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Etap_PowerStation_v16.2_download_tutorials_training ETAP is a fully graphical Enterprise package that runs on Microsoft ® Windows ® 2008, 2012, 7, 8, 8.1 and 10 operating systems. ETAP is the most comprehensive analysis tool for the design and testing of power systems available. Using its standard offline simulation modules, ETAP can utilize real-time operating data for advanced monitoring, real-time simulation, optimization, energy management systems, and high-speed intelligent load shedding.
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Has been designed and developed by engineers for engineers to handle the diverse discipline of power systems for a broad spectrum of industries in one integrated package with multiple interface views such as AC and DC networks, cable raceways, ground grid, GIS, panels, arc flash, WTG, protective device coordination/selectivity, and AC and DC control system diagrams. ETAP users must be proficient in using basic operations of Windows ® environment. Use of ETAP does not require training. However, to facilitate the learning process, OTI provides workshops throughout the year in several locations. (Refer to www.etap.com for the up-to-date training schedule.). ETAP allows you to easily create and edit graphical one-line diagrams (OLD), underground cable raceway systems (UGS), three-dimensional cable systems, advanced time-current coordination and selectivity plots, geographic information system schematics (GIS), as well as three-dimensional ground grid systems (GGS). The program has been designed to incorporate to three key concepts: Virtual Reality Operation The program operation emulates real electrical system operation as closely as possible.
For example, when you open or close a circuit breaker, place an element out of service, or change the operating status of motors, the deenergized elements and sub-systems are indicated on the one-line diagram in gray. ETAP incorporates innovative concepts for determining protective device coordination directly from the one-line diagram.
Strength points: • EASY: Integrated and modular program with a modern and intuitive interface and a high quality graphics. Very easy to use. • POWERFUL: Based on a general approach and then suitable for many applications, in a wide frequency range, with arbitrary conductors network and many soil models including multilayer. • WORLDWIDE: The only software in the market that takes into account International (IEC), European (EN) and USA (IEEE) standards.
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Hybrid methods join the strong points of the other methods and are well suited for engineering purposes because they allow the analysis of complex scenarios including external parameters such as voltages, currents and impedances. For these reasons, XGSLab can be considered a real laboratory.
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Modal analysis is used to characterize resonant vibration in mechanical structures. Each resonance has a specific “natural” or modal frequency, a modal damping or decay value, and a mode shape. FRF-Based parameter estimation (or curve fitting) is used to estimate the modal parameters of a structure from a set of FRFs.
At the heart of the Basic Modal Analysis option is the ME’scope Polynomial method, an easy to use MDOF curve fitter. This curve fitter can be used to simultaneously extract parameters for multiple modes, especially in cases of high modal density. It can also extract local modes where the resonant vibration is confined to a local region of the structure. The Multi-Reference Modal Analysis option contains all of the features of the Basic Modal Analysis option, plus additional methods for curve fitting a multiple reference set of FRFs.
Multi- Reference curve fitting is used to extract closely coupled modes and repeated roots (two or more modes at the same frequency). This option contains a Stability diagram for locating stable pole estimates, and three additional curve fitting methods: Complex Exponential, Z-Polynomial, and the patented AF Polynomial method. The Standard Edition includes improvements including a new Field Data Editor, Fields Wizard, and field conversion tool.
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One of the most newsworthy features targets an area where engineers have been doing repetitive and frustratingly tedious work: eccentricity modelling, where fictitious elements are introduced to counter modelling errors. Previously, when changes have been made to eccentric members and segmented members, each beam in the model has had to be recalculated manually.
A typical offshore jacket structure contains hundreds of beams – in such a scenario, this creates unnecessary and costly manual work. Software for hydrostatic, hydrodynamic and structural analysis. Sesam is used in design and analysis of all types of floating structures, including barges, ships and semi-submersibles, TLPs, FPSOs and spar buoys. Radiation/diffraction software combined with FEM (finite element method) • One common concept model for hydrostatic, hydrodynamic, global or local strength analysis • Intact and damaged stability calculations and Code checks • Hydrodynamic motion analysis in frequency domain • Inclusion of mooring and risers in calculation of motion characteristics.
This can be done in a simplified way in HydroD. Comprehensive inclusion requires DeepC or Sima.
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• Convert File Format – An option to enable or disable fitting of input data to a Gaussian beam has been added to the Convert File Format tool, which converts Optiwave F3D files to OpticStudio ZBF files. Fitting the data to a Gaussian beam is enabled by default. • Beam File Viewer – An option has been added to the Beam File Viewer so users can change the projection that is used to display ZBF data.
This option mimics the option in the Physical Optics Propagation (POP) analysis. • Beam File Viewer - The rendering speed has been improved for the Beam File Viewer in sequential mode. Non-sequential objects and ray tracing • Faceted Surface objects – An issue has been resolved with the Faceted Surface object in non-sequential mode; the X Half Width is now correctly limited when the shape of the surface is toroidal.
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To enhance the usability OpticStudio includes a comprehensive set of support modules within the software, including stock lens and materials catalogs, user help files, links to knowledgebase articles, and more. To ensure maximum productivity OpticStudio includes each of these modules at no additional cost. With OpticStudio, anything is possible OpticStudio is the industry-leading optical design software that combines complex physics and interactive visuals so you can analyze, simulate, and optimize optical systems all within tolerance specifications. Save time and money by creating a variety of optical, illumination, and laser systems with one software program.
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And the new Optics Manager in ASAP NextGen functions without a single line of script! Automatic Script Creation Speaking of scriptASAP NextGen offers another industry first for optical design software. Once systems are constructed in the Optics Manager, ASAP NextGen will automatically create a working script from the complete system prescription. Users needing access to ASAP’s powerful scripting language can immediately modify and run these scripts to add multi-variable analysis or optimization using the new Optimization Manager to their design tasks. Parallel + Remote Distributed Processing.
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Alternate Scripting Languages Newly added support for C# and Iron Python as alternate scripting languages with built-in code parsing and debugging. Enhanced support for Visual Basic. Provides extensible code base for these languages.
Major Improvements to Existing Features Script Editor New extensible Script Editor with an improved user interface and more control over script syntax, appearance, and keyboard shortcuts. Provides one-click access to new Optimization and Macro Managers and $SCR Editor. Optimization New optimization interface integrated directly into the Script Editor.
Automatically parses INR script to find defined variables for use as Design Variables, Constraints, or Merit Functions. Optimization conditions and visual output at run-time are visible within the INR script window. Macro Manager New feature that automatically parses ASAP Scripts to find macro code which is presented as a list.
One-click access to the list allows direct editing of each macro and changes are automatically updated to the Script Editor. $SCR Editor New $SCR Editor acts as a simple two-way forms editor with one-click access to text, integer, and floating point input. Editor automatically generates corresponding ASAP script and updates to script are automatically seen in the $SCR form. OptiSystem 14 includes several enhancements including a new C++ co-simulation component, updates to our multimode component portfolio (to better support the analysis of spatial mode multiplexed systems), the addition of star and circular QAM constellations for coherent transmission systems, and improvements to our transmitter and receiver component portfolios. Key New Features Introduction of a new Cpp component and Cpp CoSimulation Visualizer to allow users to import or build their own customized C++ algorithms/components and directly co-simulate their customized models (using dynamic link libraries) with any other OptiSystem component. Universal DSP, Decision, QAM Sequence Generator and QAM Sequence Decoder components have been updated to support a broader range of modulation formats, including star and circular QAM constellation formats as well as 32-QAM, 128-QAM, and 256-QAM constellations.
Enhancements have been made to the Multimode components library including the introduction of a new Spatial Demultiplexer component, improvements to the Erbium Doped MM Fiber, Ytterbium Doped MM Fiber, Measured-Index Multimode Fiber and Parabolic-Index Multimode Fiber amplifier and fiber models (for modelling spatial multiplexed systems and concatenated fibers) and the integration of LP mode generators into our Spatial Transmitter components. Components within the Transmitters and Receivers libraries have been improved including the introduction of a new Spectral Light Source component, improvements to the noise models in the APD and PIN components, the addition of thermal noise models to our Analog to Digital and Digital to Analog components and the addition of user-defined PAM amplitude maps to our PAM Coder and Decoder components. Updates to our Measured Filter, Measured Optical Filter, Lightwave Analyzer, View Signal Visualizer and Power Splitters; and the introduction of a new Diffuse Channel component for the modeling of indoor optical wireless systems. New library components and enhancements Co-simulation capabilities: Cpp, Cpp CoSimulation Visualizer We are pleased to announce the launch of our new Cpp component in OptiSystem 14.
Designed for users who wish to import or build their own customized C++ algorithms/components, the Cpp component will allow for the direct co-simulation of customized models (using dynamic link libraries) with any other OptiSystem component. It includes an open signal architecture interface to allow users to input and/or output any of OptiSystem’s signal types and complex waveform data arrays. In addition to the Cpp component, we have launched a new Visualizer, the Cpp CoSimulation Visualizer. The new Cpp CoSimulation Visualizer’s primary function is to duplicate all the signals that are designed to enter the Cpp component thus allowing for signal files to be loaded into the component design project (without OptiSystem running) when running in debug mode.
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