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Test device and method for initial permeability of ferrite imaginary part at extremely weak magnetic field and extremely low frequency

A test device, ferrite technology, applied in the direction of permeability measurement, magnetic performance measurement, etc., can solve the imaginary part permeability is not rigorous and accurate, the impact of noise evaluation of quantum precision measurement devices, the imaginary part of the initial permeability There is no such problem, and the measurement process is simple and fast, the ultra-high sensitivity is improved, and the measurement error is reduced.

Active Publication Date: 2022-04-05
BEIHANG UNIV
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Problems solved by technology

However, it is usually impossible to generate a magnetic field with an amplitude close to zero. The real initial permeability can only be estimated by using the extrapolation method in combination with the Rayleigh formula. This estimation method is for the real part of the initial permeability It is relatively accurate, but there is no corresponding theoretical support for the imaginary part of the initial magnetic permeability. Therefore, the imaginary part magnetic permeability measured by the existing method is not rigorous and accurate, which will have a great impact on the noise evaluation of the quantum precision measurement device.

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  • Test device and method for initial permeability of ferrite imaginary part at extremely weak magnetic field and extremely low frequency
  • Test device and method for initial permeability of ferrite imaginary part at extremely weak magnetic field and extremely low frequency
  • Test device and method for initial permeability of ferrite imaginary part at extremely weak magnetic field and extremely low frequency

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Embodiment 2

[0062] A method for testing the permeability of the imaginary part of ferrite when the extremely weak magnetic field is extremely low frequency, the flow chart of which is as follows Figure 4 As shown, use the above-mentioned ferrite imaginary part permeability test device at extremely weak magnetic field and extremely low frequency to measure, including the following steps:

[0063] The construction of the ferrite imaginary part permeability test device at the time of extremely weak magnetic field and extremely low frequency described in S1;

[0064] S1.1 place the ferrite ring to be tested in the shimming coil casing 31, and uniformly wind N turns of the measuring coil 32 outside the shimming coil casing 31 to make the ferrite box 3 to be tested; or Directly take the ferrite test box 3 with the ferrite ring to be tested built-in, and the outside of the ferrite test box 3 is evenly wound with a measuring coil 32;

[0065] S1.2 degaussing the ferrite test box 3 in S1.1;

[...

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Abstract

The invention discloses a device and method for testing the initial permeability of the imaginary part of ferrite at extremely weak and extremely low frequencies. The test is helpful to improve the measurement accuracy of the initial magnetic permeability of the imaginary part of the ferrite and reduce the measurement error of the magnetic noise of the shielding barrel. The uniform coil shell is used to ensure that the measuring coil is evenly wound, and the interference factors are eliminated to the greatest extent; the ferrite box to be tested is placed in the center of the magnetic shielding barrel by using an L-shaped frame to ensure an extremely weak magnetic environment during actual use; The Jordan separation method can ensure the separation of the residual loss under extremely low frequency conditions, and finally the imaginary part initial permeability of the ferrite ring is obtained by using the relationship between the derived imaginary part permeability and the residual loss.

Description

technical field [0001] The invention relates to the technical field of magnetic permeability measurement, in particular to a device and method for measuring the initial magnetic permeability of the imaginary part of ferrite at extremely weak magnetic field and extremely low frequency, especially suitable for ferrite magnetic materials used in quantum precision measurement devices Low-frequency complex permeability measurements. Background technique [0002] A weak magnetic environment is a necessary condition for the current quantum precision measurement device to achieve ultra-high sensitivity. A magnetic shield made of a high magnetic permeability material is an effective way to achieve a weak magnetic environment. Therefore, 3-5 layers of permalloy barrels are generally used for shielded from the geomagnetic environment. In addition, the suppression of noise plays a key role in realizing the ultra-high sensitivity of quantum precision measurement devices. Although permal...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R33/12
CPCG01R33/1223
Inventor 丁铭吉洁马彦宁李思然杨可高亚楠
Owner BEIHANG UNIV
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