石鑫华视觉 手机微信QQ:13450001061

下载中心

LabVIEW Simnuation Interface Toolkit 3.0.1 Win32Eng LabVIEW8.0仿真接口工具包SIT3.0.1下载

文章来源:石鑫华视觉网时间:2022-05-16 14:41:05 点击:350

Windows系统下(Linux和MAC系统下请自行了解清楚)NI的各种软件、模块、工具包、驱动程序,使用NI许可证管理器来激活的,绝大部分的都可以使用NI Lincense Activator来激活,以下链接可下载:
NI序列号Serial Number生成激活工具NI License Activator,LabVIEW/VBAI/VDM/VAS等软件模块工具包破解工具不限版本
http://pcmv.cn/thread-490-1-1.html

视觉论坛的各种资源,除了视觉相关的模块有使用外,大部分的都不会使用,所以仅提供资源不能提供技术支持。资源的下载地址一般会同时提供NI官方地址和百度网盘的下载地址。某些工具包NI的地址失效或没有NI的下载地址,那视觉论坛也没有办法,只能尝试使用百度网盘地址下载;如果百度网盘的下载地址失效过期,可联系论坛客服更新。现在NI的下载服务器对我国IP地址不是很友好,有些时候速度很慢或大的资源下载很容易出错,这样会造成安装过程各种类型报错而无法安装。建议在下载完成后,对下载资源做校验和验证(NI一般会提供MD5或SHA256等),与官方或视觉论坛提供的校验和对比,一致就可以安装,如果不一致,则需要重新下载。视觉论坛早期下载的资源,那时候NI没有这么多限制,基本上都是正常下载的资源;后期下载的资源,都与NI的正确校验和对比过,保证是正确的资源才上传到百度网盘,所以百度网盘的资源基本上是正确的。校验和工具下载地址:
文件Hash计算器FHash,文件校验和验证下载文件正确性验证,MD5值计算、SHA1值计算、SHA256值计算、CRC32值计算
http://pcmv.cn/thread-26524-1-1.html

LabVIEW Simnuation Interface Toolkit 3.0.1 Win32Eng LabVIEW8.0仿真接口工具包SIT3.0.1下载

3.0.1~LV8
文件大小: 56994304 字节 (54.35 MB)
修改日期: 2010-04-25 04:21
MD5: d48e969479b57889f945ce08081ea1d1(重复一致,可秒传)
SHA1: f2865106c4991fc914c344662115a3d8a873b403
SHA256: cbf73f17b85ec3c5a0561dfece14b7a8df7fe2368a7cc9adc0ad3e87d8e6af9f
CRC32: c225b694

百度网盘和NI官方下载地址:

LabVIEW Simnuation Interface Toolkit 3.0.1 Win32Eng LabVIEW8.0仿真接口工具包SIT3.0.1下载

http://pcmv.cn/thread-25513-1-1.html?fromuid=9

(出处: 视觉论坛VISIONBBS|视觉之家VISIONHOME)



LabVIEW Simulation Interface Toolkit 3.0.1 Readme

March 2006
The Simulation Interface Toolkit (SIT) 3.0.1 updates SIT 3.0 to support LabVIEW 8.0, the LabVIEW Real-Time Module 8.0, and the LabVIEW FPGA Module 8.0. You also can use SIT 3.0.1 with LabVIEW 7.1.x. However, you cannot install SIT 3.0.1 for both LabVIEW 8.0 and LabVIEW 7.1.x.
The following list pertains to SIT 3.0.1.
  • When converting a model to a model DLL, you can improve conversion time by excluding signals from virtual blocks. However, if you exclude these signals, you cannot probe these signals unless you add a non-virtual block to the signal. Complete the following steps to exclude signals from virtual blocks.

    • Launch the Simulink application software and load the model you want to convert.

    • For the MathWorks, Inc. MATLAB® application software release 13, select Simulation»Simulation parameters to launch the Simulation Parameters dialog box.

      For the MathWorks, Inc. MATLAB® application software release 14, select Simulation»Configuration Parameters to launch the Configuration Parameters dialog box.

    • Click the Real-Time Workshop tab.

    • Click the Browse button to launch the System Target File Browser dialog box.

    • Select nidll.tlc—NI Real-Time Target from the list.

    • Click the OK button.

    • For the MathWorks, Inc. MATLAB® application software release 13, enter nidll.tlc -aNiDisableVirtualBlockMap=1 in the System target file text box.

      For the MathWorks, Inc. MATLAB® application software release 14, enter -aNiDisableVirtualBlockMap=1 in the TLC options text box.

  • If you are using SIT 3.0.1 with LabVIEW 7.1.1fx, you cannot view custom FPGA VIs. Workaround: After you click the Browse button in the Add FPGA Device dialog box, select View All from the File Type drop-down list. If you are using a pre-defined FPGA VI that ships with SIT 3.0.1, you must rename the VI on disk to sitfpga <device> 7_1_1_fx devicetype.vi, where <device> is the FPGA device, x is the LabVIEW update number, and devicetype is master or slave.

  • If you are running a simulation on the NI PXI-8146, you must install the LabVIEW Real-Time Module to the NI PXI-8146 before installing the Simulation Interface Toolkit 3.0.1.

  • If you open a host VI you saved in SIT 3.0, the SIT Connection Manager dialog box loads slowly the first time you launch this dialog box. The load time reduces the next time you launch this dialog box.

  • If you create a mapping using the SIT Connection Manager dialog box and then click the Cancel button, the new mapping is retained.

  • SIT 3.0.1 includes two VIs that enable datalogging for a custom host VI. These VIs, SIT FinishLogging VI and SIT Log Continuously VI, are located in the labview i.libddonsSimulation Interfacedriverblocks directory.

  • If you use the Project Explorer window to deploy a driver VI to a real-time target, you must run that VI before the host VI can connect to it. You must complete the following steps before running the driver VI.


    If you build the model DLL again after running the simulation, you must remove the driver VI from memory before running simulation again.

    If you use the SIT Connection Manager dialog box to create and deploy a driver VI, you do not need to use the Project Explorer window.

    • Right-click the real-time (RT) target in the Project Explorer window and select Properties from the shortcut menu.

    • Select VI Server: Configuration in the Category list.

    • Place a checkmark in the TCP/IP checkbox.

    • Select VI Server: Machine Access in the Category list.

    • Click the Add button, and enter the IP address of the host computer in the Machine name/address text box.

    • Select VI Server: Exported VIs in the Category list.

    • Click the Add button, and enter the path and name of the driver VI in the Exported VI text box.

    • Click the OK button.

  • If you run a driver VI on a non-RT target and want to connect to the driver VI by using a networked PC, you must run the driver VI before attempting to connect to it from the networked PC. You also must complete the following steps on the PC running the driver VI.

    • Launch LabVIEW and open the driver VI.

    • Select Tools»Options from the pull-down menu.

    • Select VI Server: Configuration in the Category list.

    • Place a checkmark in the TCP/IP checkbox.

    • Select VI Server: Machine Access in the Category list.

    • Click the Add button, and enter the IP address of the networked PC in the Machine name/address text box.

    • Select VI Server: Exported VIs in the Category list.

    • Click the Add button, and enter the path and name of the driver VI in the Exported VI text box.

    • Click the OK button.

  • If you are running a multirate simulation using an NI FPGA device and a lower-priority task finishes late, this late finish forces the driver VI to report an overrun, which halts the simulation. This behavior occurs regardless of whether the Halt Simulation on Any Task Overrun checkbox contains a checkmark.

Accessing the Help

If you install SIT 3.0.1 for LabVIEW 7.1.x, access the help by selecting Help»Simulation Interface Toolkit Help from the pull-down menu. If you install SIT 3.0.1 for LabVIEW 8.0, access the help by selecting Help»Search the LabVIEW Help from the pull-down menu and navigating to Toolkits»Simulation Interface Toolkit.

LabVIEW Simulation Interface Toolkit 3.0 Readme

October 2005
This file contains the following information about the LabVIEW Simulation Interface Toolkit 3.0.
System Requirements
What's New in 3.0
Support for Real-Time Targets
Accessing the Help and Examples
Upgrading from SIT 2.0.x
Installation/Upgrading Instructions
Development Tips
Known Issues

System Requirements

In order to install the LabVIEW Simulation Interface Toolkit 3.0, you must already have installed National Instruments LabVIEW 7.1.x Full or Professional Development System, on the same computer. To create a host VI for a previously-developed model, you need only LabVIEW installed.
To develop a model, you must be a properly licensed user of and have the following software installed on the host computer or a remote networked computer.
  • The MathWorks, Inc. MATLAB® / Simulink® application software release 13.x or 14.0, 14.1, 14.2, 14.3

To control an offline simulation using SIT 3.0, you must install SIT 3.0 in addition to the MATLAB application software and the Simulink application software.
To convert a model into a model DLL, you must install the following software:
  • The MathWorks, Inc. Real-Time Workshop® release 13.x or 14.0. 14.1, 14.2, 14.3

  • Microsoft Visual C++ 6.0. You can use Microsoft Visual C++ .NET 2003 only if you installed the LabVIEW 7.1.1 maintenance release.

To control a simulation in real time, you must be a properly licensed user of and have the following software installed on both the host computer and the real-time target.
  • National Instruments LabVIEW Real-Time Module 7.1.x for ETS Targets.

  • (Optional) National Instruments LabVIEW FPGA Module 1.1.x, for customized FPGA VIs used in real-time simulations involving FPGA devices

To control a simulation in real time, you also must install the following driver software versions, depending on the type of hardware you want to use.
National Instruments HardwareDriver Software Version Required
National Instruments FPGA DevicesNI-RIO™ 1.3 or later
National Instruments CAN InterfacesNI-CAN™ 2.3 or later
National Instruments DAQ DevicesNI-DAQmx™ 7.2 or later

What's New in 3.0

The Simulation Interface Toolkit 3.0 includes the following new features:
  • Improved Model Parsing Performance—Models developed in the Simulink simulation environment load much faster in SIT 3.0 than in SIT 2.0.x.

  • Configurable Driver VIs for National Instruments FPGA Devices and CAN Interfaces—Use the SIT Connection Manager dialog box to create mappings between a model DLL and NI FPGA devices and CAN interfaces.

  • Editing Multiple Parameters at Run Time—Use the Edit Multiple Parameters dialog box to change the value of multiple parameters at once while the simulation is running.

  • Modifying Mappings at Run Time—Use the Remap Controls and Indicators dialog box to modify mappings between the host VI and the model while the simulation is running.

  • Dynamic Connection Manager—The SIT Connection Manager dialog box now detects controls and indicators you place on the front panel of the host VI at edit time.

  • Single SignalProbe Block—Use a single block to probe all model signals.

  • Datalogging—Use the Datalogging Settings dialog box to log simulation data to a file you specify.

  • Global Signal Decimation—You can apply a global decimation factor to signals the execution host returns.

  • Multi-rate Simulations—SIT 3.0 supports preemptive multi-rate execution on NI FPGA devices and CAN interfaces.

Support for Real-Time Targets

The LabVIEW Simulation Interface Toolkit supports running a simulation on the following types of National Instruments RT Series Hardware.
  • PXI/PCI

    • NI PXI-8145

    • NI PXI-8146

    • NI PXI-8156B

    • NI PXI-8170

    • NI PXI-8175

    • NI PXI-8176

    • NI PXI-8184

    • NI PXI-8186

    • NI PXI-8187

    • NI PXI-8196

    • NI PCI-7041. Refer to the Known Issues section of this document for information about using the PCI-7041 in a real-time simulation.

  • FieldPoint

    • NI FP-2010

    • NI FP-2015

    • NI cFP-2010

    • NI cFP-2020

  • CompactRIO

    • NI cRIO-9961

The Simulation Interface Toolkit 3.0 ships with FPGA VIs for the following FPGA devices:
  • NI PCI-7811R

  • NI PXI-7811R

  • NI PCI-7813R

  • NI PXI-7813R

  • NI PCI-7831R

  • NI PXI-7831R

  • NI PCI-7833R

  • NI PXI-7833R

  • NI cRIO-9103

Accessing the Help and Examples

Access the Simulation Interface Toolkit Help by launching LabVIEW and selecting Help»Simulation Interface Toolkit Help from the pull-down menu. This help file contains concepts, procedures, and VI reference information to help you use the Simulation Interface Toolkit.
The LabVIEW Simulation Interface Toolkit examples are located in the labviewexamplesSimulation Interface directory.

Upgrading from SIT 2.0.x

Compared to SIT 2.0.x, SIT 3.0 represents an improvement in the process of configuring and running a simulation. For example, you now build driver VIs using the SIT Connection Manager dialog box, not the MATLAB application software. National Instruments recommends you refer to the tutorials in the Simulation Interface Toolkit How-To book of the Simulation Interface Toolkit Help before using SIT 3.0.
  • If you load a host VI saved in SIT 2.0.x and launch the SIT Connection Manager dialog box, SIT 3.0 prompts you to convert the host VI from 2.0.x format to 3.0 format. The conversion process preserves control/indicator mappings and all block diagram code SIT 2.0.x did not generate. The conversion process does not preserve any edits you made to the block diagram code SIT 2.0.x generated. If the path to the model is invalid, SIT 3.0 prompts you to specify a valid path.

  • SIT 3.0 does not convert driver VIs that SIT 2.0.x generated. You must rebuild driver VIs for use in real-time simulations.

  • The Simulation Interface Toolkit 3.0 deprecates the following VIs: SIT Start Server, SIT Step Model, SIT Stop Server, SIT Wait for Run Command, SIT Finalize Model (No Server), SIT Initialize Model (No Server), SIT Map Model Parameters, SIT Set Model Parameters (No Server), SIT Get Error, SIT Register, SIT Unregister, and SIT Write to RT.

  • The Simulation Interface Toolkit 3.0 relies heavily upon the SIT Connection Manager dialog box. National Instruments recommends you use this dialog box to create host VIs and driver VIs.

Installation/Upgrading Instructions

Complete the following steps to install the LabVIEW Simulation Interface Toolkit 3.0.
  • Insert the LabVIEW Simulation Interface Toolkit 3.0 CD.

  • Run the setup.exe program.

  • Follow the instructions that appear on the screen.

Development Tips

  • If you installed the LabVIEW 7.1.1 maintenance release, you must mass compile the following:

    • labviewprojectsitwiz.llb

    • The labview i.libddonsSimulation Interface directory

  • By default, DAQmx scripted code assumes measurements are differential. To change to reference single-ended (RSE) measurements, find the DAQmx Create Virtual Channel VI, which is called as a subVI from the driver VI, and select RSE for the input terminal configuration control.

  • Driver VIs running on FPGA devices use the hardware settings for channel measurements.

  • For all supported NI FPGA devices, driver VIs assume pulse-width modulation (PWM) input channels have a period greater than 1 KHz. Workaround: Change the default values of the _timeout controls of the FPGA VI and recompile the FPGA VI. The new value is (40 MHz / w), where w is the actual frequency of the PWM input channel. The FPGA VIs are located in the labview i.libddonsSimulation Interface_IOTypesNI FPGAFPGA IO VIsdirectory.

  • For real-time simulations using LabVIEW 7.1.1, complete the following steps to improve Ethernet performance on a closed/private network using crossover cables.

    • Launch National Instruments Measurement & Automation Explorer (MAX).

    • Expand the Remote Systems category.

    • Select the RT Target.

    • Select Advanced Ethernet Settings.

    • Set Duplex to Half.

    • Open an FTP connection to the RT target and download the c: i-rt.ini file to the host.

    • Edit the ni-rt.ini file and add SendBufferSize = 65535 under the [lvrt] section. This number equates to a 64KB buffer size. You may experiment using other buffer sizes with a minimum of 1024 and a maximum of 65535.

    • Upload the edited ni-rt.ini file back to the RT target and reboot the controller.

    • Built-in Ethernet Port: If using the built in ethernet port of a PXI or CVS real-time controller, then you must set the controller to use half-duplex mode for communication.
      If you are using LabVIEW 7.1, you only can set the controller to use half-duplex mode for communication.

  • To create a driver VI using PCI FPGA devices inside the host computer, you manually must execute NIVisaServer.exe. To execute this program, launch MAX, right-click the NIVisaServer.exe item from the My System»Software»NI-VISA tree, and select Launch NIVisaServer.exe from the shortcut menu. After you execute this program, PCI FPGA devices appear in the Configure FPGA Devices dialog box when you create a driver VI.

Known Issues

Installation
  • If you are using the MATLAB® application software release 13.0, SIT 3.0 might not install the necessary support files. Workaround: Run the SIT 3.0 installer again, choose to install MATLAB Support and the MATLAB application software release 13 support, and specify the path on your hard drive to the MATLAB application software release 13.

  • If you installed the MATLAB application software files as read-only, the SIT Server does not start automatically and you cannot place a SignalProbe block in the Simulink window. You must modify the startup.m file in order to make these changes. Refer to the Communicating with the SIT Server topic in the Simulation Interface Toolkit Help for information about making these changes.

General
  • If you select custom signals to log in the Datalogging Settings dialog box and then close the dialog box, the signals tree does not automatically highlight the signals you selected. This same issue occurs if you map more than one model signal to a host VI indicator.

  • You cannot build an executable from the host VI.

  • The target model of a model reference block cannot contain a SignalProbe block. Placing a SignalProbe block in a target model prevents the simulation from running.

  • If you do not specify any signals to probe, SIT 3.0 does not return the current simulation time in the Simulation Details dialog box.

  • SIT 3.0 returns error –14103 if you use non-English regional settings or if you use a comma as the decimal separator when specifying a double-precision number. Workaround: Launch the Windows Control Panel and double-click the Regional and Language Options icon. On the Regional Options page, select English (United States) from the pull-down list in the Standards and formats section.

  • Waveform charts might scroll incorrectly to a slightly different time than the end time of the simulation. For example, the chart might display 299.90 instead of 300.00. This is an issue with the LabVIEW chart. Workaround: Enter the correct end time into the scale of the chart to show the appropriate data.

  • Using more than one XY graph on the front panel of the host VI causes unexpected results.

  • If you run a simulation more than once, an XY graph does not clear between runs.

  • LabVIEW 7.1.x contains a known issue that affects host VIs. If you minimize a host VI window that contains a chart, the chart might display erroneous lines after you restore the host VI window.

Real-Time Simulations
  • The sub VIs of the driver VI are reentrant. If you directly are running a driver VI while LabVIEW is targeted to RT, you must abort the driver VI to stop the driver VI. The stop button for the driver VI is on the base rate loop subVI. However, because that VI is reentrant, you cannot press the stop button. Workaround:Make the base rate loop subVI non-reentrant for debugging purposes.

  • SIT 3.0 cannot probe signals from top-level model inputs with spaces in the names.

  • If you create mappings between a model DLL and only AI or only AO channels on a DAQ device, the driver VI returns error –200429.

  • The NI PCI-7041 does not have a separate IP address. To connect a host VI with the SIT Server running on a NI PCI-7041, you must start the driver VI on the NI PCI-7041 using either of the methods described in the Building a Driver VI Startup Application or Downloading the Driver VI using the LabVIEW Real-Time Module topics of the Simulation Interface Toolkit Help. Using the RT Proxy Watcher utility, you must determine the port to which the NI PCI-7041 virtual FTP port is mapped on the host computer. Refer to the NI Developer Zone, located at ni.com/zone, for information about the RT Proxy Watcher. Enter Obtaining LabVIEW Real-time Proxy Port Mappings in the Search field to search for information about the RT Proxy Watcher.

  • If you are using the NI cRIO-9103 FPGA device and you have only one customized FPGA VI in the appropriate directory, you cannot select that FPGA VI from the Add FPGA Device dialog box. Workaround: Copy the shipping cRIO-9103 FPGA VI out of the directory, and copy the custom FPGA VI into that directory.


© 2002–2006 National Instruments Corporation. All rights reserved.
MATLAB®, Real-Time Workshop®, 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.
LabVIEW™, National Instruments™, NI™, ni.com™, NI-CAN™, NI-RIO™, and NI-DAQmx™ are trademarks of National Instruments Corporation. For patents covering National Instruments products, refer to the appropriate location: Help»Patents in the software, the patents.txt file on your CD, or ni.com/patents. You are only permitted to use this product in accordance with the accompanying license agreement. All rights not expressly granted to you in the license agreement accompanying the product are reserved to NI. Further, and without limiting the forgoing, no license or any right of any kind (whether by express license, implied license, the doctrine of exhaustion or otherwise) is granted under any NI patents or other intellectual property right of NI with respect to any other product(s) of NI or of anyone else (including without limitation, the Simulink and the Real-Time Workshop products of The MathWorks, Inc.), including without limitation, the right to use any of these other products.
Where NI software may be used to reproduce software or other materials belonging to others, you may use NI software only to reproduce materials that you may reproduce in accordance with the terms of any applicable license or other legal restriction.


首页
84162741QQ
联系