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Lead wire structure of manganese-copper current divider, PCB and wiring structure of PCB

A manganin shunt, PCB board technology, applied in the direction of instruments, measuring devices, measuring electrical variables, etc., can solve the problems of excessive electromagnetic induction current, inaccurate measurement, and meter operation error, so as to solve interference and solve electrical problems. Effect of magnetic induction mutual interference and prevention of sampling interference

Active Publication Date: 2017-11-14
HEXING ELECTRICAL +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Some existing criminals use the defect that the existing manganin-copper sampling electric energy meter is easily affected by the external alternating magnetic field and cannot be measured accurately to steal electricity. The strength varies, and the maximum error can reach 100%
In addition, the internal alternating electromagnetic interference in the design of the manganese-copper shunt cannot be ignored. For example, the magnetic flux leakage of the power frequency transformer affects the operation error of the meter; The magnetic induction current is too large, and the small signal is seriously affected, etc.

Method used

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  • Lead wire structure of manganese-copper current divider, PCB and wiring structure of PCB
  • Lead wire structure of manganese-copper current divider, PCB and wiring structure of PCB
  • Lead wire structure of manganese-copper current divider, PCB and wiring structure of PCB

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Experimental program
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Effect test

Embodiment 1

[0039] see figure 1, the design provided in this embodiment adopts the routing structure of the PCB board to resist the interference of the external alternating magnetic field on the manganin shunt, which mainly includes the manganin shunt 03, the first PCB board 01 and the second PCB board 02. The manganin shunt 03 is welded vertically on the first PCB board 01, the second PCB board 02 is parallel to the manganin shunt 03, and the PCB trace goes from the second current sampling point B of the manganin shunt 03 to the second PCB Draw a circular trace 04 on the board 02, and then walk back to point C on the first PCB board 01, and at the same time connect with the PCB trace drawn from the first sampling port A of the manganin shunt 03 in parallel or twisted pair AD sampling to the chip.

[0040] When there is no second PCB board 02, the alternating magnetic field only acts on the manganin shunt 03, and the induced electromotive force is accumulated on point B, and A and B ente...

Embodiment 2

[0043] see figure 2 and image 3 , the design provided in this embodiment adopts the wiring structure of the PCB board to resist the interference of the external alternating magnetic field on the manganin shunt, which mainly includes a sub-PCB board 10 and a manganin shunt 11 . The manganese copper shunt 11 is welded on the PCB board 10 parallel to the PCB board 10, and the PCB trace goes from the second current sampling point B of the manganese copper shunt 11 to the PCB board 10 to draw a circular trace 12, and then walks Go back to point C on the PCB board 10, and at the same time, connect the PCB trace drawn from the first sampling terminal A of the manganin shunt 11 to the AD sampling of the chip in parallel or twisted pair.

[0044] In the same way, this lead structure will receive the electromotive force generated by the manganese-copper loop and the induced electromotive force generated by the current loop at the second current sampling end of the original manganin s...

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Abstract

The invention discloses a lead wire structure of a manganese-copper current divider, a PCB and a wiring structure of the PCB. A first current sampling end and a second current sampling end of the manganese-copper current divider are arranged at the same side of the manganese-copper current divider. The second current sampling end is interfered by an external alternate magnetic field. A second sampling signal wire forms an annular wiring on the PCB which is arranged in parallel with the manganese-copper current divider. Furthermore the second sampling signal wire and the first sampling signal wire are connected with an AD sampling end of a chip in a parallel manner or twisted-pair manner, thereby simultaneously applying the external alternate magnetic field interference to manganese-copper and the annular wiring so that the external alternate magnetic field interferences which are bear by the second current sampling end are offset to each other. According to the lead wire structure, a wiring manner that the current sampling end of the manganese-copper current divider is arranged on the PCB is utilized, and the interferences of the alternate magnetic field to the second current sampling end are offset to each other, thereby preventing the sampling interference of the alternate magnetic field to the manganese-copper current divider.

Description

technical field [0001] The invention relates to the technical field of electronic circuits, in particular to a lead structure of a manganin shunt, a PCB board and a wiring structure of the PCB board. Background technique [0002] Manganin shunts are widely used in the field of instrument measurement current, and can be used for sampling detection of backflow, current limiting, and current sharing in communication systems, electronic complete machines, and automatic control power supplies. The manganin shunt has the characteristics of good stability and small temperature change. This device has been used as a current sampling device for electronic energy meters for decades, and it is still used as an indispensable sampling device today. [0003] The existing manganese-copper shunt is usually fixed on the incoming line end of the electronic equipment by fixing the copper sheet. The current sampling end of the manganese-copper shunt is connected with the electronic circuit PCB...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R15/00
CPCG01R15/00
Inventor 熊震
Owner HEXING ELECTRICAL
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