EASY5系列教程

青华模具培训

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高级教程(热和液压).pdf (3.2 MB, 下载次数: 166)

2012-8-7 16:12 上传

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高级教程.pdf (3.89 MB, 下载次数: 170)

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基础教程.pdf (3.81 MB, 下载次数: 243)

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E5*Z*Z*ALL*Z*SM*EAS101-NT1

MSC.EASY5™ CLASS Outline

              MSC.EASY5 Overview

              Getting Started -simple tutorial

              Tutorial 1 -Model Building

              Tutorial 2 -Linear Analyses

              Tutorial 3-Analysis Tools & Methodology

              Tutorial 4-Simulation and Integration

              Tutorial 5 -Data Tables and the Matrix Editor

              Tutorial 6 -Operating Point and Steady State Analysis

              MSC.EASY5 Architecture

              Tutorial 7 -Writing Code in MSC.EASY5

              Summary

              • Optional Topics

              – User-Defined Code

              – Matrix Algebra Tool

              – Advanced Topics

MSC.EASY5™ What is MSC.EASY5?

• Engineering Software Tool

–Used to model, simulate, analyze, and design dynamic systems.

– Complete graphical-user-interface (GUI).

              • Model Building Tool

              – Models are built using pre-defined components in: hydraulic, mechanical, multiphase fluid, pneumatic, and thermal libraries, as well as simple blocks, such as summers, integrators, and filters, used to model control systems.

              – User-defined code also added to model.

              • Analysis Tool

              – Includes non-linear simulation, steady-state, linear analysis, control system design, data analysis, and plotting. Source code is automatically generated to support real-time requirements (ADI, Harris, etc.).  

              • Interface Tool

              – Open architecture provides easy access to a broad set of software (MSC.ADAMS, ProMechanica, and others) used in computer-aided control system engineering.

              Customer Support

– Comprehensive technical support.

MSC.EASY5™ Block Diagram Modeling Approach MSC.EASY5™ Submodels Help Visualize Complex Schematics
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“Submodels” expand to lower-level models

MSC.EASY5™

Nonlinear Simulations and Linear Analyses Use Same Model

              Find an operating point

              •Simulation

              – “Normal”

              – Monitor

              – Interactive

              – Person/Hardware-in-the-loop

              • Linear(ized) Analysis

              – Linear Model

              – Transfer Function/ Frequency Response

              – Root Locus

              – Eigenvalue Sensitivity

              – Power Spectral Density

MSC.EASY5™ Nominal Simulation -Transient Response

              Simulate transient response of dynamic system

              Simulation data can be view as simulation executes (using Monitor Simulation feature)

              Plot & Print data after simulation has completed

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shushuiyutu

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