Tuning fork type quartz crystal oscillator resonant frequency measurement method based on optical excitation and device

A technology of quartz crystal oscillator and resonant frequency, applied in measuring devices, measuring ultrasonic/sonic/infrasonic waves, instruments, etc., can solve problems such as inaccurate results, achieve simple devices, solve detection in narrow spaces, and avoid connection and disassembly.

Active Publication Date: 2014-06-25
SHANXI UNIV
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Problems solved by technology

[0004] The present invention provides a method and device for measuring the resonant frequency of a tuning-fork quartz crystal oscillator based on light excitation to solve the technical problem ...

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  • Tuning fork type quartz crystal oscillator resonant frequency measurement method based on optical excitation and device
  • Tuning fork type quartz crystal oscillator resonant frequency measurement method based on optical excitation and device
  • Tuning fork type quartz crystal oscillator resonant frequency measurement method based on optical excitation and device

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Embodiment Construction

[0017]A method for measuring the resonant frequency of a tuning fork quartz crystal oscillator based on optical excitation, comprising the following steps: (a) using a laser beam to excite the tuning fork quartz crystal oscillator to be measured, and modulating the intensity of the laser beam so that the intensity of the laser beam modulates the frequency Scanning near the natural frequency of the tuning fork crystal oscillator; (b) While scanning the frequency modulated by the intensity of the laser beam, a beam of probe light is introduced into the outer surface of any vibration arm of the tuning fork crystal oscillator, and the probe light hits The reflected light generated behind the outer surface of the vibrating arm and the plane where the probe light is located are vertical planes and this plane is perpendicular to the outer surface of the vibrating arm of the tuning fork quartz crystal oscillator; the angle formed by the probing light and the outer surface of the vibrati...

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Abstract

The invention relates to a tuning fork type quartz crystal oscillator resonant frequency measurement technology, in particular to a tuning fork type quartz crystal oscillator resonant frequency measurement method based on optical excitation and a device. The technical problem that the outside electromagnetic environment easily influences measurement and enables a result to be inaccurate when inherent frequency of an existing tuning fork type quartz crystal oscillator is measured is solved. The tuning fork type quartz crystal oscillator resonant frequency measurement method based on optical excitation comprises the following steps of (a) adopting laser beams to perform excitation on the tuning fork type quartz crystal oscillator to be measured; (b) introducing a probe beam while scanning the laser beam intensity modulation frequency; (c) acquiring reflection light intensity change information received by one receiving face at a spatial position and converting the intensity change into a corresponding electrical signal; (d) demodulating the electrical signal of reflection light and obtaining the inherent frequency of the tuning fork type quartz crystal oscillator to be measured according to a frequency response curve. By adopting the tuning fork type quartz crystal oscillator resonant frequency measurement method based on optical excitation, environmental noise interference is effectively avoided, and the probe problem in a narrow space is solved.

Description

technical field [0001] The invention relates to a technique for measuring the resonant frequency of a tuning fork type quartz crystal oscillator, in particular to a method and device for measuring the resonant frequency of a tuning fork type quartz crystal oscillator based on light excitation. Background technique [0002] The tuning fork quartz crystal oscillator is a quartz crystal resonator made of quartz material with piezoelectric effect, such as figure 1 As shown, its appearance is "Y" shape. Since the appearance of this quartz tuning fork, it has been widely used due to its stable resonance frequency, small size, high quality factor, low price, long service life and many other advantages. Especially in recent years, the rapid development of quartz tuning fork enhanced photoacoustic spectroscopy technology, scanning probe microscope technology and microchemical analysis technology has further broadened the application field of tuning fork quartz crystal oscillator to ...

Claims

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Application Information

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IPC IPC(8): G01H9/00
Inventor 董磊武红鹏
Owner SHANXI UNIV
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