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NI-FBUS Monitor Software 4.0.1 Win32/64Eng NI现场总线监控软件4.0.1

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NI-FBUS Monitor Software 4.0.1 Win32/64Eng NI现场总线监控软件4.0.1

NI-FBUS Monitor Software
NI-FBUS Monitor Software可帮助您使用现场总线接口设备调试、监测和分析现场总线(FBUS)数据通信。
NI-FBUS Monitor Software是一款应用软件,可用于检测通信并捕获FBUS设备之间传递的数据包。使用此软件,您可以使用现场总线接口设备来诊断H1网络通信并进行设备开发调试。您还可以解码来自FBUS的数据包,监测实时列表并执行数据包分析。该软件还提供可配置的多窗口显示。NI-FBUS Monitor软件具有可配置的多窗口显示功能,您可以过滤数据包并实时查看列表和总线统计信息。

Win32/64Eng
4.0.1Patch
文件大小: 272444000 字节 (259.82 MB)
修改日期: 2011-10-24 21:35
MD5: 806a5c960b3e1d415f11dde3fc1d78a2
SHA1: ae2686037a46a909328d845212e633095ad17fe8
SHA256: 3317c6fdcc9819d8b0637612520b647024288b8d1f1190edd867d77469cf7acf
CRC32: 37b5fbb2

百度网盘与NI官方下载地址:

NI-FBUS Monitor Software 4.0.1 Win32/64Eng NI现场总线监控软件4.0.1

http://pcmv.cn/thread-26306-1-1.html?fromuid=9

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NI-FBUS Software Readme

Version 4.1
August 2011
The NI-FBUS Software includes the following components:
  • NI-FBUS Communications Manager (CM) 4.1

  • NI-FBUS Configurator 4.1

  • NI-FBUS Monitor 4.0.1

This file contains the following important information that you need to understand before using the NI-FBUS software:
New Features and Bug Fixes
NI-FBUS Configurator 4.1
NI-FBUS Configurator 4.0.1
NI-FBUS Configurator 4.0
NI-FBUS Monitor 4.0.1
NI-FBUS Monitor 4.0
Supported Platforms
Supported Operating Systems
Supported Hardware
Supported Development Environments
Installation Instructions
Evaluation Version
Troubleshooting and Frequently Asked Questions
Known Issues and Suggestions
Resources
Credits

New Features and Bug Fixes

The bug fixes section is not an exhaustive list of issues resolved in the current version of NI-FBUS software.

Configurator 4.1

  • Added support for using USB-8486 with USB screw retention and mounting option on CompactRIO

  • Provided a new set of LabVIEW APIs to monitor data over the H1 bus and programmatically configure the H1 network (excluding schedule/trend/alarm downloading)

  • Fixed some major inconvenience issues

  • ID 247680. nifDownloadDomain returns E_RESOURCE (-6) error when downloading Yokogawa FVX110 firmware
  • ID 247652. The Field Diagnostic Alarm test cases cannot run due to E_BAD_ARGUMENT (-5) error in nifConnectAlert
  • ID 302729. Import DD feature will fail if the local file path is longer than 100 characters


Configurator 4.0.1

  • Added support for Windows 7

  • Added support for 64-bit operation systems such as Windows 7 64-bit, Vista 64-bit, Windows Server 2008 R2 64-bit

  • Various user interface improvements in Communications Manager

  • Automatically enable the interfaces with default settings without the need to run Interface Configuration Utility

  • Fixed some major inconvenience issues

  • ID 219390. Configurator crashes on some EDDL devices
  • ID 219390. Configurator crashes in Live List window when CM is closed manually
  • ID 203244. Incorrect tab index for EDDL with empty menu items
  • ID 215340. The parameter values in offline device are still NULL if the imported online parameters are 0


Configurator 4.0

  • Added support for USB-8486 H1 interface device

  • Added support for DDS 5.1.2

  • Improved EDDL layout

  • Added new DD/CFF files supporting the new devices

  • Fixed some major inconvenience issues

Monitor 4.0.1

  • ID 300080. Monitor may sometimes fail to launch

Monitor 4.0

  • Added support for USB-8486 H1 interface device

  • Added support for Windows 7

  • Added support for 64-bit operation systems such as Windows 7 64-bit, Vista 64-bit, Windows Server 2008 R2 64-bit

  • Added support for the simulator board

  • Fixed some major inconvenience issues

  • ID 101645. Added support for partial load of the large files
  • ID 88190. Some packet numbers become negative
  • ID 87112. The first page is always printed when printing a specific page



Supported PlatformsSupported Operating Systems

The NI-FBUS Software supports the following operating systems:
  • Windows 7 (32-bit and 64-bit)

  • Windows Vista (32-bit and 64-bit)

  • Windows XP, Service Pack 2 or greater

  • Windows Server 2003 R2 (32-bit)

  • Windows Server 2008 R2 (64-bit)

Supported Hardware

This version of the NI-FBUS software supports the following National Instruments hardware products on Windows and LabVIEW RT:
  • NI PCI-FBUS/2 (2-Port Fieldbus Interface for PCI)

  • NI PCMCIA-FBUS Series 2 (1-Port FOUNDATION Fieldbus Interface for PCMCIA)

  • NI PCMCIA-FBUS/2 Series 2 (2-Port FOUNDATION Fieldbus Interface for PCMCIA)

  • NI NI USB-8486 without USB screw retention and mounting option (1-Port FOUNDATION Fieldbus Interface for USB)

  • NI NI USB-8486 with USB screw retention and mounting option (1-Port FOUNDATION Fieldbus Interface for USB on CompactRIO)

    • Real-Time Controller: NI cRIO-9012, NI cRIO-9014, NI cRIO-9022, NI cRIO-9023, NI cRIO-9024, NI cRIO-9025, NI cRIO-9076, NI cRIO-9081, and NI cRIO-9082

    • CompactRIO - NI-RIO 4.0 (or newer) and LabVIEW 2011 (or newer) required.

Supported Development Environments

The NI-FBUS Communications Mananager 4.1 supports the following development environments:
  • LabVIEW 2011 for using new VI APIs (NI Recommended)

  • LabVIEW 2011/2010/2009/8.6.1 for using legacy VI APIs

  • Microsoft .NET Framework 4.0/3.5/3.0/2.0

  • Microsoft Visual Studio 2008/2005/2003/6.0

  • Microsoft Visual Basic 6.0


Installation Instructions

Complete the following steps to install the NI-FBUS Software:
  • Log in as an administrator or as a user with administrator privileges.

  • Insert the NI-FBUS Software installation CD and follow the instructions that appear on the screen.

    If the installer does not launch automatically, navigate to the CD using Windows Explorer and launch the autorun.exe file from the CD.

  • Choose Install NI-FBUS 4.1 to install all the components including Monitor 4.0.1. Choose Install Monitor 4.0.1 to install Monitor 4.0.1 only.
    You can also select the installation components in the Features dialog later.

  • The interactive setup program guides you through the necessary steps to install the NI-FBUS Software. You can go back and change values where appropriate by clicking the Back button. You can exit the setup by clicking the Cancel button.

  • Restart the computer when the setup is complete.

  • If you want to install NI-FBUS Software to a CompactRIO target, complete the following steps:
    After the installation, you can open the Interface Configuration Utility for further configuration.

    • Use NI Measurement & Automation Explorer to locate your CompactRIO target under Remote Systems.

    • Right-click the Software item and select Add/Remove Software to launch the installer.

    • Choose the software set you want to install to the target.

    • Place a checkmark in the NI-FBUS 4.1.0 checkbox.

Activation: You can use Communications Manager and its APIs for free. You must activate the Configurator 4.1 and Monitor 4.0.1 before you can use the online interfaces.
The licenses of Configurator and Monitor need extra purchasing.
Note: Install the NI-FBUS software before you install hardware such as the USB-8486, PCMCIA-FBUS, PCMCIA-FBUS Series 2 and PCI-FBUS/2 cards. Refer to the Installing the Hardware section of the NI-FBUS Hardware and Software User Manual for information about installing and configuring the NI-FBUS hardware. You can access this manual by opening the NI-FBUS HW SW Manual.pdf file in the National InstrumentsNI-FBUSManual directory.
If you have the NI-FBUS Configurator 4.0.1 or earlier installed on the computer, you must uninstall that previous version from the computer before installing the NI-FBUS Configurator 4.1. You also must remove all existing NI-FBUS cards, such as the USB-8486, PCMCIA-FBUS, PCMCIA-FBUS Series 2 and PCI-FBUS/2 cards, from the computer.
Note: If you have both the NI-FBUS Monitor and the NI-FBUS Configurator installed on the same computer, uninstalling the NI-FBUS Monitor might cause the NI-FBUS Configurator not to work properly. To ensure that the NI-FBUS Configurator works properly, you must reinstall the NI-FBUS Configurator after uninstalling the NI-FBUS Monitor.
Caution: Reinstalling the NI-FBUS Configurator might cause you to lose existing port configuration information. Before uninstalling the previous version of the NI-FBUS Configurator, create backup copies of the NVM files. The NVM files store the port configuration parameters you changed from their default values. If you are using the NI-FBUS Configurator 2.3.6 or later, the NVM files are located in the National InstrumentsNI-FBUSDataNvm directory. If you are using the NI-FBUS Configurator 2.3.5 or earlier, the NVM files are located in the NIFBUSDataNvm directory.
Install/Uninstall NI-FBUS Monitor 3.0.1: If you want to install/uninstall NI-FBUS Monitor 3.0.1, and have the NI-FBUS 4.1 or earlier installed on the same computer, you must uninstall the existing NI-FBUS software and then install/uninstall NI-FBUS Monitor 3.0.1.
Complete the following steps to upgrade the existing software:
  • Uninstall the NI-FBUS 4.1.

  • Install/Uninstall the NI-FBUS Monitor 3.0.1.

  • Re-install the NI-FBUS 4.1.

Evaluation Version

You can use NI-FBUS Configurator 4.1 and Monitor 4.0.1 evaluation version by clicking the Evaluate button.
NI-FBUS Configurator 4.1 evaluation version only supports the offline mode and includes the following features:
  • Configure multiple offline interfaces

  • Configure offline devices through DD/CFF files

  • Configure offline function block applications

  • Save offline configurations

NI-FBUS Monitor 4.0.1 evaluation version only supports the offline mode and includes the following features:
  • Run the simulator board based on an existing Monitor record file

Note: Block instantiation on offline devices is not supported.

Troubleshooting and Frequently Asked Questions

  • How do I install a USB-8486, PCMCIA-FBUS, PCMCIA-FBUS Series 2, or PCI-FBUS/2 interface board?

    Install the NI-FBUS Software first, then shut down the PC. Follow the Getting Started Manual to install the Fieldbus hardware. Boot up the PC and Windows will recognize the NI-FBUS interface card automatically. Follow the Found New Hardware Wizard and install the driver for the new hardware.

    Run the Interface Configurator Utility, which will show the USB/PCI/PCMCIA interface after you install the driver.

    Open the NI-FBUS Communications Manager to begin working with the newly-configured hardware.

  • When do I need to activate the NI-FBUS Configurator 4.1 and Monitor 4.0.1?

    When launching Configurator 4.1 or Monitor 4.0.1, the activation request dialog prompts you to perform the activation. You also can activate these components later using the NI License Manager, available by selecting Start»Programs»National Instruments»NI License Manager.

    You must activate the NI-FBUS Configurator before you can use the following features:

    You do not have to activate the NI-FBUS Configurator in the following situations:

    • Install the drivers for the the NI-FBUS interface devices

    • Use Communications Manager APIs to build your own applications

    • Evaluate the NI-FBUS Configurator in offline mode

    • H1 interfaces (PCMCIA-FBUS, PCI-FBUS and USB-8486), HSE interfaces (Ethernet and HSE Linking Device), and CN2FF interfaces (ControlNet to Foundation Field)

    • Ethernet and High-Speed-Ethernet (HSE) Linking Device in the Add Interface Wizard, Interface Configuration Utility, and Communications Manager

  • How do I activate the NI-FBUS Configurator and Monitor?

    You can acquire the activation code from National Instruments through Internet, telephone, or fax. Apply the activation code. Refer to the National Instruments License Manager Help, available by selecting Help»Contents in the NI License Manager, for more information about activating National Instruments software.

    Do not remove the Ethernet adapter from the computer after you activate the NI-FBUS Configurator. Removing the Ethernet adapter might deactivate the NI-FBUS Configurator.

  • How does NI-FBUS Communications Manager support Device Descriptions (DD)?

    NI-FBUS software uses manufacturer-supplied device descriptions. To use a new Device Description (DD), you must first specify a "Base Directory" for your device descriptions. This directory can be anywhere on your computer. All your DD files will be stored in this directory.
    Now that you have notified the NI-FBUS software about the base directory, you can import your manufacturer-supplied DD files into this directory.NI-FBUS software uses identifying information in the actual device to locate the DD for this device. The identifying information includes four resource block parameters: "MANUFAC_ID", "DEV_TYPE", "DEV_REV", and "DD_REV". If the identifying information is incorrect, NI-FBUS will not be able to locate the DD for the device. When it has located the DD, NI-FBUS matches the block types in the DD with the actual blocks in the device by using the Item ID of the block characteristics record. Once again, if this information is incorrect, NI-FBUS will not be able to locate the description of that particular block.

    • Launch NI-FBUS the Interface Configuration Utility and click Import DD/CFF.

    • Click Browse to locate the DD/CFF file or input the path.

    • Click OK.

    • The Interface Configuration Utility checks the DD/CFF files. If no error is detected, the .cff file, .ffo file, and the associated .sym file will be copied to the correct location in the base directory; otherwise, an error message will help you to locate the error.

    • Launch the NI-FBUS Interface Configuration Utility and click Import DD/CFF.

    • Click DD Info.

    • Click Browse to locate the base directory path, or manually input the whole path for this directory, such as C:Program FilesNational InstrumentsNI-FBUSDD.

  • Troubleshooting — Setting Addresses

    If you are having trouble setting the address of your device, you may need to change some of the "System Management Info" parameters in the Advanced settings of your interface port in the Interface Configuration Utility. The parameters involved in setting addresses are T1 and T3. These parameters represent delay time values that your interface card uses to compensate for the delays inherent in the device and in the set address protocol itself.

    T1 is a parameter that describes the expected response delay of the device at a given address. Normally, you will not need to increase this parameter; however, if it appears that your interface card is not seeing the device's responses related to setting an address, you can increase this value. The correct value for this parameter can be dependent on the number of devices on the link. For example, if you are using a bus monitor, you might see a WHO_HAS_PD_TAG request going to the device to start the Set Address sequence, and an IDENTIFY response coming back, but with the host never continuing with the next step in the protocol, the SET_ADDRESS packet. This would probably mean that your T1 value is too small and should be increased.

    T3 is a parameter that describes the expected time for the device to respond at its new address. This parameter is highly dependent on the number of devices on the link and the number of addresses being polled (see "Setting the Number of Polled Addresses" below for instructions). If you are using a bus monitor, you may be able to see the host identify a device (with the IDENTIFY packet) at the new address BEFORE the device has sent its probe response (PR) packet to the host. This is an error that is indicative of a T3 value that is too small. If this occurs, increase your T3 value until the IDENTIFY packet to the new address occurs after the PR.

    All of the System Management Info timers are in units of 1/32 of a millisecond; for instance, T3=32000 units means that T3=1 second.

  • Troubleshooting — Setting the Number of Polled Addresses

    The Fieldbus Specification describes how a Link Active Scheduler device (LAS device) probes a list of addresses to allow devices to come online during normal operation. The LAS sends a Probe Node (PN on the bus monitor) packet to each address in its list of addresses during operation at a regular interval determined by the number of devices on the link and the value of the Link Maintenance Token Hold Time parameter. The Fieldbus Specification describes how to tell the LAS to avoid probing certain addresses in the range, which can speed up detection of new devices on the bus (or devices that are having their addresses changed). The two parameters involved in maintaining the list are called FirstUnpolledNode and NumOfUnpolledNodes, and they can be found in the NI-FBUS Interface Configuration utility advanced settings for a port, under the "DLME Master Info" section. The following diagram shows how the LAS determines the list:

        PPPPPPPPPPPPPPPPPPPXXXXXXXXXXXXXXXXXXXXXXXXXXXXPPPPPPPPPP

        |               |<--NumOfUnpolledNodes-->|        |

      0x10 (16)     FirstUnpolledNode                      0xf7 (247)

        P = address that is probed for new devices

        X = address that is never probed for new devices

    To summarize, FirstUnpolledNode tells the LAS the starting address of a section of addresses to skip, and NumOfUnpolledNodes tells the LAS the length of that region. So if FirstUnpolledNode was 0x25, and NumOfUnpolledNodes was 0xba, then none of the addresses from 0x25 to 0xdf would be probed. That means that if a device with an address of 0x25 was placed on this bus, the LAS would not probe it and it would never be able to send or receive packets on the bus.

    The main reason to have a NumOfUnpolledNodes with a nonzero value is this: The LAS probes every address in the list, and then starts over again at the beginning. Remember that a device cannot become active on the bus until its address is probed. If the LAS is probing all 255-16+1=240 possible addresses and each probe node request goes out every T milliseconds, it might take 240T milliseconds for a device to come online. If, however, the LAS probed only the first 16 addresses and the last 16 addresses, it might take 32T milliseconds for the device to come online; this results in the new device being recognized almost 8 times faster. These parameters also affect the Set Address protocol, because recognizing a device at a new address is really the same as recognizing a completely new device, since the new address must be probed for the device to come online. In this way, the NumOfUnpolledNodes parameter can affect the value of the Set Address protocol parameter "T3", which is described in the section above. Increasing the NumOfUnpolledNodes parameter might fix a SetAddress T3 problem because it takes the device less time to be recognized at the new address.


Known Issues and Suggestions

  • For devices with a third-party stack, the NI-FBUS Configurator might take a long time to update device information such as Function Block list, MIB parameters, etc. The reason is that when a device with a Softing stack has a higher address, like 0xE0 or 0xF6, it will be hard for the NI-FBUS Communications Manager to obtain a valid VCR connection to the MIB of the devices. To solve the problem, please change its address to a lower address when the Configurator finishes updating the device.

  • Known issues list

    Issue IDKnown Issue
    219594Issue - Only one USB-8486 is left in Configurator when the system with mulitple USB-8486 connected is recovered from hibernation (Windows Vista or above)

    Description - When the system with mulitple USB-8486 connected is recovered from hibernation, the log in Communications Manager shows that all the interfaces are reinitialized automatically. But when you use Take Online in Configurator, only one USB-8486 is left in the list.
    This issue only occurs on Windows Vista or above system.

    Workaround - Restart Communications Manager and Configurator after the system is recovered from hibernation.
    171893Issue - NI-FBUS does not support dynamic display image feature in EDDL

    Description - The dynamic attribute of the image in EDDL is not supported. Configurator shows these images statically.

    Workaround - N/A
    89744Issue - Communications Manager can not initialize the HSE/H1 linking device if one of the link IDs is equal to or greater than 0xF0FF

    Description - If one of the link IDs on the HSE/H1 linking device is equal to or greater than 0xF0FF, Communications Manager can not start successfully. Error occurs when initializing the HSE/H1 linking device.

    Workaround - Use the default ID. Do not set the ID to the value which is equal to or greater than 0xF0FF.


Resources

Refer to the Fieldbus Foundation Web site for more information about FOUNDATION Fieldbus.
Refer to the National Instruments Web site for more information about National Instruments FOUNDATION Fieldbus products.
Send an email to fieldbus.support@ni.com for support with National Instruments FOUNDATION Fieldbus products.

Credits

A. This product includes components that use eCos. In regards to the eCos, the following notice applies: No modification is made by National Instruments Corporation to the version of the eCos used in this product.
B. This product includes components that use Xerces. In regards to the Xerces library, the following notice applies:
This product includes software developed by the Apache Software Foundation (http://www.apache.org/) that is subject to the Apache License, Version 2.0 (the "Xerces License"), a copy of which may be found at: http://www.apache.org/licenses/LICENSE-2.0. Copyright © 1999–2011 The Apache Software Foundation. All rights reserved. Certain modifications have been made by National Instruments Corporation to the version of the Xerces library used in this product; such modifications are Copyright © 2010 National Instruments Corporation. The content of this notice is for informational purposes only and does not modify the Xerces License. See the Xerces License for the specific language governing permissions and limitations relating to the Xerces library.

Copyright
© 2011 National Instruments Corporation. All rights reserved.
Under the copyright laws, this publication may not be reproduced or transmitted in any form, electronic or mechanical, including photocopying, recording, storing in an information retrieval system, or translating, in whole or in part, without the prior written consent of National Instruments Corporation.
National Instruments respects the intellectual property of others, and we ask our users to do the same. NI software is protected by copyright and other intellectual property laws. 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.
Trademarks
LabVIEW, National Instruments, NI, ni.com, the National Instruments corporate logo, and the Eagle logo are trademarks of National Instruments Corporation. Refer to the Trademark Information at ni.com/trademarks for other National Instruments trademarks.
Other product and company names mentioned herein are trademarks or trade names of their respective companies.
Patents
For patents covering the National Instruments products/technology, refer to the appropriate location: Help»Patents in your software, the patents.txt file on your media, or the National Instruments Patent Notice at ni.com/patents.


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