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A method and device for checking error of a three-phase electric energy metering device

An electric energy metering device and electric energy metering technology, applied in the direction of measuring devices, measuring electric variables, instruments, etc., can solve the problems that the overall error cannot be detected, and the number of metering devices in use cannot be detected in accordance with laws and regulations, so as to achieve self-calibration Effect

Active Publication Date: 2019-03-01
侯飞
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In order to solve the problem that the overall error cannot be detected in the prior art, the error of the current transformer and voltage transformer of the metering device must be detected on the spot only when the power is cut off, and the problem that the number of metering devices in use is too large to be detected according to laws and regulations

Method used

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  • A method and device for checking error of a three-phase electric energy metering device
  • A method and device for checking error of a three-phase electric energy metering device
  • A method and device for checking error of a three-phase electric energy metering device

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Embodiment 1

[0042] An embodiment of the present invention provides a method for verifying errors of a three-phase electric energy metering device. The three-phase electric energy metering device is composed of three single-phase electric energy metering units, and the single-phase electric energy metering unit is used to complete For the electric energy metering of each phase circuit, a single-phase electric energy metering device with a known overall error value is connected to any line of the three-phase electric energy metering device as an error standard, and the three-phase electric energy metering device, each single-phase electric energy metering unit The error standard device measures the electric energy data of its own line and reports it to the error processor to calculate the overall error of the three-phase electric energy metering device according to the load current segmental consideration. The three-phase electric energy metering device and its internal single-phase electric ...

Embodiment 2

[0061] The overall error is introduced in Embodiment 1, and the method of how to solve the overall error of the three-phase electric energy metering device is given through the method provided in Embodiment 1. Embodiment 2 focuses on the difference between the overall error and the average error, and gives a relatively clear definition. In this embodiment, the metering chip and its circuit are also called: electric energy meter.

[0062]Such as image 3 As shown, it is a schematic diagram of the structure of an existing group of electric energy meters, circuit transformers and voltage transformers, which have been introduced in Embodiment 1. The three-phase electric energy metering device described in this embodiment includes three groups of electric energy A single-phase electric energy metering unit composed of a meter, a current transformer and a voltage transformer. In the prior art, the current transformer and the voltage transformer are usually produced by manufacturer...

Embodiment 3

[0066] In Embodiment 1, it is described how to calculate the overall error of each electric energy metering device based on the access to an error standard with a known overall error value, and further combining the electric energy data recorded and reported by the three-phase electric energy metering device according to the preset method . In order to further enable those skilled in the art to understand how to calculate the overall error of each electric energy metering device based on the received electric energy data, this embodiment provides a method for segmental preprocessing according to the load current, such as Figure 5 shown, including:

[0067] In step 301, the error processor receives the electric energy data sent by the three-phase electric energy metering device, sorts and screens the electric energy data, and determines the load current segment to which the electric energy data belongs.

[0068] Wherein, in the first manner, the load current segment where the...

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Abstract

The invention is applicable to the field of electric energy metering, and provides an error verifying method and device for a three-phase electric energy metering device. The three-phase electric energy metering device is composed of three single-phase electric energy metering units which are used to complete the electric energy metering of the line of each phase. Any line of the three-phase electric energy metering device accesses at least one single-phase electric energy metering device with a known global error value to form an error standard device. The three-phase electric energy metering device, each single-phase electric energy metering unit and the error standard device measure the electric energy data of the lines, and report the electric energy data to an error processor to calculate the overall error of the three-phase electric energy metering device according to the load current segment consideration. According to the embodiment of the invention, self-error-checking of the three-phase electric energy metering device is realized; low verification efficiency caused by the need of a specially arranged test environment and specific test instruments in the prior art is overcome; and the problem that a calculated mean error of an electric energy meter cannot be used in industrial error value evaluation in the prior art is solved.

Description

technical field [0001] The invention belongs to the field of electric energy metering, and in particular relates to a method and device for verifying errors of a three-phase electric energy metering device. Background technique [0002] For the three-phase electric energy metering device in use, it is very difficult to determine whether the metering error is out of tolerance. The main reasons are: 1. The electric energy metering device is usually composed of three components: a current transformer, a voltage transformer and an electric energy meter. Its device error is a composite error calculated from the measurement accuracy of the three components. The use of synthetic error has drawbacks: it is not directly measurable. What's more serious is that the real overall error of the electric energy metering device may be greater than its integrated error and it is not easy to measure. 2. The on-site verification of the current transformer and voltage transformer errors must ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R35/04
Inventor 侯飞
Owner 侯飞
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