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This webinar presents the European/German standard DGUV-I 203-077 for arc flash hazard calculations. This method, just like IEEE 1584-2018, is in use in many European countries. We will compare the German Arc Flash methodology to IEEE 1584-2018 and introduce ETAP tools available for Arc Flash calculations based on this standard. Application examples as well as features & capabilities will be presented.
Unified Digital Twin Platform for Design, Operation, and Automation This catalog provides an overview over all solutions ETAP offers electrical engineers and operators of electrical power systems.
ETAP® is the most comprehensive electrical engineering software platform for the design, simulation, operation, and automation of generation, transmission, distribution, and industrial systems.
This webinar demonstrates how eOTS™ helps to develop and improve operator competency through real-world simulated learning, resulting in improved power system design and operation.
As more Distributed Energy Resources (DERs) are added and mixed into the grid, the need to effectively evaluate and validate the dynamic response of power systems has become essential for grid resiliency, reliability, and security. In this webinar, learn how ETAP Transient Stability Analysis addresses needs and challenges of stability studies for power systems with integrated DERs.
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 webinar shows how ePPC leverages an electrical digital twin from design to validation and automation of renewable power plants for maximum yields and stability of the grid.
Learn how to perform Motor Acceleration Studies on any system, regardless of the project stage and available input data; from conceptual design, to FEED, to daily operations. Topics include Impact of Motor Starting, Data Requirements and Motor Parameter Estimation, Dynamic Motor Starting, Motor Acceleration using Transient Stability and Automated Motor Start and Result Analyzer.