A Four-Port Circulating Duplexer for Simultaneous Transmit Receive Wireless Operation

This article presents a new four-port electronic circulating duplexer (CD) that enables similar functionality to that of a four port circulator. The proposed CD is formed by connecting a quadrature hybrid (QH) and a quasi-circulating quadrature hybrid (QCQH). We derive the S-matrix of the CD by empl...

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Bibliographic Details
Main Authors: Regev, Dror, Ginzberg, Nimrod, Zolkov, Erez, Loebl, Erez, Melamed, Itamar, Shilo, Shimi, Ezri, Doron, Cohen, Emanuel
Format: Conference Proceeding
Language:English
Subjects:
Analytical models
Electronic-Circulator (EC)
Full-Duplex (FD)
Impedance Transparency
Interference cancellation
Non-Reciprocal Phase Shifter (NRPS)
Performance evaluation
Quadrature Hybrid (QH)
Quadrature-Quasi Circulating Hybrid (QCQH)
Radio frequency
Transmission line matrix methods
Transmitting antennas
Wireless communication
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Summary:This article presents a new four-port electronic circulating duplexer (CD) that enables similar functionality to that of a four port circulator. The proposed CD is formed by connecting a quadrature hybrid (QH) and a quasi-circulating quadrature hybrid (QCQH). We derive the S-matrix of the CD by employing Mason's rule and verify the analytical results by simulations in which the 90° NRPS of the QCQH is implemented as a behavioral 8-Path NRPS. The functionality of CD enables implementation as a simultaneous transmit-receive (STR) RF front end that includes transmit (TX), antenna (ANT), self-interference cancellation (SIC) and receive (RX) dedicated ports. Measurements of a CD with a commercial QH connected to a QCQH that employs 65-nm NMOS 4-path NRPS integrated on PCB, show a 1.6 dB TX-to-ANT, less than 2 dB ANT-SIC and 2.9 dB SIC-to-RX losses over 40MHz bandwidth. TX-RX and TX-SIC isolation are also measured showing 18 and 13.5 dB respectively. A 5 dBm modulated TX signal at 970 MHz achieved a total isolation of 55 dB with active SIC injection along with a TX EVM of −39 dB.
ISSN:2576-7216
DOI:10.1109/IMS37962.2022.9865248