A 28GHz High-Accuracy Phase and Amplitude Detection Circuit for Dual-Polarized Phased-Array Calibration

This article presents a 28GHz high-accuracy phase and amplitude detection circuit for dual-polarized phased-array calibration. With dual-polarized calibration scheme, external LO signal is not required for calibration. The proposed detection circuit detects phase and amplitude independently, using P...

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Veröffentlicht in:	IEICE Transactions on Electronics 2022, pp.2022ECP5016
Hauptverfasser:	YAMAZAKI, Yudai, ALVIN, Joshua, PANG, Jian, SHIRANE, Atsushi, OKADA, Kenichi
Format:	Artikel
Sprache:	eng
Schlagworte:	Amplitudes Arrays Calibration Circuits detection circuit Divide-by-6 ILFD Dual-Polarized phased-array Frequency dividers Frequency locking millimeter-wave Power consumption Power management Reference signals
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container_end_page	156
container_issue	4
container_start_page	2022ECP5016
container_title	IEICE Transactions on Electronics
container_volume	E106.C
creator	YAMAZAKI, Yudai ALVIN, Joshua PANG, Jian SHIRANE, Atsushi OKADA, Kenichi
description	This article presents a 28GHz high-accuracy phase and amplitude detection circuit for dual-polarized phased-array calibration. With dual-polarized calibration scheme, external LO signal is not required for calibration. The proposed detection circuit detects phase and amplitude independently, using PDC and ADC. By utilizing a 28GHz-to-140kHz down-conversion scheme, the phase and amplitude are detected more accurately. In addition, reference signal for PDC and ADC is generated from 28GHz LO signal with divide-by-6 dual-step-mixing injection locked frequency divider (ILFD). This ILFD achieves 24.5-32.5GHz (28%) locking range with only 3.0mW power consumption and 0.01mm2 area. In the measurement, the detection circuit achieves phase and amplitude detections with RMS errors of 0.17degree and 0.12dB, respectively. The total power consumption of the proposed circuit is 59mW with 1-V supply voltage.
doi_str_mv	10.1587/transele.2022ECP5016
format	Article
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With dual-polarized calibration scheme, external LO signal is not required for calibration. The proposed detection circuit detects phase and amplitude independently, using PDC and ADC. By utilizing a 28GHz-to-140kHz down-conversion scheme, the phase and amplitude are detected more accurately. In addition, reference signal for PDC and ADC is generated from 28GHz LO signal with divide-by-6 dual-step-mixing injection locked frequency divider (ILFD). This ILFD achieves 24.5-32.5GHz (28%) locking range with only 3.0mW power consumption and 0.01mm2 area. In the measurement, the detection circuit achieves phase and amplitude detections with RMS errors of 0.17degree and 0.12dB, respectively. 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Electron.</addtitle><description>This article presents a 28GHz high-accuracy phase and amplitude detection circuit for dual-polarized phased-array calibration. With dual-polarized calibration scheme, external LO signal is not required for calibration. The proposed detection circuit detects phase and amplitude independently, using PDC and ADC. By utilizing a 28GHz-to-140kHz down-conversion scheme, the phase and amplitude are detected more accurately. In addition, reference signal for PDC and ADC is generated from 28GHz LO signal with divide-by-6 dual-step-mixing injection locked frequency divider (ILFD). This ILFD achieves 24.5-32.5GHz (28%) locking range with only 3.0mW power consumption and 0.01mm2 area. In the measurement, the detection circuit achieves phase and amplitude detections with RMS errors of 0.17degree and 0.12dB, respectively. 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Electron.</addtitle><date>2023-04-01</date><risdate>2023</risdate><volume>E106.C</volume><issue>4</issue><spage>2022ECP5016</spage><epage>156</epage><pages>2022ECP5016-156</pages><artnum>2022ECP5016</artnum><issn>0916-8524</issn><eissn>1745-1353</eissn><abstract>This article presents a 28GHz high-accuracy phase and amplitude detection circuit for dual-polarized phased-array calibration. With dual-polarized calibration scheme, external LO signal is not required for calibration. The proposed detection circuit detects phase and amplitude independently, using PDC and ADC. By utilizing a 28GHz-to-140kHz down-conversion scheme, the phase and amplitude are detected more accurately. In addition, reference signal for PDC and ADC is generated from 28GHz LO signal with divide-by-6 dual-step-mixing injection locked frequency divider (ILFD). This ILFD achieves 24.5-32.5GHz (28%) locking range with only 3.0mW power consumption and 0.01mm2 area. In the measurement, the detection circuit achieves phase and amplitude detections with RMS errors of 0.17degree and 0.12dB, respectively. The total power consumption of the proposed circuit is 59mW with 1-V supply voltage.</abstract><cop>Tokyo</cop><pub>The Institute of Electronics, Information and Communication Engineers</pub><doi>10.1587/transele.2022ECP5016</doi><tpages>8</tpages></addata></record>
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subjects	Amplitudes Arrays Calibration Circuits detection circuit Divide-by-6 ILFD Dual-Polarized phased-array Frequency dividers Frequency locking millimeter-wave Power consumption Power management Reference signals
title	A 28GHz High-Accuracy Phase and Amplitude Detection Circuit for Dual-Polarized Phased-Array Calibration
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