Additively Manufactured Semipassive Rotman Lens-Based RIS-Assisted mmID Tag System for Beyond-5G Wireless Networks in Complex Environments
The authors present a semipassive Rotman lens-based reconfigurable intelligent surface at 28 GHz for beyond-5G applications. One proof-of-concept prototype is inkjet-printed on a thin Rogers substrate using a masking technique followed by etching. The system is characterized by its autonomous mode s...
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| Published in | IEEE transactions on microwave theory and techniques Vol. 73; no. 1; pp. 650 - 660 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.01.2025
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9480 1557-9670 |
| DOI | 10.1109/TMTT.2024.3422386 |
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| Abstract | The authors present a semipassive Rotman lens-based reconfigurable intelligent surface at 28 GHz for beyond-5G applications. One proof-of-concept prototype is inkjet-printed on a thin Rogers substrate using a masking technique followed by etching. The system is characterized by its autonomous mode switching, power consumption, radar cross section (RCS) against angle, and mid-range performance. This millimeter-wave identification (mmID) tag system detects radio frequency (RF) signals with a half-wave rectifier and retransmits signals in selective directions with a 270-kHz amplitude shift keying modulation. This proposed system consumes <inline-formula> <tex-math notation="LaTeX">65~\mu </tex-math></inline-formula>W in the detection mode and <inline-formula> <tex-math notation="LaTeX">143~\mu </tex-math></inline-formula>W in the communication mode, suggesting the potential to be further developed into a fully passive and energy-autonomous system for long-range applications in complex environments. To switch between detection and communication modes, the rectifier oscillates between 6.1 and 9.7 mV, which means that the Rotman lens-based RIS-assisted mmID tag system can operate up to 75 m away for communication mode and 89 m for the detection mode. |
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| AbstractList | The authors present a semipassive Rotman lens-based reconfigurable intelligent surface at 28 GHz for beyond-5G applications. One proof-of-concept prototype is inkjet-printed on a thin Rogers substrate using a masking technique followed by etching. The system is characterized by its autonomous mode switching, power consumption, radar cross section (RCS) against angle, and mid-range performance. This millimeter-wave identification (mmID) tag system detects radio frequency (RF) signals with a half-wave rectifier and retransmits signals in selective directions with a 270-kHz amplitude shift keying modulation. This proposed system consumes [Formula Omitted]W in the detection mode and [Formula Omitted]W in the communication mode, suggesting the potential to be further developed into a fully passive and energy-autonomous system for long-range applications in complex environments. To switch between detection and communication modes, the rectifier oscillates between 6.1 and 9.7 mV, which means that the Rotman lens-based RIS-assisted mmID tag system can operate up to 75 m away for communication mode and 89 m for the detection mode. The authors present a semipassive Rotman lens-based reconfigurable intelligent surface at 28 GHz for beyond-5G applications. One proof-of-concept prototype is inkjet-printed on a thin Rogers substrate using a masking technique followed by etching. The system is characterized by its autonomous mode switching, power consumption, radar cross section (RCS) against angle, and mid-range performance. This millimeter-wave identification (mmID) tag system detects radio frequency (RF) signals with a half-wave rectifier and retransmits signals in selective directions with a 270-kHz amplitude shift keying modulation. This proposed system consumes <inline-formula> <tex-math notation="LaTeX">65~\mu </tex-math></inline-formula>W in the detection mode and <inline-formula> <tex-math notation="LaTeX">143~\mu </tex-math></inline-formula>W in the communication mode, suggesting the potential to be further developed into a fully passive and energy-autonomous system for long-range applications in complex environments. To switch between detection and communication modes, the rectifier oscillates between 6.1 and 9.7 mV, which means that the Rotman lens-based RIS-assisted mmID tag system can operate up to 75 m away for communication mode and 89 m for the detection mode. |
| Author | Lynch, Charles A. Tentzeris, Manos M. Zeng, Kai Chen, I-Ting Hester, Jimmy G. D. Eid, Aline |
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| SubjectTerms | 5G mobile communication Array signal processing Communication Inkjet printing Lenses Millimeter waves Oscillators Pins Power demand Radar cross sections Radio signals Reconfigurable intelligence surface (RIS) Reconfigurable intelligent surfaces Rectifiers Rotman lens Switches Wireless networks |
| Title | Additively Manufactured Semipassive Rotman Lens-Based RIS-Assisted mmID Tag System for Beyond-5G Wireless Networks in Complex Environments |
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