Integrated AC & DC Design & Analysis
Model-Driven SCADA, EMS, PMS, ADMS & SAS
A Unified Digital Twin PlatformDesign, Operation, and Automation
Didn't find what you are looking for?
We're here to help!
621 Item(s) found
ETAP Battery Energy Storage Systems solution helps improve system reliability and performance, offers renewable smoothing, and can increase the profit margins of renewable farm owners.
This webinar introduces an integrated model-driven approach for engineers and managers to design and operate power systems. ETAP’s Digital Twin Platform combines electrical, mechanical, and thermal properties with intelligent visualization for modeling, design, automation, and real-time predictive analysis. Learn how ETAP’s unique multi-dimensional database eliminates the need for hundreds of copies of the project file, by providing unlimited graphical presentations, configurations, data revisions, loadings, generations and operational values within the same project database. Moreover, ETAP unified platform allows simultaneous analysis of the network under various conditions.
Learn how owners, operators, and planners utilize ETAP GIS to better design, analyze, and expand their networks. We will discuss how to include transmission, sub-transmission and distribution networks in the same electrical model and solve the combined networks.
ETAP's intelligent electrical single line diagram (iSLD) is a multi-layered one-line view of the digital-twin, that includes advanced functionality and awareness of the device's characteristics and system behavior. It is an active blueprint and the foundation of your digital transformation journey. A Single-Line Diagram (SLD) is the ultimate user-interface to model, visualize, collaborate, and analyze electrical networks.
A 5 minute demo on how to shorten the project duration for power system modeling and studies, from months to weeks, utilizing ETAP Network Project Management (NetPM™), a platform for collaborative engineering.
A brief overview on how to shorten the project duration for power system modeling and studies from months to weeks, utilizing ETAP Network Project Management (NetPM™), a platform for collaborative engineering.
Learn how to shorten the time for power system modeling and studies from months to weeks, utilizing ETAP Network Project Management (NetPM™), a platform for collaborative engineering.
ETAP 21.0 offers a new set of integrated power analysis modules, electrical dimensioning capabilities, automation, and operations solutions. In this webinar, we demonstrate new Design, Analysis & Simulation Solutions & Features, plus many of the enhancements and time-saving improvements.
The design, sizing, and regulation of the protection system are still one of the major challenges for the integrity and continuity of operation of the power system despite the continuous technology evolution. Protection system shall be capable to continuously monitor the power system, operate quickly and selectively under hundreds of transitory conditions for any type of fault without false trips with the objective to minimize outages, improve safety, and maximize service continuity. This presentation covers a real case study for an expansion of a brownfield industrial installation with new equipment that prompted the need for modification of existing protective device settings thus, requiring revision and re-validation of the coordination studies. The case study will demonstrate how ETAP software features and capabilities were utilized to verify the new / recommended settings to address the protection & coordination objectives and arc flash hazard impact.
This presentation will feature covert ABB Fault Current Limiter (FCL) application engineering for Is-limiters. We will explain the fault current limiter technology by using the well-known ABB FCL Is-limiter. The FCL technology will be introduced, how it clears a short-circuit fault current compared to a standard circuit breaker, and the major components of an FCL. The theory of the application engineering process and the calculation of the tripping value for an FCL will be introduced. Based on an actual customer project, it will be shown how ETAP has facilitated the complex FCL application engineering, and examples will be provided of how the real tripping value for a fault current limiter is determined. The session will conclude with an overview of how etap can already be used today for an FCL application engineering and what will be enhanced in the future.
Electrical Power System Analysis & Operation Software
Subscribe to ETAP News
Antigua and Barbuda
Bosnia and Herzegovina
British Indian Ocean Territory
Central African Republic
Congo - Brazzaville
Congo - Kinshasa
Democratic Republic of the Congo
French Southern Territories
Heard Island and McDonald Islands
Isle of Man
Northern Mariana Islands
Papua New Guinea
Saint Pierre and Miquelon
Sao Tome and Principe
St. Vincent & The Grenadines
Svalbard and Jan Mayen
Trinidad and Tobago
Turks and Caicos Islands
United Arab Emirates
United States Minor Outlying Islands
Wallis and Futuna
© 2023 Operation Technology, Inc. All rights reserved.