIM) smaller than 0.15 dB and phase difference deviation (PDD) smaller than 4° for 90–100 GHz. Balun-3 (with M 6 main structure thickness of 2.34 μm) occupies a small chip area of 0.042 mm 2 , and achieves S 21 of − 4.97 to − 4.44 dB, S 31 of − 4.68 to − 4.29 dB, AIM smaller than 0.28 dB and PDD smaller than 2.3° for 27–29 GHz. The prominent results of these baluns indicate that they are suitable for W-band and Ka-band systems.
ISSN:0925-1030
1573-1979
DOI:10.1007/s10470-020-01616-x