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Fully Differential Gyrator Using a Dynamically Biased 20 MHZ Lamé Mode Resonator

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Abstract:

We demonstrate the first MEMS-only differential gyrator using a single Lamé mode electrostatic resonator. A gyrator is a two-port device that produces a pure non-reciproc...Show More

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Abstract:

We demonstrate the first MEMS-only differential gyrator using a single Lamé mode electrostatic resonator. A gyrator is a two-port device that produces a pure non-reciprocal phase response and is considered a universal element from which isolators and circulators can be derived. We demonstrate in this work that gyration can be achieved using any electrostatic resonator, through very simple time-modulated biasing, without the need for any auxiliary spatio-temporal switching elements.

Published in: 2024 IEEE 37th International Conference on Micro Electro Mechanical Systems (MEMS)

Date of Conference: 21-25 January 2024

Date Added to IEEE Xplore: 22 February 2024

ISBN Information:

ISSN Information:

DOI: 10.1109/MEMS58180.2024.10439355

Conference Location: Austin, TX, USA

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IEEE Keywords
- Micromechanical devices ,
- Radio frequency ,
- Vibrations ,
- Varactors ,
- Gyrators ,
- Switches ,
- Electrostatics
Index Terms
- Resonant Modes ,
- Phase Response ,
- Circulator ,
- Impedance ,
- Transfer Function ,
- Phase Shift ,
- Magnitude Of Response ,
- Linear Response ,
- Past Work ,
- Bias Voltage ,
- Relative Phase ,
- Output Current ,
- Relative Shift ,
- Biased Signaling ,
- Simple Extension ,
- Transimpedance Amplifier
Author Keywords

Contents

INTRODUCTION

Non-reciprocal RF devices are of high importance for directional routing of RF signals. These devices typically produce non-reciprocal amplitude responses and have been explored via time-modulated RF circuits and MEMS [1]–[3]. Gyrators, on the other hand, are two-port devices that generate a pure non-reciprocal phase response, i.e. a relative phase shift of π for signals propagating in opposite directions (Figure 1a).

Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.

IEEE Keywords
- Micromechanical devices ,
- Radio frequency ,
- Vibrations ,
- Varactors ,
- Gyrators ,
- Switches ,
- Electrostatics
Index Terms
- Resonant Modes ,
- Phase Response ,
- Circulator ,
- Impedance ,
- Transfer Function ,
- Phase Shift ,
- Magnitude Of Response ,
- Linear Response ,
- Past Work ,
- Bias Voltage ,
- Relative Phase ,
- Output Current ,
- Relative Shift ,
- Biased Signaling ,
- Simple Extension ,
- Transimpedance Amplifier
Author Keywords

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Fully Differential Gyrator Using a Dynamically Biased 20 MHZ Lamé Mode Resonator

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Fully Differential Gyrator Using a Dynamically Biased 20 MHZ Lamé Mode Resonator

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