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Device and method for measuring magnetic induction intensity based on colossal magnetoresistance effect

A technology of magnetic induction intensity and colossal magneto-resistance, applied in measuring devices, measuring magnetic variables, instruments, etc., can solve the problem that GMR materials are not large enough, improve the accuracy and precision of measurement, ensure accuracy, and shield the external magnetic field. Effect

Active Publication Date: 2011-06-22
STATE GRID CORP OF CHINA +2
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  • Claims
  • Application Information

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Problems solved by technology

The MR of magnetic and non-magnetic metal multilayer films is generally around 10, which is called the giant magnetoresistance effect (GMR). In recent years, the giant magnetoresistance effect has been widely used in computer disks, CNC machine tools, etc., but the fly in the ointment is the The MR of the material is not large enough

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  • Device and method for measuring magnetic induction intensity based on colossal magnetoresistance effect
  • Device and method for measuring magnetic induction intensity based on colossal magnetoresistance effect
  • Device and method for measuring magnetic induction intensity based on colossal magnetoresistance effect

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Embodiment Construction

[0034] Best practice:

[0035] The magnetic induction intensity measuring device based on the colossal magnetoresistance effect includes an electromagnetic shielding device, a first loop and a second loop. Refer to attached figure 1 , the first loop includes a giant magnetoresistance device LaCaMnO, a Helmholtz coil and a first power supply unit U1, the giant magnetoresistance device LaCaMnO is placed at the midpoint of the Helmholtz coil axis, and the Helmholtz The Holtz coil is connected to U1 via K1 to form a first loop; wherein, the colossal magnetoresistance device includes La 0.7 R 0.3 MnO 3 doped rare earth manganese oxide films, which were deposited on Al by pulsed laser sputtering 2 o 3 Prepared on the substrate; the Helmholtz coil is a pair of identical circular coils, parallel to each other and coaxial, and the distance between the coils is equal to the coil radius r.

[0036] Refer to attached figure 2 , the second loop includes a Huygens bridge and a secon...

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Abstract

The invention relates to a device and a method for measuring magnetic induction intensity, in particular relates to a device and a method for measuring the magnetic induction intensity based on colossal magnetoresistance effect. The measuring device comprises an electromagnetic shielding device, a first loop and a second loop, wherein, the first loop comprises a colossal magnetoresistance device,a Helmholtz coil and a first power supply device; and the second loop comprises a Huygens electrical bridge and a second power source device. In the invention, the distinct effect of the colossal magnetoresistance effect is utilized, and the Helmholtz coil is adopted to provide the reversed magnetic field for balancing the magnetic field to be detected, when the Huygens electrical bridge is in balance, the numerical value of the magnetic field to be detected is equal to that of the Helmholtz coil, but the direction is reverse; and the resistance of a colossal magnetoresistance device needs not to be calculated, thus the accuracy and the precision of calculation is improved; the electromagnetic shielding device is adopted to shield the environmental magnetic field, thus the measuring environment with zero magnetic field intensity is provided, and non-interference basic parameters are provided for the follow-up measurement, thereby being beneficial for improving the accuracy of measurement.

Description

[0001] technical field [0002] The invention relates to a magnetic induction intensity measuring device and method, in particular to a magnetic induction intensity measuring device and a measuring method based on the colossal magnetoresistance effect. Background technique [0003] Magnetic induction measurement is widely used. The prior art mainly adopts Hall sensor or induction coil magnetometer to measure. In particular, Hall sensor is widely used because of its simple structure and easy miniaturization. However, in use, the noise level and static offset of the Hall sensor are relatively large, so the sensitivity and accuracy of the weak magnetic field measurement are not enough. The induction coil magnetometer is a device that works according to Faraday's law of electromagnetic induction, and cannot be used to measure static magnetic fields, and is mainly used for close-range detection. [0004] The magnetic induction intensity can also be measured by using the magnet...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R33/09
CPCG01R33/09G01R33/0283
Inventor 王昕王静怡李宇胜
Owner STATE GRID CORP OF CHINA
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