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[LV工具模块] LabVIEW 8.2 Simulation Module Win32Eng LabVIEW8.2仿真模块

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    LabVIEW 8.2 Simulation Module Win32Eng LabVIEW8.2仿真模块

    LabVIEW控制设计与仿真模块可用于仿真动态系统、设计控制器,并将控制系统部署至实时硬件。
    LabVIEW控制设计与仿真模块是一款与LabVIEW平台相集成的附加软件,提供了内置并行机制、多核和多速率技术等编程能力以及用来部署至实时硬件的工具。您可将测量功能集成到用于系统识别、模型校准或模型验证的设计中。然后将算法部署至NI实时嵌入式硬件,实现快速控制原型和硬件在环(HIL)应用。

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    LabVIEW 8.2 Simulation Module
    发布日期:2006/8/16
    包含的版本:8.2完整版
    受支持的操作系统:
    Windows 2000
    Windows XP 32-bit
    Windows Vista
    语言:英文English
    应用程序位数:32位
    校验和:
    文件名: LabVIEW 8.2 Simulation Module.zip
    文件大小: 111187510 字节 (106.04 MB)
    修改日期: 2023-05-09 11:38
    MD5: ee0c29ad8c9e07e5f72e0b37cba30def
    SHA1: 4a388ba1a1f6488aa5a7b310f9f13f414fdda466
    SHA256: e90b1a609ffcb12ce0e1706048e543cb9be08787b48a5ec84dee25d9d0441f02
    CRC32: 9f36e077

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    LV8.2Simulation.txt (435 Bytes, 下载次数: 0, 售价: 10 元)

    LabVIEW 8.2 Simulation Module Readme
    July 2006
    This file contains the following information about the LabVIEW 8.2 Simulation Module.
    What's New in 8.2
    Installation/Upgrading Instructions
    Accessing the Help and Examples
    Known Issues
    What's New in 8.2
    The LabVIEW 8.2 Simulation Module incorporates the following new features:
    Running Simulations on Embedded Devices
    You now can develop and execute simulations on an embedded device. To use this feature, you must install LabVIEW for the embedded device on which you want to run the simulation.
    VI / function behavior changes
    • The Gain function has a new polymorphic instance, Dot product. Use this polymorphic instance to compute the dot product of two vectors.
    • The Summation and Multiplication functions now support mixed scalar/vector inputs.
    • You can create polymorphic simulation subsystems.
    Installation/Upgrading Instructions
    Complete the following steps to install the LabVIEW 8.2 Simulation Module.
    • Insert the LabVIEW 8.2 Simulation Module installation CD, or download the installer from the LabVIEW beta website.
    • Run the setup.exe program.
    • Follow the instructions that appear on the screen.
    Accessing the Help and Examples
    The LabVIEW Simulation Module Help contains conceptual, how-to, and reference information about the Simulation Module. Complete the following steps to access this help file.
    • Launch LabVIEW.
    • Select Help»Search the LabVIEW Help from the pull-down menu to launch the LabVIEW Help.
    • Click the Contents tab.
    • Navigate to the Simulation Module top-level topic.
    The LabVIEW Simulation Module examples are located in the labview\examples\Simulation\ directory.
    Known Issues
    The following list describes known issues with the Simulation Module 8.2 Beta.
    • Saving a VI as a source distribution does not include simulation subsystems. Workaround: Add each simulation subsystem to the Project Explorer window. When you create the source distribution, place a checkmark in the Always include checkbox for each subsystem. This checkbox is located on the Source File Settings page of the Source Distribution Properties dialog box. Refer to the Building a Source Distribution topic of the LabVIEW Help for more information about these settings.
    • Deleting and then recreating a wire might cause the Run button to appear broken. Workaround: Click the Run button, and the VI runs.
    • Wires exiting the Simulation Loop might appear broken when you save or compile a VI. Workaround: Move the mouse cursor over the wire.
    • Pressing the key and dragging a Case Structure with a VI inside it might cause LabVIEW to crash.
    • Simulation subsystems might incorrectly allow feedback loops.
    • You cannot configure the execution time of Express VIs on the simulation diagram.
    • If the sample skew (sec) parameter of a discrete Simulation function is greater than the sample period (sec) parameter, the function always returns the initial value.
    • If you open the configuration dialog box of the State-Space, Transfer Function, Zero-Pole-Gain, Lookup Table 1D, or Lookup Table 2D functions and click the Cancel button, the Save and Load buttons might not work the next time you open the dialog box.
    • The sample skew parameter of the Discrete Linear Systems functions does not properly handle non-zero values.
    • Replacing front panel controls inside a Simulation Loop might cause LabVIEW to crash.
    • Selecting the 2D Array polymorphic instance of the Indexer function causes the configuration dialog box to become inconsistent.
    • The RT Communication Wizard does not work with stand-alone Simulation subsystems.
    • You cannot undo or redo changes in subVI discrete rates.
    • Holding the or keys while resizing Simulation function icons does not constrain the proportions of the icon.
    • You cannot place a LabVIEW MathScript Node inside a Simulation Loop.
    • If you try and execute a hardware-timed application on an RTX target, LabVIEW displays the following two errors:
      • Simulation Loop: Code could not be generated correctly for this VI
      • Input Node: Not supported for current target
      This error means that RTX targets do not support hardware timing. Workaround: Place a checkmark in the Software Timing checkbox on the Timing Parameters page of the Configure Simulation Parameters dialog box. Access this dialog box by double-clicking the Input Node of the Simulation Loop. Refer to the Configuring the Timing of the Simulation Loop topic of the LabVIEW Help for information on using RTX targets.
    • Creating a simulation subsystem from a portion of a VI block diagram causes LabVIEW to delete all undo information. To undo creating the subsystem, you can copy the subsystem block diagram code, delete the subsystem icon from the VI block diagram, and paste the code back onto the VI block diagram.
    Simulation Translator
    • After you close the Simulation Translator, the MATLAB application software might display the following message: "Cannot close the model '' when it is being compiled or while the simulation is running". In this situation, enter the following command in the MATLAB application software: ([],[],[],'term'), where is the name of the model you translated.
    • After you translate a model, you might need to convert some data types. To convert from a double to a Boolean, insert a Not Equal to Zero? block. To convert from a Boolean to a double, insert a Boolean to (0, 1) block.
    • The Simulation Translator ignores the State port of the Integrator block.
    • If you place a checkmark in the Show Errors checkbox and translate a model, the Currently Translating indicator includes the time for which you keep the Errors and Warnings dialog box open. If you do not want to include this time, place a checkmark in the Log Errors checkbox instead of the Show Errors checkbox.
    • Array indexes in formula and array assignment nodes might be off by one, because LabVIEW array indexes are zero-based.
    • The Simulation Translator translates the MATLAB Fcn block as the MATLAB script node with only scalar double input terms.
    • The Simulation Translator converts Manual Switch blocks with an array of control switches.
    • Product blocks in Matrix Multiply mode do not function correctly. Try replacing the Product block with the A x B VI.
    • If the model contains a Scope block with multiple input signals, the Simulation Translator connects only the first input to that block.
    • The View button in the Errors and Warnings window might not highlight a corresponding node.
    • The Cancel button in the Simulation Translator does not work while you are translating a model. Use this button to close and exit the dialog box.
    • Multiple subsystems with identical names will be translated as a single subsystem VI.
    MATLAB® and Simulink® are the registered trademarks of The MathWorks, Inc. Further, other product and company names mentioned herein are trademarks, registered trademarks, or trade names of their respective companies.
    © 2002–2006 National Instruments Corporation. All rights reserved.
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