User’s Manual R1.
FSA120 Flow Configuration Software IM 01C25R51-01E 8th Edition Contents 1. Introduction................................................................................................ 1-1 1.1 1.2 2. 3. About This Manual............................................................................................. 1-2 1.1.1 Trademarks......................................................................................... 1-2 1.1.2 Environmental Condition............................................
ii 4. Preparation................................................................................................. 4-1 4.1 PC........................................................................................................................ 4-1 4.1.1 4.2 Installation Procedure....................................................................................... 4-2 4.2.1 Online Manual..................................................................................... 4-2 4.2.
iii 6.3 7. 7.2 7.3 6.2.4 Print................................................................................................... 6-12 6.2.5 Properties.......................................................................................... 6-13 6.2.6 Additional functions........................................................................... 6-14 Flow Parameters Management....................................................................... 6-15 6.3.1 Initialize...........................
iv 10. Error Message......................................................................................... 10-1 10.1 Error Message.................................................................................................. 10-1 Appendix A. FSA210 Uninstallation................................................................A-1 Appendix B. Device Information......................................................................B-1 B-1 Start up Procedure of Device and FlowNavigator................
1-1 <1. Introduction> 1. Introduction This User’s Manual gives instructions on FSA120 Flow Configuration Software “FieldMate FlowNavigator”. FlowNavigator User’s Manual contains the following two items. Table 1.1a FlowNavigator User’s Manual List Title Contents Media IM No.
1.1 1-2 <1. Introduction> • About This Manual This manual should be delivered to the end user. • The information contained in this manual is subject to change without prior notice. • The information contained in this manual, in whole or part, shall not be transcribed or copied without YOKOGAWA’s written permission. • In no case does this manual guarantee the merchantability of the transmitter or the software or its adaptability to a specific client needs.
1.1.2 1-3 <1. Introduction> Environmental Condition Operation Temperature: 0 to 40 °C Humidity: 20 to 80 % (No dew condensation) Storage Temperature: -10 to 50 °C Humidity: 20 to 80 % (No dew condensation) 1.2 Software License Agreement License Agreement on Flow Configuration Software (“FieldMate FlowNavigator”) for EJX Multivariable Transmitter and digitalYEWFLO Vortex Flowmeter.
1.2.2 <1.
1-5 <1. Introduction> (4) LICENSEE SHALL INDEMNIFY, DEFEND AND HOLD LICENSOR AND SUPPLIERS FROM ANY CLAIMS, DEMANDS, LIABILITIES, LOSSES, DAMAGES, JUDGMENTS OR SETTLEMENTS, INCLUDING ALL REASONABLE COSTS AND EXPENSES RELATED THERETO INCLUDING ATTORNEY’S FEES, DIRECTLY OR INDIRECTLY RESULTING FROM ANY CLAIM MADE OR POTENTIAL CLAIM BY A THIRD PARTY AGAINST LICENSOR OR SUPPLIERS ARISING OUT OF ANY ACT OR USE OF LICENSED SOFTWARE BY LICENSEE. 1.2.
1.2.7 <1. Introduction> 1-6 DIPPR (1) Licensed Software may include a database developed by the Design Institute for Physical Property Data (DIPPR®) which is a branch of the sponsored research projects of the American Institute of Chemical Engineers (AIChE®). (2) THE BYU-TPL WILL USE REASONABLE EFFORTS DESIGNED TO VERIFY THAT THE DATA CONTAINED IN THE DATABASE HAS BEEN SELECTED ON THE BASIS OF SOUND SCIENTIFIC JUDGMENT. HOWEVER, NEITHER THE BYU-TPL NOR AICHE® MAKE ANY WARRANTIES TO THAT EFFECT.
2-1 <2. General> 2. General 2.1 Components The following picture shows the items included in the FSA120 package. FieldMate (bundled) Disc No.1 Disc No.2 License Sheet No.1 Document No.1 and No.2 CD-ROM DVD-ROM License Number Sheet Paper Document FieldMate Device Files FieldMate FieldMate FlowNavigator Disc No.3 License Sheet No.2 Document No.3 and No.4 CD-ROM License Number Sheet Paper Document FlowNavigator FlowNavigator FlowNavigator USB FieldMate Modem (Option) FSA120 F01E.
<2. General> 2-2 Paper Document: 4 sheets (1) FieldMate Getting Started (IM 01R01A04-01E) (2) FieldMate Operational Precaution (IM 01R01A01-91E) (3) FlowNavigator Getting Started (IM 01C25R51-10E) (4) FlowNavigator License Agreement USB FieldMate Modem (Option) NOTE For FSA120 R1.
2.2 1) 2-3 <2. General> To Start with FlowNavigator is the software utilizing FDT/DTM technology. To use this software, a frame application is required. ‘Field Mate’ is bundled with this software package as Yokogawa standard frame application. The quality and operability of FlowNavigator is certified for use with FieldMate only. Please use ‘Field Mate’ as frame application. Also, you can use Field communication server included in FieldMate as a Communication DTM.
2.3 <2. General> 2-4 Installation Flow Followings are the flow of standard installation. As the procedures may differ according to the condition, please find details in each designated manual and follow the instructions. Step 1 Confirm incompatible software does not exist, PRM and FSA210 . (Refer to ) Step 2 Install communication device software (For FOUNDATION fieldbus communication) Step 3 Install FieldMate (Refer to ) 1) Install FieldMate
2.4 2-5 <2. General> Outline of FlowNavigator The FSA120 (FieldMate FlowNavigator) is the software package which offers various functions to help users to easily configure the mass flow parameters of device. The FSA120 includes following two programs: • EJXMVTool: for EJX Multivariable Transmitter • DYFMVTool: for digitalYEWFLO Vortex Flowmeter FSA120 includes FieldMate, Yokogawa’s frame application. It employs FDT/DTM technology and works on the FieldMate.
2-6 <2. General> FlowNavigator consists of two programs (EJXMVTool and DYFMVTool) and Resource (Instruction Manual and Database) for both programs. To perform the flow configuration of EJX Multivariable Transmitter, use FlowNavigator program, EJXMVTool, which works on Device DTM, EJX910 HART/FOUNDATION fieldbus DTM. EJXMVTool consists of the Flow Configuration Wizard, a dialog editor for flow configuration, and Obtain Flow Coefficient, a display for confirming the flow configuration.
2-7 <2. General> FlowNavigator Resource Database Physical Properties Database Primary Device Information (Only EJXMVTool) Fluid Information Operating Conditions Instruction Manual FlowNavigator F0203E.ai Figure 2.
2-8 <2. General> DYFMVTool (Flow Parameter Management) DYF(SoftDL) FOUNDATION fieldbus DTM (Device Management) Flow Configuration Wizard Offline Parameters Online Parameters Dialog Editor Dialog Editor Dialog Editor Detail / Steam, Simple Compensation Mode Tag Tag Range Range Unit Unit Damping Damping Lowcut Lowcut Calculation of Flow Parameters File Management Adjustment Report Download to / Upload from Device Monitoring Process Value F0205E.ai Figure 2.
2.5 2-9 <2. General> FlowNavigator Programs FlowNavigator and Device DTM consist of following programs. Each program can be started in the following way. • Execute Device DTM on the FieldMate*. (Not necessary to enter a license for FlowNavigator) • Execute the FlowNavigator Program on Device DTM. (Necessary to enter your license for FlowNavigator) *: Device DTM function is operated by DTMWorks Table 2.1 Function of FlowNavigator Resource Program FlowNavigator Resource Table 2.
2-10 <2. General> Table 2.
3-1 <3. Functional Specification> 3. Functional Specification 3.1 PC 3.1.
3-2 <3. Functional Specification> 3.1.2 Software Operating Environment • Windows 7 Professional 32bit / 64bit / Home Premium 32bit / 64bit SP1 or later (English) • Windows Vista business 32bit SP2 or later (English) IMPORTANT Login Windows as an Administrator or a user with an administrative authority. The following software is necessary to be installed in your computer. Common Adobe Reader FDT frame application conforming to FDT Interface Specification Version 1.
3.2 <3. Functional Specification> 1) 3-3 Field Communication HART communication Recommended HART modem: USB FieldMate Modem: BRAIN/HART (Optional code: /B, Yokogawa Parts Number: F9197UC) VIATOR® Bluetooth® Interface: Model 010041 (MACTek®) * 2) FOUNDATION fieldbus communication Recommended: Softing FFusb** National Instruments PCMCIA-FBUS Series 2 NI USB-8486 * : Microsoft supplied Bluetooth stack is used. **: The package is provided complete with FieldMate driver from Softing.
3-4 <3. Functional Specification> 3.4 Function Detail 3.4.1 Device Management Device Management function is supported by EJX910 HART/FOUNDATION fieldbus and DYF(SoftDL) FOUNDATION fieldbus DTM. FOUNDATION fieldbus Device DTM supports following blocks.
3.4.2 3-5 <3. Functional Specification> Flow Parameter Management (Flow Configuration Wizard) (1) EJXMVTool (a) Auto Compensation Mode Configuration of the fluid physical properties and primary device for the EJX Multivariable Transmitter can be performed using a dialog window. Refer to Section 7.1. (b) Basic Mode Flow operation and density compensation are performed conventionally, with the flow factors being input manually. Refer to Section 7.2.
3-6 <3. Functional Specification> 3.4.3 Flow Parameter Management (Obtain Flow Coefficient) This function is supported by EJXMVTool. Flow coefficient retrieval The flow coefficient can be obtained from the device (input selection: sensor data or simulated data). 3.4.4 Primary Device This function is supported by EJXMVTool Auto Compensation Mode. Table 3.
3.4.5 3-7 <3. Functional Specification> Density Compensation This function is supported by EJXMVTool Auto Compensation Mode and DYFMVTool Detail (Gas/Liquid) Compensation Mode. (1) Density compensation using physical properties database Table 3.
3-8 <3. Functional Specification> Source: DIPPR® Project No.801 Database 2003 Edition This Physical Property Database from American Institute of Chemical Engineers (AIChE®) NOTE The DIPPR recommends an air temperature no higher than –25°C and cannot guarantee results if this temperature limit is exceeded.
<4. Preparation> 4. Preparation 4.1 PC 4-1 To ensure that FlowNavigator functions properly, please make sure your PC meets the requirements stated in the section ‘3.1’. All application must be finished. 4.1.1 Setting Items after Installing Windows It is recommended that the following items be set and confirmed before installation of FlowNavigator. ● Power Management FieldMate may not function properly while the sleep, standby and hibernation settings are enabled.
4-2 <4. Preparation> 4.2 Installation Procedure 4.2.1 Online Manual The pdf format Manual for FlowNavigator is located at : \EJXMVTool_Manual.pdf : \DYFMVTool_Manual.pdf If Adobe Reader is not on your PC, download and install it from the following website. 4.2.2 Uninstall FSA210 This procedures are only applicable for the users of FSA210 Mass Flow Configuration Software.
4-3 <4. Preparation> 4.2.3 For FieldMate Users If you already have FieldMate installed in your computer, which satisfies the operating requirement of FlowNavigator, you may need to skip the installation of FieldMate. Please see the followings. NOTE If FieldMate installed in your PC is older version and does not satisfy the working condition of FlowNavigator, it is necessary to install FieldMate which satisfies the requirement. NOTE FlowNavigator requires “Device Files R3.03.00 or later”.
4.2.4 4-4 <4. Preparation> FieldMate and Device Files Installation Install following software before installing FlowNavigator. Step 1 Install software for communication device (For F OUNDATION fieldbus communication) Refer to Appendix D-1 for detail. Step 2 Install FieldMate NOTE Device Files which includes Yokogawa DTMLibrary HART/FOUNDATION fieldbus and software for HART communication device are automatically installed during the installation of FieldMate.
4-5 <4. Preparation> Following gives FlowNavigator Software Component assigned to FlowNavigator setup window button. Table 4.
4-6 <4. Preparation> IMPORTANT If auto run does not start after inserting the CD-ROM, double-click the following file. :\FlowNavigator.exe NOTE On Windows Vista/Windows 7, due to user account control, the “Auto Play” or “User Account Control” window may be displayed. And confirmation operation is required.
4-7 <4. Preparation> NOTE If following error message is shown, cancel the HART program setup and Resource setup. Then install the FieldMate and Device Files which are bundled in FSA120 (refer to section 4.2.4), and install FlowNavigator again. Error message: “Please check that the following files are installed in your PC. Yokogawa DTMLibrary FOUNDATION fieldbus 2011-4 or later” Figure 4.
<4. Preparation> 4-8 (3) Input “User Name”, “Organization” and click [Next]. Figure 4.6 Customer Information screen (4) Select [Automatic Upgrade]. [Custom Upgrade] setup is not supported. Figure 4.
<4. Preparation> 4-9 (5) Click [Install]. Figure 4.8 Ready to Install screen (6) Click [Finish] Figure 4.9 Finish Setup screen NOTE Even though “Please update the DTM catalog” message is shown, FlowNavigator installation does not require “Update DTM catalog” operation.
4-10 <4. Preparation> Step 4 FlowNavigator HART program Upgrade Setup window appears NOTE “FlowNavigator HART program” Upgrade Setup installs EJXMVTool HART. The setup requires “DTMLibrary HART 2011-3 or later”. (1) Click [Next]. Figure 4.10a Welcome screen NOTE In case of error occurrence or cancellation during the installation of “FlowNavigator HART program” Upgrade Setup, the following setup window appears.
4-11 <4. Preparation> NOTE If following error message is shown, cancel Resource setup. Then install the FieldMate and Device Files which are bundled in FSA120 (refer to section4.2.4), and install FlowNavigator again. Error message: “Please check that the following files are installed in your PC. Yokogawa DTMLibrary HART 2011-3/ HART 2011-3J or later” Figure 4.
<4. Preparation> 4-12 (3) Input “User Name”, “Organization” and click [Next]. Figure 4.12 Customer Information screen (4) Select [Automatic Upgrade]. [Custom Upgrade] setup is not supported. Figure 4.
<4. Preparation> 4-13 (5) Click [Install]. Figure 4.14 Ready to Install screen (6) Click [Finish]. Figure 4.15 Finish Setup screen NOTE Even though “Please update the DTM catalog” message is shown, FlowNavigator installation does not require “Update DTM catalog” operation.
<4. Preparation> Step 5 4-14 “FlowNavigator Resource” Setup window appears NOTE “FlowNavigator Resource” Setup installs Database and Instruction Manual. (1) Click [Next]. Figure 4.16a Welcome screen NOTE In case that “FlowNavigator Resource” is already installed, following window appears. Click [Next]. Figure 4.16b Welcome screen This case is no problem and installation can be continued.
4-15 <4. Preparation> (2) Select [I accept...] and click [Next]. Figure 4.17 End-User License Agreement screen NOTE In case that “FlowNavigator Resource” is already installed, above window does not appear. NOTE Print function is not supported. The “License Agreement” paper is included in FSA120 package. (3) Input “User Name”, “Organization” and click [Next]. Figure 4.18 Customer Information screen NOTE In case that “FlowNavigator Resource” is already installed, above window does not appear.
4-16 <4. Preparation> (4) Select [Complete] or [Custom]. Complete setup is recommended. Figure 4.19a Choose Setup Type screen NOTE In case that “FlowNavigator Resource” is already installed, following window appears. Select [Repair]. Overwrite “FlowNavigator Resource” [Repair] F0419bE.ai Figure 4.
<4. Preparation> 4-17 (5) Click [Install]. Figure 4.20 Ready to Install screen (6) Click [Finish]. Figure 4.21 Finish Setup screen NOTE Even though “Please update the DTM catalog” message is shown, FlowNavigator installation does not require “Update DTM catalog” operation.
4-18 <4. Preparation> Step 6 FlowNavigator setup window appears Click [EXIT]. Figure 4.22 4.2.6 FlowNavigator Setup window How to confirm Version Number 1) FlowNavigator Resource The version number is displayed on the “Programs and Features” screen of Windows Control Panel. Select Yokogawa FlowNavigator Resource. Figure 4.23 Version Number of Yokogawa FlowNavigator Resource NOTE For FSA120 R1.
2) 4-19 <4. Preparation> FlowNavigator Program: EJXMVTool, DYFMVTool The version number is displayed on the HELP screen. Flow Configuration Wizard (EJXMVTool, DYFMVTool): Refer to 6.3.5 Obtain Flow Coefficient (EJXMVTool): Refer to 7.3 3) Yokogawa DTMLibrary HART/FOUNDATION fieldbus The version number is displayed on the “Programs and Features” screen of Windows Control Panel. Version number (HART) Version number (FOUNDATION fieldbus) F0424E.ai Figure 4.
4.3 <4. Preparation> 4-20 Uninstallation (1) FieldMate Refer to User's manual IM01R01A01-00E. (2) FlowNavigator Use the “Programs and Features” screen of the Windows Control Panel. Select Yokogawa FlowNavigator Resource and click [Uninstall]. Figure 4.25 Remove Yokogawa FlowNavigator Resource NOTE For FSA120 R1.03 or before, the Windows Control Panel displays “Yokogawa MVTool additional resource,” not “Yokogawa FlowNavigator Resource,” on the “Programs and Features” screen.
4.4 4-21 <4. Preparation> Initial Setting (HART Communication) NOTE Regarding start up procedure of the device, refer to following: EJX Multivariable Transmitter: User’s Manual IM01C25R01-01E “EJX910A and EJX930A Multivariable Transmitters” 4.4.1 Install Communication Device Connect the HART communication modem to the PC’s COM port. 4.4.2 COM Port Refer to Appendix C-2 for how to confirm COM Port. 4.4.
4-22 <4. Preparation> Figure 4.27 HART Modem configuration Select COM port number. F0428E.ai Figure 4.28 COM port Please refer to FieldMate User's manual for details. (2) Communication address setting on FieldMate In FieldMate, the default setting of maximum scan value of communication address is “0”. If the transmitter’s address is other than “0”, FieldMate cannot distinguish the transmitter. Therefore, the setting should be changed to the correct value. 1.
4.5 <4. Preparation> 4-23 Initial Setting (FOUNDATION fieldbus Communication) NOTE Regarding start up procedure of the device, refer to following: EJX Multivariable Transmitter: User’s Manual IM01C25R01-01E “EJX910A and EJX930A Multivariable Transmitters” digitalYEWFLO Vortex Flowmeter: Appendix B-1 4.5.1 Device Address and Tags (PD Tag and VFD Tag) must be set in the device. IMPORTANT Use function block scheduling and connection tool for DYFMVTool.
<4. Preparation> 4-24 CAUTION FSA120 is the software tool which is purposed for the setup and maintenance. Do not try connecting it to the device which is under actual operation in the process. Before connecting communication device to the segment, make sure that the process which is controlled by the segment is off-lined. communication device FOUNDATION fieldbus Device Terminator + Loop Power Supply + * − * Across the FOUNDATION fieldbus device. − Terminator F0430E.ai Figure 4.
4.6 4-25 <4. Preparation> Start FDT Frame Application This section describes the operation of DTM with using FieldMate. For the detailed operation of FieldMate, refer to User's manual of FieldMate. The procedure is described with EJX910 HART DTM as an example. 4.6.1 Update DTM Setup After new DTM is installed, click “DTM Setup”, so as to confirm that the designated DTM is correctly installed. Click [Start] → [All Programs] → [YOKOGAWA FieldMate] → [Tools] → [DTM Setup] 4.6.
4-26 <4. Preparation> Step 2 Select Default Scan Segment Specify whether to automatically scan HART devices/Foundation Fieldbus H1 devices after startup. Select [HART] or [FOUNDATION fieldbus] and click [OK]. Figure 4.31b Select HART/FOUNDATION fieldbus NOTE The software for the communication device starts automatically when [FOUNDATION fieldbus] is selected at [FieldMate]. Refer to Appendix D-3 for how to start the software.
<4. Preparation> 4-27 NOTE FlowNavigator works on following Device DTM. Table 4.2 Device DTM Name (EJX910 HART DTM) Device DTM Name Model Name EJX910 V1.1 EJX910 V2.1 EJX910A EJX930A EJX910 V2.1* EJX Multivariable Transmitter HART Protocol Device Type Revision EJX910 (0x0054) 5 EJX910 (0x0054) 7 EJX910 (0x3754) Device Revision 1 2 10 *: For EJX910A/EJX930A HART 7 model, “EJX910 V2.1” DTM is used for FlowNavigator. For detail, refer to Section 4.6.4. Table 4.
<4. Preparation> 4-28 NOTE How to confirm Device DTM version number. Click [Action] → [Select DTM] to select the target device. Confirm version number. Figure 4.31d Confirm Version of Device DTM Figure 4.
4.6.3 <4. Preparation> 4-29 Start Device DTM (1) Start DTM Works (a) Case 1 (Except for EJX910A/EJX930A HART 7 model) Select the icon of the target device. Regarding the device DTM on which FlowNavigator works, refer to Table 4.2, Table 4.3 and Table 4.4. Click the [Action] → [Assigned DTM] Figure 4.32a Start DTM Works (b) Case 2 (For EJX910A/EJX930A HART 7 model) Select the icon of the target device. Click the [Action] → [Select DTM] Select “EJX910 V2.1” DTM and click OK. Fig 4.
<4. Preparation> 4-30 NOTE Use the device DTM “EJX910 V2.1” for EJX910A/EJX930A HART 7 model. “EJX910 V2.1” is a DTM which corresponds to EJX910A/EJX930A HART 5 model (Device revision 2). Flow parameter configuration by FlowNavigator can be done by this DTM. NOTE General parameter configuration for EJX910A/EJX930A HART 7 model (Device revision 10) can be done by “EJX910 HART 7 DTM”. When starting FieldMate for EJX910A/EJX930A HART 7 model, “EJX910 HART 7 DTM” is automatically assigned by default.
4.6.4 <4. Preparation> 4-31 Save DTM Infomation If “Save to file” is performed, a device parameter snapshot is saved to an external file-.dns, which includes the following parameters. • User Flow Parameters • Device Flow Parameters • Device General Parameters For detail of .dns, refer to section 3.4.1, 6.1.2 and 9.1. 1. Click the [File] → [Save to file] at DTM Works window. 2. The message below appears when [Save to file] is clicked without [Upload from Device]. Click the [OK] button. Figure 4.
<4. Preparation> 4.7 FlowNavigator Activation 4.7.1 How to Activate 4-32 Start EJX910 HART/FOUNDATION fieldbus or DYF(SoftDL) FOUNDATION fieldbus DTM. (see 4.6.3) > Start DTM Works. > Select [Device] → [Additional Functions] → [Flow Configuration Wizard] • The following screen appears only when this program is run for the first time. Figure 4.35 EJXMVTool / DYFMVTool Activation Screen Enter the FlowNavigator license number, and Click [Check and Save].
Figure 4.36 4-33 <4. Preparation> Software License Form Once the license number is confirmed, Flow Configuration Wizard screen below appears. Figure 4.
5-1 <5. Operational Flowchart> 5. Operational Flowchart 5.1 Configuration Procedure (EJXMVTool) Following is an example of configuration procedures using Auto Compensation Mode.
5-2 <5. Operational Flowchart> (A) New Configuration (Example of using Auto Compensation Mode) Step FieldMate Menu Start DTM and upload 1 parameter from the device EJX910 HART / FOUNDATION fieldbus DTM Menu Layer1 Layer2 Layer3 EJXMVTool Main Window Assigned DTM Procedure "Online Parameter" is opened Device Device Upload "Device Flow Parameters" and "Device General Parameters".
5-3 <5. Operational Flowchart> (B) Configure with existing configuration file (dns/dfs file) Step FieldMate Menu 1 Start DTM Open "DNS/DFS" 2 file and download parameters to the device Confirm flow 3 coefficient EJX910 HART / FOUNDATION fieldbus DTM Layer1 Layer2 Layer3 Assigned DTM EJXMVTool Main Window Procedure "Online Parameter" is opened File Load from file... Load the *.
5-4 <5. Operational Flowchart> (C) Configure with existing Configuration File (XMV file) Step FieldMate Menu Start DTM and upload 1 parameter from the device EJX910 HART/FOUNDATION fieldbus DTM Layer1 Layer2 Layer3 EJXMVTool Main Window Assigned DTM Description "Online Parameter" is opened. Device Device Upload "Device Flow Parameters" and "Device General Parameters".
5-5 <5. Operational Flowchart> (D) Configure with existing Configuration File (import:XMV and PRM file,export:dns file) Applicable only for FSA210 user. Step FieldMate Menu Start DTM and upload 1 parameter from the device EJX910 HART / FOUNDATION fieldbus DTM Layer1 Layer2 Layer3 EJXMVTool Main Window Assigned DTM Procedure "Online Parameter" is opened. Device Device Upload "Device Flow Parameters" and "Device General Parameters".
5.2 <5. Operational Flowchart> 5-6 Configuration Procedure (DYFMVTool) Following is an example of configuration procedures using Flow Configuration Wizard.
5-7 <5. Operational Flowchart> (A) New Configuration Step FieldMate Menu Start DTM and upload 1 parameter from the device DYF(SoftDL) FOUNDATION fieldbus DTM Layer1 Layer2 Layer3 DYFMVTool Main Window Assigned DTM Procedure "Online Parameter" is opened. Device Device Upload "Device Flow Parameters" and "Device General Parameters". Upload from device 1) Parameter Offline Parameter Additional Functions Flow Configuration Wizard Edit "Device General Parameters" and Apply "Offline Database".
5-8 <5. Operational Flowchart> (B) Configuration with existing configuration file (dns file) Step FieldMate Menu 1 Start DTM Open "DNS" file and 2 download parameters to the device DYF(SoftDL) FOUNDATION fieldbus DTM Layer1 Layer2 Layer3 Assigned DTM DYFMVTool Main Window Procedure "Online Parameter" is opened. File Load from file... Load the *.
5-9 <5. Operational Flowchart> (C) Configuration with existing configuration File (VMV file) Step FieldMate Menu Start DTM and upload 1 parameter from the device DYF(SoftDL) FOUNDATION fieldbus DTM Layer1 Layer2 Layer3 DYFMVTool Main Window Assigned DTM Procedure "Online Parameter" is opened. Device Device Upload from device 1) Upload "Device Flow Parameters" and "Device General Parameters".
5.3 <5. Operational Flowchart> 5-10 Flow Parameters Download Procedure The basic procedure for downloading the flow parameters to a device is as follows. Refer to Figure 5.2. Step 1 Upload from Device Perform “Upload from Device” so that the setting parameters (“Device Flow Parameters” and “Device General Parameters”) in the device are saved to the offline database on your PC. The parameters will then be displayed in the Offline Parameter screen.
5-11 <5. Operational Flowchart> Step 3 Download to Device Perform “Download to Device”. “Device Flow Parameters” will then be downloaded together with the “Device General Parameters” to the device. IMPORTANT For FOUNDATION Fieldbus, following block must be checked on the “Download blocks” menu in the Offline Parameter screen to download “Device Flow Parameters” set by Flow Configuration Wizard.
6-1 <6. Operation of FlowNavigator Program> 6. Operation of FlowNavigator Program 6.1 Outline of FlowNavigator Program 6.1.1 Menu The following shows the menu items in FlowNavigator except for those specific to Device DTM. The items for Device DTM are listed in the DTMWorks "Device" menu. FlowNavigator Program is operated using the Device DTM “Additional functions” menu.
<6.
6-3 <6. Operation of FlowNavigator Program> 6.1.
6-4 <6.
6.1.3 6-5 <6. Operation of FlowNavigator Program> Flow Calculation of Device and FlowNavigator (1) EJX Multivariable Transmitter Refer to the instruction manual “EJX910A and EJX930A Multivariable Transmitters” (IM 01C25R01-01E) (2) digitalYEWFLO Vortex Flowmeter Followings give an overview of the calculation modes.
6-6 <6. Operation of FlowNavigator Program> digitalYEWFLO Vortex Flowmeter Sensor Built-in Temperature Sensor Vortex Sensor DYFMVTool Temperature Transmitter AI.Out (Optional Code: /MV) Steam Mode Simple (Gas/Liquid) Mode Qv Density Simple Compensation Coefficient Temp Device General Parameter Simple Comp.Coef. Detail (Gas/Liquid) Mode Flow Rate Calc. Transducer Block AI3.Out Steam Table AI2.Out Density Qn Fluid Condition - Fluid Selection - Range Setup (Temp, Press) AI1.Out In.
6.2.1 <6. Operation of FlowNavigator Program> 6-7 Connect / Disconnect (1) How to Connect Click the [Device] → [Connect] Figure 6.6a How to Connect NOTE ‘Connect’ menu is active only while the device is disconnected. (2) How to Disconnect Click the [Device] → [Disconnect] Figure 6.6b How to Disconnect NOTE ‘Disconnect’ menu is active only while the device is connected.
6.2.2 <6. Operation of FlowNavigator Program> 6-8 Parameter Online Parameter: The parameters of the device can be edited directly in online status. Offline Parameter : The parameters of the device can be edited and stored in offline database. Parameters saved in offline database can be downloaded to the device by using “Download to Device” function. Parameters in the device can be uploaded to the offline database by using “Upload from Device” function.
<6. Operation of FlowNavigator Program> 6-9 (2) Offline Parameter Click the [Device] → [Parameter] → [Offline Parameter] Figure 6.8a Go to Offline Parameter Figure 6.8b Offline Parameter F0610E.
6.2.3 <6. Operation of FlowNavigator Program> 6-10 Upload from Device / Download to Device (1) How to load from a device • HART DTM / FOUNDATION fieldbus DTM 1. Click the [Device] → [Parameter] → [Offline Parameter] 2. Click the [Device] → [Upload from Device] Uploading icon on the tool bar can also be used to execute upload. Figure 6.9 Upload from Device Offline Parameters (“Device Flow Parameters” and “Device General Parameters”) are uploaded from the device to offline database.
6-11 <6. Operation of FlowNavigator Program> (2) How to download to a device • HART DTM 1. Click the [Device] → [Parameter] → [Offline Parameter] 2. Click the [Device] → [Download to Device] • FOUNDATION fieldbus DTM 1. Click the [Device] → [Parameter] → [Offline Parameter] 2. Check the checkbox of the function blocks downloading to a device. Figure 6.10a Checkbox of Blocks to Download (EJX910 FOUNDATION fieldbus DTM) Figure 6.
<6. Operation of FlowNavigator Program> 6-12 3. Click the [Device] → [Download to Device] Downloading icon on the tool bar can also be used to execute download. Figure 6.10c Download to Device 6.2.4 Print Parameters can be printed out by using print function. Click the [Device] → “Print”. Select “Online Parameter”, “Offline Parameter”, “Diagnosis” or “Observe”. Figure 6.
6.2.5 <6. Operation of FlowNavigator Program> 6-13 Properties The Device DTM version number is shown when this menu is clicked. Click the [Device] → “Property”. EJX910 DTM version number F0616E.ai Figure 6.
6.2.6 <6. Operation of FlowNavigator Program> 6-14 Additional functions (1) Diagnosis (for HART) Diagnostics related parameters are shown. Click the [Device] → [Additional Functions] → [Diagnosis] Figure 6.13a Diagnosis (2) Observe (for HART) Process variables related parameters are shown. Click the [Device] → [Additional Functions] → [Observe] Figure 6.
6.3 6-15 <6. Operation of FlowNavigator Program> Flow Parameters Management Flow Parameters Management consists of Flow Configuration Wizard and Obtain Flow Coefficient. This section describes the file management in the Flow Configuration Wizard. Click the [Device] → [Additional Functions] → [Flow Configuration Wizard] This function is described with EJXMVTool as an example. Figure 6.
6.3.1 <6. Operation of FlowNavigator Program> 6-16 Initialize Initialize flow configuration parameters. NOTE Initialize can be used only in the Flow Configuration Mode screen. Figure 6.15a Initializing Figure 6.
6.3.2 6-17 <6. Operation of FlowNavigator Program> Import (1) Import Flow Configuration .XMV file. “User Flow Parameters” and “Device Flow Parameters” for EJX Multivariable Transmitter can be imported. (2) Import Flow Configuration *.VMV file “User Flow Parameters” and “Device Flow Parameters” for digitalYEWFLO Vortex Flowmeter can be imported. NOTE Refer to ‘9.1 Configuration File’ for information of file format of Flow Configuration file. Import can be used in the Flow Configuration Mode screen.
6.3.3 <6. Operation of FlowNavigator Program> 6-18 Export “User Flow Parameters” and “Device Flow Parameters” can be exported. NOTE Refer to ‘9.1 Configuration file’ for information of file format of Flow Configuration file. Export can be used only in the Apply Flow Configuration screen. NOTE The XMV file made on the FSA210 is compatible with FSA120. Figure 6.
6.3.4 <6. Operation of FlowNavigator Program> 6-19 Report Export “User Flow Parameters” and “Device General Prameters” in CSV File format. NOTE Report can be used only in the Apply Flow Configuration screen. Figure 6.18 Report NOTE User name on the report may be shown as “unknown” on those frame application which does not support user authorization function.
6.3.5 <6. Operation of FlowNavigator Program> 6-20 Help (1) EJXMVTool Help / DYFMVTool Help The EJXMVTool manual map or DYFMVTool manual map opens when this menu is clicked. Figure 6.19 Help NOTE EJXMVTool / DYFMVTool Online Help uses Adobe Reader. Install Adobe Reader to view Online Help. (2) EJXMVTool About / DYFMVTool About The version number of Flow Configuration Wizard is shown when this menu is clicked. Figure 6.
7-1 <7. Operation of EJXMVTool> 7. Operation of EJXMVTool 7.1 Flow Configuration Wizard (Auto Compensation Mode) 7.1.1 Flow Configuration Mode Figure 7.1 Flow Configuration Mode screen Select desired flow configuration mode and click [Next]. Flow Configuration Mode • Auto Compensation Mode (Default) Configuration of the fluid physical properties and primary device for the EJX Multivariable Transmitter can be performed using a dialog window.
<7. Operation of EJXMVTool> 7.1.2 7-2 Primary Device and Pipe Setup Figure 7.2 Primary Device and Pipe Setup Screen (1) Primary Device Type The device types are Selectable from the followings: Type Orifice Nozzle Venturi Fix (2) Primary Device Description The primary device selectable from followings. Table 7.
7-3 <7. Operation of EJXMVTool> (3) Discharge Coefficient of the Primary Device This parameter is active only when ‘Fix’ selected for [Type]. Input the Discharge Coefficient manually when ‘Fix’ is selected. (4) Primary Device Gas Expansion Factor This parameter is active only when ‘Fix’ selected for [Type]. Input the Gas Expansion Factory manually when ‘Fix’ is selected. (5) Primary Device Sizing Set the following values and select a unit.
7.1.3 <7. Operation of EJXMVTool> 7-4 Fluid Setup Auto compensation mode supported physical property database of fluid. Table 7.4 Fluid setup Type Gas or Steam Liquid Figure 7.
7-5 <7.
7-6 <7. Operation of EJXMVTool> Table 7.
7-7 <7. Operation of EJXMVTool> 7.1.4 Natural Gas Setup (1) AGA8 Detail Characterization Method Figure 7.4 Natural Gas Setup Screen (1) Input the value as mole percent for each component shown in Table 7.6. The each value must be specified with in the range shown in Table 7.6. Total mole percent must become 100%. • Standardize: Standardize the mole component value. Click [Standardize] button when total mol percent does not become 100%.
<7. Operation of EJXMVTool> Table 7.
<7. Operation of EJXMVTool> 7-9 (3) AGA8 Gross Characterization Method 2 Figure 7.6 Table 7.8 Natural Gas Setup Screen (3) Input & Valid Range (Expanded Range) Contents Mandatory Optional Expanded Range Relative Density 0.554–0.87 CARBON DIOXIDE (CO2) mole NITROGEN (N2) mole HYDROGEN (H2) mole CARBON MONOXIDE (CO) mole 0–30% 0–50% 0–10% 0–3% Remarks at 14.73 psi abs 60 °F (at 101.56 kPa abs and 15.56 °C) (4) ISO12213 molar-composition analysis Figure 7.
7-10 <7. Operation of EJXMVTool> Input the value as mole percent for each component shown in Table 7.9. The each value must be specified within the range shown in Table 7.9. Total mole percent must become 100%. • Standardize: Standardize the mole component value. Click [Standardize] button when total mol percent does not become 100%.
7-11 <7. Operation of EJXMVTool> (5) ISO12213 physical properties Figure 7.8 Table 7.10 Mandatory Optional Natural Gas Setup Screen (5) Input & Valid Range (Expanded Range) Contents Relative Density CARBON DIOXIDE (CO2) mole Volumetric Gross Heating Value HYDROGEN (H2) mole Expanded Range 0.55–0.9 0–30% 20–48 MJ/m3 0–10% Remarks at 0°C, 1.01325 bar abs at 25°C, 1.
7.1.5 <7. Operation of EJXMVTool> 7-12 Fluid Operating Range Setup (1) Gas or Steam (excluding Category: Saturated steam), Figure 7.9 Fluid Operating Range Setup Screen (1) Input operating ranges and select units Pressure and Temperature units are selectable from following.
<7. Operation of EJXMVTool> 7-13 (2) Gas or Steam (Category: Saturated steam) Figure 7.
<7. Operation of EJXMVTool> 7-14 (3) Liquid Figure 7.13 Fluid Operating Range Setup Screen (3) Input operating range and select units Temperature unit is selectable from degC, degF or Kelvin. Input reference condition and select units Temperature unit is selectable from degC, degF or Kelvin. NOTE • Please confirm the density value on the following page (fluid physical property setup page) and continue configuration.
7.1.6 <7. Operation of EJXMVTool> 7-15 Fluid Physical Property Setup (1) Gas or Steam Figure 7.14 Fluid Physical Property Setup Screen (1) Confirm the value of density, viscosity, molecular weight and isentropic exponent. Units can selectable from following. Density: kg/m3 (Default), lb/ft3 Viscosity: Pa sec, lb/ft sec NOTE The density and viscosity value can be customized. The Isentropic exponent value can be customized. The molecular weight value can be customized.
<7. Operation of EJXMVTool> 7-16 (2) Liquid Figure 7.16 Fluid Physical Property Setup Screen (2) Confirm the value of density, viscosity and molecular weight. Units can selected from following. Density: kg/m3 (Default), lb/ft3 Viscosity: Pa sec, lb/ft sec NOTE The density and viscosity value can be customized. The molecular weight value can be customized. The value is shown when entering return key.
7.1.7 <7. Operation of EJXMVTool> 7-17 Apply Flow Configuration Figure 7.17 Apply Flow Configuration In order to download the configuration to the transmitter please select “Apply”. Then perform download / store to device from Device DTM. (Refer to section 6.2.3). Please refer to Chapter 5 and Figure 6.2.
7-18 <7. Operation of EJXMVTool> 7.2 Flow Configuration Wizard (Basic Mode) 7.2.1 Flow Configuration Mode Figure 7.18 Flow Configuration Mode Screen (Basic mode) Flow Configuration Mode • Auto Compensation Mode (Default) Configuration of the fluid physical properties and primary device for the EJX Multivariable Transmitter can be performed using a dialog window. • Basic Mode Flow operation and density compensation are performed conventionally, with the flow factors being input manually.
7-19 <7. Operation of EJXMVTool> 7.2.2 Basic Mode Setup Select a Fluid Type from “Gas” or “Liquid”. (1) Gas (Default) Figure 7.19 • Basic Mode Setup Screen Input Reference Temperature (Tb), Reference Static Pressure (SPb), and Kfactor. NOTE The static pressure value is according to the transmitter’s abs and gauge selection (A/G select). But same unit character is used for both absolute and gauge. The procedure for setting the BASIC Mode is as follows.
7-20 <7. Operation of EJXMVTool> Table 7.
7.2.3 <7. Operation of EJXMVTool> 7-21 Apply Flow Configuration Figure 7.21 Apply Flow Configuration Screen In order to download the configuration to the transmitter please select “Apply”. Then perform download / store to device from Device DTM. (Refer to section 6.2.3). Please also refer to Chapter 5 and Figure 6.2.
7.3 7-22 <7. Operation of EJXMVTool> Obtain Flow Coefficient Click the [Device] → [Additional Functions] → [Obtain Flow Cofficient] Figure 7.22 Obtain Flow Coefficient The flow coefficient can be obtained from the transmitter (input selection: sensor data or simulated data). The above flow coefficient window is displayed when sensor data is selected. Execute flow simulation for confirmation of configured flow parameters.
7-23 <7. Operation of EJXMVTool> CAUTION While executing Obtain Flow Coefficient on the FOUNDATION fieldbus DTM, do not write the parameters of the EJX Multivariable Transmitter from other parameter setting tools. NOTE • • This menu is active only when the transmitter is connected. In Basic mode density output data is always 0. NOTE If one of following alarm occurs, all the output data is held to the value before alarm occurs. AL. 01(CAP.ERR) AL. 02(AMP.ERR) AL. 03(ET.
<8. Operation of DYFMVTool> 8. Operation of DYFMVTool 8.1 Flow Configuration Wizard (Detail Compensation Mode) 8.1.1 Flow Configuration Mode Figure 8.1 8-1 Flow Configuration Mode screen Select desired flow configuration mode and click [Next].
8-2 <8. Operation of DYFMVTool> IMPORTANT Temperature Unit and Pressure Unit are to be set in Offline Parameter for Detail Compensation Mode. Set units according to input temperature and pressure unit. Temperature Unit Pressure Unit F0802E.ai Figure 8.2 Offline – Arithmetic after Flow Configuration Wizard is executed. Temperature Unit and Pressure Unit in AR Block are not configured by Flow Configuration Wizard Detail Compensation Mode. Set manually using Offline Parameter.
<8. Operation of DYFMVTool> 8.1.2 8-3 Fluid Type Setup Table 8.1 Gas Type Liquid Figure 8.
8-4 <8.
8-5 <8. Operation of DYFMVTool> Table 8.
8.1.3 8-6 <8. Operation of DYFMVTool> Natural Gas Setup (1) AGA8 Detail Characterization Method Figure 8.4 Natural Gas Setup screen (1) Input mole component of 21 materials. Range must be checked as Table 8.3. Total mole percent must become 100%. • Standardize: Standardize the mole component value. Click [Standardize] button when total mole percent does not become 100%.
8-7 <8. Operation of DYFMVTool> Table 8.
<8. Operation of DYFMVTool> 8-8 (3) AGA8 Gross Characterization Method 2 Figure 8.6 Table 8.5 Natural Gas Setup screen (3) Input & Valid Range (Expanded Range) Contents Mandatory Optional Expanded Range Relative Density 0.554–0.87 CARBON DIOXIDE (CO2) mole NITROGEN (N2) mole HYDROGEN (H2) mole CARBON MONOXIDE (CO) mole 0–30 % 0–50 % 0–10 % 0–3 % Remarks at 14.73 psi abs 60 °F (at 101.56 kPa abs and 15.56 °C) (4) ISO12213 molar-composition analysis Figure 8.
8-9 <8. Operation of DYFMVTool> Input mole component of 21 materials. Range must be checked as Table 8.6. Total mole percent must become 100%. • Standardize: Standardize the mole component value. Click [Standardize] button when total mole percent does not become 100%. • Reset: Reset the mole component value • Total mole: Total mole percent is displayed NOTE In case that “Total Mole” is displayed as “100%”, error message is displayed as follows.
8-10 <8. Operation of DYFMVTool> (5) ISO12213 physical properties Figure 8.8 Table 8.7 Mandatory Optional Natural Gas Setup screen (5) Input & Valid Range (Expanded Range) Contents Relative Density CARBON DIOXIDE (CO2) mole Volumetric Gross Heating Value HYDROGEN (H2) mole Expanded Range 0.55–0.9 0–30 % 20–48 MJ/m3 0–10 % Remarks at 0°C, 1.01325 bar abs at 25°C, 1.
8.1.4 <8. Operation of DYFMVTool> 8-11 Fluid Operating Range Setup (1) Gas Figure 8.9 Fluid Operating Range Setup screen (1) Input operating ranges and select units Pressure and Temperature units are selectable from following. Pressure unit: kPa abs, bar abs, psi abs, kPa gauge, bar gauge, psi gauge Atmospheric Pressure unit: psi abs, bar abs, kPa abs Temperature unit: degC, degF, Kelvin Input Base Condition and select units Pressure and Temperature units are selectable from following.
<8. Operation of DYFMVTool> 8-12 (2) Liquid Figure 8.11 Fluid Operating Range Setup screen (3) Input operating range and select units Temperature unit is selectable from degC, degF or Kelvin. Input Base Condition and select units Temperature unit is selectable from degC, degF or Kelvin. NOTE • Please confirm the density value on the following page (fluid physical property setup page) and continue configuration.
8.1.5 <8. Operation of DYFMVTool> 8-13 Fluid Physical Property Setup (1) Gas Figure 8.12 Fluid Physical Property Setup Screen (1) Confirm the value of density, viscosity, molecular weight and isentropic exponent. Units can selectable from following. Density: kg/m3 (Default), lb/ft3 Viscosity: Pa sec, lb/ft sec NOTE The density and viscosity value can be customized. The isentropic exponent value can be customized. The molecular weight value can be customized.
<8. Operation of DYFMVTool> 8-14 (2) Liquid Figure 8.14 Fluid Physical Property Setup Screen (2) Confirm the value of density, viscosity and molecular weight. Units can selected from following. Density: kg/m3 (Default), lb/ft3 Viscosity: Pa sec, lb/ft sec NOTE The density and viscosity value can be customized. The molecular weight value can be customized. The value is shown when entering return key.
8.1.6 <8. Operation of DYFMVTool> 8-15 Apply Flow Configuration Figure 8.15 Apply Flow Configuration Screen In order to download the configuration to the device, click “Apply”. Then perform “Download to Device” from Device DTM. (Refer to section 6.2.3) Execute Apply for setting compensation condition in Offline. Refer to Chapter 5 and Figure 6.3. NOTE Following shows “Device General Parameters” which is applied to “Offline Database”. Table 8.
<8. Operation of DYFMVTool> 8-16 8.2 Flow Configuration Wizard (Steam, Simple Compensation Mode) 8.2.1 Flow Configuration Mode Figure 8.16 Flow Configuration Mode screen Select desired flow configuration mode and click [Next].
8.2.2 <8. Operation of DYFMVTool> 8-17 Fluid Type Setup Set parameters (1) to (9) according to Arithmetic Type. Figure 8.17 Fluid Type Setup Screen (1), (2) Base Temperature Set the standard temperature and select temperature unit. (3), (4) Base Pressure abs Set the standard abs pressure and select pressure unit. (5) Deviation Set the gas deviation factor. (6), (7) Base Density Set the standard density and select density unit. (8) First Temp. Coef.
8.2.3 8-18 <8. Operation of DYFMVTool> Apply Flow Configuration Figure 8.18 Apply Flow Configuration Screen In order to download the configuration to the device, click “Apply”. Then perform “Download to Device” from Device DTM. (Refer to section 6.2.3) Refer to Chapter 5 and Figure 6.3. NOTE Following shows “Device General Parameters” which is applied to “Offline Database”. Table 8.
8.3 8-19 <8. Operation of DYFMVTool> How to Confirm Flow Configuration After performing flow configuration for the device by using "Flow Configuration Wizard" and "Download to Device", execute the following procedures to confirm the configuration. NOTE Regarding start up procedure of digitalYEWFLO and DYFMVTool, refer to Appendix B-1. IMPORTANT Use function block scheduling and connection tool for DYFMVTool. After using these setting tool, finish the program before starting FlowNavigator.
8.3.1 8-20 <8. Operation of DYFMVTool> Case1: Arithmetic Function Block is Standalone Following is the procedures for confirming flow configuration in case AR Block is standalone. Step 1 Set function block scheduling information Set the function block scheduling information to activate digitalYEWFLO AR Block. Regarding function block scheduling, refer to Appendix B-2. Step 2 Open Online Parameter in Device DTM Start Device DTM to display the Online Parameter screen.
8-21 <8. Operation of DYFMVTool> IMPORTANT Before inputting values, set "Good_NonCascade::NonSpecific:NotLimited" status in the following parameters: “Input.Status”, “Input1.Status” and “Input2.Status” ([Online Parameter] → [Arithmetic] → [Configuration] → [Input Parameters]) *: To show "Good_NonCascade::NonSpecific:NotLimited", open the pull-down menu of each Status parameter and press the [G] key.
8.3.2 8-22 <8. Operation of DYFMVTool> Case2: AR Block is Connected with Other Devices The procedures below are for confirming flow configuration when AR Block is connected with other devices. Step 1 Set function block scheduling information Set the function block scheduling information to activate digitalYEWFLO AR Block and the connected function block. Regarding function block scheduling, refer to Appendix B-2.
8-23 <8. Operation of DYFMVTool> Table 8.12 Input conditions in Connected Device’s AI Block Input Device Function Block Volumetric Flow digitalYEWFLO Rate AI3 Block OUT or AI3 Block SIMULATE digitalYEWFLO (In case Using built-in temperature output) AI2 Block OUT or AI2 Block SIMULATE Temperature Pressure Temperature Transmitter (In case Using external temperature output) AI Block OUT or AI Block SIMULATE Pressure Transmitter AI Block OUT or AI Block SIMULATE Parameter Value Output.
<8. Operation of DYFMVTool> Step 5 8-24 Confirm input conditions in AR Block Confirm that the following parameters are the same values input in . “Input.Value”, “Input1.Value” and “Input2.Value” ([Online Parameter] → [Arithmetic] → [Dynamic Variables]) Refer to Table 8.10. IMPORTANT Set "Good" status in the following parameters before inputting values: “Input.Status”, “Input1.Status” and “Input2.
<9. File Format> 9. File Format 9.1 Configuration File 9-1 (1) FlowNavigator file Table 9.1 Category Flow Parameter File Configuration File Information File Location Name *.xmv Desk Top (short cut) \ [UserName] \ Documents (Default) *.vmv HART General Parameters File *.
<9. File Format> 9.2 Other Files Table 9.2 Category Other files File Name Report File *.csv Obtain Flow Coefficient Log File Physical Property Error Log File 9-2 Location (FSA120 R1.04 or later) Location *3 (FSA120 R1.03 or before) Desk Top (short cut) \ [UserName] \ Documents (Default) EJXMVTool HART: FlowCoeff.log (FlowCoeff1.log (Backup)) *1 EJXMVTool FOUNDATION fieldbus: FlowCoeffFF.log (FlowCoeffFF1.log (Backup)) *1 EJXMVTool HART: EJXMVTool.log (EJXMVTool1.
10. <10. Error Message> 10-1 Error Message Error message is shown in both pop up message and error log file (EJXMVTool.log/DYFMVTool.log). Figure 10.1 Error message example In case of Physical Property error, code and sub code is shown in error log file (EJXMVTool.log/DYFMVTool.log). 10.1 Error Message Table 10.1 Error message Code Sub code 600 8 Information Message [Display] The range that specified in the step of Fluid Operating Range Setup is too narrow.
A-1 Appendix A. FSA210 Uninstallation To uninstall all the program of FSA210 Mass Flow Configuration software, you need to take the following three steps. (1) Uninstall field communication server Execute :\PRM\Program\PRMUninstall.exe Double-click the filename in Windows Explorer. is the drive on which field communication server is installed. is the drive where the PRM directory is located.
A-2 NOTE It takes a few seconds for the EXA Bossed service to stop. Figure A1.3 Click [OK]. Figure A1.
A-3 (2) Uninstall the EJXMVTool program with the Add or Remove Programs function of the Windows Control Panel. Select EJXMVTool and click [Change/Remove]. Figure A1.5 (3) Uninstall Exaopc Use the Add or Remove Programs function of the Windows Control Panel to uninstall Exaopc. Select Exaopc and click [Change/Remove]. Figure A1.
A-4 Click [OK]. Figure A1.7 Click [Yes], Figure A1.8 Select [Yes] and click [Finish]. This will reboot the computer. Figure A1.9 NOTE After finishing uninstallation, some files remain in Field Communication Server \PRM directory.
B-1 Appendix B. Device Information B-1 Start up Procedure of Device and FlowNavigator (1) digitalYEWFLO and DYFMVTool The flow chart below shows the start-up procedure of digitalYEWFLO and DYFMVTool. Set digitalYEWFLO FOUNDATION fieldbus according to the chart and then proceed to "DYFMVTool -Flow Configuration-" and "DYFMVTool -Confirm Flow Configuration-".
B-2 B-2 How to Configure digitalYEWFLO AR Block This section explains how to set the function block scheduling and connection information with the following device as an example. In this example, NI-FBUS Configurator 3.1 is used as a setting tool. Table B2.1 Object device (Case 1: AR Block is standalone) Value (1) Mass Flow Rate Table B2.
B-3 FB0201E.ai Figure B2.1 Confirmation of DD installation NOTE To obtain an appropriate DD file, download and install from the FOUNDATION fieldbus website. Step 2 Start NI-FBUS Configurator Start NI-FBUS Configurator. [All programs] → [National Instruments] → [NI-FBUS] → [NI-FBUS Configurator] Wait for a while to load device information. After loading the information, click the Error tab and confirm there is no error information.
B-4 Step 3 Upload function block scheduling and connection information Follow the procedures below to load the function block scheduling and connection information from the segment where the device exists. The setting information appears on the "Function Block Application" screen after loading. Figure B2.
Step 4 B-5 Set function block scheduling information Arrange any function block shown in Table B2.1 or Table B2.2 on the "Function Block Application" screen. IMPORTANT In “Case 2: AR Block is connected with other devices”, arrange digitalYEWFLO AR Block at the end. Otherwise, digitalYEWFLO will not carry out the flow calculation correctly. Drug & Drop FB0205E.ai Figure B2.
B-6 Step 5 Set function block connection information Double-click "Function Block Application" on the left of the screen to display "Function Block Application". Click "Wiring Tool" on the menu bar to connect the blocks as shown in Table B2.3. Table B2.
B-7 Click "Download Configuration" to show the "Download Configuration" pop-up window. Then set options ("Clear Devices" and "Automatic Mode Handling" are recommended) and click "Download". Figure B2.9 “Download Configuration” pop up window After this, the function block scheduling and connection information is written in the segment where the device exists. After writing, a message window appears to ask whether to save the project setup information.
B-3 B-8 How to Check digitalYEWFLO AR Block Alarm Confirm AR Block functions correctly by following the procedures below. Step 1 Open Online Parameter in Device DTM Start Device DTM to display the Online Parameter screen. ([Device] → [Parameter] → [Online Parameter]) IMPORTANT Turn on the alarm output of AR Block at TB: ALARM_PERFORM. Default setting for the alarm output of AR Block is off.
B-9 Step 3 Check the alarm in AR Block Confirm that the following alarms are not displayed in Diagnostic List of the Device Status screen. If any alarm is displayed for AR Block, take the appropriate measure by referring to the table below. Table B3.1 Alarm list of AR Block for flow configuration Alarm No. Alarm Label AL-85 AR Not Scheduled AL-86 AR Range Conf. Err AL-87 AR Temp.
C-1 Appendix C. HART Communication Device Information C-1 Installing Software for Communication Device The USB FieldMate modem driver is installed automatically. Check that “CP210x USB to UART Bridge Controller” is installed using Add or Remove Programs (Windows XP) or Programs and Features (Windows Vista) in the Control Panel. If the installation is not performed correctly, double-click the following file.
C-2 Click [System and Security] Figure C2.2a Control Panel Click [System] → [Device Manager] Figure C2.
C-3 Click [Ports (COM & LPT)] to find out the port number of “CP210xUSB to UART Bridge Controller”. Figure C2.
D-1 Appendix D. FOUNDATION fieldbus Communication Device Information D-1 Installing Software for Communication Device D-1-1 NI-FBUS Card Install software according to following procedure. Step 1 Install the NI-FBUS Communications Manager Step 2 Restart PC D-2 Setting Software for Communication Device D-2-1 NI-FBUS Card Define the port of NI-FBUS card as follows using “Interface Configuration Utility”.
D-2 (2) Select the port On the screen shown up, select “Port0" and press “Edit”. Figure D2.2 NI-FBUS Interface Config Screen (3) Setting After that, on the screen shown up, select the items indicated as below. Figure D2.
D-3 D-3 Starting Software for Communication Device D-3-1 NI-FBUS Card Please Start the NI-FBUS Communications Manager as follows. Click [Start] → [All Programs] → [National Instruments] → [NI-FBUS] → [NI-FBUS Communications Manager]. Figure D3.
Revision Information Title Manual No. : FSA120 Flow Configuration Software : IM 01C25R51-01E Edition Date Page 1st Sep. 2006 — New publication 2nd Jan. 2007 — Full-fledged revision due to the release of HART DTM and change of the product architecture. 3rd Aug. 2007 5-1 to 5-4 6-6 5. 6.1.2 6-13 6-19 6-23 6-27 and 6-28 6.2.2 6.3.3 6.3.4 6.3.5 4th Feb. 2008 — 3-1 to 3-4 6-6 6-7 to 6-9 7-2 Revised Item Correct the note number for ‘Download to device’.
