Resonator nano-beam parallel plate electrostatic control device and control method thereof

A technology of control devices and nano-beams, applied in electrical components, impedance networks, etc., can solve problems such as resonance point shift, hysteresis, spring hardening or softening, etc., and achieve the effect of small device size

Inactive Publication Date: 2018-04-13
SHANDONG UNIV OF TECH
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  • Abstract
  • Description
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  • Application Information

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Problems solved by technology

In NEMS devices, the mechanically moving components can usually be simplified as nano-beams. Under the coupling of parametric excitation and external excitation, the response of the nano-beam electrostatically coupled nonlinear system presents relatively rich nonlinear dynamic characteristics, specifically manifested as non-linear The linear system response shows a complex process of periodic, quasi-periodic and chaotic motion alternately evolving with the change of system parameters, and it is also prone to nonlinear phenomena such as spring hardening or softening, sudden jump, hysteresis, suction instability, frequency drift, etc.
Due to the small scale and small damping characteristics of the nanobeam, the structural vibration is easy to enter a nonlinear vibration state. On the other hand, the non-planar vibration of the space leads to the resonant frequency shift, which will lead to the instability of the structural vibration of the resonator nanobeam. and the offset of the resonance point, which in turn affects the matching of the best frequency and the working stability of electronic equipment

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  • Resonator nano-beam parallel plate electrostatic control device and control method thereof
  • Resonator nano-beam parallel plate electrostatic control device and control method thereof
  • Resonator nano-beam parallel plate electrostatic control device and control method thereof

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Embodiment Construction

[0020] Below in conjunction with accompanying drawing and embodiment the present invention is further described:

[0021] In this embodiment, the resonator nano-beam parallel plate electrostatic control device is as follows: figure 1 As shown, it includes a driving device, a signal extraction device and a control device, and is characterized in that: the driving device includes a signal source 1, a driving electrode 9 and a nanobeam 8, and the three form an electrostatic driving circuit, wherein the driving electrode 9 and the nanobeam 8 are equal in width, and the driving electrode 9 is located below the nanobeam 8 and is parallel to the nanobeam 8. One end of the signal source 1 is connected to the driving electrode 9, and the other end is connected to the nanobeam 8; the signal extraction device includes a graphene film sensor 7, a control power supply 3 and a voltage dividing resistor 5, and the three form a signal extraction circuit, wherein one end of the graphene film s...

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Abstract

The invention discloses a resonator nano-beam parallel plate electrostatic control device and a control method thereof. The system includes three parts: a drive device, a signal extraction device and a control device. The control method includes the following steps: 1) determining the driving gap condition of the linear stable vibration of nano-beams; 2) determining the nonlinear feedback control voltage gain gf of the voltage amplifier. The invention utilizes the characteristic that the resistance of the graphene film changes with its deformation, and is used as a displacement sensor device to control the vibration of the nanobeam and the driving electrode, and solves the problem that the existing NEMS device fails due to the harmful nonlinear effect of the electrostatic drive. question.

Description

technical field [0001] The invention relates to a resonator nano-beam parallel plate electrostatic control device and a control method thereof, belonging to the technical field of electronic devices. Background technique [0002] The nonlinear effect of nanobeam vibration is a problem that restricts the wide application of Nano Electromechanical System (NEMS) devices. In NEMS devices, the mechanically moving components can usually be simplified as nano-beams. Under the coupling of parametric excitation and external excitation, the response of the nano-beam electrostatically coupled nonlinear system presents relatively rich nonlinear dynamic characteristics, specifically manifested as non-linear The linear system response shows a complex process of periodic, quasi-periodic and chaotic motion alternately evolving with the change of system parameters, and it is also prone to nonlinear phenomena such as spring hardening or softening, sudden jump, hysteresis, suction instability,...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H03H9/24H03H9/02
CPCH03H9/02H03H9/24
Inventor 刘灿昌岳书常刘文晓巩庆梅马驰骋周继磊
Owner SHANDONG UNIV OF TECH
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