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A magnetic flux quantum counting device and method without dead time

A technology of magnetic flux quantum and counting device, which is applied to the size/direction of the magnetic field and the use of superconducting devices for magnetic field measurement, etc. Spatial layout, avoid working point jumping, reduce the effect of measurement error

Active Publication Date: 2018-03-02
SHANGHAI INST OF MICROSYSTEM & INFORMATION TECH CHINESE ACAD OF SCI
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Problems solved by technology

Although this technology has a relatively simple circuit structure, there is a dead time when the integrator is reset. If the magnetic flux fluctuates more than one Φ0 during this dead time, the measurement data will be discontinuous and unknown, and the result The same as the problem of jumping the working point mentioned above
[0007] To sum up, the existing large-range SQUID readout circuit either has insufficient range, or has the problem of uncontrollable jumping of the working point due to the dead time, which greatly affects the application of superconducting magnetic sensors in the fields of industry, scientific research and medical treatment. wide application and promotion of

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  • A magnetic flux quantum counting device and method without dead time
  • A magnetic flux quantum counting device and method without dead time
  • A magnetic flux quantum counting device and method without dead time

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[0024] The following describes the implementation of the present invention through specific specific examples. Those skilled in the art can easily understand other advantages and effects of the present invention from the content disclosed in this specification. The present invention can also be implemented or applied through other different specific embodiments, and various details in this specification can also be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It should be noted that the embodiments in this application and the features in the embodiments can be combined with each other if there is no conflict.

[0025] The superconducting quantum interferometer is a flux-voltage converter based on the Josephson structure. There are two equivalent working modes: voltage bias and current bias. In the current bias mode, the output of both ends of the SQUID The voltage V presents a periodic change with t...

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Abstract

The present invention provides a magnetic flux quantum counting device and method without dead time. After resetting two magnetic flux locking rings respectively connected to SQUIDs with different sensitivities, the working point is locked, and a magnetic flux interlocking unit is used to make the two One of the magnetic flux locking rings is in the state of the locking operating point when the reset is performed, so that the magnetic flux change of the reset magnetic flux locking ring in the dead time between reset and locking can be obtained to compensate and judge The working point after the magnetic flux locking ring of the reset is re-locked; the present invention can not only expand the range of its readout circuit infinitely in the normal working range of the SQUID by actively resetting and re-locking in an orderly manner, but also improve the linearity in the entire range In addition, it can effectively avoid the risk of operating point jump in the dead time of the traditional magnetic flux quantum counting method, optimize the structural design and spatial layout of two SQUIDs with different sensitivities, and reduce the measurement error caused by channel crosstalk and magnetic gradient.

Description

Technical field [0001] The invention relates to the technical field of superconducting electrons, in particular to a device and method for realizing time magnetic flux counting without dead zone based on a superconducting quantum interferometer. Background technique [0002] Superconducting QUantum Interference Device (SQUID: Superconducting QUantum Interference Device) is a magnetic flux-to-voltage converter based on the Josephson structure. It is also the most sensitive magnetic sensor currently known. It is used in biomagnetism, geophysics, and low-field nuclear magnetic resonance. There are many applications in the field of extremely weak magnetic field detection. [0003] In the current bias working mode, the output voltage V at both ends of the SQUID changes periodically with the increase of the external magnetic flux Φ. This is the root of its huge range, but the V-Φ characteristic of SQUID is not linear, usually After the noise is matched, it needs to be linearized by a fl...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R33/035
Inventor 伍俊张国峰荣亮亮蒋坤孔祥燕谢晓明
Owner SHANGHAI INST OF MICROSYSTEM & INFORMATION TECH CHINESE ACAD OF SCI
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