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Learn how software-in-the-loop training by ETAP helps power operation teams maintain skillsets and prepare new operators to respond rapidly within a safe and cost-effective environment. The presentation identifies the advantages of system response training, including the cascading consequences of an action on the system, and includes product demonstrations of the unique features of eOTS that accelerate time-to-competency. ETAP Operator Training Simulator (eOTS) bridges the gap between power system modeling and operations using a fully replicated and interactive simulation environment modeled using real-time operational data.
Discover the key components to advanced distribution management solutions from ETAP that utilities use to lower energy costs, improve power reliability and strengthen their sustainability efforts. Designed for electrical power distribution networks and smart grids of any size, this intelligent and robust decision-support platform leverages a unified digital twin of the electrical network and provides geospatial and mission-critical tools to manage distribution operations. The presentation includes a demonstration of the advanced visualizations provided for distribution management, including feeder and network, NetView simplification, real-time power flow, Predictive Simulation of events, connected microgrids, HMI customization, Volt/VAR optimization, Switching Sequence, Outage Management and others features.
Learn about ETAP power system management solutions operators use to consistently deliver power, optimize operations, and maintain safety standards. These new approaches for real-time monitoring and situational intelligence help to effectively balance supply and demand under rapidly changing conditions, so that operators can make informed decisions more rapidly. Get an overview of the unique capabilities of ETAP Power System Management (PSMS) that leverages digital twin technology for live data collection and predictive simulation. The features of ETAP Situational Intelligence (eSI) are also highlighted to show how this solution goes beyond the standard HMI display to enhance the operator's ability to monitor and respond to system events. Through these improvements to visualization and predictive analysis of power system conditions, ETAP solutions ensure that operators are always one step ahead, ready to address any potential risks before they materialize. The end result is that grid performance and reliability is optimized, reducing response times to disturbances through automated workflows.
Skyworks has been manufacturing integrated circuit modules since 1969, investing in technology, facilities, and state-of-the-art equipment, yielding a world-class operation based on advanced processes and a highly trained workforce. As one of the largest employers in the Mexicali region with 3100 employees, Skyworks was in need of an accurate way of controlling the energy costs of all their plant processes. Skyworks has already been using ETAP Digital Twin for their electrical system at the medium voltage level for the last 5 years, and this contributed to electricity and gas efficiency at plants that resulted in 29,173 tons of CO2 reduction over the years. In the semiconductor manufacturing business, it's very important to monitor the electrical system throughout the plant, including medium and low voltage operations. In this demonstration, you’ll learn how Skyworks expanded their ETAP model to include low voltage equipment, including predictive simulation in order to improve the reliability of their entire electrical system, and power system modeling (PSMS) to manage and ensure the electrical system power quality and increase the energy efficiency of their entire electrical operation.
Siemens Teamcenter Integration for SEE Electrical Expert
Learn how 3D prototyping for machine and panel building optimizes the entire workflow, from design to assembly on the production floor to keep up with the growing complexity of electrical designs used in today’s sophisticated machines and control panels This webinar explores how SEE 3D Panel software integrates 3D electrical engineering with advanced prototyping capabilities to provide a comprehensive understanding of the electrical system to ensure that designs are accurately translated into production-ready models, reducing the risk of errors and inconsistencies. You’ll learn how SEE 3D Panel contributes time-savings as well as better quality outcomes by providing a consistent framework for design and documentation, including wiring lists, component lists, and assembly instructions.
Learn how ETAP software incorporates advanced harmonics analysis tools with the latest compliance standards to help engineers address today’s power quality challenges, particularly with the integration of IBRs, DERs, and EV charging infrastructure. Poor power quality with excessive harmonic distortions can contribute to reduced equipment lifespan, reduced efficiency, and potential failures. Performing balanced and unbalanced harmonic analysis helps to improve system reliability and ensure compliance with relevant industry standards, such as IEEE Std 1547 and IEEE Std 2800 and others. This presentation includes a technical demonstration of how the latest updates to ETAP’ Power Quality modules has simplified harmonic analysis and frequency scans to reduce study time with its unified electrical digital twin technology and insightful visualizations.
Learn about the innovative new features and capabilities of ETAP specific to cable sizing and protection for low voltage networks. This presentation briefly covers the principles of current-limiting low voltage (LV) breakers and then demonstrates how ETAP can be used to assess the protection of cables and energy in LV networks. The new ETAP Energy and Current Characteristic View is presented, which is used for simplified analysis of cable protection against overcurrent conditions. Also, ETAP’s Star Auto-Evaluation power system monitoring is demonstrated. This module is used for assessing cable energy withstand capabilities to ensure that a breaker’s let-through energy is within safe limits. The presentation also demonstrates ETAP’s enhancements to cable sizing analysis that applies let-through energy as an additional constraint. By considering current-limiting breakers in the evaluation of an LV network model, engineers can make better informed decisions that ensure safety and improve reliability.
In this webinar we explore how ETAP StarZ Transient Stability enables a comprehensive understanding of the interactions between system dynamics and protection systems. Learn about the significant advancements in power system dynamic analysis in ETAP 2024 to enable a comprehensive understanding of the interactions between system dynamics and protection systems. By integrating relay models with RMS dynamic simulation, you’ll discover how StarZ Transient Stability addresses some of the root causes of cascading failures recognized by the power system industry, such as the mis-operation of relays and/or their overly conservative settings. As well, you’ll learn how to analyze power system dynamics on systems with integrated inverter-based resources, how to validate advanced protection functions, and also the performance of conventional protection functions such as distance, overcurrent, voltage and frequency protection functions and more.
Learn the enhanced techniques and compliance standards available in ETAP 2024 to simplify the identification and quantification of electrical hazards for AC and DC arc flash to ensure workplace safety. This presentation also introduces ETAP’s newest safety enhancement for determining incident energy levels and arc flash boundaries using C-area curves, to support today’s fast-evolving DC system technology. ETAP’s DC arc flash analysis includes methods specifically researched and designed for photovoltaics (PV), batteries, and other DC systems, including large DC capacitors and converters.