GE Energy Masoneilan Products ValVue* FF (Rev B) * Maintenance Manual ValVue-FF is a software tool to configure, calibrate, and operate FOUNDATION Fieldbus pneumatic control valve positioners.
Warranty Items sold by GE Energy are warranted to be free from defects in materials and workmanship for a period one (1) year from first use or eighteen (18) months from delivery provided said items are used according to GE recommended usages. GE reserves the right to discontinue manufacture of any product or change product materials, design or specifications without notice. Software is warranted for ninety (90) days from delivery.
ValVueFF Software Interface to FVP Contents ValVueFF Software Interface to FVP Safety Information ...............................................................1 Safety Symbols ..........................................................................................................................1 Product Safety ...........................................................................................................................2 Introduction to ValVueFF and FVP ....................................
GE Energy ValVueFF Software Interface to FVP Setup Menu..............................................................................................................................49 Setup Wizard .....................................................................................................................49 Configuration Services .......................................................................................................55 Calibration Services ...........................................
Options.....................................................................................................................................96 Characterization Frame......................................................................................................96 Custom Characterization Dialog Box .................................................................................99 Pressure Frame ............................................................................................................
GE Energy ValVueFF Software Interface to FVP Performing a Self Test ...........................................................................................................136 Self Test Explanation .......................................................................................................137 Signature Tab ........................................................................................................................138 Signature Selection Frame ......................................
Foundation Fieldbus ..................................................................................................................211 Overview ................................................................................................................................211 Reference Model Process......................................................................................................212 P& I D..................................................................................................
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ValVueFF Software Interface to FVP Figures 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 ValVueFF Reference Model Fieldbus Segment..................................................................8 Interface Configuration Utility............................................................................................12 Import DD_CFF Browse Dialog ........................................................................................
GE Energy 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 ValVueFF Software Interface to FVP Device Selection Dialog Box.............................................................................................47 Device Selection Popup for Tag/Address .........................................................................48 Device Selection with Popup Menu ........................................................
88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 Stroke Valve Message Box.............................................................................................106 Progress Dialog Box .......................................................................................................107 Manual Stops Progress Bar .................................................................
GE Energy 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 ValVueFF Software Interface to FVP Test Graph Result - Normal ............................................................................................157 Result Analysis - Normal ................................................................................................157 Step Response Setup - Cyclical ..
180 181 182 183 Out of Service at Startup.................................................................................................218 Manual State...................................................................................................................220 Normal State ...................................................................................................................220 Out of Service State Change Warning Message Box .....................................................
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ValVueFF Software Interface to FVP Tables 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 ValVueFF Version 2.32 Specifications............................................................................... 5 Two Configurations of the NIFB Interface Card ............................................................... 11 Network Parameters for Reference Model....................................................................... 15 User Privilege Level Descriptions ..........................................
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ValVueFF Software Interface to FVP Safety Information 1 This section provides safety information including safety symbols that are used on the FVP110 and the safety symbol definition. Safety Symbols Instructions contain WARNINGS, CAUTIONS labels and Notes, where necessary, to alert you to safety related or other important information. Read the instructions carefully before installing and maintaining your instrument. Total compliance with all WARNING, and CAUTION notices is required for safe operation.
GE Energy ValVueFF Software Interface to FVP Product Safety This software is intended for use with Masoneilan FVP positioners only. For positioners intended for use with industrial compressed air: Ensure that an adequate pressure relief provision is installed when the application of system supply pressure could cause peripheral equipment to malfunction. Installation must be in accordance with local and national compressed air and instrumentation codes.
ValVueFF Software Interface to Product Safety Use only genuine replacement parts which are provided by the manufacturer, to guarantee that the products comply with the essential safety requirements of the European Directives. Changes to specifications, structure, and components used may not lead to the revision of this manual unless such changes affect the function and performance of the product. This product is not intended for use in safety shutdown systems.
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Introduction to ValVueFF and FVP 2 Overview ValVueFF is a software tool that enables you to configure, calibrate, and operate FOUNDATION Fieldbus pneumatic control valve positioners with internal process control and limit switches. ValVueFF is compatible with Masoneilan Model FVP110 by and Model YVP110 by Yokogawa Electric Corporation. It fully supports FOUNDATION Fieldbus specifications. ValVueFF Specifications Table 1 ValVueFF Version 2.32 Specifications Dynamic Compatible OS ValVueFF Version 2.
GE Energy ValVueFF Software Interface to FVP Table 1 ValVueFF Version 2.32 Specifications (Continued) Dynamic Blocks Supported ValVueFF Version 2.
Installation of Hardware and Software 3 Getting Started With ValVueFF The following tools and software are needed: ❑ ValVueFF software version 2.32 CD-ROM ❑ Windows 2000, Windows Server 2003 or XP operating system ❑ National Instruments AT-FBUS or PCMCIA-FBUS interface card and NI-FBUS software version 4.X. Earlier versions of NI-FBUS software are NOT compatible with ValVueFF version 2.32.
GE Energy ValVueFF Software Interface to FVP Before installing the ValVueFF software, you must install the Foundation Fieldbus communications hardware and software. To help to reduce the need for digital communications terminology, refer to an example reference process and Foundation Fieldbus segment in Figure 1. Figure 1 CAUTION ValVueFF Reference Model Fieldbus Segment Improper setup can interfere with process control.
Installation of Hardware and General Installation and Setup General Installation and Setup Procedure This manual details the use of ValVueFF software with a Masoneilan FVP valve positioner. ValVueFF can be used offline but is normally connected to a FVP positioner. Ensure the following guidelines are adhered to prior to using ValVueFF with a positioner: 1. Install the positioner on a valve and connect it to an air supply. See the FVP Instruction Manual. 2.
GE Energy ValVueFF Software Interface to FVP Wiring Requirements There are cable requirements that must be adhered to for reliable installations. The cable used must support the digital data signals without reflections, noise, or attenuation. There are three qualities of cable specified in Fieldbus Foundation AG-140. The type A cable is used whenever possible and especially for long transmission distances or for segments with many branches (spurs).
Installation of Hardware and NI-FBUS Software NI-FBUS Software Install the NI-FBUS software before installing the PCI-FBUS hardware. If you do not have a this software you can obtain a copy at the following URL ftp://ftp.ni.com/support/ind_comm/fieldbus/ni-fbus/communications_manager CAUTION If you are reinstalling the NI-FBUS software over an existing version, write down the board configuration and all port configuration parameters that have been changed from their defaults.
GE Energy ValVueFF Software Interface to FVP Configuring the Interface Card The configuration of a PC for use with ValVueFF varies depending on the immediate task. If ValVueFF is used to maintain or configure a valve on a working Foundation Fieldbus segment, the PC running ValVueFF must configured carefully so it does not interfere with control communication.
Installation of Hardware and NI-FBUS Software 2. Select Import DD/CFF and the browse dialog appears (Figure 3). Figure 3 Import DD_CFF Browse Dialog 3. Click DD Info and the dialog appears (Figure 4). Figure 4 DD Info Dialog 4. Click Browse, navigate to the ValVue installation directory. Default is \\Program Files\DFC\ValVueFF\DD\ and click OK and OK and Figure 5 appears. Figure 5 Import DD_CFF Browse Dialog 5. Click Browse, navigate to the ValVue installation directory.
GE Energy ValVueFF Software Interface to FVP 8. Select OK in the Import DD_CFF Browse Dialog and click OK and a dialog appears (Figure 6). Figure 6 Interface Configuration Utility Success Dialog 9. Click OK. 10. Repeat step 4 through step 9 to import 0306.ffo. 11. Repeat to import DD file in \\Program Files\\....\DD\YVP. 12. Click OK to exit. After the DDs are installed successfully, they appear in the installation subdirectory of NI-FBUS.
Installation of Hardware and NI-FBUS Software Sequencing for Configuration Use this procedure for sequencing a configuration 1. Set network parameters for Slot time, Max Response Delay, and Inter PDU Delay. Parameters examples used in the reference model are shown in Table 3. Settings are different in each Foundation Fieldbus segment.
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4 ValVueFF Administration Overview This section describes the procedures for installing ValVueFF software. The ValVueFF installation procedures require a working knowledge of Microsoft Windows, the Masoneilan FVP positioner, Foundation Fieldbus communications and function block technology. For additional information about the FVP positioner, see Masoneilan FVP Instruction Manual (GEA19791_FVP110_IOM).
GE Energy ValVueFF Software Interface to FVP Installing ValVueFF The following procedure details removing a previous version of ValVueFF and installing ValVueFF 2.32. Do not install ValVueFF 2.32 until you have installed NI-FBUS 4.X. Launching the Application There are several ways to start a ValVueFF 2.32 installation. Depending upon your media you can use one of the following start options: 1. Select an icon from the CD-ROM. 2. Enter ValVueFF Installer.exe in the Run dialog box.
ValVueFF Administration Removing a Previous Version of 2. Click Install Software and the ValVue FF CD Browser window appears (Figure 8). Figure 8 Software Selection Window 3. Click Install Full Edition and the Preparing Setup dialog box appears followed by a dialog box (Figure 9). Figure 9 NIFB Version Requirement Reminder 4. Ensure that the fieldbus software is installed, click Yes and the Shut Down message appears (Figure 10).
GE Energy ValVueFF Software Interface to FVP 5. Select Yes to continue. The Maintenance dialog box appears (Figure 11). Figure 11 Select Maintenance Level Dialog Box 6. Select Remove and then Next. A message box appears asking if you want to remove a previous version of ValVueFF. 7. Select Yes. A Setup Status dialog box appears, then a Maintenance Complete dialog box appears (Figure 12). Figure 12 Maintenance Complete Dialog Box 8. Select Finish. 9. Relaunch ValVueFF to install the application.
ValVueFF Administration Installing ValVueFF Installing ValVueFF 1. Launch the application. The ValVueFF CD Browser window appears (Figure 13). Figure 13 CD Browser Window 2. Click Install Software and the ValVue FF CD Browser window appears (Figure 13).
GE Energy ValVueFF Software Interface to FVP 3. Click Install Full Edition and the Preparing Setup dialog box appears followed by a dialog box (Figure 15). Figure 15 NIFB Version Requirement Reminder 4. Ensure that the fieldbus software is installed, click Yes and the Shut Down message appears (Figure 16). Figure 16 Shut Down Message 5. Select Yes and the Welcome to ValVueFF dialog box appears (Figure 17).
ValVueFF Administration Installing ValVueFF 6. Select Next. The License Agreement dialog box appears (Figure 18). Figure 18 License Agreement 7. Select I Accept. 8. Select Next. The Choose Destination Location dialog box appears (Figure 19). Figure 19 Choose Destination Dialog Box 9. Select: ❑ Next to accept the default destination.
GE Energy ValVueFF Software Interface to FVP ❑ Change to select an installation location and a browse dialog box appears. Select a location and select OK. Ready to Install dialog box appears (Figure 20). Figure 20 Ready to Install Dialog Box 10. Select Install. A Setup Status dialog box appears (Figure 21), then Setup complete (Figure 22).
ValVueFF Administration Installing ValVueFF Figure 22 Installation Complete 11. Select Finish and a dialog appears (Figure 23). Figure 23 Use National Instrument Tool Dialog 12. Click OK and ValVueFF CD Browser window reappears.
GE Energy ValVueFF Software Interface to FVP Trial Period To use this software for a 60 days free evaluation: 1. Open ValVueFF and the Registration dialog appears (Figure 26). Figure 24 Registration Dialog 2. Leave the Serial Number box blank and select OK in the Evaluation Day dialog box. The evaluation or trial period for the software is 60 days from the first day of use. 3. Select OK and logon in the ValVueFF Logon dialog box (Figure 25).
ValVueFF Administration Registration Registration Permanent use of this software requires a license for each computer it is used on. You must register the software to obtain the software key for your license. If you are using a trial version and wish to purchase a license contact your Masoneilan representative to obtain a serial number. Previous Versions If you are upgrading from a previous version of ValVueFF you are NOT required to register the software.
GE Energy ValVueFF Software Interface to FVP 2. Enter your Name, Company and Serial Number, click OK and the Logon dialog appears (Figure 27). The serial number can be found on your purchase order or on the ValVueFF box. Figure 27 Logon Dialog 3. Select OK and the Software Key dialog box appears (Figure 28).
ValVueFF Administration Registering ValVueFF Software 4. Select HSE Support if you are using an HSE linking device. Leave this selection blank if you are not using an HSE linking device. 5. Select Registration. The ValVueFF registration form appears (Figure 29). Figure 29 Registration Form 6. Complete the registration file. 7. Select Save to File.
GE Energy ValVueFF Software Interface to FVP 8. Attach the Registration File to an email and send the email to: softwarereg@ge.com. Our Customer Service department emails you a key for your application (Figure 30). Figure 30 Software Key Dialog Box 9. Enter your key in the Software Key field. 10. Enter the key for HSE Support if you requested that key and select OK. You are registered.
ValVueFF Administration Setting User Accounts, System Setting User Accounts, System Administration, Passwords, and Privilege Levels In a plant having many users with various levels of training and responsibility it is often necessary to restrict users to a limited range of functions depending on their training and job function. Starting the ValVueFF program requires a valid account with a user name and a password for each user.
GE Energy ValVueFF Software Interface to FVP 3. Select OK and the VFAdmin dialog box appears (Figure 32). Figure 32 Adding Users in VFAdmin Dialog Box By default the program contains three accounts: ❑ Admin: The password is case sensitive. The initial password is blank. Use the administration program immediately to install a password for an Administrator and make the system secure from unauthorized use. ❑ masoneilan: lower case, and password of new, also lower case.
ValVueFF Administration Setting User Accounts, System Table 4 User Privilege Level Descriptions Level Privilege Level Level 0 Allows the user to logon to ValVueFF only if the connected FVP is in Auto state. The user can send commands that reply with configuration, calibration, and status information but the user cannot change any information. Level 0 users cannot access Out Of Service or Manual states. Level 1 Allows the user access to Auto, Manual or Out Of Service states.
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5 Using ValVueFF Overview Integrated Valve Interface (IVI) The primary screen for displaying information in ValVueFF, the Integrated Valve Interface screen (IVI) (Figure 33), appears after a successful ValVueFF logon. The IVI displays and updates real time values for valve position, valve Set Point, actuator pressure, and provides access to all other services. The IVI offers tools and wizards using standard conventions and offers multiple paths to functions to suit a user's preferences.
GE Energy ValVueFF Software Interface to FVP 9 Selected Device frame: device tag and operational state 10 Companion Device frame: shows summary information from a second positioner on the same segment as the selected device. 1 2 7 9 4 5 10 8 6 3 Figure 33 ValVueFF Integrated Valve Interface (IVI) Menu Bar Table 5 explains the menu bar functions. The drop down menus and icon tool bar provide access to services that work with files, devices and function blocks.
Using ValVueFF Menu Bar Table 5 ValVueFF Menu Selections (Continued) Menu Setup View Menu Item Display Setup Wizard Setup Wizard dialog box is used to do an initial setup on a positioner. Configuration Displays the Configuration dialog box used to reconfigure a positioner. Calibration Displays the Calibration dialog box used to recalibrate a positioner. Device Tag/Address A dialog box used to change the tag name or address of a device.
GE Energy ValVueFF Software Interface to FVP Table 5 ValVueFF Menu Selections (Continued) Menu Tools Menu Item Display Diagnostics Diagnostics dialog box used to diagnose a selected device. Query Device Query dialog box used to display a selected device. Re-Scan Devices Scan dialog box used to rescan the link for a list of all devices. Download Downloads the current configuration into a selected device. Download Firmware Downloads new firmware into a selected device.
Using ValVueFF Icon Toolbar Icon Toolbar Each menu selection that displays a dialog box has a corresponding Toolbar Icon (Table 6). A greyed out icon means the functionality does not apply to the currents application or that you don’t have the requisite permission level. Tool Tips Feature When you place the cursor on an icon a Tool Tip message displays the function of the selected icon.
GE Energy ValVueFF Software Interface to FVP Table 6 Toolbar Icons (Continued) Icon Definition Setup Wizard - Opens a dialog box used to set up a valve positioner. This feature is useful if you are setting up a valve for the first time. Configuration Management - Opens a dialog box containing six tabs that is used to for device configuration. The tabs are General, Position, Actuator, AO Block, PID Block and Options.
Using ValVueFF Positioner Faceplate Positioner Faceplate The positioner faceplate frame contains controls used for working with a positioner. Some of the faceplate features can be toggled on and off. When a feature is active a check mark displays next to the features description on the View menu. Figure 36 shows an inactive positioner faceplate with features turned off. Figure 37 shows an inactive positioner faceplate with all feature turned on. Features are toggled using selections on the View menu.
GE Energy ValVueFF Software Interface to FVP Figure 37 IVI Positioner Faceplate Frame - Functions On 42
Using ValVueFF Active Faceplate Active Faceplate Figure 38 shows an active Positioner Faceplate frame with complete functionality: ❑ The control valve tag is shown in the PD-Tag field. ❑ The current operating state of the positioner is shown in the Operation field. In this example the display reads, NORMAL STATE. ❑ Block Mode Actual displays individual block modes appear for each of the positioners internal function blocks.
GE Energy ValVueFF Software Interface to FVP Companion Device Display Frame The Companion Device frame (Figure 39) displays and updates real time values for transducer block mode, target position, and valve position. Use it to observe summary information from a second positioner connected in the same segment as the selected device. To select a companion device: 1. Choose a focus device selected and viewed in the Selected Device frame. 2.
Using ValVueFF Status Frame Status Frame The Status Frame (Figure 40) displays Analog Output Block (AO) and PID block scheduling status. In addition, the transducer block error (XD ERROR) appears. The communication error text box accumulates error messages that can be copied to a text file for analysis. To clear the error text box select View > Clear Comm Error Display. Figure 40 Status Frame Selected Device Frame The Selected Device frame (Figure 41) provides a dedicated view for a specified device.
GE Energy ValVueFF Software Interface to FVP Table 7 Display Display Type PD - Tag Operational State IVI Faceplate Parameters Parameter Name [PD.TAG] Active Control Remarks This indicates the FVP tag Device Operation State can be one of the following: ❑ ❑ ❑ NORMAL MANUAL Out of Service If no physical device is selected OFFLINE is displayed as the operation state. Setpoint Signal [AO.OUT] Desired valve position before application of characterization and limits. Target Position Slider and TB.
Using ValVueFF Device Selection Block Actual Mode Table 8 lists the supported modes of the valve positioner for each block. Table 8 Block Modes Block Supported Modes Resource Auto, O/S Transducer Auto, O/S AO RCas, Cas, Auto, Man, (LO), (IMAN), O/S DI Auto, Man, O/S OS Cas, Auto, (Iman), O/S PID ROut, RCas, Cas, Auto, Man, (LO), (IMAN), O/S Device Selection All of the devices on the bus segment live list are shown as icons in the Device Selection box.
GE Energy ValVueFF Software Interface to FVP The Device Selection popup menu (Figure 43) offers direct access to services. Right-click on the device to access this menu. Figure 43 Device Selection Popup for Tag/Address Using ValVueFF Menu Selections ValVueFF services are accessed using three standard Windows techniques. The Device Selection with popup menu is shown in Figure 44.
Using ValVueFF Setup Menu Setup Menu Menus items include: ❑ ❑ ❑ “Setup Wizard” on page 49 “Configuration Services” on page 55 “Calibration Services” on page 56 Setup Wizard The Setup Wizard provides (Figure 45), in a single tool, all the services for commissioning a valve positioner. It includes a sequence for configuration and tuning. It is most useful for first time setup of the positioner.
GE Energy ValVueFF Software Interface to FVP Actuator Wizard Use the Setup Wizard setup page (Figure 46) to configure the Transducer Block (TB) valve actuator information. For a description of the parameters, refer to “Actuator Page” on page 87.
Using ValVueFF Setup Wizard Tuning Wizard Use the Tuning step to execute the combination of Search Stops + Auto Tune described in “Tuning Tab” on page 109 (Figure 47). WARNING Tuning strokes the valve over its entire travel.
GE Energy ValVueFF Software Interface to FVP Travel Calibration Wizard Use the Travel Calibration page (Figure 48) to calibrate the 0%, 50% or 100% position points, when necessary. For a description of all the parameters and controls, refer to “Travel Calibration Tab” on page 112.
Using ValVueFF Setup Wizard Position Control Limits - Wizard Use the position control limits page (Figure 49) to change the position limit setting for the valve position configuration parameters in Transducer Block (TB). The parameters are detailed in “Position Limits Parameters” on page 75.
GE Energy ValVueFF Software Interface to FVP Finish Setup Wizard This is the final screen (Figure 50) and indicates that the basic setup is valid and provides a choice of Device Operation States before completing setup. The setup is not completed until Finish is selected.
Using ValVueFF Configuration Services Configuration Services The General tab on the Configure window (Figure 51) includes the Device Info, Block Tag Info, and Others Installed. The other tabs on this window are: ❑ Position for configuring position limits and switches. ❑ Actuator for configuring valve action and limits. ❑ AO Block for configuring block setpoints and status options. ❑ PID Block for configuring block parameters, setpoint limits and status options.
GE Energy ValVueFF Software Interface to FVP Calibration Services The Calibration page (Figure 52) contains the following tabs: ❑ Range: Use to adjust the positioner to the actual stroke (range) of the valve. ❑ Tuning: Use to Auto Tuning the position control algorithm. ❑ Travel Calibration: Use to make additional adjustments to valve stroke. ❑ Advanced: Use to set non-linear factors to optimize dynamic performance.
Using ValVueFF Device Tag/Address Device Tag/Address To change the node address or PD-Tag of any device listed in Device Selection: CAUTION Changing the device tag/address clears the linkage and trend configuration in the device and may interrupt the device operation. 1. Either: ❑ Right-click the device to bring up the context menu. or ❑ Select Setup > Device Tag/Address. 2. Enter a unique Device Tag for the entire control plant. 3.
GE Energy ValVueFF Software Interface to FVP View Menu Menus items include: ❑ ❑ ❑ “View Trend” on page 58 “PID Controller” on page 59 “Device Operation State” on page 61 View Trend Use the Trend dialog (Figure 54) to see a graphical view of the current selected device. This can be accessed from the menu or the Device Selection right-click menu. The trend can be customized to display certain data and data ranges. Figure 54 Trend Dialog See “PID Block and Trending Services” on page 119.
Using ValVueFF PID Controller PID Controller The PID Process Controller dialog box (Figure 55) contains the tools for managing the PID function block. It is composed of frames that group controls and displays: ❑ The PID Status frame displays and controls the PID States (block modes), Setpoint and Process Variable, and the Device tagname. In Manual State (M), drag the PID output slider to move the valve.
GE Energy ValVueFF Software Interface to FVP Change PID Parameters The process loop tuning parameters are displayed in a frame (Figure 56). To change them: 1. Select Change, this displays the Change PID Tuning Parameters dialog box. 2. Tune while in the controller is one of the automatic control modes, L, C, or R, or when in Manual, or Other.
Using ValVueFF Device Operation State Device Operation State This dialog box (Figure 57) controls switching between the block modes as defined by the Operation States. ❑ Normal - The valve is controlled by the control configuration set in Foundation Fieldbus. ❑ Manual - The valve position can be set from ValVueFF. ❑ Out of Service - The valve position is controlled at the last Set Point but does not respond to inputs.
GE Energy ValVueFF Software Interface to FVP Tools Menu ❑ ❑ ❑ “Diagnostic Services” on page 62 “Query Device” on page 63 “Rescan Devices” on page 64 Diagnostic Services Diagnostics (Figure 58) provides controls to perform actuator and positioner signature test procedures. It also displays the continuous diagnostic data that is an accumulation of valve service history. Refer to “Diagnostic Services” on page 135 for detailed information.
Using ValVueFF Query Device Query Device Use the two tabs in the Device Query (Figure 59) to read parameters stored in the FVP. The General tab accesses general data, while the Block Parameter tab displays all parameters in each function block. There is a query window available for each device. You can open multiple query windows for multiple positioner devices at the same time. The query window can be run while accessing other windows.
GE Energy ValVueFF Software Interface to FVP Rescan Devices Selecting or Tools > Re-scan Devices refreshes the connections to all working devices on the field- bus segment (Figure 60) and closes the opened device. You lose control until you have reselected a device. You are prompted to confirm that a rescan is acceptable. Figure 60 Rescan Message Box Multi-Link Environment ValVueFF can only work with one segment each time.
Using ValVueFF Help Menu Figure 62 Link Selection 1. Select segment. 2. Click OK. Help Menu This consists of: ❑ ❑ ❑ “About” on page 65 “Registration Info” on page 65 “Registration Info” on page 65 About Selecting the About icon or selecting Help > About ValVueFF displays the version of ValVueFF and the copyright notice (Figure 63). Figure 63 About ValVueFF Message Box Registration Info Select Help > Registration Info to open the ValVueFF Registration dialog.
GE Energy ValVueFF Software Interface to FVP Offline Use of ValVueFF Choose Offline to work with configuration files when not connected to a positioner. Offline services allow files to be copied and modified as preparation for download to active devices. The user permission levels restrictions apply to offline use the same as when working with FVP positioners.
6 Setup Wizard Procedure The Setup Wizard (Figure 64) is recommended for installing and configuring an FVP positioner.
GE Energy ValVueFF Software Interface to FVP Step 1: Welcome To use the wizard: 1. Select Setup > Setup Wizard or click (Figure 64). Figure 64 and the Welcome window appears Setup Wizard Dialog Box 2. Select Next and the Actuator window appears (Figure 65).
Setup Wizard Procedure Step 2: Actuator Wizard Step 2: Actuator Wizard 1. Select the Valve Action, Actuator Type, Relay Type, and Valve Type (Figure 65). Figure 65 Actuator Wizard Dialog Box 2. Select Next to begin calibration and tuning. NOTE If linear is incorrectly selected, when the valve is rotary, a large angle error message displays. To correct this use the Configure Actuator dialog box followed by the Calibration Services Tuning dialog box. Do not Auto Tune if manual tuning has been used.
GE Energy ValVueFF Software Interface to FVP Step 3: Tuning Wizard The positioner automatically searches for the mechanical valve travel limits and tunes the valve position PID control algorithm (Figure 66). Figure 66 Tuning Wizard Dialog Box 1. Ensure the air supply to the valve must be on and set to the correct pressure. 2. Select Go. This takes several minutes to complete and strokes the valve. If this is not a first time setup of the valve, skip this step by selecting the Skip button.
Setup Wizard Procedure Step 3: Tuning Wizard Figure 67 Tuning Results Dialog Box 3. Select Accept applies new parameters or select Not Accept to keep your original parameters. If the tuning fails there is an additional message describing why the failure occurred. If the self calibration and Auto Tune procedures are unsuccessful there is a message (Figure 68).
GE Energy ValVueFF Software Interface to FVP Figure 69 NOTE Tuning Wizard Error Message Boxes Before running the Travel Calibration Wizard checks that Tight Shut Off, Full Open, and Position Limits are disabled. Select Next to see the Position Control Limits Wizard, shown in Figure 71. Select Back to return to the Travel Calibration Wizard. If changes are needed select Next to complete the Wizard and install the changes. Restart the Setup Wizard.
Setup Wizard Procedure Step 4: Travel Calibration Wizard Figure 70 Travel Calibration Wizard CAUTION Supply pressure must not exceed the actuator pressure rating marked on the actuator. Positioner supply pressure must be at least 5 psi higher than the upper spring range of the valve. WARNING Isolate the valve from the process and keep clear of moving parts before using Limit Searching or Auto Tune. To run the Travel Calibration Wizard: 1.
GE Energy ValVueFF Software Interface to FVP 2. Perform a Select Calibration Type at Target Position, if required, by: a. Clicking either: ❑ 0% Calibration ❑ Span Calibration ❑ 50% Calibration b. Clicking Apply Calib. 3. Perform a Pick Target Position for Calibration, if required, by: a. Clicking either: ❑ 25 ❑ 10 ❑1 ❑ 0.1 ❑ 0.01 b. Using the Change To up/down arrows to select a Target Pos. c. Clicking Apply Calib. and the Result appears. 4. Select Next.
Setup Wizard Procedure Step 5: Position Control Limits Step 5: Position Control Limits Wizard To use this: 1. Enter values as required in Figure 71, referring to the descriptions given in “Position Limits Parameters” on page 75. Figure 71 Position Control Limits Wizard 2. Select Next. Position Limits Parameters Tight Shutoff Below (%) If the valve position Set Point is less than this value the valve is forced to fully close. As a general practice this is set between 1 and 3 to minimize seat leakage.
GE Energy ValVueFF Software Interface to FVP Near Closed Value (%) The threshold below which the valve is considered near closed. Near Closed is useful for estimating when to change the valve trim. This value does not effect valve travel it is used only for reporting the time that valve is near the seat. Limit Switch Threshold The limit switch thresholds apply to the Discrete Input Block (DI) Set Points.
Setup Wizard Procedure Step 6: Finish Setup Wizard Step 6: Finish Setup Wizard This screen (Figure 72) indicates that the setup is valid: 1. Select a Device Operation State. Figure 72 Finish Setup Dialog Box 2. Select Finish.
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7 Configuration Services Configuration Configuration services provide the tools to read and set a large number of parameters required for successful communications and control. Each set of tools is grouped in a tabbed page. The Configuration dialog box contains six tabs (Figure 73): General Used to name and describe function blocks and related devices. Position Used to setup configuration parameters. Actuator Used to set advanced position control parameters.
GE Energy ValVueFF Software Interface to FVP CAUTION Don't turn off power for 60 seconds after writing configuration data. Data cannot be saved. See the positioner instruction manual. Do not change Device Tag or Node Address while the NI Configurator or other host software is running. Only change Network parameters when configuring a positioner connected to a segment that is not controlling a process.
Configuration Services Block Tag Info D. D. Rev. The revision of the Device Description is read only. Model The model of the device is read only. Descriptor Use this field for a device description or for a memo (28 char. max). Block Tag Info Each block is assigned a default tag-name that should be renamed by the user. RB The tag of the device resource block. TB The tag of the device transducer block. AO The tag of the device analog output block.
GE Energy ValVueFF Software Interface to FVP Position Tab Use this tab (Figure 74) for the setting up the Transducer Block (TB) valve position configuration parameters. Figure 74 Position Tab - Configuration Dialog Box Servo Parameters Frame The servo parameters are normally set by Auto Tune in Tuning or Calibration. They determine the dynamic response of the valve position control.
Configuration Services Servo Parameters Frame Advanced Position Configuration This is the read-only page (Figure 75) for Transducer Block (TB) advanced position control parameters. To modify the value of any parameter, go to “Advanced Tab” on page 115. Figure 75 Advanced Servo Tuning Parameters Advanced Servo Tuning Parameters Boost On Threshold 1 Control parameter to reduce the effect of deadband in the control relay.
GE Energy ValVueFF Software Interface to FVP Position Limits Frame Use the Position Limits frame (Figure 74) parameters to limit the valve, force the valve to close tightly or open fully at specified positions, and to set the trip points of the limit switches (DI block). You can also activate a warning when a deviation lasts longer than Time 1 or to force the valve to it's failsafe position if the deviation lasts longer that Time 2.
Configuration Services Limit Switch Threshold Limit Testing 1. Isolate the valve from the process. 2. Place the FVP in Manual Operating State. The valve must be calibrated and supplied with correct supply pressure. 3. Measure closed position by: a. Entering a Set Point of -10%. b. Wait for the valve to reach it's final value and record the actual position of the closed mechanical stop. The actual position must be less negative than the target position to verify the valve has reached the stop.
GE Energy ValVueFF Software Interface to FVP CAUTION Use the Time 2 failsafe only for a critical process that must be forced into its failsafe position if the valve is unable to respond to its position Set Point after a reasonable time delay. Do not set the error band to a value that is too small. If Time 2 is used it must be longer than the valve stroking time. A Time 2 value that is too small results in a nuisance failsafe behavior.
Configuration Services Actuator Page Actuator Page The Actuator tab (Figure 77) displays Transducer Block (TB) valve actuator and diagnostics limit information and details the valve and actuators manufacturer, model number and serial number. This is important when calling for service or replacement parts. Figure 77 Actuator Tab-Configuration Dialog Box Valve Action Air To Open Specifies the final failure position of the actuator as self-closing or air-to-open.
GE Energy ValVueFF Software Interface to FVP Diagnostic Parameters The following diagnostic parameters can be set to values useful to notify if service is needed.The maximum (default) value for each of the continuous data limits is 2^32-1 (4294967295). Enter realistic values that represent useful maintenance life values. Travel Limit (strokes) Total travel limit to show the block alarm. Cycle Count Limit (times) Total cycle count limit to show the block alarm.
Configuration Services AO Block Tab AO Block Tab Use this tab (Figure 78) to set limits on the Set Point received from another function block in (Cas) or a remote application (RCas). The rates at which the Set Point is permitted to move up and down can also be limited. Figure 78 AO Block Tab-Configuration Dialog Box Limits AO Set Point High Limit (%) Use this to limit the Set Point from another function block or remote application.
GE Energy ValVueFF Software Interface to FVP AO Set Point Down Rate Limit (%) See Set Point Up Rate Limit (%). AO Block Options This dialog box (Figure 79) consists of both A/O I/O Options and A/O Status Options. IO OPTS and STATUS OPTS are parameters that control options about the Analog Output Block (AO)'s signal processing and mode transitions. Using AO Status Options sends the quality of the status of BKCAL OUT to Bad and its sub-status is set to sensor failure. The BKCAL OUT value is not affected.
Configuration Services AO Block Options Faultstate Type The output action to take when a fault occurs. Uncheck to freeze, check to go to a preset value. The initial preset value is 0. To change this parameter use a configurator to change FSTATE VALUE in the Analog Output Block (AO). Zero (0) is recommended for an air-to-open actuator and 100 is recommended for an air to close actuator. Faultstate restart At a restart, uses the same value that is preset for fault state type.
GE Energy ValVueFF Software Interface to FVP PID Block This page (Figure 80) is used to setup the PID process controller configuration parameters mainly in the PID block. Figure 80 PID Block Tab-Configuration Dialog Box PID Paras Proportional Gain Dimensionless value used by PID block algorithm to calculate a block output. Integral Time The integral time constant, in second per repeat. Derivative Time The derivative time constant, in seconds.
Configuration Services PID Block Output Rate High Limit This is the ramp rate at which upward Set Point changes are acted on in Auto mode, in PV units per second. If the ramp rate is set to zero, then the setpoint is used immediately. For control blocks, rate limiting applies in Auto, Cas and RCas modes. Output Rate Low Limit This is the ramp rate at which downward Set Point changes are acted on in Auto mode, in PV units per second. If the ramp rate is set to zero the set- point is used immediately.
GE Energy ValVueFF Software Interface to FVP PID Control and Status Option Select the PID Control and Status Options button to open the controller options dialog box (Figure 81). This dialog box consists of PID Control Options and Status Options. Refer to Foundation Fieldbus specifications for further information. Figure 81 PID Control and Status Options PID Control and Status Options PID Control Options Bypass Enable The normal control algorithm can be bypassed using the BYPASS parameter.
Configuration Services PID Control and Status Option SP Track Retain Permits the Set Point to track the RCAS or CAS parameter based on the retained target mode when the actual mode of the block is IMan, LO, Man, or ROut. When SP-PV track options are enabled, then SP Track retained target has precedence in the selection of the value to track when the actual mode is Man, IMan, Rout, and LO. Direct Acting Defines the relationship between a change in PV and corresponding change in output.
GE Energy ValVueFF Software Interface to FVP Options The Options tab (Figure 82) contains configurations of other settings including characterization, pressure range and units, bumpless transfer, display language, and temperature units. Figure 82 Options Tab-Configuration Dialog Box Characterization Frame The positioner is supplied with a choice of characteristics that modify the characteristic built into the plug and actuator.
Configuration Services Characterization Frame Equal percent (50:1) Equal percentage with rangeability of 50 to 1. For equal increments of input, the valve position has equal percentage changes of current valve position. Equal percent characteristics are modified to close the valve at 0% input signal (Air to Open) or at 100% input signal (Air to Close). This is the default choice for an equal percentage characteristic. Equal percent (30:1) Equal percentage with rangeability of 30 to 1.
GE Energy ValVueFF Software Interface to FVP Table 9 Valve Type and Built-in Characteristic Characteristic Choice (Continued) Desired Installed Valve and Positioner Characteristic Customary Positioner Characteristic Non-Standard Characteristic-Not Recommended 21000 series Model # 21X2X or 41000 series Model # 41X2X with EQUAL PERCENTAGE TRIM Linear Not recommended Not recommended Equal percentage LINEAR EQUAL30, EQUAL50, Quick opening Ball Valve with typical MODIFIED PERCENTAGE TRIM Linear N
Configuration Services Custom Characterization Dialog Custom Characterization Dialog Box Use the Characterization dialog box (Figure 83) to define characterizations. There are nine definable points for the valve position at 10% increments of position Set Point. Use the mouse to drag the points on the curve or enter numerical values in the table to define the characterization. Figure 83 Custom Characterization Dialog Box To configure a custom characteristic curve: 1.
GE Energy ValVueFF Software Interface to FVP NOTE Figure 84 When the characteristic is linear, the displays of PID output, position setpoint and target valve position all match. For all other (non-linear) characteristics the valve target position differs from the setpoint (Figure 84).
Configuration Services Custom Characterization Dialog Custom Linearization Select the Custom Linearization menu item in the Characterization dialog box and the Custom Linearization dialog box appears (Figure 85). When an FVP is mounted on a reciprocating valve, a small non-linearity in the valve position measured by the FVP position sensor versus actual valve position can result from the linkage configuration.
GE Energy ValVueFF Software Interface to FVP To configure this option: 1. Select Define from the Options tab Characterization pick list and click Customize. 2. Select Custom Linearization and the Custom Linearization window (Figure 85) appears. 3. Select inch or mm for Length Unit Select. 4. Select Simple or Compound: ❑ Simple - The simple lever has the pivot point (the position sensor in the FVP) mounted a fixed distance (L1) from the valve stem pickup point.
Configuration Services Pressure Frame Pressure Frame Pressure Units This is the unit code in TB.SPRING_RANGE parameter that affects output pressure unit code as well. It has no effect, however, in controlling function. Upper Range (EU100) This is the supply pressure in engineering units specified in the TB .SPRING_RANGE parameter. It is for information only and has no effect on control. Lower Range (EU0) This is EU100 of TB .SPRING_RANGE parameter for upper end engineering unit value.
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8 Calibration Services Overview Calibration Services provides tools to set valve stroke and tune the dynamic parameters for position control. Each set of tools is grouped on a tab in the Calibration dialog box. Range Tab To calibrate the position sensor to match the actual valve travel: 1. Use the Auto Stop Limits ( “Auto Stop Limits” on page 106) or the Manual Stop Limits ( “Manual Stop Limits” on page 107) function to search for the mechanical stop limits of the valve (Figure 87). 2.
GE Energy ValVueFF Software Interface to FVP Figure 87 Calibration Dialog Box - Range Tab Find Range Result The Find Range Result field displays the result of the calibration execution: 1. Isolate the valve. 2. Select the GO button to run the selected calibration. 3. Select Yes when the Stroke the Valve message box appears. Results appear in the Find Range Result field. Auto Stop Limits WARNING Range Calibration strokes the valve over its entire travel. When Auto Stop Limits is selected: 1.
Calibration Services Manual Stop Limits 3. Click Yes to continue. The actuator is fully exhausted and then fully filled. The position at each stop is measured and saved. In some cases where the actuator size is extremely large the process can time out. In this situation Use Manual Stop Limits instead. Manual Stop Limits When Manual Stop Limits is selected: 1. Select the GO button. A progress dialog appears (Figure 89).
GE Energy ValVueFF Software Interface to FVP 2. Press Exhaust Air Limit Confirm and the actuator moves to the second stop and wait for confirmation. 3. Press Exhaust Air Limit Confirm and the position at each stop is measured and saved. Open Stop Adjustment When a valve's open stop is a few percent more than the rated trave, correct it by: 1. Perform Auto or Manual Stop Limits. 2. Close the Calibration dialog box. 3. Change the mode to Manual Operating. 4.
Calibration Services Tuning Tab Tuning Tab Use the Tuning dialog box to automatically tune the positioner's PID algorithm and examine the positioner servo parameters. The display provides two views for comparison, the left half displays the original set before performing Auto Tune, the right half is updated after Auto Tune. The parameters can be manually modified here as well. To see the description of the parameters, refer to the “Position Tab” on page 82. Auto Tune is successful for most valves.
GE Energy ValVueFF Software Interface to FVP I (seconds) Integral time or reset time, is the time constant of integral control. Higher values of I cause less integral control action and increase loop stability. However, higher values of I increase the time to eliminate a steady- state position error. 0 turns off integral action and results in a steady-state position error. Sustained deviation can result in failsafe action if T2 is set. Therefore, 0 must be avoided for use in most applications.
Calibration Services Auto Tune Auto Tune To run Auto Tune. WARNING Observe all safety precautions. 1. Isolate the valve from the process. 2. Select the Auto Tune button on the Calibration dialog box Tuning page. A message box warn that the valve will stroke. Figure 91 Auto Tune Warning Dialog Box 3. Select Yes. This procedure strokes the valve from stop to stop and then to tune for a few minutes. The Progress dialog box displays the time required (Figure 92).
GE Energy ValVueFF Software Interface to FVP Search Stops and Auto Tune In One Step This procedure is a combination of Auto Stop Limits, Find Stops and Auto Tuning. You run two processes with a single click. Observe all safety precautions. During this process, the valve strokes the valve over its full range. Keep clear of moving valve and actuator parts. WARNING 1. Isolate the valve from the process. 2. Select Search Stops + Auto Tune. A message box appears stating that the valve strokes. 3.
Calibration Services Calibrating Table 10 Servo Tuning Parameter Ranges (Continued) Parameter Defaults Range Units Derivative .22 0 (disables); 0.05 to 1.0 Seconds Derivative Gain 5 2 to 20 Dimensionless Dead Zone 0 0 to 50 Calibrating 1. Perform Auto or Manual stops procedures to clear previous calibration adjustments. 2. Select 0% Calibration (Figure 93). Move the valve by: a. Entering a value in the Target Pos text box. b.
GE Energy ValVueFF Software Interface to FVP 4. Select Yes. 5. Select Span Calibration. 6. Change the Target Pos value by: a. Entering a number or by incrementing until the valve is in the 100% open position, using the same procedure as in zeroing. b. Referring to the mechanical travel indicator on the valve and select the Apply Calib. A dialog box appears to confirm that you want to apply the calibration. c. Selecting Yes. d. Selecting 50% Calibration to apply a correction for non-linearity. e.
Calibration Services Advanced Tab Advanced Tab Normally dynamic position control parameters are established by the Auto Tune procedure. Use this tab (Figure 95) for manually configuring Transducer Block (TB) dynamic position control parameters. It is intended for technician use only. Figure 95 Calibration Dialog Box - Advanced Tab Advanced Servo Tuning Buttons Sets the parameters back to factory defaults. Opens the Advanced (Double Acting) dialog to configure double acting parameters.
GE Energy ValVueFF Software Interface to FVP Advanced Servo Tuning Parameters The Advanced Servo Tuning Parameters frame provides two views for comparison, the left half is the original one before changing the configuration, the right half is downloaded to the positioner and implemented after selecting OK. CAUTION Table 11 Parameter Before performing Travel Calibration, check that the Tight Shut Off, Full Open Feature and Position Limits are disabled.
Calibration Services Advanced (Double Acting) Tuning Table 11 Advanced Servo Tuning Parameters (Continued) Parameter Description Init Value Range of Values Units Internal Gain This position control parameter shows the total gain for an I/P module, control relay, and valve. 5 0.5 to 50 rad. /mA Servo Offset Initial value of an integrator.
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PID Block and Trending Services 9 Overview The PID Process Controller dialog box (Figure 96) contains the tools for managing the PID function block. This dialog box, like the IVI, is composed of frames that group controls and displays. The PID Status frame displays and controls the PID states (modes), the Setpoint and Process Variable, and the Device tag name.
GE Energy ValVueFF Software Interface to FVP PID Status Frame States and Modes The permitted states of the PID block are grouped in the State frame: RCAS Select the R button. In this mode, the Set Point of the PID block is set by a remote application that writes to the RCAS_IN parameter regularly. This mode is allowed only if a remote application is soft-wired to the RCAS_IN parameter of the PID block. CAS Select the C button.
PID Block and Trending Simulation Function Simulation Function The simulation state is allowed only for training privilege level 8. ValVueFF provides a special function for testing and training. You can connect the valve position to the input of the PID with lag of 5 seconds to allow demonstration of closed loop control. CAUTION Never use the simulation state if the valve is connected in a control loop or if the valve is controlling process flow.
GE Energy ValVueFF Software Interface to FVP Others - Tuning Parameters To adjust process tuning parameters: CAUTION Changing tuning parameters to incorrect values can result in dangerous process upsets. Only trained control experts should make these changes. 1. Select Change in the Tuning Parameters frame and Figure 97 appears. Figure 97 Change PID Tuning Parameters Dialog 2. Enter the Proportional Gain, Integral Time, and Derivative Time without changing control mode. 3.
PID Block and Trending PID Output and Valve Position PID Output and Valve Position Use this frame (Figure 98) to adjust the PID Output and see its response against the valve position. Figure 98 PID Output Slider Trending Overview The trend service can be used to observe the dynamic behavior of both the control valve and its associated process variable. It is particularly useful for tuning the PID process loop and can be used to alter the response of the positioner control algorithm after Auto Tune.
GE Energy ValVueFF Software Interface to FVP Zooming The vertical axis of the graph area can be zoomed by dragging a rectangle around the area of the interest. A right mouse click returns the display to full scale. Customizing the Trend Use the View menu to customize a trend: 1. Open the Trend window (Figure 99) either by: ❑ Right-clicking on a device in Device Selection. or ❑ Selecting View > Trend in the IVI or PID dialog boxes. 2. Select View > Trend Selection and Figure 100 appears.
PID Block and Trending Viewing Valve Dynamic 7. Select View > Sample Interval and Figure 102 appears. Figure 102 Sampling Interval 8. Set the interval and click OK. NOTE Decreases interval time increases the exactness of the trend, but this is also limited by device communication constraints and can lead to lost data points. Viewing Valve Dynamic Responses To observe the valve's dynamic response: 1. Place the positioner in Manual. 2. Select Change Pos from the menu bar. 3.
GE Energy ValVueFF Software Interface to FVP Saving and Opening Trend Files Use the File menu to save the trend data or load saved data for playback. For each device there is a trend window available. It is possible to open multiple trend windows for multiple positioner devices at the same time. The trend window can be run while other windows are active. Saving a trend does not discard current trend data but you must temporarily stop trending while performing the save.
10 Saving a Configuration Overview ValVueFF provides tools to retrieve, copy or save FVP configuration data that can be used for offline configuration. Use them to copy a configuration from a device to its replacement, or to configure a series of similar positioners. Figure 106 Configuration Toolbar Icons Open File This service is available only while running ValVueFF offline: 1. Either: 2. Select the Open Config File icon. or ❑ Select File > Open File.
GE Energy ValVueFF Software Interface to FVP 3. Choose a .dmp file from the Open Device Configuration File dialog box (Figure 107). Figure 107 Open Configuration File Dialog Box 4. Select Open. Save to File This service is available either while online with a FVP or when offline. Use this procedure to save a configuration to a file. 1. Either: ❑ Select the Save Config File icon. or ❑ Select File > Save File. or ❑ Right-click the Offline icon in Device tree and click Save. 2.
Saving a Configuration Downloading to the FVP Downloading to the FVP While a FVP is selected, configuration changes are downloaded to the device as the changes are made when you select OK in the configuration dialog box. Use this procedure to download a configuration from a file. Figure 108 WARNING Download Select Dialog Box Do not download a configuration to a positioner if the valve is controlling a process. Always isolate the valve from the process before a download.
GE Energy ValVueFF Software Interface to FVP 3. Select a device as a target from the list box (Figure 108) and select OK to confirm the selection. Downloading puts the device into the Out of Service operation state. You are prompted for permission (Figure 109). Figure 109 Download Confirm Process 4. Select Yes. The download starts and lasts approximately one minute. The first parameters to download are tagname and node address. You are asked to confirm that it acceptable to change the tag or address.
Saving a Configuration Download Firmware Download Firmware Use this to upgrade firmware to the field device via Foundation Fieldbus. Typical uses are to add new features such as function block and diagnostics to existing devices, and to optimize existing plant field devices. This feature is applied only to F/YVP110 Type 7 device that has Flash memory installed. F/YVP110 Type 1 device (including both dev rev 2 and 3) does not support firmware download feature. To download firmware: 1.
GE Energy ValVueFF Software Interface to FVP This activation process temporarily halts fieldbus communication and function block executions. The software reports that the downloaded device is not responsive. To continue to operate to this device with ValVueFF, you need to select this device again. If you select No, you can activate the new firmware by clicking Tools > Activate Firmware.
Saving a Configuration Copying a Configuration to a New Figure 114 Configuration Download Progress 8. After configuration it is necessary to create the control function block linkages in a third party Foundation Fieldbus control configure.
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11 Diagnostic Services General The General tab (Figure 115) on the Diagnostics page displays the service history for continuous data. The continuous data is compared with the limits set in the Actuator setup. See “Actuator Page” on page 87 for a detailed description. Figure 115 General Tab - Diagnostic Dialog Box To reset the continuous data to zero: 1. Make a record of the current values. 2. Click Reset. All continuous data is lost and cannot be recovered.
GE Energy ValVueFF Software Interface to FVP Self Check The Self Check tab (Figure 116) on the Diagnostics page tests the performance parameters used to determine the position control parameters. The test runs Auto Tune but does not change any parameters. The parameters display provides two views for comparison: ❑ The left half is the original data before performing this test. ❑ The right half displays the result of the Self Check test. WARNING Performing self check strokes the valve.
Diagnostic Services Self Test Explanation Self Test Explanation Internal Gain This describes the forward gain of control valve system. The forward gain is the gain of the I/P, control relay, valve actuator (Spring range), and linkage combined. The unit for this parameter is rad/mA. (The input signal of I/P is mA, the output signal of linkage is rad). The Internal Gain is based upon the Measured Gain. Measured Gain This is measured by the Auto Tune function (units: mA/rad).
GE Energy ValVueFF Software Interface to FVP Signature Tab The Signature function is a component of the diagnostic function (Figure 117). This function protects the valve from degradation failure and reports on the condition of the control valve or the positioner by comparing the history of signature characterization. To accomplish this objective a positioner must have the ability to measure and retain data describing the characteristics of the control valve and the positioner.
Diagnostic Services Signature Selection Frame ❑ High Resolution Actuator Signature: High resolution static characteristic of the control valve. ❑ Step Response Test: Step response characteristic of the control valve system. ❑ Positioner Signature: Static characteristic of the control valve system Signature Selection Frame You can select Measure All or any combination of signatures set in either execution or data display (Figure 118).
GE Energy ValVueFF Software Interface to FVP ❑ Selecting Show displays the signature result. Refer to “Signature Graphs” on page 142 for details. ❑ Selecting Change Measurement Setting opens Signature Measurement Setting dialog box to modify the selected signatures measurement condition (setting parameters). ❑ Use Signature Notes for entering notes. This information automatically attaches to the signature data after selected signatures measurement are performed.
Diagnostic Services Signature Measurement AO Output Value of input signal of FVP110. AO block OUT.VALUE Actual Position (red) Curve of feedback signal of FVP 110, FINAL_POSITION_VALUE.VALUE Air Pressure (yellow) The curve of output pressure of FVP110, MEAS_PRE_AIR AO Output (blue) The curve of input signal of FVP110. AO block OUT.VALUE Current Status Indicates current operation, or the measurement result. Progress Bar Current progress of the signature measurement.
GE Energy ValVueFF Software Interface to FVP Signature Graphs After signature measurement completes, the signature graphs dialog box appears. Based on the your selection, the signature graphs displays up to four types of signature graphs (Figure 121). Because extended actuator signature and high resolution actuator share a database, their graphs appear in the same graph window.
Diagnostic Services Signature Graphs A pop-up menu displays in the center of selected graph area (Figure 122). Or move the cursor to the area of signature graph to be edited and make a right click of the mouse. A pop-up menu used for editing operations displays.
GE Energy ValVueFF Software Interface to FVP Show Set Points For Step Response Test only. Checking/Unchecking Show Set Point from a pop-up menu displays or hides the set points curve in step response graph. The default mode shows the set points curve. Zoom In/Zoom Out Zoom In: In the curve area of a graph window, a selected rectangle area by mouse zooms in. Zoom Out: double-clicking or select Zoom Out from pop-up menu restores current displaying scale setting to default.
Diagnostic Services Signature Graphs Saving Signature Graphs To save a group of graphs: ❑ Select File > Save. To save a specific graph: 1. Move the mouse cursor to the graph. 2. Right-click and select Save Graph. The file name for a group has an underscore before the name. 3. Navigate to the proper directory and click Save. To save data of current data base in FVP to a file: 1. Select the curve from a pop-up menu. 2. Select Export to Excel. If signature type is standard actuator signature: 1.
GE Energy ValVueFF Software Interface to FVP Graph Scale Setup Use this (Figure 124) to setup signature graph windows display area. X-Axis: Display range of input parameter. Y-Axis: Display range of output parameter. Figure 124 Scale Settings Signature Summary The Signature Summary (Figure 125) shows measured temperature, signature setting, input/output parameters, time stamp, saved location, and user free signature notes.
Diagnostic Services Signature Notes Input/Output Parameters Signature input and output parameter properties including engineering unit, range limits, maximum and minimum measured value. Time Stamp Signature measured time. The time is based on the published Fieldbus Foundation time. File Path Full path name if the data is loaded from a file. Notes Signature notes written down by user to record memos such as valve or positioner conditions.
GE Energy ValVueFF Software Interface to FVP Figure 126 Signature Notes 4. Enter notes and click OK.
Diagnostic Services Signature Setting Frame Signature Setting Frame This frame consists of changing the settings for performing the various signature tests. Standard Actuator Signature Standard Actuator Signature measures and saves the data of static characteristic of the control valve. The input parameter is output pressure (Equal to MEAS_PRESS_AIR); and the output parameter is the feedback signal (Equal to FINAL_POSITION_VALUE.Value). In measuring the signature, FVP obtains 18 data sets.
GE Energy ValVueFF Software Interface to FVP Measurement Parameters To open the Signature Setting dialog box (Figure 128): ❑ Click Standard Actuator Signature and then Change Measurement Setting. There are three measurement setting parameters (Figure 128): Figure 128 Standard Actuator Signature Settings Dialog Box Recommended Scan Time (seconds) The value is read only and does not affect the measurement. The value is calculated from the tuning parameters.
Diagnostic Services Extended Actuator Signature Extended Actuator Signature This measures the in-out characteristics of the control valve in the user-defined range. The total number of data is 100 sets (Figure 129). The input parameter is output pressure (Equal to MEAS_PRESS_AIR); and the output parameter is the feedback signal (Equal to FINAL_POSITION_VALUE.Value). Before measuring the extended actuator signature, FVP performs an offset measurement, the same procedure as the one in Auto Tune.
GE Energy ValVueFF Software Interface to FVP Recommended Scan Time [s] Recommended scanning time. Scan Time[s] This determines the measuring time. Use Recommended Scan Time as a guide to set the scanning time. Scanning time: 20 to 3600 sec. To get the result in shorter period, decrease the Scan time. To get more specific information, choose a longer time to get more sample points. Deviation Margin[%] Allowable deviation. - The measurement is performed in Proportional control algorithm.
Diagnostic Services Step Response Test Step Response Test This signature function measures the step response characteristic of the control valve system. There are two types of step response tests: single step response test and multiple step response test (Figure 130).
GE Energy ValVueFF Software Interface to FVP CAUTION The FVP must be OOS. ❑ Cyclical w/o Deadband- Click this radio button to enable cyclical testing. Cyclical testing moves the valve from initial set point to destination set point cycle and cycles again. This selection activates the Cycle field at the bottom of the dialog box. enter the number of cycles for performing the test. 2-way testing is unavailable.This test starts from 50% and uses a fixed step size over a user-set number of cycles.
Diagnostic Services Step Response Test Num of Samples Sampling points of each step: range is 20 to 600 points. Pause displays the delay before sampling begins. When the step test begins, the valve operates and sampling begins. Once the sampling number reached, it moves to the next step. The time between the steps is Pause. Sample points are collected in Pause time but due to command delay, sample points can also be found on the graph when the valve is moving.
GE Energy ValVueFF Software Interface to FVP Therefore, the application displays a dialog box at the center of the graph area after a multi step response test is performed (Figure 132). This dialog box displays only once. Figure 132 Step Response Notice Step Response Patterns This section gives examples of a step response setup for normal, Cyclical, Cyclical with Deadband and Resolution. Normal Figure 132 shows the data setup to produce the graph in Figure 134 and the tabular results in Figure 135.
Diagnostic Services Step Response Test Figure 134 Figure 135 Test Graph Result - Normal Result Analysis - Normal 157
GE Energy ValVueFF Software Interface to FVP Cyclical Figure 136 shows the data setup to produce the graph in Figure 137 and the tabular results in Figure 138.
Diagnostic Services Step Response Test Figure 138 Result Analysis - Cyclical Cyclical with Deadband Figure 139 shows the data setup to produce the graph in Figure 140 and the tabular results in Figure 141. Figure 139 Step Response Setup - Cyclical with Deadband In Figure 140 the Step Size is 0.2% and the Dead Band area is circled by pink color. In this area, the Set Point decreased 0.2%, but the valve did not move. So the Dead Band is 0.
GE Energy ValVueFF Software Interface to FVP Figure 140 Figure 141 Test Graph Result - Cyclical with Deadband Result Analysis - Cyclical with Deadband 160
Diagnostic Services Step Response Test Resolution Figure 142 shows the data setup to produce the graph in Figure 143 and the tabular results in Figure 144.
GE Energy ValVueFF Software Interface to FVP Figure 144 Result Analysis - Resolution Positioner Signature This signature function measures the static characteristics of the control valve system. The application applies the Input signal to the FVP and waits until the valve stem settles then obtain the position data. The measurement is proceeded in the round trip. Input signal of the control valve system: Input signal of FVP (Equal to AO Block OUT.
Diagnostic Services Positioner Signature Figure 145 Position Signature Setting Dialog Box 163
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Query and Reporting Services 12 Query Services Query Device General Tab Query Services are useful for viewing each FVP parameter. Access this by several methods: ❑ From the Device Query icon in the tool bar, ❑ From the IVI, or PID dialog box, ❑ and by right-clicking a selected device in the device tree. Open as many as 30 Query dialog boxes simultaneously to examine parameters in the device and in selected function blocks.
GE Energy ValVueFF Software Interface to FVP 2. Select Read and the reply field populates (Figure 147). Figure 147 Reply List Populated Query Device Block Parameters Tab The Block Parameters tab (Figure 148) provides access to every parameter in each selected block. For the expert technician it provides detailed information not available in the Configuration and Tuning dialog boxes. For interpretation of the parameters and their units and data structure see the FVP instruction manual.
Query and Reporting Services Query Device Block Parameters To see the parameter value: 1. Select a parameter from the pull-down list (Figure 149) using the scroll bar. 2. Select Read. Figure 149 Parameter Pull Down List 3. Access the Parameter Attribute dialog box (Figure 150) from the Block Parameter page by right-clicking on the Parameter name field. This dialog box displays the attributes of the parameter as described in the DD file.
GE Energy ValVueFF Software Interface to FVP Reporting Services Configuration Report This program provides a Configuration Report feature that captures a snapshot of all configuration data currently contained in and related to the selected device. The data is organized into groups that are consistent with the format of the configuration user interface.The report can be either HTML format or TEXT format (Figure 151). The HTMLbased is browser independent. It is best viewed with the latest browser versions.
Query and Reporting Services Using Report Generation To save the report into a file: ❑ Select File Save on the browser menu bar. To print a hard copy of the report: ❑ Select File Print from the browser menu bar. Or use the browser Print and Save toolbar icons Using Report Generation Configurations that are saved for downloading (.dmp files) to devices can be viewed with the Report Generator offline: 1. Right-click Offline and then select Open and a dialog appears (Figure 153).
GE Energy ValVueFF Software Interface to FVP Communication Error Log Occasionally, Foundation Fieldbus reports communication errors. For example, if there is a loose or intermittent connection between the fieldbus segment the NI-FBUS card interface then communication errors can occur. ValVueFF displays a warning dialog box. The first error requires acknowledgement, select OK to close the dialog box. Errors are recorded in the Communication Errors text box (Figure 154).
Query and Reporting Services Communication Error Log Device FV 101 DI View2 Aborted @ 15:10:19 Device FV 101 DI View2 Aborted @ 15:10:19 Device FV 101 PID View3 Aborted @ 15:10:21 Device FV 101 PID View3 Aborted @ 15:10:21 Device FV 101Error (-5): E_BAD_ARGUMENT @ 15:10:21 Device FV 101 DI View2 Aborted @ 15:10:21 Device FV 101 DI View2 Aborted @ 15:10:21 Device FV 101Error (-5): E_BAD_ARGUMENT @ 15:10:27 Device FV 101Error (-5): E_BAD_ARGUMENT @ 15:10:34 Device FV 101 Comm Error (-11): E_COMM_ERROR @ 15:
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13 Failsafe Handling Introduction For the selected positioner, ValVueFF constantly monitors the status of the Transducer Block (TB) actual valve position parameter FINAL POSITION VALUE to report and manage Failsafe events. The actual status of Failsafe is determined by the parameter RELEASE FAILSAFE in TB. To configure the Time 2 parameter to force Failsafe because of sustained deviation, refer to “Configuration Services” on page 79.
GE Energy ValVueFF Software Interface to FVP Failsafe Clear Latched The Fail Safe Status window is updated with the Failsafe Clear Latched condition (Figure 158), when the active condition is cleared. The Clear Latch button is enabled to clear the latch. If the positioner is not in out of service (OOS) operation state, required for clearing the latched state, you are prompted to switch to OOS state.
Failsafe Handling Exiting Failsafe Failsafe Examples One and Three Table 12 and Table 13 list two failsafe examples. Table 14 and Table 15 on page 179 cover two more fail-safe examples. Detailed instructions for exiting failsafe follow these tables. Table 12 Failsafe Case One Case One Failsafe Type Actuator Action Observable Behavior: Valve fails closed with low actuator pressure. After pressure problem is corrected the valve is closed in failsafe.
GE Energy ValVueFF Software Interface to FVP This step requires permission level 3, 4, 8 or 9: 1. Open the Operation State dialog box. 2. Select Manual 3. Select OK. 4. Enter the Actual Position value, from step one, in the Set Point text box. 5. Select OK. 6. If the Failsafe dialog box changes to Clear (Latched), select the Clear Latch button. 7. Select OK when the dialog box request a change to OOS. 8. If the Failsafe dialog box remains in Active (Latched) proceed to Step Three.
Failsafe Handling Exiting Failsafe 7. Select the Clear Latch button. 8. Select Yes when the dialog box request a change to OOS. Step Four This step requires permission level 2, 3, 4, 8 or 9: 1. Open the Operation State dialog box. 2. Select Manual. 3. Select OK. 4. Enter the Actual Position value in the Set Point text box. 5. Select OK. Step Five This step requires permission level 3,4,8 or 9: 1. Open the Configuration dialog. 2. Select the Position tab. 3.
GE Energy ValVueFF Software Interface to FVP 5. Select OK to accept the changes. 6. Select Yes when a dialog warns of a change to OOS state. The Failsafe dialog changes to Clear (Latched). 7. Select the Clear Latch button. 8. Select Yes when the dialog requests a change to OOS Step Six This step requires permission level 2, 3, 4, 8 or 9: 1. Open the Operation State dialog. 2. Select Manual. 3. Select OK. 4. Enter the same value as the Actual Position, recorded in Step 3, in the Set Point text box. 5.
Failsafe Handling Exiting Failsafe Setting the T2 Parameter to cause failsafe after a sustained position error can cause unwanted process shutdown. Use the T-2 cautiously. Avoid interaction with other configuration parameters, particularly High and Low Position Limits. CAUTION Failsafe Examples Case Two and Four Table 14 Case Two Failsafe Case Two Failsafe Type Observable Behavior: Valve fails closed with high actuator pressure. After pressure problem is corrected the valve is open in failsafe.
GE Energy ValVueFF Software Interface to FVP Exiting Failsafe Use this procedure to exit the failsafe mode for cases two and four: Step One 1. Restore the air supply or correct actuator problem. 2. Check that the pneumatics are working correctly. 3. Move the Failsafe dialog box to one side of the screen to uncover the IVI display. If the PID dialog box is open, close it. 4. Record the Actual Position. An example is 103.41%.
Failsafe Handling Exiting Failsafe Step Four This step requires permission level 2, 3,4,8 or 9: 1. Open the Operation State dialog box. 2. Select Manual. 3. Select OK. 4. Enter the desired valve position in the Set Point text box. Step Five This step requires permission level 3,4, 8 or 9: 1. Open the Configuration dialog box. 2. Select the Position tab. 3. Change Position Limits. The position limit changes made in Step 5 prevents failsafe action from occurring and disables FOA and Position High Limit.
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A Glossary 0xf7 See hexadecimal. This is the number 247 represented in hexadecimal notation. The 0x preamble indicates hexadecimal notation. 1.#INF This is the representation of infinity as expressed in IEEE 754 floating point arithmetic. It is used in fieldbus devices to set a parameter to a value that does not interfere with operation, such as for a limit, for example. Actuator Type The HART Communications Foundation classifies a positioner as type Actuator.
GE Energy ValVueFF Software Interface to FVP CAS Cascade mode A string must be typed exactly in upper-case (capital) letters and lower case. For example Admin is the correct username of the ValVueFF administrator, but admin is rejected at logon. Characteristic The positioner input setpoint command can be selectively modified to provide a desired relationship between setpoint and valve position. In the valve, the relationship between stroke and Cv is also called valve inherent characteristic.
Damping Coefficient The valve response may be made slower for some applications. A value of 0 gives no damping, and a value of 9 gives maximum damping of valve motion. Data Link Layer (DLL) This controls transmission of messages onto the fieldbus, and manages access to the fieldbus through the Link Active Scheduler (LAS). The DLL used by FOUNDATION Fieldbus is defined in IEC 61158 and ISA S50. It includes Publisher/Subscriber, Client/Server and Source/Sink services.
GE Energy ValVueFF Software Interface to FVP Flexible Function Block This is similar to a Standard FB, except that the function of the block, the order and definition of the block parameters, and the time required to execute the block are determined by an application-specific algorithm created by a programming tool. Flexible Function Blocks (FBs) are typically used for control of discrete processes and for hybrid (batch) processes.
HTML Hyper Text Markup Language The standard language for Web Browsers is platform independent. I Integral time or reset time, is the time constant of integral control. Higher values of I cause slower integral action. A value of zero disables integral action. I/P Converter The electro-magnetic device which converts low energy electrical current signal to a pressure which is then amplified by the pneumatic relay.
GE Energy ValVueFF Software Interface to FVP Link Master (LM) A Link Master (LM) is any device containing Link Active Scheduler (LAS) functionality that can control communications on an H1 fieldbus Link. There must be at least one LM on an H1 Link one of those LM devices is elected to serve as LAS. Link Object A Link Object contains information to link Function Block (FB) Input/Output (I/O) parameters in the same device and between different devices.
Object Dictionary An Object Dictionary (OD) contains all Function Block (FB), Resource Block (RB) and Transducer Block (TB) parameters used in a device. Through these parameters, the blocks can be accessed over the fieldbus network. OOS Out of Service mode Out of Service State The FVP positioner transducer, resource and Analog Output, PID blocks are in Out of Service mode. P This is a dimensionless gain factor related to the proportioning action of the algorithm. It ranges from 0 to 5000.
GE Energy ValVueFF Software Interface to FVP Quick Opening (see Characteristic) RB Resource Block RCAS Remote Cascade mode Relay, Pneumatic The component which amplifies the pneumatic control signals to provide a wide range of actuation pressure and to supply and vent at high flow rates for responsive control. Resource Block (RB) This describes fieldbus device characteristics, such as the device name, manufacturer and serial number. There is only one Resource Block (RB) in a device.
STOPS FVP The FVPI runs the STOPS procedure to adjust the positioner to actual valve travel. First the output pressure is reduced to zero, and the position is recorded. That is the position corresponding to 0%. The output pressure is raised to its maximum (based on supply pressure). The position is recorded and corresponds to 100%. Stroke The total range of valve travel. Often used as a verb to describe the process of moving the valve.
GE Energy ValVueFF Software Interface to FVP User Application This is based on blocks, including Resource Blocks (RBs), Function Blocks (FBs) and Transducer Blocks (TBs), which represent different types of application functions. User Layer This provides scheduling of Function Blocks (FBs), as well as Device Descriptions (DDs), which allow the host system to communicate with devices without the need for custom programming.
Launching from Yokagawa and Emerson B This section describes how to launch the FF application using the Yokagawa PRM software and the Emerson Delta V Snap-On. Launching from Yokagawa PRM To launch from Yokagawa: 1. Select Start > All Programs > Yokagawa PRM > Plant Resource Manager or click the icon and Figure 164 appears.
GE Energy ValVueFF Software Interface to FVP 2. Enter the password and click OK and the Plant Resource Manager main screen appears (Figure 165).
Launching from Yokagawa and Launching from Yokagawa PRM 3. Double-click on the Device Tag and the screen populates with the information (Figure 166). Figure 166 PRM Main Screen Populated 4. Select the valve and click in the arrows and select PUG-IN (Figure 167) and the screen changes to (Figure 168).
GE Energy ValVueFF Software Interface to FVP Figure 168 PRM Main Screen Valve Selected 5. Double-click the Plug-In Name and the PRM PLUG-IN ValVueFF Login screen appears.
Launching from Yokagawa and Launching from Yokagawa PRM 6. Enter the Username and Password and click OK and the Open Device Dialog appears followed by the main screen (Figure 169).
GE Energy ValVueFF Software Interface to FVP Emerson Delta V Snap-On To launch from Emerson: 1. Select Start > All Programs > AMS Device Manager > AMS Device Manager or the icon and the window appears (Figure 170). Figure 170 AMS Suite Intelligent Device Manger Window 2. Navigate to the correct valve and select the FVP. 3. Double-click the tag and a search dialog appears (Figure 171).
Launching from Yokagawa and Emerson Delta V Snap-On A dialog appears (Figure 172) as parameters are read. Figure 172 Reading Parameters Dialog The main screen appears (Figure 173).
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C Configuring DI to TB There are two Discrete Input Blocks (DI) in FVP, used to communicate the state of internal, software, limit switches. The Discrete Input Blocks (DI) modes appear in IVI and the internal variables are viewed with the Query service. To activate a Discrete Input Blocks (DI): 1. Schedule each block. 2. Link each block, optional. 3. Configure the block to the correct Transducer Block (TB) channel. In a fieldbus configurator, set the DI channel configurator.
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Installing the Interface Board D Installing the Interface Board This process consists of: 1. “Installing the NI-FBUS Software”. 2. Either: ❑ “Installing the PCMCIA Card” or ❑ “Install the USB-8486” on page 204 Installing the NI-FBUS Software To install the NI-FBUS software: CAUTION If you are reinstalling the NI-FBUS software over a previous version, write down your card configuration and any port configuration parameters you changed from their defaults.
GE Energy ValVueFF Software Interface to FVP Installing the PCMCIA Card To install the card: CAUTION Before you remove the card from the package, touch the antistatic plastic package to a metal part of the system chassis to discharge electrostatic energy. 1. Power on the computer. 2. Insert the card into a free PCMCIA (or Cardbus) socket. The card has no jumpers or switches to set. 3. Connect the PCMCIA-FBUS to the Fieldbus network using a PCMCIA-FBUS cable.
Replacing an FVP Configuration Replacing an FVP Configuration To replace an FVP: 1. Connect to the original, source, device using ValVueFF. 2. Upload the Configuration to a file. 3. Save the file using a meaningful name. 4. Select OFFLINE from the device tree. 5. Open the saved file. 6. Select Download Config. 7. Select a target device from the list box.
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F Error Messages Auto Tune Results Table 16 Reference Auto Tune Results Message Possible Cause 1 Succeeded 2 Canceled 21 Exhaust air pressure warning 22 Small air supply pressure warning 23 Large air supply pressure warning 40 Offset drift warning 42 Large response speed warning 43 Large hysteresis warning 44 Large slip width warning 60 61 62 Operator selected cancel Small angle span warning The position is incorrectly configured as rotary on a linear, reciprocating, valve.
GE Energy ValVueFF Software Interface to FVP Table 16 Reference Auto Tune Results (Continued) Message Possible Cause 102 Fifty percent angle error 103 Linear adjust error 120 Offset measurement failed error 121 Gain measurement failed error 122 Response speed measurement failed error 123 Hysteresis measurement failed error 255 In operation (executing) Online Diagnostics The results of online diagnostics are shown in the parameter XD_ERROR and explained in Table 17.
Error Messages Block Error Table 17 XD Error Error Messages (Continued) Message Possible Cause 120 Temperature sensor failure 121 Pressure sensor failure 122 Operation drift point warning Deviation error 123 124 Position failure 125 A-D converter failure Exceed the seconds DEVIATION_TIME_TH[2] timer with DEVIATION_LIM Block Error Table 18 lists parameters that reflect the error status associated with hardware or software components associated with the list block.
GE Energy ValVueFF Software Interface to FVP Table 18 Error Bit Strings (Continued) Block Error Bit Position Error bit 3 Simulate Active ** bit 7 Input Failure-process variable has BAD status bit 15 Out of Service PID controller block PID>BLOCK_ERR bit 7 Input Failure-process variable has BAD status bit 15 Out of Service 210
G Foundation Fieldbus Overview This section introduces a process example and several concepts used throughout the manual. It briefly introduces Foundation Fieldbus blocks and some of the essential block concepts. The process example is a heat exchanger (Figure 174) with two control valves and three measurement devices. The controls are configured in a cascade arrangement to illustrate concepts of transfer between modes and states of the various levels of control.
GE Energy ValVueFF Software Interface to FVP Reference Model Process The Heat Exchanger model, shown in Figure 174, is not a practical example but it does incorporate elements that illustrate important ValVueFF features. Each module has a device tag used for ValVueFF identification. The process consists of a vessel with a product vapor inflow that is condensed and flows out as a liquid outflow. The tank level is controlled by an outflow control valve, LV 201.
Foundation Fieldbus Function Block Links Function Block Links Each of the control functions is represented in the Control configuration as Foundation Fieldbus function blocks. All the blocks in the temperature cascade are shown in Figure 176. Figure 176 Temperature Cascade Block Diagram They are grouped according to the physical device containing them and they are shown with the links between the blocks, soft wiring for data flow. Similarly, the level loop function blocks are shown in Figure 177.
GE Energy ValVueFF Software Interface to FVP Figure 177 Level Loop Block Diagram To complete the model ValVueFF (Figure 178) is temporarily connected to the heat exchanger's Foundation Fieldbus wiring at an intermediate point.
Foundation Fieldbus Device Operational States and The Heat Exchanger Reference Model segment consists of a Heat Exchanger Host in a control center with a Foundation Fieldbus trunk connected to two junction boxes. One junction box has spurs to the flow and temperature control devices and the other connects to the devices controlling tank level. A power supply with isolation electronics and two terminators completes the configuration.
GE Energy ValVueFF Software Interface to FVP ValVueFF manages the operational states of the positioner and its embedded PID controller by controlling the target modes for each of the function blocks. The actual mode of each block can be different from the target mode. The actual mode is controlled by the block itself in accordance with mode rules based on the quality of the data and modes of the linked blocks.
Foundation Fieldbus Multiple Modes and States Automatic (Auto) A local Set Point value is used by the normal block algorithm in determining the primary output value. The local Set Point value can be written to by an operator through an interface device. Manual (Man) The block output is not being calculated, although it can be limited. It is directly set by the operator through an interface device. The algorithm must initialize so that no bump is experienced when the mode switches.
GE Energy ValVueFF Software Interface to FVP Examples of IVI Operational States Examples of operational states that are combinations of block modes are shown in this section. A new device or a newly configured device can start up in the out of service (OOS) state shown in Figure 180. Figure 180 Out of Service at Startup Table 19 Operation Mode Operation (AI) PID AO TB Configure the transducer block (Auto tuning, travel calibration, diagnostics, etc.
Foundation Fieldbus Transferring to Manual State Table 19 Mode Operation (Continued) Operation (AI) PID AO TB PID single loop control Auto Auto CAS Auto Auto Primary: Auto Secondary: CAS CAS Auto PID cascade loop control Transferring to Manual State Use this procedure to transfer to the manual state which allows ValVueFF to adjust the valve position. The Device Operation State dialog box is shown in Figure 179. 1.
GE Energy ValVueFF Software Interface to FVP Figure 181 Manual State Figure 182 Normal State 220
Foundation Fieldbus RCas Mode RCas Mode When the positioner is receiving it's position Set Point from a remote computer system, such as a DCS, then the normal state for the positioner is RCas. In this example, the level control valve, LV201, is receiving it's signal from a DCS. The Analog Output Block (AO) is shown in RCas mode. RCas mode cannot be manually switched to, it is automatically switched to after being configured.
GE Energy ValVueFF Software Interface to FVP Changing Target Operational State When a configuration or other process requires any of the affected function blocks to go into OOS mode, ValVueFF opens a Warning dialog box (Figure 183). Figure 183 Out of Service State Change Warning Message Box Changing to Auto from OOS In OOS, the FVP can be switched to Auto in order to return the device to the previous Auto state by selecting on Auto.
Fieldbus Resources and References H The following companies have web pages and additional information useful for implementing a successful Foundation Fieldbus installation. The links and their content can change without notice. Belden www.belden.com Fieldbus Foundation Fieldbus Foundation, Inc. 9390 Research Boulevard, Suite II-250 Austin, TX 78759-8780 USA www.fieldbus.org Fieldbus, Inc. www.fieldbusinc.com MTL www.mtl-inst.com National Instruments www.ni.com/fieldbus/ Relcom www.relcominc.
GE Energy ValVueFF Software Interface to FVP Information Fieldbus Foundation ❑ Fieldbus Standard for use in Industrial Control System Part 2: Physical Layer Specifications and Service Definition ISA S50.02-1992 ❑ International Standard for use in Industrial Control System Part 2: Physical Layer Specifications and Service Definition ICE 61158-2-1993 ❑ Digital Data Communication for Measurement and Control ❑ FOUNDATION Fieldbus Specification, Rev 1.
Fieldbus Resources and National Instruments National Instruments ❑ Getting Started with Your AT-FBUS and the NI-FBUS Software (322736A-01) ❑ NI-FBUS Configurator User Manual (370514F-01) 225
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