Electromechanical coupling modelling of distributed MEMS phase shifter for phased array antennas

Congsi Wang; Kang Ying; Haihua Li; Wei Gao; Lei Yin; Meng Wang; Xuelin Peng; Shaoxi Wang

doi:10.1080/00207217.2018.1440434

Electromechanical coupling modelling of distributed MEMS phase shifter for phased array antennas

Congsi Wang, Kang Ying, Haihua Li, Wei Gao, Lei Yin, Meng Wang, Xuelin Peng, Shaoxi Wang

School of Microelectronics

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

MEMS phase shifter has many advantages as the ‘steering wheel’ of phased array antenna beam steering. The deformation of mechanical structures of MEMS phase shifter influenced by the complex environmental factors, which became the biggest obstacle to further enhance the performance of phased array antennas. The electromechanical coupling model between the bridge height and phase shift of the distributed MEMS phase shifter is developed. The coupling model could be used to predict the phase error and determine the bridge height tolerance for the deformed MEMS phase shifter. The simulation results of four-bit distributed MEMS phase shifter with 15 bridges illustrate the validity of coupling model and demonstrate the application potential for engineering design and test.

Original language	English
Pages (from-to)	1358-1373
Number of pages	16
Journal	International Journal of Electronics
Volume	105
Issue number	8
DOIs	https://doi.org/10.1080/00207217.2018.1440434
State	Published - 3 Aug 2018

Keywords

Active antenna
electromechanical coupling
performance prediction
phase shifter
structural tolerance

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10.1080/00207217.2018.1440434

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title = "Electromechanical coupling modelling of distributed MEMS phase shifter for phased array antennas",

abstract = "MEMS phase shifter has many advantages as the {\textquoteleft}steering wheel{\textquoteright} of phased array antenna beam steering. The deformation of mechanical structures of MEMS phase shifter influenced by the complex environmental factors, which became the biggest obstacle to further enhance the performance of phased array antennas. The electromechanical coupling model between the bridge height and phase shift of the distributed MEMS phase shifter is developed. The coupling model could be used to predict the phase error and determine the bridge height tolerance for the deformed MEMS phase shifter. The simulation results of four-bit distributed MEMS phase shifter with 15 bridges illustrate the validity of coupling model and demonstrate the application potential for engineering design and test.",

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T1 - Electromechanical coupling modelling of distributed MEMS phase shifter for phased array antennas

AU - Wang, Congsi

AU - Ying, Kang

AU - Li, Haihua

AU - Gao, Wei

AU - Yin, Lei

AU - Wang, Meng

AU - Peng, Xuelin

AU - Wang, Shaoxi

PY - 2018/8/3

Y1 - 2018/8/3

N2 - MEMS phase shifter has many advantages as the ‘steering wheel’ of phased array antenna beam steering. The deformation of mechanical structures of MEMS phase shifter influenced by the complex environmental factors, which became the biggest obstacle to further enhance the performance of phased array antennas. The electromechanical coupling model between the bridge height and phase shift of the distributed MEMS phase shifter is developed. The coupling model could be used to predict the phase error and determine the bridge height tolerance for the deformed MEMS phase shifter. The simulation results of four-bit distributed MEMS phase shifter with 15 bridges illustrate the validity of coupling model and demonstrate the application potential for engineering design and test.

AB - MEMS phase shifter has many advantages as the ‘steering wheel’ of phased array antenna beam steering. The deformation of mechanical structures of MEMS phase shifter influenced by the complex environmental factors, which became the biggest obstacle to further enhance the performance of phased array antennas. The electromechanical coupling model between the bridge height and phase shift of the distributed MEMS phase shifter is developed. The coupling model could be used to predict the phase error and determine the bridge height tolerance for the deformed MEMS phase shifter. The simulation results of four-bit distributed MEMS phase shifter with 15 bridges illustrate the validity of coupling model and demonstrate the application potential for engineering design and test.

KW - Active antenna

KW - electromechanical coupling

KW - performance prediction

KW - phase shifter

KW - structural tolerance

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Electromechanical coupling modelling of distributed MEMS phase shifter for phased array antennas

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Keywords

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