Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications

Jinfeng Li; Haorong Li

doi:10.1109/WINCOM62286.2024.10655435

Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications

Jinfeng Li, Haorong Li

Beijing Institute of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Citations (Scopus)

Abstract

Millimeter-wave analog beam steering will play a major role in the current 5G and future 6G ecosystems. One material that may tip the balance is the liquid crystal (LC), a tunable dielectric that can be opto-electronically tuned to generate continuously variable phase (time) delays for passively feeding phased antenna arrays. However, a major barrier that prevents its implementation for expanded mission-critical applications or commercial success has long been its tuning speed, which is inversely related to the square of the LC layer's thickness. To this end, this work newly quantifies the geometry aspect ratio (AR) effects in our recently developed coaxial phase shifter filled with millimeter-wave-tailored LC of dielectric constant (Dk) between 2.5 and 3.3, to understand the interplay between the dielectric thickness, Dk of LC, and the device's response time (rise time) under the assumption that 50 Ω impedance matching is maintained. The semi-analytical and semi-empirical model predicts that a rise time of 2.48254 seconds is needed for our LC-filled coaxial phase shifter with an LC thickness of 0.34876 mm to switch from the 0 V bias (the isotropic state of LC with Dk of 2.754) to the saturated bias (Dk of 3.3). Limitations and discrepancies of the prediction are discussed for planar and non-planar implications of LC devices.

Original language	English
Title of host publication	Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024
Editors	Syed Ali Raza Zaidi, Khalil Ibrahimi, Mohamed El Kamili, Abdellatif Kobbane, Nauman Aslam
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9798350377866
DOIs	https://doi.org/10.1109/WINCOM62286.2024.10655435
Publication status	Published - 2024
Externally published	Yes
Event	11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024 - Leeds, United Kingdom Duration: 23 Jul 2024 → 25 Jul 2024

Publication series

Name	Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024

Conference

Conference	11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024
Country/Territory	United Kingdom
City	Leeds
Period	23/07/24 → 25/07/24

Keywords

5G
6G
aspect ratio
beam steering
coaxial
liquid crystals
mmW
optoelectronics
phase shifter
reconfigurable
response time
tuning speed
V band

Access to Document

10.1109/WINCOM62286.2024.10655435

Cite this

Li, J., & Li, H. (2024). Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications. In S. A. R. Zaidi, K. Ibrahimi, M. El Kamili, A. Kobbane, & N. Aslam (Eds.), Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024 (Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/WINCOM62286.2024.10655435

Li, Jinfeng ; Li, Haorong. / Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications. Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024. editor / Syed Ali Raza Zaidi ; Khalil Ibrahimi ; Mohamed El Kamili ; Abdellatif Kobbane ; Nauman Aslam. Institute of Electrical and Electronics Engineers Inc., 2024. (Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024).

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title = "Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications",

abstract = "Millimeter-wave analog beam steering will play a major role in the current 5G and future 6G ecosystems. One material that may tip the balance is the liquid crystal (LC), a tunable dielectric that can be opto-electronically tuned to generate continuously variable phase (time) delays for passively feeding phased antenna arrays. However, a major barrier that prevents its implementation for expanded mission-critical applications or commercial success has long been its tuning speed, which is inversely related to the square of the LC layer's thickness. To this end, this work newly quantifies the geometry aspect ratio (AR) effects in our recently developed coaxial phase shifter filled with millimeter-wave-tailored LC of dielectric constant (Dk) between 2.5 and 3.3, to understand the interplay between the dielectric thickness, Dk of LC, and the device's response time (rise time) under the assumption that 50 Ω impedance matching is maintained. The semi-analytical and semi-empirical model predicts that a rise time of 2.48254 seconds is needed for our LC-filled coaxial phase shifter with an LC thickness of 0.34876 mm to switch from the 0 V bias (the isotropic state of LC with Dk of 2.754) to the saturated bias (Dk of 3.3). Limitations and discrepancies of the prediction are discussed for planar and non-planar implications of LC devices.",

keywords = "5G, 6G, aspect ratio, beam steering, coaxial, liquid crystals, mmW, optoelectronics, phase shifter, reconfigurable, response time, tuning speed, V band",

author = "Jinfeng Li and Haorong Li",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024 ; Conference date: 23-07-2024 Through 25-07-2024",

year = "2024",

doi = "10.1109/WINCOM62286.2024.10655435",

language = "English",

series = "Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

editor = "Zaidi, {Syed Ali Raza} and Khalil Ibrahimi and {El Kamili}, Mohamed and Abdellatif Kobbane and Nauman Aslam",

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Li, J & Li, H 2024, Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications. in SAR Zaidi, K Ibrahimi, M El Kamili, A Kobbane & N Aslam (eds), Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024. Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024, Institute of Electrical and Electronics Engineers Inc., 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024, Leeds, United Kingdom, 23/07/24. https://doi.org/10.1109/WINCOM62286.2024.10655435

Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications. / Li, Jinfeng; Li, Haorong.
Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024. ed. / Syed Ali Raza Zaidi; Khalil Ibrahimi; Mohamed El Kamili; Abdellatif Kobbane; Nauman Aslam. Institute of Electrical and Electronics Engineers Inc., 2024. (Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications

AU - Li, Jinfeng

AU - Li, Haorong

PY - 2024

Y1 - 2024

N2 - Millimeter-wave analog beam steering will play a major role in the current 5G and future 6G ecosystems. One material that may tip the balance is the liquid crystal (LC), a tunable dielectric that can be opto-electronically tuned to generate continuously variable phase (time) delays for passively feeding phased antenna arrays. However, a major barrier that prevents its implementation for expanded mission-critical applications or commercial success has long been its tuning speed, which is inversely related to the square of the LC layer's thickness. To this end, this work newly quantifies the geometry aspect ratio (AR) effects in our recently developed coaxial phase shifter filled with millimeter-wave-tailored LC of dielectric constant (Dk) between 2.5 and 3.3, to understand the interplay between the dielectric thickness, Dk of LC, and the device's response time (rise time) under the assumption that 50 Ω impedance matching is maintained. The semi-analytical and semi-empirical model predicts that a rise time of 2.48254 seconds is needed for our LC-filled coaxial phase shifter with an LC thickness of 0.34876 mm to switch from the 0 V bias (the isotropic state of LC with Dk of 2.754) to the saturated bias (Dk of 3.3). Limitations and discrepancies of the prediction are discussed for planar and non-planar implications of LC devices.

AB - Millimeter-wave analog beam steering will play a major role in the current 5G and future 6G ecosystems. One material that may tip the balance is the liquid crystal (LC), a tunable dielectric that can be opto-electronically tuned to generate continuously variable phase (time) delays for passively feeding phased antenna arrays. However, a major barrier that prevents its implementation for expanded mission-critical applications or commercial success has long been its tuning speed, which is inversely related to the square of the LC layer's thickness. To this end, this work newly quantifies the geometry aspect ratio (AR) effects in our recently developed coaxial phase shifter filled with millimeter-wave-tailored LC of dielectric constant (Dk) between 2.5 and 3.3, to understand the interplay between the dielectric thickness, Dk of LC, and the device's response time (rise time) under the assumption that 50 Ω impedance matching is maintained. The semi-analytical and semi-empirical model predicts that a rise time of 2.48254 seconds is needed for our LC-filled coaxial phase shifter with an LC thickness of 0.34876 mm to switch from the 0 V bias (the isotropic state of LC with Dk of 2.754) to the saturated bias (Dk of 3.3). Limitations and discrepancies of the prediction are discussed for planar and non-planar implications of LC devices.

KW - 5G

KW - 6G

KW - aspect ratio

KW - beam steering

KW - coaxial

KW - liquid crystals

KW - mmW

KW - optoelectronics

KW - phase shifter

KW - reconfigurable

KW - response time

KW - tuning speed

KW - V band

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DO - 10.1109/WINCOM62286.2024.10655435

M3 - Conference contribution

AN - SCOPUS:85204283116

T3 - Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024

BT - Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024

A2 - Zaidi, Syed Ali Raza

A2 - Ibrahimi, Khalil

A2 - El Kamili, Mohamed

A2 - Kobbane, Abdellatif

A2 - Aslam, Nauman

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024

Y2 - 23 July 2024 through 25 July 2024

ER -

Li J, Li H. Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications. In Zaidi SAR, Ibrahimi K, El Kamili M, Kobbane A, Aslam N, editors, Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024. Institute of Electrical and Electronics Engineers Inc. 2024. (Proceedings - 11th International Conference on Wireless Networks and Mobile Communications, WINCOM 2024). doi: 10.1109/WINCOM62286.2024.10655435

Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications

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