The utilization of RF-MEMS, which stands for Microsystem-based (MEMS) Radio Frequency (RF) passive components, is garnering growing attention within the realm of Beyond-5G (B5G) and 6G technologies, despite its longstanding existence. This trend is fueled by the impressive RF characteristics achievable through the judicious exploitation of this technology. However, the complex interplay of various physical phenomena in RF-MEMS, spanning mechanical, electrical, and electromagnetic domains, renders the design and optimization of new configurations challenging. In this study, a modeling approach based on Lumped Element Networks (LEN) is employed to accurately predict the Scattering Parameters (S-parameters) characteristics of multi-state and highly reconfigurable RF-MEMS devices. The device under scrutiny is a multi-state RF step power attenuator, previously fabricated, tested, and documented in literature by the principal author. Although these physical devices exhibit flat attenuation characteristics, they are subject to certain non-idealities inherent to the technology. The refined LEN-based methodology presented herein aims to interpret and incorporate such undesirable parasitic effects to provide precise predictions for real RF-MEMS devices. Two custom metrics, referred to as Percent Magnitude Difference (PMD) and Percent Phase Difference (PPD), are utilized to evaluate the accuracy of the LEN model, revealing differences consistently within 1 and 8%, respectively, across a frequency range spanning from 100 MHz to 13.5 GHz.

Simple and Fast Modelling of Radio Frequency Passives in View of Beyond-5G and 6G Applications: Case Study of an RF-MEMS Multi-State Network Described by an Equivalent Lumped Element Network / Iannacci, Jacopo; Tagliapietra, Girolamo; Marinković, Zlatica; Guha, Koushik; Karumuri, Srinivasa Rao; Chiele, Irene Dal; Donelli, Massimo. - In: MICROSYSTEM TECHNOLOGIES. - ISSN 0946-7076. - 2024:(2024). [10.1007/s00542-024-05712-0]

Simple and Fast Modelling of Radio Frequency Passives in View of Beyond-5G and 6G Applications: Case Study of an RF-MEMS Multi-State Network Described by an Equivalent Lumped Element Network

Iannacci, Jacopo
;
Tagliapietra, Girolamo;Chiele, Irene Dal;Donelli, Massimo
2024-01-01

Abstract

The utilization of RF-MEMS, which stands for Microsystem-based (MEMS) Radio Frequency (RF) passive components, is garnering growing attention within the realm of Beyond-5G (B5G) and 6G technologies, despite its longstanding existence. This trend is fueled by the impressive RF characteristics achievable through the judicious exploitation of this technology. However, the complex interplay of various physical phenomena in RF-MEMS, spanning mechanical, electrical, and electromagnetic domains, renders the design and optimization of new configurations challenging. In this study, a modeling approach based on Lumped Element Networks (LEN) is employed to accurately predict the Scattering Parameters (S-parameters) characteristics of multi-state and highly reconfigurable RF-MEMS devices. The device under scrutiny is a multi-state RF step power attenuator, previously fabricated, tested, and documented in literature by the principal author. Although these physical devices exhibit flat attenuation characteristics, they are subject to certain non-idealities inherent to the technology. The refined LEN-based methodology presented herein aims to interpret and incorporate such undesirable parasitic effects to provide precise predictions for real RF-MEMS devices. Two custom metrics, referred to as Percent Magnitude Difference (PMD) and Percent Phase Difference (PPD), are utilized to evaluate the accuracy of the LEN model, revealing differences consistently within 1 and 8%, respectively, across a frequency range spanning from 100 MHz to 13.5 GHz.
2024
Iannacci, Jacopo; Tagliapietra, Girolamo; Marinković, Zlatica; Guha, Koushik; Karumuri, Srinivasa Rao; Chiele, Irene Dal; Donelli, Massimo...espandi
Simple and Fast Modelling of Radio Frequency Passives in View of Beyond-5G and 6G Applications: Case Study of an RF-MEMS Multi-State Network Described by an Equivalent Lumped Element Network / Iannacci, Jacopo; Tagliapietra, Girolamo; Marinković, Zlatica; Guha, Koushik; Karumuri, Srinivasa Rao; Chiele, Irene Dal; Donelli, Massimo. - In: MICROSYSTEM TECHNOLOGIES. - ISSN 0946-7076. - 2024:(2024). [10.1007/s00542-024-05712-0]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/420110
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