热门产品
快速链接
设计 计算 评估
ETAP 直流弧闪分析模块为不同类型的直流应用计算入射能,包括重要设备设施,太阳能发电厂,变电站电池组和核电厂
ETAP 直流弧闪遵循NFPA 70E 2015 附录 D.8,它主要用于直流入射能的计算。这个模块允许工程师比较直流弧闪入射能值并确定最保守的结果
探索附加组件和其他相关产品。
查看所有产品
了解重点介绍该产品的解决方案。
查看所有解决方案
查找包含该产品作为其集合一部分的包装束。
查看所有套餐
了解该产品在各个行业中的应用。
查看所有行业
ETAP已将自己确立为核电厂的实际标准。
ETAP使设计人员和工程师能够概念化收集系统,确定风力渗透并进行并网分析
ETAP为智能数据中心提供了先进的电气分析、仿真和运行解决方案。
根据EC&M杂志上公布的前40家电气设计公司的数据,前10名电气设计公司全都依赖ETAP。
了解该产品在工程系统中的用途。
查看所有系统
查看所有资源
Learn how ETAP DC Arc Flash Analysis software calculates the incident energy for photovoltaic systems, while considering different methods such as Maximum Power, Stokes and Oppenlander, Paukert, DGUV-I-203-077. This presentation shows how ETAP applies the DC arc incident energy models developed in IEEE "Methods for Evaluating DC Arc Incident Energy in Photovoltaic Systems"
This webinar discusses how well ETAP DC Arc Flash method results correlate with the test measured incident energies. The comparisons to be discussed include arc flash tests in photovoltaic and battery/rectifier powered systems. Furthermore, this webinar introduces major improvements to the DC Arc Flash calculation methods in ETAP 20; such as the “Incident Energy Subtraction Method" and new Worst-Case Datablocks from the DC Arc Flash Result Analyzer.
The topics discussed in this video are the characteristics of an Arc, DC Short Circuit calculations, the Maximum Power Method, the Stokes and Oppenlander Method, Paukert Method, how these methods are utilized in ETAP, the calculation of incident energy, how to configure ETAP 11.1 to determine whether or not you are dealing with an open or closed air equipment, and the result analyzer.
This module calculates the incident energy for different types of DC applications.
通过申请适合您的培训课程来深入了解我们的电气工程软件。
立即探索