Geometric symmetry approximation method of multi-degree-of-freedom electrostatic suspension system based on iterative adjustment

A technology of electrostatic levitation and degree of freedom, which is applied in the direction of control/adjustment system, general control system, adaptive control, etc. It can solve the problems of coupling misalignment and achieve the effects of fast speed, high adjustment accuracy and simplified adjustment process

Inactive Publication Date: 2018-08-17
CHINA ACADEMY OF SPACE TECHNOLOGY
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  • Abstract
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Problems solved by technology

[0004] The technical problem of the present invention is: to overcome the deficiencies of the prior art, to propose a geometric symmetry approximation method based on iterative adjustment of the multi-degree-of-freedom electrostatic levitation system, and to solve the problem of applying the single-degree-of-freedom symmetry adjustment method to the multi-degree-of-freedom system coupling misalignment problem

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  • Geometric symmetry approximation method of multi-degree-of-freedom electrostatic suspension system based on iterative adjustment
  • Geometric symmetry approximation method of multi-degree-of-freedom electrostatic suspension system based on iterative adjustment
  • Geometric symmetry approximation method of multi-degree-of-freedom electrostatic suspension system based on iterative adjustment

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Embodiment

[0057] For the convenience of elaborating the adjustment method of the present invention, with image 3 The middle two-degree-of-freedom channel is used as an example to illustrate. The two degrees of freedom include a translational degree of freedom and a rotational degree of freedom. The present invention regards it as equivalent to two independent translational degrees of freedom, which are respectively the left degree of freedom channel and the right degree of freedom channel. The subscripts L and R in the figure represent the channels of the left and right translation degrees of freedom respectively. l is the distance between the edge of the electrode and the longitudinal axis of the capacitor. a is acceleration, F in is the corresponding inertial force, α is the angular acceleration, M in is the corresponding moment of inertia.

[0058] The method of the present invention corresponds to image 3 For the two-degree-of-freedom system shown, the pseudocode of its symm...

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Abstract

The invention provides a geometric symmetry approximation method of a multi-degree-of-freedom electrostatic suspension system based on iterative adjustment. In the method, horizontally moving-rotatingmulti-degree-of-freedom system is regarded as a plurality of independent translational freedom degrees, and a variable pre-load voltage method is adopted for carrying out sequential and circular iterative adjustment on the symmetry of each degree of freedom. A multi-degree-of-freedom suspension body can be adjusted to the geometric symmetry center of an electrode cage only through limited times of iteration. According to the invention, the influence of coupling force between multiple degrees of freedom can be overcome, and the whole process can be complete automatically. The method can be widely applied to high-precision sensing and ultra-precision vibration reduction control based on electrostatic suspension technology, so that the system has self-calibration and environment-adaptive capacity and the system can be retained at the optimal working point. In this way, precise instruments and the precise equipment can be ensured to play the required performance.

Description

technical field [0001] The invention relates to a method for approximating the geometric symmetry of a multi-degree-of-freedom electrostatic suspension system based on iterative adjustment, which is used for adjusting the multi-degree-of-freedom suspension to the geometric symmetry center of an electrode cage, and belongs to the technical field of electrostatic suspension control and precision sensing. Background technique [0002] The electrostatic levitation system has important applications in the fields of gravity satellites and space-based vibration reduction. It uses the precise and easy-to-control electrostatic force without mechanical contact to suspend and isolate the levitation body (generally sensitive masses, working platforms, etc.) in six degrees of freedom. The detection performance of the sensor (such as the electrostatic levitation accelerometer) is more sensitive or the working environment of the work platform (such as the space-based ultra-quiet platform ba...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/04
CPCG05B13/042
Inventor 范达贾海鹏
Owner CHINA ACADEMY OF SPACE TECHNOLOGY
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