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An optical current measuring device

A current measuring device and optical technology, applied in the direction of measuring device, measuring electrical variables, measuring current/voltage, etc., to achieve the effect of improving measurement accuracy and eliminating external magnetic field interference

Active Publication Date: 2019-09-13
JIANGSU SIYUAN HERTZ TRANSFORMER
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Therefore, at present, this field has become a hotspot of international competitive research. In the past ten years, some test prototypes have been running on the net and achieved good results. However, some problems such as temperature stability and long-term operation performance stability have also been exposed. question

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  • An optical current measuring device

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Embodiment 1

[0021] The invention discloses an optical current measuring device, which includes a sensing head system, a dynamic correction system, a photoelectric demodulation system and an optical fiber splitter 7;

[0022] The sensor head system includes a crystal light valve magnetic field sensor 1, a solenoid 2, P1 current terminal 3 and P2 current terminal 4, the crystal light valve magnetic field sensor 1 is fixed in the solenoid 2, and Set coaxially with the solenoid 2, the length of the crystal light valve magnetic field sensor 1 is shorter than the length of the solenoid 2, when the solenoid 2 is one, the P1 current terminal 3, P2 current terminal 4 is drawn from both ends of the solenoid 2, the P1 current terminal 3 and the P2 current terminal 4 are connected to the measured current, and the two ends of the crystal light valve magnetic field sensor 1 are connected to the downlink optical interface of the optical fiber splitter 7 through an optical fiber , the number of the cryst...

Embodiment 2

[0033] see figure 1 , the present invention discloses an optical current measuring device, including a sensing head system, a dynamic correction system, a photoelectric demodulation system and an optical fiber splitter 7;

[0034] The sensing head system includes two crystal light valve magnetic field sensors 1, two solenoids 2, P1 current terminal 3 and P2 current terminal 4, and the crystal light valve magnetic field sensor 1 is fixed in the solenoid 2 , and is arranged coaxially with the solenoid 2, the length of the crystal light valve magnetic field sensor 1 is less than the length of the solenoid 2, and when there are two solenoids 2, one of the solenoids 2 The first solenoid connected in sequence leads to P1 current terminal 3, and the last solenoid connected in sequence leads to P2 current terminal 4, and P1 current terminal 3 and P2 current terminal 4 are connected to the measured current. , both ends of the crystal light valve magnetic field sensor 1 are connected t...

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Abstract

The invention discloses an optical current measurement device. The device comprises a sensing head system, a dynamic correction system, a photoelectric demodulation system and an optical fiber splitter. The sensing head system comprises one or more crystal light valve magnetic field sensors, one or more solenoids, a P1 current terminal and a P2 current terminal, the two ends of the crystal light valve magnetic field sensors are connected with the optical fiber splitter through optical fibers, the dynamic correction system is connected with a descending optical interface of the optical fiber splitter through optical fibers, the photoelectric demodulation system comprises a light source, a photoelectric demodulation unit and an optical cable, and the photoelectric demodulation system is connected with the optical fiber splitter through the optical cable. By means of the device, the influence of such elements as the temperature and the magnetic field is eliminated, a primary current signal is amplified through the solenoids, meanwhile, interference of external magnetic fields is eliminated through differentiated dual-optical-path detection, measurement accuracy of an optical mutual inductor is greatly improved, the minimum rated current which can be measured is 0.5 A, and the accuracy level is 0.2S.

Description

technical field [0001] The invention relates to the technical field of electric equipment, in particular to an optical current measuring device. Background technique [0002] At present, oil-filled electromagnetic induction current transformers are widely used in power systems to measure current under high-voltage and ultra-high-voltage conditions. Magnetic saturation and many other shortcomings. Therefore, people have been trying to find a new type of current transformer. The optical current transformer based on the principle of Faraday's magneto-optic effect is considered to be a new type of current measuring device with wide application prospects. It has simple and reliable insulation, no magnetic saturation, No secondary open circuit danger, strong anti-electromagnetic interference ability, small size, light weight, convenient installation and transportation, etc. Compared with traditional CT, it has considerable cost performance. Therefore, at present, this field has ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R19/00
Inventor 李泉凌清张韦王克银
Owner JIANGSU SIYUAN HERTZ TRANSFORMER