Monitoring method aiming at single-phase intelligent electric energy meter automation error verification device

The invention discloses a monitoring method aiming at a single-phase intelligent electric energy meter automation error verification device, and belongs to the automation error verification device monitoring method technology field. The monitoring method comprises quality control testing, uncertaint...

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Hauptverfasser:	LI TONG, ZHANG YUE, KONG FANQIANG, SUN XU, WANG HANJIE, DING QIANG, LI YUTIAN, ZHANG JIAGENG, AN XINYANG, YANG QIANG, ZHANG HONGMING, YU XU, WANG JINGPING, JIANG HANSHU, CUI SHUANGFENG, JU MOXIN, ZHANG YANG
Format:	Patent
Sprache:	chi ; eng
Schlagworte:	MEASURING MEASURING ELECTRIC VARIABLES MEASURING MAGNETIC VARIABLES PHYSICS TESTING
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creator	LI TONG ZHANG YUE KONG FANQIANG SUN XU WANG HANJIE DING QIANG LI YUTIAN ZHANG JIAGENG AN XINYANG YANG QIANG ZHANG HONGMING YU XU WANG JINGPING JIANG HANSHU CUI SHUANGFENG JU MOXIN ZHANG YANG
description	The invention discloses a monitoring method aiming at a single-phase intelligent electric energy meter automation error verification device, and belongs to the automation error verification device monitoring method technology field. The monitoring method comprises quality control testing, uncertainty evaluation, and uncertainty evaluation result verification. The monitoring testing of the single-phase intelligent electric energy meter automation error verification device is realized, and unmanned management of a testing process is realized, and a subjective error is prevented. Data acquired by the testing is stored in a database, and data transmission and archiving are facilitated, and paperless management is realized. A meter position in the automation error calibrating device is used as the comparison set of the uncertainty evaluation result, and after random abnormity is eliminated, the meter position is proved to have hardware fault problems. The monitoring method has advantages of scientific design, conv
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The monitoring method comprises quality control testing, uncertainty evaluation, and uncertainty evaluation result verification. The monitoring testing of the single-phase intelligent electric energy meter automation error verification device is realized, and unmanned management of a testing process is realized, and a subjective error is prevented. Data acquired by the testing is stored in a database, and data transmission and archiving are facilitated, and paperless management is realized. A meter position in the automation error calibrating device is used as the comparison set of the uncertainty evaluation result, and after random abnormity is eliminated, the meter position is proved to have hardware fault problems. 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title	Monitoring method aiming at single-phase intelligent electric energy meter automation error verification device
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