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Learn how to improve the quality of project deliverables in engineering design projects using a connected workflow between Caneco low-voltage software and SEE Electrical Expert. This software demonstration uses a fully sized electrical installation with auto-generated calculations to automatically produce single-line or multiline diagrams for each panel. You’ll see how the compliance-backed calculations and sizing in Caneco can leverage the design and documentation within electrical CAD software, including all the circuit information and cabling with minimal re-entry, thereby saving time and reducing the duplication of efforts.
Learn how to use ETAP GMPE, a new Power Simulator enhancement in ETAP 2026 that combines motor modeling, performance simulation, energy usage analysis and lifecycle economic evaluation within one integrated tool. This presentation demonstrates the uses for GMPE to simplify the estimation of motor performance graphically, using nameplate data and manufacturer performance curves. Also demonstrated is a walkthrough of how to evaluate motor dynamic acceleration under different operating conditions. The presentation also touches on the importance of including energy usage analysis and lifecycle economic evaluation into motor studies. With so much energy and investment tied to motors, GMPE helps engineers improve the accuracy of motor performance analysis, ensure the reliable operation of motors during acceleration, and make sound financial decisions on motor purchases and replacements.
Learn how to design, validate, and optimize PV and storage systems and EV charging stations efficiently and safely for the evolving European energy market. Caneco Electrical supports the integration of BESS into multi-network PV system design and compliance assessments. The value for engineers goes beyond the accurate modeling renewable projects for buildings and infrastructure. It also provides time savings through the automatic generation of compliant calculation notes, optimized protection devices and bill of materials documents for PV renewable projects which integrate battery storage and EVSE.
Discover SEE System Design, an ETAP multi-discipline computer aided engineering (CAE) software for complex installation projects. Used in shipbuilding, nuclear, aeronautics, and other industries, SEE System Design provides a flexible workflow during functional and system design phases to share data for fluids, instrumentation, HVAC, and electrical systems. This webinar presents a real-world example of a marine project, showing how this solution enables concurrent engineering in process flow, piping and instrumentation, and electrical system design. This solution has demonstrated efficiency to design ships and submarines containing over 10,000 devices and 10,000 cables, with a vast improvement in project delivery.
Explore how ETAP saves time in the calculation-intensive process of verifying that each cable is sized correctly in electrical installation projects. This webinar steps through the options available and the set up process for cable ampacity and sizing in ETAP, including how to apply project-specific settings and thermal or standards-based analysis methods. ETAP provides the flexibility to support diverse project workflows, whether the data input method is tabular or graphically defined within the ETAP integrated intelligent single-line diagram (iSLD). The presentation shows how a project design requirements can be customized or automatically determined from load flow, short circuit, and protective device calculation results. By using ETAP for voltage, current, and distance analysis, engineers can ensure safety and code compliance and prolong cable integrity in their electrical installations.
Learn how SEE Electrical, the CAD solution from ETAP to efficiently design schematics, wiring and terminal strips, functions as a central hub for electrical system design. This presentation includes software walkthroughs of many of the interoperability features included in the software, including mechanical CAD drawings, PLC programming, bill of materials, wire processing, terminal strip configurators, and others. Engineers use the robust data exchange integrations and automation features provided by SEE electrical to save time, reduce manual work, and accelerate electrical design and production workflows.
Concurrent engineering for power system projects helps teams to work more effectively, contributing to faster project delivery and improved design quality. ETAP NetPM enables multi-user electrical network modeling, on-site data collection, real-time synchronization and validation from different ETAP workstations at the same time. Learn how to implement ETAP NetPM™ for your teams, to enable efficient ETAP-to-ETAP cloud-based collaboration. The presentation walks through server installation, project configuration, and deployment of NetPM to guide a company’s project management and IT teams through this straightforward process.
Discover how engineers speed up design and engineering for building and infrastructure projects of all sizes with Caneco BIM. The presentation steps through the integrated workflow of Caneco BIM with Revit® in an Autodesk Construction Cloud® data environment. You’ll learn the advantages of collaborative design to produce fully-compliant electrical systems in the BIM model - including automation for single line diagram creation and cable and circuit breaker sizing. The presentation also show how Caneco BIM rapidly produces installation plans, circuit breaker curves, and alarm detection loops, among many others.
Without integration and automation, the production of complex electrical control systems for modern machinery can suffer from delays due to errors. Learn how ETAP SEE 3D Panel for manufacturing overcomes complexity by providing a fully integrated, real-time engineering and production platform for electrical cabinets. The presentation introduces this streamlined process where engineers can design, simulate, and visualize electrical systems in 3D and with real-time access on the shop floor and direct interfaces with production equipment to ensure that designs are applied to the final product accurately and efficiently. The presentation highlights the SEE 3D Panel direct connections to CNC machines, wire-cutting systems, and copper-bending machines to automate processes, eliminating manual assembly tasks to ensure the accurate transition from the electrical cabinet design to production.
Learn how ETAP Intelligent Load Shedding, or iLS, is used across many industries to manage rapid response to transient conditions, to prevent loss of production and even widespread blackouts. ETAP iLS can help respond faster to disturbances by using an electrical digital twin of the electrical network to continuously monitor, predict, and respond to system behavior. This presentation introduces the basic architecture requirements for an implementation of intelligent load shedding, explains its manufacturer-independent approach, and provides a demonstration of core capabilities. Also presented are three case studies highlighting the unique and powerful functionality provided by ETAP iLS, including load shedding validation, has provided an immediate return on investment. Through a solid understanding of the principles and applications of intelligent load shedding, developing and optimizing power systems becomes a more manageable undertaking that is well worth the effort.