[1]吴 琎,祝恒洋,王志敏.高可靠性泵用动力驱动系统静电危害及防护措施浅析[J].微电机,2020,53(06):99-102.
WU Jin,ZHU Hengyang,WANG Zhimin.Electrostatic Hazards and Protection Measures of Power System for High Reliability Pump[J].MICROMOTORS,2020,53(06):99-102.
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《微电机》[ISSN:1006-6977/CN:61-1281/TN]
卷:
53卷
期数:
2020年06期
页码:
99-102
栏目:
出版日期:
2020-06-28
- Title:
-
Electrostatic Hazards and Protection Measures of Power System for High Reliability Pump
- 作者:
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吴 琎1,祝恒洋1,王志敏2
-
(1.西安微电机研究所,西安710077; 2.深圳市赛为智能股份有限公司,广东 深圳 518000)
- Author(s):
-
WU Jin1, ZHU Hengyang1,WANG Zhimin2
-
(1.Xi’an Micromotor Research Institute,Xian 710077,China; 2. Shenzhen Saiwei Intelligent Co.,Ltd., Shenzhen Guangdong 518000, China)
-
- 关键词:
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静电; 高可靠性; 泵; 驱动系统; 危害; 防护
- Keywords:
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static electricity; high reliability; pump; drive system; hazards; protection
- 分类号:
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TP271
- 文献标志码:
-
A
- 摘要:
-
本文介绍了静电对高可靠性泵用动力驱动系统的危害及防护措施。静电是日常非常常见的一种现象,在高可靠性泵用动力驱动系统中,静电的危害与产品的可靠性、安全性紧密的联系在一起。本文简要的对静电的应用技术进行了概括,并通过案列分析了静电对高可靠性泵用动力驱动系统的危害及如何进行静电防护
- Abstract:
-
This paper introduced the harm of static electricity to the power system of high reliability pump and protective measures. Static electricity was a very common phenomenon in daily life, in the power system of high reliability pump,the harm of static electricity was closely related to the reliability and safety of the product.In this paper,the application technology of static electricity was briefly summarized,and the harm of static electricity to the power drive system of high reliability pump and how to carry out static electricity protection were analyzed through a case study
参考文献/References:
[1] 刘建斌.静电对电子产品的危害及其防护[J].装备环境工程,2006(6):69-72.
[2]708所.防静电操作系统通用规范:QJ2846-96[S].中国航天工业总公司,1996.
[3]505-2厂.电子元器件防静电要求:QJ1693-89[S].中华人民共和国航天工业部,1989.
相似文献/References:
[1]蒋雪峰,黄文新,李 洁,等.航空用高可靠永磁容错电机及其驱动系统的研究现状与发展[J].微电机,2020,53(06):108.
JIANG Xuefeng,HUANG Wenxin,LI Jie,et al.Overview of High Reliability Fault-tolerant Permanent MagnetMotor and its Drive System for Aerospace Applications[J].MICROMOTORS,2020,53(06):108.
备注/Memo
收稿日期:2020-03-20
作者简介:吴 琎(1982),女,工程师,研究方向为微电机的控制及应用、电力电子技术。
更新日期/Last Update:
1900-01-01