Page 1 (Instruction Manuals dated March 2006, March 2005, and December 2004) NOTE: This errata sheet replaces all existing Note errata sheets for the DVC6000f Quick Start Guide Neither Emerson, Emerson Process and Instruction Manual. Management, nor any of their affiliated entities assumes responsibility for the selection, use, and maintenance of any product.
Page 2 Errata Sheet DVC6000f Series April 2007 DVC6000f Instruction Manual − Form 5774 For Instruction Manuals dated March 2006 and For Instruction Manuals dated December 2004 March 2005 Replace the Intrinsic Safety, Dust-Tight nameplate Replace the Intrinsic Safety, Dust-Tight nameplate for Type DVC6010F, DVC6020F, DVC6030F, for Type DVC6010F, DVC6020F, DVC6030F, DVC6010FS, DVC6020FS, DVC6030FS in DVC6010FS, DVC6020FS, DVC6030FS in...
Page 3 Errata Sheet DVC6000f Series April 2007 NEPSI Approvals 1. The correlation of approved DVC6000f Series digital valve controllers in specific product type, Ex marking and operating ambient temperature this Page 3, 4, and 5 of this errata sheet contain time is as follows: instructions for safe use in in hazardous locations and nameplates (see figure 1) for NEPSI approvals.
Page 4 Errata Sheet DVC6000f Series April 2007 insulation screen and sheath. The screen should be 1. The correlation of this approved DVC6000f connected to the ground. Series digital valve controllers in specific product type, Ex marking, and operating ambient temperature is as follows: 7.
Page 5 Errata Sheet DVC6000f Series April 2007 TYPE DVC6010f, DVC6020f, DVC6030f TYPE DVC6005f TYPE DVC6015, DVC6025, DVC6035 Figure 1. NEPSI Intrinsic Safety and Flameproof Nameplates...
Page 6 FIELDVUE and Fisher are marks owned by Fisher Controls International LLC, a member of the Emerson Process Management business division of Emerson Electric Co. Emerson and the Emerson logo are trademarks and service marks of Emerson Electric Co. All other marks are the property of their respective owners.
Page 7 Instruction Manual Form 5774 DVC6000f Series March 6, 2006 FIELDVUE DVC6000f Series Digital Valve Controllers Introduction This manual applies to: Installation Standard Control (SC) 375 Field Communicator Basics Fieldbus Control (FC) Fieldbus Logic (FL) Basic Setup and Tuning Detailed Setup / Blocks Calibration Viewing Device Information Principle of Operation...
Page 8 Model 375 Field Communicator Menu Tree for FIELDVUE DVC6000f Digital Valve Controllers Transducer Block Pressure Tuning Travel Tuning :Press Tuning Set Initial Setup :Tvl Tuning Set :Press Prop Gain :Tvl/Press Select Tvl Prop Gain :Press MLFB Gain :Zero Pwr Cond Tvl Velocity Gain :Press Integ Gain Tvl Cutoff Low...
Page 9 375 Field Communicator Transducer Block Menu Structure PARAMETER LABEL PARAMETER NAME MENU STRUCTURE Actual Travel ACTUAL_TRAVEL Detailed Setup Act and Valve Valve Actual Travel > > > > Actuator Fail Action ACT_FAIL_ACTION Detailed Setup Act and Valve Actuator Actuator Fail Action >...
Page 10 375 Field Communicator Transducer Block Menu Structure (Continued) PARAMETER LABEL PARAMETER NAME MENU STRUCTURE Packing Type PACKING_TYPE Detailed Setup Act and Valve Valve Packing Type > > > > PD Inside Status PD_STATUS Detailed Setup Alerts Performance PD Status > >...
Page 11 375 Field Communicator Transducer Block Menu Structure (Continued) PARAMETER LABEL PARAMETER NAME MENU STRUCTURE Temp Min Time TEMP_MIN_TIME Display Device Record Temp Min Time > > > Temperature Units TEMPERATURE_UNITS Detailed Setup Instrument Temperature Units > > > Travel TRAVEL.VALUE Detailed Setup Alerts Tvl and Prox...
Page 12 Model 375 Field Communicator Menu Tree for FIELDVUE DVC6000f Digital Valve Controllers Resource Block WriteLock Write Lock Write Priority Comm Time Out RCas Timeout ROut Timeout Options Feature Selection Alarm Handling Setup Alert Key Res Block Mode Confirm Time WriteLock Max Alerts Allow Comm Time Out Acknowledge Option...
Page 13 375 Field Communicator Resource Block Menu Structure PARAMETER LABEL PARAMETER NAME MENU STRUCTURE Acknowledge Option ACK_OPTION Setup Alarm Handling Acknowledge Option > > > Alarm Summary: Disabled ALARM_SUM.DISABLED Setup Alarm Handling Alarm Summary Disabled > > > Alert Key ALERT_KEY Setup Alarm Handling Alert Key...
Page 14 THE FIELDVUE DVC6000f SERIES DIGITAL VALVE CONTROLLER IS A CORE COMPONENT OF THE PLANTWEBt DIGITAL PLANT ARCHITECTURE. THE DIGITAL VALVE CONTROLLER POWERS PLANTWEB BY CAPTURING AND DELIVERING VALVE DIAGNOSTIC DATA. COUPLED WITH AMS VALVELINK SOFTWARE, THE DVC6000f PROVIDES USERS WITH AN ACCURATE PICTURE OF VALVE PERFORMANCE, INCLUDING ACTUAL STEM POSITION, INSTRUMENT INPUT SIGNAL AND PNEUMATIC PRESSURE TO THE ACTUATOR.
Page 15: Table Of Contents
Introduction Section 1 Introduction Scope of Manual ............Instrument Description .
Page 16: Scope Of Manual
D carefully reading and understanding the Figure 1-1. Type DVC6010f Digital Valve Controller contents of this manual. If you have any questions Mounted on Type 585C Piston Actuator concerning these instructions, contact your Emerson console, another fieldbus system Process Managment...
Page 17 Introduction D Analog Output (AO) Function Block—The analog output function block accepts the output from another function block (such as a PID block) and transfers it as an actuator control signal to the transducer block. If the DO block is selected, the AO block is not functional.
Page 18: Using This Manual
OUNDATION OUNDATION Marshalltown, IA 50158−2823 Fieldbus Technical Overview available from the Phone: 800−338−8158 or Fieldbus and Fieldbus Installations in a Phone: 641−754−3771 OUNDATION DeltaV System available from your Emerson Process FAX: 641−754−3431 Management sales office. e-mail: education@emersonprocess.com March 2006...
Page 19 Introduction Table 1-1. Specifications Available Configurations Digital Communication Protocol fieldbus registered device OUNDATION Type DVC6010f: Sliding stem applications Type DVC6020f: Rotary and long-stroke Physical Layer Type(s): sliding-stem applications [over 102 mm (4-inch) 121—Low−power signaling, bus−powered, Entity travel] Model I.S. Type DVC6030f: Quarter-turn rotary applications 511—Low−power signaling, bus−powered, FISCO I.S.
Page 20 DVC6000f Series Table 1-1. Specifications (continued) Operating Ambient Temperature Limits Shaft Rotation (DVC6020f, DVC6025, DVC6030f and DVC6035) −40 to 80_C (−40 to 176_F) for most approved valve-mounted instruments. 0 to 50 degrees minimum −40 to 125_C (−40 to 257_F) for remote-mounted 0 to 90 degrees maximum feedback unit.
Page 21 Introduction Table 1-2. Immunity Performance Port Phenomenon Basic Standard Performance Criteria Electrostatic discharge (ESD) IEC 61000-4-2 Radiated EM field IEC 61000-4-3 Enclosure Rated power frequency magnetic field IEC 61000-4-8 Burst IEC 61000-4-4 Surge IEC 61000-4-5 I/O signal/control Conducted RF IEC 61000-4-6 1.
Page 22 DVC6000f Series Table 1-4. Hazardous Area Classifications for United States (FM) CERTIFICATION TEMPERATURE ENCLOSURE TYPE CERTIFICATION OBTAINED ENTITY RATING CODE RATING BODY (Intrinsic Safety) FIELDBUS T5(T v 80_C) Class/Division = 24 Vdc Class I,II,III Division 1 GP = 226 mA A,B,C,D,E,F,G per drawing = 5 nF GE04332 (including FISCO)
Page 23 Introduction Table 1-5. Hazardous Area Classifications—ATEX TEMPERATURE ENCLOSURE TYPE CERTIFICATE CERTIFICATION OBTAINED ENTITY RATING CODE RATING II 1 G D FIELDBUS IP66 T5(T v 80_C) T6 (T v75_C) = 24 Vdc EEx ia IIC T5/T6 - Intrinsic Safety = 226 mA Dust = 5 nF T85_C (Tamb v 80_C)
Page 24 DVC6000f Series Table 1-6. Hazardous Area Classifications—IECEx TEMPERATURE ENCLOSURE TYPE CERTIFICATE CERTIFICATION OBTAINED ENTITY RATING CODE RATING FIELDBUS IP66 T5(T v 80_C) Ex ia IIC T5/T6 - Intrinsic Safety T6 (T v 75_C) = 24 Vdc = 226 mA = 5 nF = 0 mH = 1.4 W FISCO...
Page 25: Table Of Contents
Installation Section 2 Installation Special Instructions for Safe Use and Installation in Hazardous Locations ..............
Page 26 DVC6000f Series Electrical Connections ..........2-19 Fieldbus Connections .
Page 27: Atex Intrinsic Safety, Dust
Installation Installation WARNING WARNING Failure to follow these conditions of safe-use could result in personal injury Avoid personal injury or property or property damage from fire or damage from sudden release of explosion, and area re-classification. process pressure or bursting of parts. Before mounting the DVC6000f Series digital valve controller: Special Conditions of Safe Use...
Page 28: Atex Flameproof, Dust
DVC6000f Series Mounting ATEX Flameproof, Dust Special Conditions for Safe Use Type DVC6010f on Sliding-Stem Actuators Up to 102 mm (4 Inches) of SType DVC6000f Series Travel Operating ambient temperature: −52_C or −40_C to + 85_C WARNING SType DVC6005f and Type DVC6015, DVC6025, and DVC6035 Refer to the Installation WARNING at the beginning of this section.
Page 29 Installation CAP SCREW, FLANGED MACHINE SCREW SHIELD ADJUSTMENT ARM CONNECTOR ARM CAP SCREW 29B1674-A / DOC 29B3403-A PLAIN WASHER Figure 2-1. Type DVC6010f Digital Valve Controller Mounted on Sliding-Stem Actuators with up to 2 Inches Travel HEX NUT CAP SCREW, FLANGED FEEDBACK ARM LOCK WASHER EXTENSION,...
Page 30 DVC6000f Series (zero pressure from Port A with Relay Type A) by inserting the alignment pin (key 46) through the hole on the feedback arm as follows: D For air-to-open actuators (i.e., the actuator stem retracts into the actuator casing or cylinder as air pressure to the casing or lower cylinder increases), insert the alignment pin into the hole marked ‘‘A’’.
Page 31 Installation LOCK WASHER CAM/ROLLER POSITION MARK CAP SCREW CAP SCREW, HEX SOCKET PLAIN WASHER HEX NUT STUD, CONT THREAD MOUNTING PLATE VENT STUD, CONT THREAD HEX NUT PLAIN WASHER SPACER 29B1665-A / DOC SECTION A-A Figure 2-4. Type DVC6020f Digital Valve Controller Mounted on Long-Stroke Sliding-Stem Actuator. controller on the actuator.
Page 32 DVC6000f Series MACHINE SCREW MOUNTING ADAPTOR CAP SCREW, CAP SCREW, HEX SOCKET HEX SOCKET MACHINE SCREW 29B1672-A / DOC 29B2094-A / DOC TYPICAL MOUNTING WITH SHORT FEEDBACK ARM TYPICAL MOUNTING WITH LONG FEEDBACK ARM (FISHER TYPE 1052 SIZE 33 ACTUATOR SHOWN) (FISHER TYPE 1061 SIZE 30−68 ACTUATOR SHOWN) Figure 2-5.
Page 33: Type Dvc6030F On Quarter-Turn Actuators
Installation If ordered as part of a control valve assembly, the FOLLOWER ARM factory mounts the digital valve controller on the EXTENSION actuator, makes pneumatic connections to the MACHINE SCREW, LOCK WASHER, actuator, sets up, and calibrates the instrument. If you HEX NUT purchased the digital valve controller separately, you CAP SCREW,...
Page 34: Wall Mounting
DVC6000f Series STARTING POSITION OF TRAVEL INDICATOR ASSEMBLY (DIGITAL VALVE CONTROLLER OUTPUT A AT 0 PSI. ) IN THIS POSITION, THE “B” HOLE IN THE FEEDBACK ARM WILL BE ALIGNED WITH THE REFERENCE HOLE IN THE DIGITAL VALVE CONTROLLERS HOUSING. E0989 / DOC MOVEMENT OF TRAVEL DVC6030f FEEDBACK...
Page 35 Installation MOVEMENT OF TRAVEL E0989 INDICATOR ASSEMBLY WITH INCREASING PRESSURE FROM OUTPUT A. DVC6030f FEEDBACK ARM MOVEMENT 19B3879-A / DOC-2 STARTING POSITION OF ACTUATOR SHAFT MOVEMENT TRAVEL INDICATOR ASSEMBLY (DIGITAL VALVE CONTROLLER OUTPUT A AT 0 PSI). STARTING POSITION OF THE TRAVEL INDICATOR ASSEMBLY IF INCREASING PRESSURE FROM IN THIS POSITION, THE “A”...
Page 36: Pipestand Mounting
DVC6000f Series Type DVC6015 on Sliding-Stem SPACER Actuators Up to 102 mm (4 Inches) of Travel 1-INCH 1/4-20 HEX HEAD SCREW WARNING Refer to the Installation WARNING at the beginning of this section. If ordered as part of a control valve assembly, the factory mounts the digital valve controller on the actuator, makes pneumatic connections to the actuator, sets up, and calibrates the instrument.
Page 37 Installation procedures to be sure that the above measures stay in 7. Apply lubricant to the pin of the adjustment arm. As effect while you work on the equipment. shown in figure 2-3, place the pin into the slot of the feedback arm or feedback arm extension so that the bias spring loads the pin against the side of the arm 2.
Page 38: Type Dvc6035 On Quarter-Turn Actuators
DVC6000f Series D If required, a mounting adaptor is included in the mounting kit. Attach the adaptor to the actuator as Note shown in figure 2-5. Then attach the digital valve controller assembly to the adaptor. The roller on the digital valve controller feedback arm will contact the While the housing differs on the actuator cam as it is being attached.
Page 39: Pressure Control
Installation Table 2-1. Feedback Arm Locking Requirements Digital Valve Controller Type Feedback Arm Alignment Hole DVC6035 DVC6010f FEEDBACK ARM DVC6035 DVC6020f Not Applicable MOVEMENT FEEDBACK ARM DVC6030f MOVEMENT D If increasing pressure from the digital valve controller output A rotates the digital valve E0989 49B7988 / Doc controllers potentiometer shaft counterclockwise...
Page 40: Actuator Mounting
DVC6000f Series TYPE 67CFR CAP SCREWS O-RING NOTE: SUPPLY CONNECTION APPLY LUBRICANT W8077-FF / IL Figure 2-14. Mounting the Type 67CFR Regulator on a DVC6000f Series Digital Valve Controller Pressure Connections 3. Mount the digital valve controller on the actuator as described in the mounting kit instructions.
Page 41: Supply Connections
Installation WARNING Refer to the Installation WARNING at LOOP CONNECTIONS TERMINAL BOX the beginning of this section. 1/2-INCH NPT CONDUIT CONNECTION Note Make pressure connections to the digital valve controller using tubing with at least 10 mm (0.375-inch) diameter. Pressure connections are shown in figure 2-15. All pressure connections on the digital valve controller are 1/4 inch NPT female connections.
Page 42: Output Connections
DVC6000f Series A Fisher Type 67CFR filter regulator, or equivalent, may be used to filter and regulate supply air. A filter regulator can be integrally mounted onto the side of the digital valve controller, casing mounted separate from the digital valve controller, or mounted on the actuator mounting boss.
Page 43: Electrical Connections
Installation the vent-away mounting bracket (key 74). Mount the Table 2-2. Fixed Orifice Restrictions digital valve controller on the actuator as described in Manufacturer Part Number Material Description the Installation section of this manual. The vent No. 74 drilled orifice bleed connection is 3/8-inch NPT female.
Page 44 DVC6000f Series Making Fieldbus Connections with SAFETY GROUND TALK Twisted Shielded Pair TALK Refer to figures 11-1, 11-2, 11-4 and 11-6 for identification of parts. WARNING Personal injury or property damage, caused by fire or explosion, can result from the discharge of static electricity. Connect a 14 AWG (2.08 mm ) ground strap between the digital valve...
Page 45: Feedback Unit Connections For Remote Mounting
Installation Refer to figures 11-1, 11-2, 11-4 and 11-6 for e. The instrument is not polarity sensitive. Refer to identification of parts. figure 2-17. Connect the blue wire to one of the LOOP terminals in the terminal box. Connect the brown wire to the other LOOP terminal.
Page 46 DVC6000f Series W8477 / IL W8475-FF / IL GROUND TO FEEDBACK UNIT TERMINAL 3 TO FEEDBACK UNIT TERMINAL 2 TO FEEDBACK UNIT TERMINAL 1 TERMINAL 1 TERMINAL 2 TERMINAL 3 W8476 / IL BASE UNIT FEEDBACK UNIT W8478-1 / IL Figure 2-19.
Page 47 Installation 10 kOhm potentiometer and Terminal 2 on the base unit. 6. Connect the third wire of the 3-conductor shielded cable between Terminal 3 on the base unit and the other end-lead of the 10 kOhm potentiometer. INTERNAL 10k W 7.
Page 48: Communication Connections
DVC6000f Series 5. Connect the second wire of the 3-conductor shielded cable between the middle lead (wiper) of the external potentiometer (R ) and Terminal #2 on the base unit. 6. Connect the third wire of the 3-conductor shielded cable between a lead on (R ) and Terminal #3 of the base unit.
Page 49: Commissioning Tag
Installation Simulate Enable Jumper is used as an operational identification for the device and is usually defined by the piping and instrumentation diagram (P&ID). WARNING Personal injury or property damage caused by fire or explosion may occur if this connection is attempted in a potentially explosive atmosphere or in an area that has been classified as hazardous.
Page 50 DVC6000f Series 2-26 March 2006...
Page 51 375 Field Communicator Basics Section 3 Model 375 Field Communicator Basics Menu Tree Transducer Block ............Resource Block .
Page 52 DVC6000f Series Display The Field Communicator communicates information to HART AND fieldbus you through a 1/4 VGA (240 by 320 pixels) COMMUNICATION TERMINALS (TOP) monochrome touch screen. It has a viewing area of SCRATCH approximately 9 cm by 12 cm. IrDA INTERFACE (TOP) STYLUS...
Page 53 375 Field Communicator Basics Backlight Adjustment Key # % & The backlight adjustment key has four settings Copy Paste Hot Key allowing you to adjust the intensity of the display. Higher intensities will shorten the battery life. Insert + Hot Key PQRS WXYZ , ( ) ‘...
Page 54 DVC6000f Series Using the Soft Input Panel (SIP) SAFETY TALK GROUND TALK Keyboard As you move between menus, different dynamic buttons appear on the display. For example, in menus providing access to on-line help, the HELP button may appear on the display. In many cases the SEND label appears indicating that you must select the button on the display to send the information you have entered on the keypad to the FIELDVUE instrument’s memory.
Page 55 375 Field Communicator Basics DVC6000f: Tag Figure 3-4. Fieldbus Application Menu Figure 3-5. Fieldbus Live Device List Changing and Sending Parameter Data Displaying the Live Device List From the Fieldbus Application menu select Online (refer to figures 3-4 and 3-5). Select the device you The Live Device List contains all of the devices that want to work with from the Live Device List to display need access to the bus.
Page 56 DVC6000f Series Other Block List Selections Changing the I/O Block Schedule From the Fieldbus Application menu, select Online to access the Live Device List (refer to figures 3-4 and 3-5). Select the desired device from the Live List. Detail Menu Select Schedule from the block list.
Page 57 375 Field Communicator Basics Displaying the Field Communicator menu, select Fieldbus Diagnostics. If a warning appears, select OK after reading it. Device Description Revision To perform a measurement, select the desired option Device Description (DD) Revision is the revision by tapping the checkbox. Select START to view the number of the Fisher Device Description that resides diagnostic results.
Page 58 DVC6000f Series March 2006...
Page 59 Basic Setup and Tuning Section 4 Basic Setup and Tuning Basic Setup Transducer Block Mode ........... . Protection .
Page 60 DVC6000f Series Basic Setup Table 4-1. DVC6000f Series Factory Default Settings SETUP PARAMETER DEFAULT SETTING Tvl Cutoff Hi 99.5% WARNING Tvl Cutoff Lo 0.5% Tvl Integral Gain 9.4 repeats/min Tvl Cal Trigger Changes to the instrument setup may Tvl Integ Enable cause changes in the output pressure Tvl Integ Lim Hi or valve travel.
Page 61 Basic Setup and Tuning ACTUATOR Note TRAVEL SENSOR SHAFT STEM If a Type B, reverse acting relay is used, you must manually set the Relay Type (BASIC_SETUP.RELAY_TYPE [42.5]) to B. This will not be set during Setup Wizard. FEEDBACK ARM 1.
Page 62 DVC6000f Series Table 4-2. Actuator Information for Basic Setup Starting Actuator Actuator Feedback Travel Sensor Motion Actuator Size Actuator Style Tuning Manufacturer Model Connection (Relay A) Piston Dbl w/ or w/o SStem-Standard for travels up to Spring. See actuator Depends upon pneumatic connections. 50, 60 585C &...
Page 63 Basic Setup and Tuning Table 4-3. Gain Values for Preselected Tuning Sets Travel Pressure TUNING SET Minor Loop Minor Loop Proportional Gain Velocity Gain Proportional Gain Integrator Gain Feedback Gain Feedback Gain 11.3 13.1 15.5 18.0 X (Expert) WARNING If you answer YES to the prompt for ROLLER permission to move the valve when setting the Travel Sensor Motion, the...
Page 64 DVC6000f Series WARNING ACTUATOR STEM Changes to the tuning set may cause the valve/actuator assembly to stroke. To avoid personal injury and property damage caused by the release of pressure or process fluid, provide some temporary means of control for the process.
Page 65 Basic Setup and Tuning Select the direction and size of change required to set WARNING the feedback arm so it is 90° to the actuator stem, as shown in figure 4-3. During Stabilize/Optimize, the valve may move. To avoid personal injury If another adjustment is required, repeat step 2.
Page 66 DVC6000f Series March 2006...
Page 67 Detailed Setup / Blocks Section 5 Detailed Setup / Blocks Resource Block ............Transducer Block .
Page 68 DVC6000f Series March 2006...
Page 69 Resource Block Resource Block Overview ..........Setup .
Page 70 DVC6000f Series Resource Block Overview Write Lock The resource block contains the hardware specific characteristics associated with a device; it has no (RB > Setup > WriteLock) input or output parameters. The resource block monitors and controls the general operation of other D Write Lock blocks within the device.
Page 71 Resource Block D ROut Timeout Fault State—Selecting fault state enables the ability to manually set and clear the fault state. See parameter descriptions for Set Fault State (SET_FSTATE [29]) and Clear Fault State (CLR_FSTATE [30]) in table 5-5. Note Soft Write Lock—When selected, permits using Write Lock (WRITE_LOCK [34]) to prevent any Typically this parameter does not need external change to parameter values.
Page 72 DVC6000f Series Table 5-1. Output Block PV Status FEATURE_SEL Transducer Mode, Active PlantWeb AO / DO AO / DO AO/DO PV PW Alarms Set PV Status Actual Alarms PV Status PV Substatus Limit Substatus Constant Device Failure Constant Non-specific See table 5-2 Auto Fail Uncertain...
Page 73 Resource Block Block Errors Communicator. You can also restart the instrument using AMS ValveLink Software or from a host system Table 5-3 lists conditions reported in the BLOCK_ERR using the Restart method included with the device [6] parameter. Conditions in italics are not applicable description (DD) software.
Page 74 DVC6000f Series Table 5-4. Parameters Affected by Restart with Defaults Table 5-4. Parameters Affected by Restart with Defaults (Continued) Index Parameter Name Initial Value Number Index Parameter Name Initial Value Number Resource Block AO Block (continued) ST_REV TAG_DESC spaces XD_SCALE STRATEGY EU 100% ALERT_KEY...
Page 75 Resource Block Table 5-4. Parameters Affected by Restart with Defaults Table 5-4. Parameters Affected by Restart with Defaults (Continued) (Continued) Index Index Parameter Name Initial Value Parameter Name Initial Value Number Number PID Block (continued) PID Block (continued) SP_LO_LIM DV_HI_PRI GAIN DV_HI_LIM +INF...
Page 76 DVC6000f Series Table 5-4. Parameters Affected by Restart with Defaults Table 5-4. Parameters Affected by Restart with Defaults (Continued) (Continued) Index Index Parameter Name Initial Value Parameter Name Initial Value Number Number ISEL Block (continued) ISEL Block (continued) DISABLE_3 HI_HI_LIM Status HI_PRI HI_LIM...
Page 77 Resource Block Table 5-4. Parameters Affected by Restart with Defaults Table 5-4. Parameters Affected by Restart with Defaults (Continued) (Continued) Index Index Parameter Name Initial Value Parameter Name Initial Value Number Number OS Block (continued) DO Block BKCAL_2_IN ST_REV Status TAG_DESC spaces STRATEGY...
Page 78 DVC6000f Series Resource Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentation and shaded Index Number indicates sub-parameter. Table 5-5. Resource Block Parameter Definitions Label Index RO /...
Page 79 Resource Block Table 5-5. Resource Block Parameter Definitions (Continued) Label Index RO / Initial Mode Range Description PARAMETER_NAME Number Value Data Type: Unsigned32 Manufacturer identification number, used by an interface device or host to locate the DD file for the resource. All manufacturer identification numbers are maintained by the Fieldbus Foundation.
Page 80 DVC6000f Series Table 5-5. Resource Block Parameter Definitions (Continued) Label Index RO / Initial Mode Range Description PARAMETER_NAME Number Value 1: Reports Supported 2: Fault State supported Data Type: Bit String 3: Soft Write lock 0 = Inactive Feature Selection supported 1 = Active FEATURE_SEL...
Page 81 Resource Block Table 5-5. Resource Block Parameter Definitions (Continued) Label Index RO / Initial Mode Range Description PARAMETER_NAME Number Value Date Type: Unsigned32 Time duration (in 1/32 millisecond) at which to give up on computer writes to function block RCAS parameters. If this time is exceeded RCAS Timeout Positive 640000...
Page 82 DVC6000f Series Table 5-5. Resource Block Parameter Definitions (Continued) Label Index RO / Initial Mode Range Description PARAMETER_NAME Number Value Data Type: Unsigned32 The time (in 1/32 millisecond) the device waits Confirm Time > 0 640000 CONFIRM_TIME Set by FCS for confirmation of receipt of an alert report before trying again.
Page 83 Resource Block Table 5-5. Resource Block Parameter Definitions (Continued) Label Index RO / Initial Mode Range Description PARAMETER_NAME Number Value Write Alarm WRITE_ALM Data Type: DS-72 This alarm is generated when Unlocked in the 0=Undefined UNACKNOWLEDGED 40.1 1=Acknowledged 0=Undefined WRITE_LOCK. parameter is set. This alarm 2=Unacknowledged has a priority of WRITE_PRI.
Page 84 DVC6000f Series Table 5-5. Resource Block Parameter Definitions (Continued) Label Index RO / Initial Mode Range Description PARAMETER_NAME Number Value Factory Serial Number Data Type: Visible String spaces FACTORY_SN Instrument serial number set by manufacturing. Field Serial Number Data Type: Visible String Any String spaces FIELD_SN...
Page 85 Resource Block View Lists Table 5-7. Resource Block, View 2 Index View lists allow the values of a set of parameters to be Parameter Number accessed at the same time. Views 1 and 2 contain ST_REV operating parameters and are defined by the Fieldbus 14.1 GRANT_DENY.GRANT Foundation.
Page 86 DVC6000f Series Table 5-9. Resource Block, View 4 Index Parameter Number ST_REV STRATEGY ALERT_KEY MANUFAC_ID DEV_TYPE DEV_REV DD_REV HARD_TYPES FEATURES CYCLE_TYPE MIN_CYCLE_T MEMORY_SIZE MAX_NOTIFY ACK_OPTION WRITE_PRI ITK_VER DISTRIBUTOR DEV_STRING DIAG_OPTIONS MISC_OPTIONS 47.1 SOFTWARE_REVISION.SOFTWARE_REV_MAJOR 47.2 SOFTWARE_REVISION.SOFTWARE_REV_MINOR 47.3 SOFTWARE_REVISION.SOFTWARE_REV_BUILD 47.4 SOFTWARE_REVISION.IO_SOFTWARE_REV 47.5 SOFTWARE_REVISION.DIAG_CAL_REV 47.6 SOFTWARE_REVISION.SOFTWARE_REV_ALL...
Page 87 Transducer Block Transducer Block Overview ..........5-23 Detailed Setup .
Page 88 DVC6000f Series Act and Valve ........... . . 5-36 Valve .
Page 89 Transducer Block Transducer Block Overview (FINAL_VALUE [13]. The tranducer block will not accept changes from the AO or DO blocks. This mode The transducer block accepts a signal from an output is required to change some parameters and to run block as a set point to position a valve using a some diagnostics.
Page 90 DVC6000f Series ACTUATOR TRAVEL SENSOR SHAFT STEM ROLLER FEEDBACK ARM STEM CONNECTOR ADJUSTMENT ARM 29B1665-A / DOC Figure 5-2. Feedback Connection for Typical Long- Stroke Sliding-Stem Actuator (4 to 24-Inches Travel) CONNECTOR ARM D Relay Type Figure 5-1. Feedback Connection for Typical Sliding-Stem Actuator (Up to 4-inch Travel) Enter the Relay Type (RELAY_TYPE [42.5]), A or B, installed in the digital valve controller.
Page 91 Transducer Block proportional gain, velocity gain and minor loop WARNING feedback gain values for preselected tuning sets. If you answer YES to the prompt for permission to move the valve when setting the Travel Sensor Motion, the instrument will move the valve Note through its full travel range.
Page 92 DVC6000f Series D Tvl Velocity Gain Table 5-10. Gain Values for Preselected Travel Tuning Sets TRAVEL TRAVEL TRAVEL TUNING Travel Velocity Gain (SERVO_RATE [20]) is the PROPORTIONAL VELOCITY MINOR LOOP velocity gain for the travel control tuning set. Changing GAIN GAIN FEEDBACK GAIN this parameter will also change the tuning set to...
Page 93 Transducer Block D Press Prop Gain Table 5-11. Gain Values for Preselected Pressure Tuning Sets PRESSURE PRESSURE PRESSURE TUNING PROPORTIONAL INTEGRATOR MINOR LOOP Pressure Proportional Gain (PRESS_PROP_GAIN GAIN GAIN FEEDBACK GAIN [47.3]) is the proportional gain for the pressure control tuning set.
Page 94 DVC6000f Series Tvl Press Control (TB > Detailed Setup > Response Control > Tvl Press Control) D Tvl/Press Select Note Travel / Pressure Select must be set to Travel for double acting actuators. −25 Set Point, % −25 Input Characteristic Linear Travel / Pressure Select (TVL_PRESS_SELECT [41.1]) determines if the instrument is setup for position or pressure control.
Page 95 Transducer Block D Press Cutoff Lo Note Pressure Cutoff Lo (PRESS_CUTOFF_LO [47.2]) defines the low cutoff point for the pressure in percent (%) of pre-characterized setpoint. Below this cutoff, Custom Characterization is not the pressure target is set to −23%. A Pressure Cutoff available in firmware revision 1.1 or Lo of 0.5% is recommended to help ensure maximum earlier.
Page 96 DVC6000f Series PW Alarm Enable Elect and Config (TB > Detailed Setup > Alerts > PW Alarm Enable) (TB > Detailed Setup > Alerts > Elect and Config) D Failed Enable D Elect Active Failed Enable (FAILED_ENABLE [62]) enables or Electronic Active (ELECT_ACTIVE [74.1]) displays disables conditions that can cause a failed alert.
Page 97 Transducer Block D Shutdown Trigger D Output Blk Timeout The Output Block Timeout (OUTPUT_BLK_TIMEOUT The Shutdown Trigger (SHUTDOWN_TRIGGER [76.3]) is the maximum time between updates from the [76.1]) permits enabling or disabling Self Test AO or DO block to the transducer block setpoint. Shutdown for the Drive Current, Program Memory, Static Memory, Processor, I/O Processor and D Alert Key...
Page 98 DVC6000f Series transducer block target mode to Manual or Auto. In D Temp Hi Alrt Pt any case, the target mode will remain Out of Service, if the condition that caused the shutdown remains or When the instrument temperature exceeds the while until the shutdown trigger is disabled.
Page 99 Transducer Block ALERT IS SET ALERT IS CLEARED TRAVEL ALERT HIGH POINT TRAVEL ALERT TRAVEL ALERT DEADBAND DEADBAND TRAVEL ALERT LO POINT ALERT IS SET ALERT IS CLEARED A6532/IL Figure 5-5. Travel Hi Alert Deadband A6532-1/IL Figure 5-4. Travel Lo Alert Deadband Travel Lo Lo Alert Point (TVL_LO_LO_ALRT_PT [77.12]).
Page 100 DVC6000f Series D Prox Active D Tvl History Active Travel History Active (TVL_HISTORY_ACTIVE [74.6]) Proximity Active (PROX_ACTIVE [74.5]) displays displays which of the following Travel History Alerts which of the following Proximity Alerts are active: are active: Travel Open—Active if the Travel is greater than the Cycle Count—Active when the Cycle Count exceeds Travel Open Alert Point.
Page 101 Transducer Block D Performance Active Deadband exceeded, and direction changed, new Reference Point established Performance Active (PERF_ACTIVE [74.7]) displays which of the following Performance Alerts are active: Performance Critical—Active if the instrument is no longer able to control the valve or performance has been dramatically reduced.
Page 102 DVC6000f Series MAI_CHANNEL_8 [95.1 through 95.8]). See table Deadband exceeded, new Reference Point 5-13 for additional information. established Act and Valve Valve (TB > Detailed Setup > Act and Valve > Valve) D Valve Manufacturer ID Enter the ID of the manufacturer of the valve This amount of change is added to the Travel Deadband Reference...
Page 103 Transducer Block D Inlet Pressure Actuator Enter the valve inlet pressure (INLET_PRESSURE [83.7]). (TB > Detailed Setup > Act and Valve > Actuator) D Actuator Manufacturer Id D Outlet Pressure Enter the manufacturer’s identification number Enter the valve outlet pressure (OUTLET_PRESSURE (ACT_MAN_ID [22]) of the actuator on which the in psig, kPa, Bar, in Hg or in H [83.8])
Page 104 DVC6000f Series Select Clockwise or Counterclockwise. Travel Sensor D Nominal Supply Pressure Motion (TRAVEL_SEN_MOTION [42.3]) establishes Enter the nominal instrument supply pressure the proper valve travel sensor (feedback) rotation. (NOMINAL_SUPPLY PRESSURE [85.6]). D Spring Rate WARNING Enter the actuator spring rate (SPRING_RATE [85.7]) If you answer YES to the prompt for in lbsSin or NSm.
Page 105 Transducer Block D Ramp Closed—ramps the travel toward closed at the rate of 1.0% per second of the ranged travel. Simulate Active Alarms D Ramp to Target—ramps the travel to the (TB > Detailed Setup > Simulate Active Alarms) specified target at the rate of 1.0% per second of the D Failed Active ranged travel.
Page 106 DVC6000f Series Transducer Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Protection Category: Indicates if protected when Write Lock is selected, and the category of protection D Double indentation and shaded Index Number indicates sub-parameter Table 5-13.
Page 107 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Block Alarm BLOCK_ALM 0=Undefined UNACKNOWLEDGED 1=Acknowledged NONE 2=Unacknowledged 0=Undefined 1=Clear−reported ALARM_STATE 2=Clear−not reported 3=Active−reported Data Type: DS-72 4=Active−not reported Used to report the BLOCK_ERR TIME_STAMP alarm to the host system...
Page 108 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Data Type: DS-65 In Travel Control: Valve travel in %, FINAL_POSITION_VALUE decharacterized to correlate with Setpoint (FINAL_VALUE [13]). Travel Status (DeChar) 17.1 In Pressure Control: Implied valve...
Page 109 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Data Type: DS-65 In Travel Control: Actual valve TRAVEL travel in % of calibrated travel Travel Status 34.1 range.
Page 110 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Basic Setup BASIC_SETUP 1=Spring & Diaphragm Actuator Style 2=Piston-Dbl w/o Spring 1=Spring & 42.1 SETUP Data Type: Enum ACTUATOR_STYLE 3=Piston-Dbl w/Spring Diaphragm...
Page 111 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category TRAVEL_TUNE Tvl Integ Enable 1=Off 44.1 2=On SETUP Data Type: Enum TVL_INTEG_ENABLE 2=On Tvl Integ Lim Hi 44.2 0% −...
Page 112 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category PRESS_CAL Supp Press Scale 46.1 > = 0 Data Type: Float SUPP_PRESS_SCALE Supp Press Offset 46.2 0 to 16383 Data Type: Uint16 SUPP_PRESS_OFFSET Press A Scale...
Page 113 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Data Type: UINT16 Array[43] Each item − 2500 to 12500 First integrator is number of valid Custom Points points.
Page 114 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Data Type: DS-71 Advise Alarm Used to report alerts to host ADVISE_ALM system 0=Undefined UNACKNOWLEDGED 58.1 1=Acknowledged 0=Undefined NONE 2=Unacknowledged 0: Undefined...
Page 115 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category 0: Drive Current 1: Drive Signal 2: Processor Impaired 3: Output Block Timeout 4: Blocks Set to Defaults 5: Travel Sensor 6: Outlet Pressure Sensor...
Page 116 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Data Type: Bit String 0=disable 1=enable Maintenance alert mask. MASK controls whether an alert is Maint Suppress Same as for All bits: 0 reported.
Page 117 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category INST_ALERTS_ACTIVE 0: Drive Current 1: Drive Signal 2: Memory Failure − Data Type: Bit String Pending 0=inactive Elect Active 74.1 3: Static Memory All bits: 0...
Page 118 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category 0: I/P Primary Plugged 1: I/P Nozzle Plugged 2: I/P Latched 3: Reserved 4: Relay Jammed 5: Relay Cross Misadj 6: Relay Bias Diaph Leak 7: Relay Port A Diaph...
Page 119 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category 0: Relay Disengaged 1: Insufficient Pressure Differential 2: Travel Calibration Error 3: Reserved 4: High Supply Pressure* 5: Reserved Data Type: Bit String 0=inactive 6: Near a Travel Cutoff...
Page 120 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category INST_ALERTS_ENABLE Enabled Bits: 0: Drive Current 0: Drive Current 1: Drive Signal 1: Drive Signal 2: Program Memory 2: Program Data Type: Bit String Elect Enable...
Page 121 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category INST_ALERTS_CONFIG 0: Drive Current 1: Program Memory 2: Static Memory Data Type: Bit String 3: Processor or I/O 0=attempt control, Shutdown Trigger Processor...
Page 122 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category INST_ALERTS_CONFIG2 Data Type: Float Tvl Dev Alrt Pt 77.1 > 0%, <= 125% SETUP Alerts when difference between sp TVL_DEV_ALRT_PT and pv is too large for too long.
Page 123 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category All bits: 0 Data Type: Bit String 1: Integrator frozen 0=inactive 2: Integrator Limited Low 1=active 3: Integrator Limited Indicates the status of the High instrument self test.
Page 124 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Reserved A Data Type: Array, 118 x UINT8 SETUP RESERVED_A Reserved Reserved AI Data Type: Uint16 SETUP RESERVED_AI Reserved Upgrade Progress Data Type: Enum...
Page 125 Transducer Block Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category SPEC_SHEET_ACT Actuator Size 85.1 NULL Data Type: Visible String ACTUATOR SIZE Effective Area 85.2 0.00 Data Type: Float EFFECTIVE AREA 1=open 85.3...
Page 126 DVC6000f Series Table 5-13. Transducer Block Parameter Definitions (Continued) Label Index RO / Protect Mode Range Initial Value Description PARAMETER_NAME Number Category Temperature Units C=1001 SETUP Data Type: Enum TEMPERATURE_UNITS F=1002 kPa=1133 bar=1137 Pressure Units psig=1143 psig SETUP Data Type: Enum PRESSURE_UNITS inHg=1155 inH2O=1146...
Page 127 Transducer Block View Lists View lists allow the values of a set of parameters to be Note accessed at the same time. Views 1 and 2 contain operating parameters and are defined by the Fieldbus Foundation. View 3 contains dynamic parameters and Because individual views are limited in size, View Lists 3 and 4 have multiple View 4 contains static parameters with configuration...
Page 128 DVC6000f Series Table 5-17. Transducer Block, View 3.2 Table 5-20. Transducer Block, View 4.3 Index Number Parameter Index Number Parameter ST_REV ST_REV 74.1 INST_ALERTS_ACTIVE.ELECT_ACTIVE PWA_SIMULATE 74.2 INST_ALERTS_ACTIVE.SENSOR_ACTIVE 41.1 TVL_PRESS_CONTROL.TVL_PRESS_SELECT 74.3 INST_ALERTS_ACTIVE.ENVIRO_ACTIVE 41.2 TVL_PRESS_CONTROL.TVL_PRESS_STATE 74.4 INST_ALERTS_ACTIVE.TRAVEL_ACTIVE 42.1 BASIC_SETUP.ACTUATOR_STYLE 74.5 INST_ALERTS_ACTIVE.PROX_ACTIVE 42.2 BASIC_SETUP.ZERO_PWR_COND 74.6 INST_ALERTS_ACTIVE.TVL_HISTORY_ACTIVE...
Page 129 Transducer Block Table 5-21. Transducer Block, View 4.4 Table 5-22. Transducer Block View, 4.5 Index Number Parameter Index Number Parameter ST_REV ST_REV 76.1 INST_ALERTS_CONFIG.SHUTDOWN_TRIGGER 95.1 MAI_CHANNEL_1 76.2 INST_ALERTS_CONFIG.SHUTDOWN_RECOVERY 95.2 MAI_CHANNEL_2 76.3 INST_ALERTS_CONFIG.OUTPUT_BLK_TIMEOUT 95.3 MAI_CHANNEL_3 76.4 INST_ALERTS_CONFIG.DRIVE_CURRENT_ALRT_PT 95.4 MAI_CHANNEL_4 76.5 INST_ALERTS_CONFIG.DRIVE_CURRENT_TIME 95.5 MAI_CHANNEL_5 76.6...
Page 130 DVC6000f Series 5-64 March 2006...
Page 131 AO Function Block Analog Output (AO) Function Block Overview ..... . . 5-66 Modes ..............5-67 Mode Handling .
Page 132 DVC6000f Series Note BKCAL OUT Feature Select in the resource block must have the DO Control option READBACK disabled for the AO block to be fully functional. CAS IN The remote setpoint value from another function block. BKCAL OUT The value and status required by the BKCAL IN input of another block to prevent reset windup and to provide bumpless transfer to closed loop control.
Page 133 AO Function Block D Local Override (LO)—The output of the block is Auto—On failure of a remote cascade connection the not responding to inputs because the fault state action block attempts to attain Auto, if permitted, until remote is active. OUT [9] freezes or goes to value per cascade is restored.
Page 134 DVC6000f Series RCAS RCAS BKCAL READ BACK RATE RATE Operator Setpoint Convert HI/LO Rate and Status Limit Limit Calculation SCALE OPTS MODE Shed Mode Access Access Analog Analog CHANNEL Input Output Position Analog B2717 / IL Feedback Output Figure 5-9. Analog Output Function Block Schematic limited SP [8] condition is reflected in the upstream block that provides CAS_IN [17].
Page 135 AO Function Block CAS_IN, 2 1 macrocycle SP RATE DN 1 macrocycle SP RATE UP TRANSDUCER BLOCK TRAVEL TARGET 1 second 1 second 1 second 1 second B2718-1 / IL Time Figure 5-10. Analog Output Function Block Timing Diagram options, the tracking options, and the conversion and The SP [8] value is limited to the range defined by the status calculations.
Page 136 DVC6000f Series engineering units). The digital valve controller supports value saved in non-volatile memory. This does not act position feedback and therefore provides the actual like Fault State, it only uses the value of valve position in PV [7] and READBACK [16] directly. FSTATE_VAL [24].
Page 137 AO Function Block Table 5-23. BLOCK_ERR Conditions PV_SCALE Set the range and engineering units to values that correspond to the op- Condition Condition Name and Description Number eration range. For the digital valve controller, PV_SCALE [11] is Other (N/A) typically set between 0 and 100%. Block Configuration Error - CHANNEL and SHED_OPT set to 0 BKCAL_OUT If you are using the CAS_IN [17]...
Page 138 DVC6000f Series AO Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentation and shaded Index Number indicates sub-parameter Table 5-24. Analog Output Function Block Parameter Definitions Label Index RO /...
Page 139 AO Function Block Table 5-24. Analog Output Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Simulate SIMULATE SIMULATE_STATUS 10.1 Data Type: DS-82 SIMULATE_VALUE 10.2 Allows the analog input to be manually supplied TRANSDUCER_STATUS 10.3 when simulate is enabled.
Page 140 DVC6000f Series Table 5-24. Analog Output Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Data Type: Float Ramp rate for downward set point changes. Setpoint Rate Down Positive, 0 disables +INF SP_RATE_DN rate limiting PV units When the ramp rate is set to zero, the set point is...
Page 141 AO Function Block Table 5-24. Analog Output Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Update Event UPDATE_EVT 0:Undefined UNACKNOWLEDGED 29.1 1:Acknowledged 0: Undefined Unacknowledged Data Type: DS-73 0:Undefined This alert is generated by any changes to static UPDATE_STATUS 29.2 1:Update reported...
Page 142 DVC6000f Series View Lists View lists allow the values of a set of parameters to be Table 5-27. AO Function Block, View 3 accessed at the same time. Views 1 and 2 contain Index operating parameters and are defined by the Fieldbus Parameter Number Foundation.
Page 143 AO Function Block 375 Field Communicator Menu Structure ANALOG OUTPUT FUNCTION BLOCK Online Quick Config Back Calculation Output: Status Characteristics Alert Key Back Calculation Output: Value Static Revision Process Value Scale: EU at 100% Block Error Tag Description Process Value Scale: EU at 0% Cascade Input: Status Strategy Process Value Scale: Units Index...
Page 144 DVC6000f Series 5-78 March 2006...
Page 145 PID Function Block PID Function Block Overview ......... . 5-80 Modes .
Page 146 DVC6000f Series where BKCAL GAIN: proportional gain value BKCAL OUT τ integral action time constant (RESET parameter) in seconds laplace operator τ derivative action time constant (RATE parameter) α: fixed smoothing factor of 0.1 applied to BKCAL_IN THE ANALOG INPUT VALUE AND STATUS FROM ANOTHER RATE BLOCK’S BKCAL _OUT OUTPUT THAT IS USED FOR BACKWARD OUTPUT TRACKING FOR BUMPLESS TRANSFER...
Page 147 PID Function Block FF GAIN FF SCALE Feedforward FF VAL Calculation BKCAL IN MODE TRK IN D BKCAL OUT RCAS OUT ROUT OUT ROUT IN RCAS IN Setpoint Limiting Equation Output CAS IN Limiting Operator Setpoint SP HI LIM GAIN SP LO LIM RATE OUT HI LIM...
Page 148 DVC6000f Series the next highest permitted non-remote mode. If Cas or Operator Set point Auto are not available, the block will shed by default to SP HI LIM SP RATE UP Man. SP LO LIM SP RATE DN Retained Target—The retained target mode is the Auto Auto mode the block was in before changing to one of the...
Page 149 PV [7] when the actual mode of the block is systems. Refer to your host Man. system documentation, or contact your Emerson Process D SP−PV Track in LO or IMan—Permits the SP Management sales office for [8] to track the PV [7] when the actual mode of the additional information.
Page 150 DVC6000f Series D Proportional and integral on error, derivative on Table 5-29. PID Function Block Alarm Priorities PV (PI_D) Priority Priority Description Number The alarm is disabled D Integral on error, proportional and derivative on PV (I_PD) An alarm condition with a priority of 1 can be recognized by the system.
Page 151 PID Function Block Block Errors Table 5-30 lists conditions reported in the BLOCK_ERR [6] parameter. Conditions in italics are not applicable for the PID block and are provided only for your reference. Table 5-30. BLOCK_ERR Conditions Condition Condition Name and Description Number Other (N/A) Block Configuration Error—SHED_OPT or BYPASS...
Page 152 DVC6000f Series PID Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentation and shaded Index Number indicates sub-parameter Table 5-31. PID Function Block System Parameters Definitions Label Index RO /...
Page 153 PID Function Block Table 5-31. PID Function Block System Parameters Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode EU at 100% Data Type: DS-68 Output Scale EU at 0%t The high and low scale values, engineering units OUT_SCALE Units index code, and number of digits to the right of the...
Page 154 DVC6000f Series Table 5-31. PID Function Block System Parameters Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Gain Data Type: Float greater than 0 GAIN The proportional gain value. Data Type: Float Reset Positive + INF The integral action time constant.
Page 155 PID Function Block Table 5-31. PID Function Block System Parameters Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode 0=Invalid 1=Normal Shed, Normal Return 2=Normal Shed, No Return 3=Shed to Auto, normal return Data Type: Uint8 4=Shed to Auto, no return.
Page 156 DVC6000f Series Table 5-31. PID Function Block System Parameters Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Update Event UPDATE_EVT 0=Undefined 1=Acknowledged UNACKNOWLEDGED 43.1 Unacknowledged Data Type: DS-73 0=Undefined This alert is generated by any changes to the 1=Update reported UPDATE_STATE 43.2...
Page 157 PID Function Block Table 5-31. PID Function Block System Parameters Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Deviation High Priority Data Type: Unsigned8 0 to 15 DV_HI_PRI The priority of the deviation high alarm. Data Type: Float Deviation High Limit PV_SCALE, or +INF...
Page 158: Form
DVC6000f Series Table 5-31. PID Function Block System Parameters Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Deviation High Alarm DV_HI_ALM 0=Undefined 1=Acknowledged UNACKNOWLEDGED 64.1 0=undefined Unacknowledged Data Type: DS-71 The DV HI alarm data, which includes a value of 0=Undefined the alarm, a timestamp of occurrence, and the 1=Clear reported...
Page 159 PID Function Block Table 5-31. PID Function Block System Parameters Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: Float Fraction of proportional action taken on error versus PV. For a value of 0.6, then 60% of the proportional action will be based on error and UBeta 40% on PV.
Page 160 DVC6000f Series Table 5-31. PID Function Block System Parameters Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode T Auto Extra DT Data Type: Unsigned8 T_AUTO_EXTRA_DT Allow additional cycle with extra deadtime. Data Type: Unsigned8 T Auto Hysteresis Allows calculation of hysteresis based on T_AUTO_HYSTERESIS...
Page 161 PID Function Block View Lists Table 5-34. PID Function Block, View 3 View lists allow the values of a set of parameters to be Index Parameter accessed at the same time. Views 1 and 2 contain Number operating parameters and are defined by the Fieldbus ST_REV Foundation.
Page 162 DVC6000f Series Table 5-36. PID Function Block, View 4.2 Index Note Parameter Number ST_REV BIAS Because individual views are limited in SP_FTIME size, View List 4 has two parts. MATHFORM STRUCTURECONFIG GAMMA (ugamma) BETA Table 5-35. PID Function Block, View 4.1 IDEADBAND Index Parameter...
Page 163 PID Function Block 375 Field Communicator Menu Structure PID FUNCTION BLOCK Quick Config Advanced Config Online Back Calculation Hysteresis Back Calculation Input: Status Alert Key Control Options Feed Forward Gain Back Calculation Intput: Value Deviation High Limit Feed Forward Scale: EU at 100% Back Calculation Output: Status Deviation Low Limit Feed Forward Scale: EU at 0%...
Page 164 DVC6000f Series PID FUNCTION BLOCK cont. Characteristics: Block Tag Other Static Revision All (continued) Tag Description Tag Description Updated Event: Unacknowledged Grant Deny: Grant Strategy Update Event: Update State Grant Deny: Deny Alert Key All (continued) Update Event: Time Stamp Balance Time Block Mode: Target Update Event: Static Rev...
Page 165 ISEL Function Block Input Selector Function Block Overview ......5-100 Modes .
Page 166 DVC6000f Series IN_1 IN_2 IN_3 IN_4 IN (1−8) = Input used in the selection algorithm. IN_5 DISABLE (1−8) = Discrete input used to enable or disable IN_6 the associated input channel. OUT_D IN_7 ISEL OP_SELECT = Input used to override algorithm. IN_8 The selected channel number.
Page 167 ISEL Function Block IN_1 AUTO IN_2 Selection Algorithm IN_3 IN_4 DISABLE_1 SELECTED DISABLE_2 DISABLE_3 SEL_TYPE DISABLE_4 MIN_GOOD OP_SELECT SELECT_TYPE NOTE: THIS FIGURE DOES NOT INCLUDE THE ADDITIONAL 4 INPUTS IN THE EXTENDED PARAMETERS. Figure 5-14. Input Selector Function Block Schematic Limit Propagation D For a selection algorithm to use an input with status of Uncertain, the STATUS_OPTS [10]...
Page 168 DVC6000f Series START Propagate OP_SELECT selected input equal to zero? limit status All inputs with SELECT_TYPE same limit Average? status? Propagate Not Limited Propagate that All inputs with limit status More than 1 same limit SELECT_TYPE input? status? Middle? Propagate Not Limited Input a Propagate...
Page 169 ISEL Function Block START Propagate Bad, MODE_BLK Out of Service O/S? STATUS_OPTS Propagate MODE_BLK Uncertain if Man Uncertain MAN? Mode? Propagate Good Noncascade MODE_BLK must be Auto Propagate Bad, OP_SELECT Nonspecific status? Good Good Selected in- Propagate Good OP_SELECT put status? Noncascade value >0? Propagate Bad,...
Page 170 DVC6000f Series If the status of OUT [7] is Bad, then the substatus will average (AVG_USE [33]) is 4 and the number of be as follows: connected inputs is 6, then the highest and lowest values would be dropped prior to calculating the D Out of Service if the Target mode is Out of average.
Page 171 ISEL Function Block be “Good,” “Good_Cascade,” or “Uncertain” with a Alarms are grouped into five levels of priority, as STATUS_OPTS [10] of “Use Uncertain as Good” in shown in table 5-37. order to be evaluated. If the status of OP_SELECT [22] is Bad, then the OUT [7] status is Bad.
Page 172 DVC6000f Series Input Selector Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentations and shaded Index Numbers indicate sub-parameters Table 5-39. Input Selector Function Block Parameter Definitions Label Index RO /...
Page 173 ISEL Function Block Table 5-39. Input Selector Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Status Input 2 Data Type: DS-65 constant IN_2 The block input value and status. Value Status Input 3 Data Type: DS-65 constant...
Page 174 DVC6000f Series Table 5-39. Input Selector Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Update Event UPDATE_EVT 0=Undefined UNACKNOWLEDGED 23.1 1=Acknowledged 2=Unacknowledged Data Type: DS-73 0=Undefined This alert is generated by any change to the static 1=Update Reported UPDATE_STATE 23.2...
Page 175 ISEL Function Block Table 5-39. Input Selector Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Value Data Type: DS-66 constant Enable/Disable for Input_8, If parameter is TRUE Disable Analog Input 8 DISABLE_8 Status then input is disabled.
Page 176 DVC6000f Series Table 5-39. Input Selector Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value High Alarm HI_ALM 0=Undefined UNACKNOWLEDGED 46.1 1=Acknowledged Unacknowledged 0=Undefined Data Type: DS-71 1=Clear reported The high alarm data, which includes a value of the 2=Clear not reported alarm, a timestamp of occurrence, and the state of ALARM_STATE...
Page 177 ISEL Function Block View Lists Table 5-42. ISEL Function Block, View 3 Index View lists allow the values of a set of parameters to be Parameter Number accessed at the same time. Views 1 and 2 contain ST_REV operating parameters and are defined by the Fieldbus MODE_BLK.TARGET_MODE Foundation.
Page 178 DVC6000f Series 375 Field Communicator Menu Structure INPUT SELECTOR FUNCTION BLOCK Online Quick Config Alert Key Block Error Characteristics All continued Min Good Disable Analog Input 1: Status Static Revision Output Range: EU at 100% Disable Analog Input 1: Value Alarm Summary: Current Tag Description Output Range: EU at 0%...
Page 179 OS Function Block Output Splitter Function Block Overview ......5-114 Modes ..............5-114 Status Handling .
Page 180 DVC6000f Series A typical sequencing application has both valves closed at 0% input. One valve fully opens as the input rises to 50% and the other stays shut. The second valve opens as the input rises above 50%, and the RCAS first valve may remain open or shut off quickly.
Page 181 OS Function Block Setpoint SP_WRK Setpoint Ç Ç Rate " Limiting " CAS_IN Limiting SP_RATE_DN SP_RATE_UP IN_ARRAY OUT_ARRAY LOCKVAL MODE Calculate " " Ç Shed BKCAL_OUT Ouput " Mode " BKCAL_IN_1 Balance " Ç Ç " Ouput " Ç Ç BAL_TIME Balance "...
Page 182 DVC6000f Series limits for the upstream block. The general principle is Table 5-44. IN_ARRAY Coordinates to allow the upstream block to continue control for as Index Coordinate long as possible. − Start value of SP for the OUT_1 line. < X The upstream block is high-limited (BKCAL_OUT of −...
Page 183 OS Function Block Split Range Sequencing 100% 100% (X22 , Y22) OUT_1 OUT_1 OUT_2 OUT_2 100% 100% Figure 5-20. Split Range and Sequence Operation 1 remains at end point when OUT_2 is non-zero OUT_1 goes to zero OUT_2 becomes 100% 100% Figure 5-22.
Page 184 DVC6000f Series BK_CAL_IN PID2 CAS-IN BK_CAL_OUT PID1 BK_CAL_IN2 OUT2 Splitter BK_CAL_OUT CAS-IN OUT1 BK_CAL_IN1 CAS-IN BK_CAL_OUT Figure 5-23. Output Splitter Configuration The discussion in this section defines the behavior Table 5-46. OUT_ARRA Y Coordinates which is used to handle the initial value calculation BKCAL BKCAL BKCAL...
Page 185 OS Function Block Cascade initialization is also required when the block direction. BKCAL_OUT also shows limit status at the transitions from Auto to Cas mode. This action is X extremes X11 and X22. identical to that described for the PID block. Initialization is not automatic under all circumstance because some situations have conflicting needs.
Page 186 DVC6000f Series Output Splitter Function Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentation and shaded Index Number indicates sub-parameter Table 5-47. Output Splitter Function Block Parameter Definitions Label Index RO /...
Page 187 OS Function Block Table 5-47. Output Splitter Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value EU at 100% Data Type: DS-68 Output 2 Range EU at 0 % The high and low scale values, engineering units code, OUT_2_RANGE Unit Index and number of decimal places to be used in displaying the...
Page 188 DVC6000f Series Table 5-47. Output Splitter Function Block Parameter Definitions (Continued) Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Block Alarm BLOCK_ALM 0: Undefined UNACKNOWLEDGED 1: Acknowledged 24.1 2: Unacknowledged 0: Undefined Data Type: DS-72 1: Clear reported The block alarm is used for all configuration, hardware, 2: Clear not reported connection failure, or system problems in the block.
Page 189 OS Function Block View Lists View lists allow the values of a set of parameters to be accessed at the same time. Views 1 and 2 contain Table 5-50. OS Function Block, View 3 operating parameters and are defined by the Fieldbus Foundation.
Page 190 DVC6000f Series 375 Field Communicator Menu Structure OUTPUT SPLITTER FUNCTION BLOCK Characteristics Static Revision Tag Description Strategy Alert Key Block Mode: Target Block Mode: Actual Block Mode: Permitted Block Mode: Normal Block Error Setpoint: Status Setpoint: Value Output 1: Status Output 1: Value Output 2: Status Output 2: Value...
Page 191 AI Function Block Analog Input (AI) Function Block Overview ......5-126 Modes ..............5-126 Alarm Detection .
Page 192 DVC6000f Series D Out of Service (OOS) The block is not processed. FIELD_VAL [19] and PV [7] are not updated and the OUT [8] status is set to Bad: Out of Service. The BLOCK_ERR [6] parameter shows Out OUT_D of Service. In this mode, you can make changes to all configured parameters.
Page 193 AI Function Block Channels OUT (mode in man) Table 5-53. Channel Selections for the Analog Input Function Block OUT (mode in auto) Index Channel Parameter Block Number 63% of Change TRAVEL_TARGET FINAL_POSITION_VALUE FIELD_VAL TRAVEL SUPPLY_PRESS TIME (seconds) PRESSURE_A PV_FTIME PRESSURE_B Figure 5-25.
Page 194 DVC6000f Series ANALOG MEASUREMENT ALARM_TYPE ACCESS HI_HI_LIM ANALOG HI_LIM MEAS. ALARM LO_LO_LIM DETECTION LO_LIM OUT_D CHANNEL ALARM_HYS LOW_CUT CUTOFF FILTER CONVERT STATUS CALC. SIMULATE L_TYPE PV_FTIME MODE FIELD_VAL IO_OPTS STATUS_OPTS OUT_SCALE XD_SCALE NOTES: OUT_D = BLOCK OUTPUT VALUE AND STATUS OUT_D = DISCRETE OUTPUT THAT SIGNALS A SELECTED ALARM CONDITION.
Page 195 AI Function Block Simulation Table 5-54. BLOCK_ERR Conditions Condition Condition Name and Description To support testing, you can either change the mode of Number the block to manual and adjust the output value, or Other you can enable simulation through the configuration Block Configuration Error - the selected channel carries tool and manually enter a value for the measurement a measurement that is incompatible with the engineering...
Page 196 DVC6000f Series Troubleshooting Refer to table 5-55 to troubleshoot any problem that you encounter. Table 5-55. Troubleshooting Symptom Possible Causes Corrective Action Mode will not leave OOS Target mode is not set Set target mode to something other than OOS BLOCK_ERR [6] will show the configuration error bit set.
Page 197 AI Function Block AI Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentation and shaded Index Number indicates sub-parameter Table 5-56. Analog Input Block Parameter Definitions Label Index RO /...
Page 198 DVC6000f Series Table 5-56. Analog Input Block Parameter Definitions Label Index RO / Write Block Initial Range Description PARAMETER_NAME Number Mode Value Data Type: DS-68 EU at 100% The high and low scale values, engineering units EU at 10% Output Scale code, and number of decimal places to be used in OUT_SCALE Units Index...
Page 199 AI Function Block Table 5-56. Analog Input Block Parameter Definitions Label Index RO / Write Block Initial Range Description PARAMETER_NAME Number Mode Value Block Alarm BLOCK_ALM Undefined Acknowledged UNACKNOWLEDGED 21.1 Unacknowledged Data Type: DS-72 Undefined The block alarm is used for all configuration, Clear-reported hardware, connection failure or system problems ALARM_STATE...
Page 200 DVC6000f Series Table 5-56. Analog Input Block Parameter Definitions Label Index RO / Write Block Initial Range Description PARAMETER_NAME Number Mode Value Low Alarm LO_ALM UNACKNOWLEDGED 35.1 Data Type: DS-71 ALARM_STATE 35.2 The status of the lo alarm and its associated time TIME_STAMP 35.3 stamp.
Page 201 AI Function Block View Lists Table 5-59. AI Function Block, View 3 Index Parameter View lists allow the values of a set of parameters to be Number accessed at the same time. Views 1 and 2 contain ST_REV operating parameters and are defined by the Fieldbus MODE_BLK.TARGET_MODE Foundation.
Page 202 DVC6000f Series 375 Field Communicator Menu Structure ANALOG INPUT FUNCTION BLOCK Quick Config Online AI Channel Characteristics Block Error Linearization Type Static Revision Field Value: Status Transducer Scale: EU at 100% Field Value: Value Tag Description All (continued) Transducer Scale: EU at 0% Cascade Input: Status Strategy Alarm Hysteresis...
Page 203 MAI Function Block Multiple Analog Input (MAI) Function Block Overview ....5-138 Modes ..............5-138 Status Handling .
Page 204 DVC6000f Series D Automatic (Auto)—OUT_1 to OUT_8 [8 through 15] reflects the analog input measurement or the simulated value when the simulation is enabled. OUT_1 OUT_2 D Out of Service (OOS)—The block is not OUT_3 processed. PV is not updated and the OUT status is OUT_4 set to Bad: Out of Service.
Page 205 MAI Function Block Block Errors Troubleshooting Table 5-61 lists conditions reported in the Refer to table 5-62 to troubleshoot any problem that BLOCK_ERR [6] parameter. Conditions in italics are you encounter. inactive for the MAI block and are given here only for your reference.
Page 206 DVC6000f Series MAI Function Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentation and shaded Index Number indicates sub-parameter Table 5-63. MAI Function Block Parameter Definitions Label Index RO /...
Page 207 MAI Function Block Table 5-63. MAI Function Block Parameter Definitions Label Index RO / Mode Range Initial Value Description Parameter Name Number Output 4 Channel assigned by Data Type: DS-65 TB.TRAVEL OUT_4 TB.MAI_CHANNEL_MAP The block output value and status. Output 5 Channel assigned by Data Type: DS-65 TB.SUPPLY_PRESS...
Page 208 DVC6000f Series View Lists Table 5-65. MAI Function Block, View 2 Index Parameter View lists allow the values of a set of parameters to be Number accessed at the same time. Views 1 and 2 contain ST_REV operating parameters and are defined by the Fieldbus Foundation.
Page 209 MAI Function Block 375 Field Communicator Menu Structure MULTIPLE ANALOG INPUT FUNCTION BLOCK Quick Config Online Characteristics MAI Channel Block Error Static Revision Block Mode: Target Tag Description Block Mode: Actual Strategy Block Mode: Permitted Common Config Alert Key Block Mode: Normal Alert Key Block Mode: Target Output 1: Status...
Page 210 DVC6000f Series 5-144 March 2006...
Page 211 DO Function Block Discrete Output (DO) Function Block Overview ..... . 5-146 Modes ..............5-146 Mode Handling .
Page 212 DVC6000f Series Modes The DO block supports the following modes: BKCAL_OUT_D CAS_IN_D D Manual (Man)—The block output OUT_D [9] value may be entered manually. OUT_D D Automatic (Auto)—The block algorithm uses READBACK_D the local set point SP_D [8]value to determine OUT_D [9].
Page 213 DO Function Block Retained Target—The retained target mode is the must change those parameters from their uninitialized target mode for the block before changing the target value to a valid value in order for the function block to mode to a remote mode. On failure of a remote move from the Out of Service mode.
Page 214 DVC6000f Series RCAS_OUT_D RCAS_IN_D BKCAL_OUT_D PV_D SP_D CONVERT AND STATUS CALCULATION CAS_IN_D OUT_D READBACK_D IO_OPTS MODE SIMULATE_D SHED MODE CHANNEL TRANSDUCER TRANSDUCER BLOCK FEEDBACK BLOCK Figure 5-29. Discrete Output Function Block Schematic states used by the digital valve controller for the set Table 5-69.
Page 215 DO Function Block considered a logic 1. With this option disabled, OUT_D Table 5-70. BLOCK_ERR Conditions [9] is a direct copy of SP_D [8]. The readback value is Condition Condition Name and Description processed through the Invert option to become PV_D Number [7].
Page 216 DVC6000f Series D Transducer Value and Status reflect the process values provided by the transducer block. Note When simulate discrete is active, the D Simulate Value and Status may be entered by output block no longer writes values the user when Simulate Enable_Disable is set to to the transducer block.
Page 217 DO Function Block Discrete Output Function Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentation and shaded Index Number indicates sub-parameter Table 5-71.
Page 218 DVC6000f Series Table 5-71. Discrete Output Function Block Parameter Definitions (Continued) Label Index RO / Mode Range Initial Value Description PARAMETER_NAME Number Data Type: Uint16 Process Value State Index to the text describing the states of a discrete PV_STATE output. Data Type: Uint16 Transducer State Index to the text describing the states of a discrete...
Page 219 DO Function Block Table 5-71. Discrete Output Function Block Parameter Definitions (Continued) Label Index RO / Mode Range Initial Value Description PARAMETER_NAME Number 0=Uninitialized 1=Normal Shed, Normal Return 2=Normal Shed, No Return 3=Shed to Auto, normal return 4=Shed to Auto, no Data Type: Unsigned8 return.
Page 220 DVC6000f Series View Lists View lists allow the values of a set of parameters to be Table 5-74. DO Function Block, View 3 accessed at the same time. Views 1 and 2 contain Index Parameter operating parameters and are defined by the Fieldbus Number Foundation.
Page 221 DO Function Block 375 Field Communicator Menu Structure DISCRETE OUTPUT FUNCTION BLOCK Quick Config Online Alert Key Back Calculation Output Discrete: Status Characteristics Process Value Discrete: Status Back Calculation Output Discrete: Value Static Revision Process Value Discrete: Value Block Error Tag Description Setpoint Discrete: Status Cascade Input Discrete: Status...
Page 222 DVC6000f Series 5-156 March 2006...
Page 223 DI Function Block Discrete Input (DI) Function Block Overview ......5-158 Modes ..............5-158 Block Initialization .
Page 224 DVC6000f Series Service. The BLOCK_ERR [6] parameter shows Out of Service. TRANSDUCER OUT_D BLOCK Block Initialization OUT_D = The block output and status The Fieldbus Foundation specification requires that Figure 5-30. Discrete Input (DI) Function Block certain parameters in the function blocks have initial values of uninitialized.
Page 225 DI Function Block Discrete Signal FIELD_VAL_D Alarm Detection OUT_D PV_D Invert Option SIMULATE MODE Figure 5-31. Discrete Input Function Block Schematic Table 5-76. Channel Selection for the Discrete Input Function Block Transducer Block Selection Transducer Block Parameter Bit Number Index Number TRAVEL_D INST_ALERTS_ACTIVE:PROX_ACTIVE 74.5...
Page 226 DVC6000f Series Table 5-77. Transducer Block Parameters Used with Discrete Input Function Block Channels 26 through 29 (Variable Limit DISCRETE INPUT Switch) CLEARED Transducer Block Parameter Function Parameter DEADZONE, 1% Tvl Lo Lo Alrt Pt Lo Lo Limit Switch trip point OF TRAVEL Tvl Lo Lo Alrt DB Lo Lo Limit Switch deadband...
Page 227 DI Function Block Table 5-79. BLOCK_ERR Conditions STANDARD DISCRETE INPUT Condition DISCRETE INPUT Condition Name and Description VALUE Number Other (N/A) Block Configuration Error—CHANNEL set to 0 through 10 (uninitialized) Link Configuration Error (N/A) Simulate Active—Simulate is enabled. Output does not reflect process conditions Local Override (N/A) Device Fault State Set (N/A)
Page 228 DVC6000f Series When SIMULATE_D [9] is enabled, the Simulate standard discrete input, the discrete input changes Active bit of the BLOCK_ERR [6] parameter is set state when the valve position passes a configurable (refer to the Block Errors description). When the trip point.
Page 229 DI Function Block Discrete Input Function Block Parameter List D Read/Write Capability: RO − Read Only, RW − Read Write D Mode: The block mode(s) required to write to the parameter D Double indentation and shaded Index Number indicates sub-parameter Table 5-80.
Page 230 DVC6000f Series Table 5-80. Discrete Input Function Block Parameter Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: Uint16 Index to the text describing the states of a Transducer State XD_STATE discrete for the value obtained from the transducer.
Page 231 DI Function Block Table 5-80. Discrete Input Function Block Parameter Definitions (Continued) Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Block Alarm Dynamic BLOCK_ALM Data Type: DS-72 0=Undefined The block alarm is used for all configuration, UNACKNOWLEDGED 19.1 1=Acknowledged...
Page 232 DVC6000f Series View Lists View lists allow the values of a set of parameters to be accessed at the same time. Views 1 and 2 contain Table 5-83. DI Function Block, View 3 operating parameters and are defined by the Fieldbus Index Parameter Foundation.
Page 233 DI Function Block 375 Field Communicator Menu Structure DISCRETE INPUT FUNCTION BLOCK Quick Config Online Alert Key Block Error Characteristics Process Value Discrete: Status Field Value Discrete: Status Static Revision Process Value Discrete: Value Field Value Discrete: Value Tag Description Block Mode: Target Strategy Block Mode: Actual...
Page 234 DVC6000f Series 5-168 March 2006...
Page 235 All Blocks Block Parameter Index ..........5-170 Block Channel Index .
Page 236 DVC6000f Series Table 5-85. Block Parameter Index Index Label Parameter Name Block Page Numbers Number 5-133 5-165 ISEL 5-105, 5-109 Acknowledge Option ACK_OPTION 5-90 Resource 5-6, 5-16 Actual Travel ACTUAL_TRAVEL Transducer 83.4 5-36, 5-58 Actuator Fail Action ACT_FAIL_ACTION Transducer 5-37, 5-42 Actuator Manufacturer Id ACT_MAN_ID Transducer...
Page 237 All Blocks Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number 5-133 5-75 5-165 5-153 ISEL 5-108 Block Alarm BLOCK_ALM 5-141 5-122 5-90 Resource 5-6, 5-16 Transducer 5-41 5-126, 5-131 5-71, 5-72 5-161, 5-162, 5-163 5-149, 5-151 ISEL 5-100, 5-105, 5-106...
Page 238 DVC6000f Series Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number Custom Points CUSTOM_POINTS Transducer 5-47 Cycle Count CYCLE_COUNT Transducer 5-34, 5-50, 7-6 Cycle Count Alrt Pt CYCLE_COUNT_ALRT_PT Transducer 77.6 5-34, 5-56 Cycle Count DB CYCLE_COUNT_DB Transducer 77.7...
Page 239 All Blocks Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number Fault State FAULT_STATE Resource 5-15, 7-4 5-70, 5-74 Fault State Time FSTATE_TIME 5-149, 5-152 Fault State Value FSTATE_VAL 5-70, 5-74 Fault State Value Discrete FSTATE_VAL_D 5-149, 5-152 Features...
Page 240 DVC6000f Series Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number IDeadBand IDEADBAND 5-93 Inlet Pressure INLET_PRESSURE Transducer 83.7 5-37, 5-58 Input 5-87 Input 1 IN_1 ISEL 5-104, 5-106 Input 2 IN_2 ISEL 5-104, 5-107 Input 3 IN_3 ISEL...
Page 241 All Blocks Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number MAI Channel Map MAI_CHANNEL_MAP Transducer 5-60 Maint Active MAINT_ACTIVE Transducer 5-39, 5-48 Maint Alarm MAINT_ALM Transducer 5-47 Maint Enable MAINT_ENABLE Transducer 5-30, 5-49 Maint Pri MAINT_PRI Transducer 9-3, 5-50...
Page 242 DVC6000f Series Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number PD Config PD_CONFIG Transducer 88.3 5-59 PD_DETAIL1_ACTIVE Transducer 74.9 5-52 PD Detail 1 Active PD_DETAIL2_ACTIVE Transducer 74.10 5-52 PD Detail 2 Active PD Detail 3 Active PD_DETAIL3_ACTIVE Transducer 74.11...
Page 243 All Blocks Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number 5-127, 5-132 5-160, 5-164 Process Value Filter Time PV_FTIME 5-82, 5-87 5-69, 5-71, 5-73 Process Value Scale PV_SCALE 5-86 Process Value State PV_STATE 5-152 Prox Active PROX_ACTIVE Transducer...
Page 244 DVC6000f Series Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number 5-69, 5-74 5-153 Setpoint Rate Down SP_RATE_DN 5-82, 5-87 5-69, 5-74 5-153 Setpoint Rate UP SP_RATE_UP 5-82, 5-87 FINAL_VALUE Setpoint Status STATUS Transducer 5-41, 7-5 Setpoint VALUE Shaft Stem Dia...
Page 245 All Blocks Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number 5-131 5-72 5-163 5-151 ISEL 5-106 Strategy STRATEGY 5-140 5-120 5-86 Resource 5-6, 5-12, 7-2 Transducer 5-40 Stroking Time Close STROKING_TIME_CLOSE Transducer 85.9 5-38, 5-59 Stroking Time Open STROKING_TIME_OPEN Transducer...
Page 246 DVC6000f Series Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number TRAVEL_TARGET Transducer 5-46 Target Travel Status STATUS 49.1 Target Travel VALUE 49.2 Temperature TEMPERATURE Transducer 5-32, 5-46, 7-6 Temperature Units TEMPERATURE_UNITS Transducer 5-35, 5-60 Temp Hi Alrt Pt TEMP_HI_ALRT_PT Transducer...
Page 247 All Blocks Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number Tvl Fac Hi TVL_FAC_HI Transducer 43.5 5-44 Tvl Fac Lo TVL_FAC_LO Transducer 43.6 5-44 Tvl Hi Alrt Pt TVL_HI_ALRT_PT Transducer 77.16 5-33, 5-56 Tvl Hi Cal TVL_HI_CAL Transducer 43.2...
Page 248 DVC6000f Series Table 5-85. Block Parameter Index (Continued) Index Label Parameter Name Block Page Numbers Number Valve Type VALVE_TYPE Transducer 5-36, 5-42 Write Alarm WRITE_ALM Resource 5-4, 5-17 Write Lock WRITE_LOCK Resource 5-4, 5-16, 5-23, 7-4 Write Priority WRITE_PRI Resource 5-4, 5-16 Zero Pwr Cond ZERO_PWR_COND...
Page 249 All Blocks Table 5-86. Block Channel Index Bit Number Channel Transducer Block Parameter Index Number Block Where Used (if applicable) FINAL_VALUE AO.OUT FINAL_POSITION_VALUE AO.READBACK TRAVEL_TARGET FINAL_POSITION_VALUE TRAVEL SUPPLY_PRESS PRESSURE_A PRESSURE_B PRESSURE_DIFF DRIVE_SIGNAL TRAVEL_DEVIATION TEMPERATURE CYCLE_COUNT TRAVEL_ACCUMULATION MAI_CHANNEL_MAP SETPOINT_D DO.OUT_D TRAVEL_D DO.READBACK_D TRAVEL_D INST_ALERTS_ACTIVE:PROX_ACTIVE...
Page 250 DVC6000f Series 5-184 March 2006...
Page 251 Calibration Section 6 Calibration Calibration ............. . . Travel Calibration .
Page 252 DVC6000f Series Calibration When a DVC6000f Series digital valve controller is Note ordered as part of a control valve assembly, the factory mounts the digital valve controller on the The Transducer Block Mode actuator and connects the necessary tubing, then sets must be set to Manual and the up and calibrates the instrument.
Page 253 Calibration ACTUATOR Note STEM Prior to Calibration, several parameters need to be set up. Travel mode needs to be selected in TVL_PRESS_CNTL [41], and in Basic Setup (BASIC_SETUP [42]) the following parameters must be configured: Actuator Style FEEDBACK ARM (ACTUATOR_STYLE [42. 1]), Zero Pwr Cond (ZERO_PWR_COND [42.2], Feedback Conn (FEEDBACK_CONN [42.4]), Relay Type (RELAY_TYPE...
Page 254 DVC6000f Series 1. From the adjustment menu, select the direction and size of change required to adjust the output until the Note valve is near mid-travel (50%). Selecting large, medium, and small adjustments causes changes of approximately 10.0°, 1.0°, and 0.1°, respectively, to If the instrument is in the travel control the feedback arm rotation.
Page 255 Calibration Double-Acting Actuators FOR SINGLE-ACTING DIRECT RELAYS: Note ROTATE ADJUSTMENT DISC IN THIS DIRECTION UNTIL IT CONTACTS THE BEAM FOR DOUBLE-ACTING RELAYS: Converting a Type A relay from ROTATE ADJUSTMENT DISC IN single-acting to double-acting requires THIS DIRECTION TO DECREASE OUTPUT PRESSURE several full turns of the adjustment disc in the + direction (increasing...
Page 256 DVC6000f Series BEAM ASSEMBLY Note ADJUSTMENT DISC This is just a rough adjustment to position the adjustment disc in the correct range. Unless the disc has substantially deviated from this position, you do not need to make any adjustments. If you are unsure, TRAVEL STOP continue on without making any adjustments.
Page 257 Calibration 0.14 mm (0.055 INCH) TRAVEL STOP W8277 RELAY BODY Figure 6-4. Relay Beam, Upper View WARNING Travel Sensor Adjust Failure to remove air pressure may (TB > Calibrate > Travel Sensor Adjust) cause personal injury or property damage from bursting parts. The travel sensor is normally adjusted at the factory and should not require adjustment.
Page 258 DVC6000f Series ADJUSTMENT DISC 0.14 mm (0.055 INCH) TRAVEL STOP RELAY BODY W8278 Figure 6-5. Relay Beam, Lower View Table 6-1. Travel Sensor Counts Digital Valve Controller Travel Sensor Counts Type DVC6010f / DVC6015 3375 $ 150 counts Type DVC6020f / DVC6025 8400 $ 150 counts Alignment Pin Type DVC6030f / DVC6035...
Page 259 Calibration BACK EDGE OF ARM PARALLEL Note W/BACK OF HOUSING In the next step, be sure the arm ARM ASSEMBLY assembly outer surface remains flush with the end of the travel sensor shaft. ARM ASSEMBLY PIN 7. While observing the travel sensor counts, tighten the screw that secures the arm assembly to the travel sensor shaft.
Page 260 DVC6000f Series CAP SCREW, HEX SOCKET MOUNTING (KEY 116) ADAPTER (KEY 117) MOUNTING BRACKET (KEY 74) BIAS SPRING (KEY 82) CAP SCREW, HEX HEAD (KEY 92) ARM ASSEMBLY PIN ARM ASSEMBLY (KEY 91) FEEDBACK ARM ASSEMBLY FEEDBACK ARM (KEY 84) TORSION SPRING (KEY 93) A7024 -1/ IL...
Page 261 Viewing Device Information Section 7 Viewing Device Information Instrument Identification ..........View Lists .
Page 262 DVC6000f Series Display Instrument Identification Read-only parameters on the resource and transducer block configuration pages provide identification information about the instrument. Detailed information Instrument for these parameters is provided in this section. (RB > Display > Instrument) The following parameters are contained in the the Instrument menu of the resource block.
Page 263 Viewing Device Information D Device Revision D Feature Selection Device Revision (DEV_REV [12]) identifies the device Feature Selection (FEATURE_SEL [18]) indicates revision number. It is used by the host system to which device features have been selected. locate the DD file for the device. D DD Revision DD Revision (DD_REV [13]) identifies the minimum revision of the device description (DD) that is...
Page 264 DVC6000f Series D Device State blocks and the transducer block modes are Out of Service. Device State (RS_STATE [7]) indicates the state of D Fault State the function blocks. Four states are possible: Fault State (FAULT_STATE [28]), when active, Initialization —The instrument enters this state indicates a loss of communication to an output block, upon restart or failure.
Page 265 Viewing Device Information Transducer Block Therefore, the normal or target mode attributes may have a value that is not permitted because the This section contains information on the DVC6000f permitted attribute was modified after the Normal or Series digital valve controller transducer block. Target mode was set.
Page 266 DVC6000f Series D Pressure A Tvl Press Status Pressure A (PRESSURE_A.VALUE [36.2]) shows the value of Output Pressure A in psi, bar or kPa. (TB > Display > Tvl Press Status) The following parameters are contained in the Tvl D Pressure B Press Status menu of the transducer block.
Page 267 Viewing Device Information D Supp Press Min Time Device Record Supply Pressure Minimum Time (SUPP_PRESS_MIN_TIME [86.8]) shows the date (TB > Display > Device Record ) and time when the Supp Press Min occurred. The following parameters are contained in the Device Record menu of the transducer block.
Page 268 DVC6000f Series March 2006...
Page 269 Principle of Operation Section 8 Principle of Operation Digital Valve Controller Operation ........March 2006...
Page 270 DVC6000f Series 9–32 VOLT FIELDBUS DIGITAL SETPOINT AUXILIARY TERMINALS TERMINAL BOX VALVE TRAVEL PRINTED FEEDBACK WIRING BOARD DRIVE SIGNAL OUTPUT A CONVERTER SUPPLY PNEUMATIC PRESSURE RELAY OUTPUT B VALVE AND ACTUATOR E0408-1 / IL DIRECT ACTING RELAY TYPE A ZERO POWER CONDITION = VALVE CLOSED Figure 8-1.
Page 271 Principle of Operation SOCKET-HEAD SCREW TERMINAL BOX ASSEMBLY O-RING TERMINAL BOX COVER O-RING PRINTED WIRING BOARD MODULE BASE ASSEMBLY ASSEMBLY PRESSURE GAUGES SOCKET-HEAD SCREWS (3) (OPTIONAL) RETAINING CLIPS (3) 0-RINGS (3) MODULE BASE SEAL SHROUD TRAVEL I/P CONVERTER O-RING SENSOR ASSEMBLY PNEUMATIC RELAY HOUSING...
Page 272 DVC6000f Series March 2006...
Page 273 PlantWeb Alerts Section 9 PlantWeb Alerts Instrument Alert Conditions ..........PlantWeb Alerts .
Page 274 DVC6000f Series Enable Instrument Set Alert Points Enable PlantWeb Use Resource and Transducer Alert Condition in and Deadband in Alert in the Block Parameters to Configure the Transducer the Transducer Transducer Block Block Block LIMITS INSTRUMENT ALERT PLANTWEB PLANTWEB EXCEEDED TO START "...
Page 275 PlantWeb Alerts condition is reported for priorities 2 through 15, with the higher priorities taking precedence over the lower Note priorities. Failed Suppress (FAILED_MASK [65]), Maintenance Additional details on setting up and Suppress (MAINT_MASK [66]), and Advise Suppress using Instrument Alerts can be found (ADVISE_MASK [67]) determine which of the alert on page 5-29 of this manual.
Page 276 DVC6000f Series Table 9-1. Setting PlantWeb Alerts PlantWeb Alert Alert Category Alert Condition What the Alert is Related Parameters and Guidelines for Setting and (Group) and (Default) and (Default) Detecting (Default) The difference between the Self Test Shutdown (No) Drive Current User Config.
Page 277 PlantWeb Alerts Table 9-1. Setting PlantWeb Alerts (Continued) PlantWeb Alert Alert Category Alert Condition What the Alert is Related Parameters and Guidelines for Setting and (Group) and (Default) and (Default) Detecting (Default) Double Acting Actuators— Enable the alert and configure it to report in the Failed Alert Category.
Page 278 DVC6000f Series Table 9-1. Setting PlantWeb Alerts (Continued) PlantWeb Alert Alert Category Alert Condition What the Alert is Related Parameters and Guidelines for Setting and (Group) and (Default) and (Default) Detecting (Default) Enable the alert in the Maintenance Alert Category. Set the Alert Point to which The supply pressure reading ever is lower of...
Page 279 PlantWeb Alerts Table 9-1. Setting PlantWeb Alerts (Continued) PlantWeb Alert Alert Category Alert Condition What the Alert is Related Parameters and Guidelines for Setting and (Group) and (Default) and (Default) Detecting (Default) Enable this alert for critical loops, where it is important Travel Limit Hi Hi The Travel is greater than the Alert Point (125%)
Page 280 DVC6000f Series Table 9-2. Using PlantWeb Alerts PlantWeb Alert Alert Condition What the Alert is Effect on Valve / Recommended Help Alert and Category and and (Default) Detecting Instrument Action (Group) (Default) Drive Current User Config. Drive Current The difference between the If configured for Self Check I/P The instrument has...
Page 281 PlantWeb Alerts Table 9-2. Using PlantWeb Alerts (Continued) PlantWeb Alert Alert Condition What the Alert is Effect on Valve / Recommended Help Alert and Category and and (Default) Detecting Instrument Action (Group) (Default) Output Block User Config. Output Block If the AO or DO block has If configured for Self Check Output The function block...
Page 282 DVC6000f Series Table 9-2. Using PlantWeb Alerts (Continued) PlantWeb Alert Alert Condition What the Alert is Effect on Valve / Recommended Help Alert and Category and and (Default)) Detecting Instrument Action (Group) (Default) Travel Sensor User Config. Travel Sensor The parameter If configured for Self Check mounting Travel feedback value is...
Page 283 PlantWeb Alerts Table 9-2. Using PlantWeb Alerts (Continued) PlantWeb Alert Alert Condition What the Alert is Effect on Valve / Recommended Alert and Category and Help and (Default) Detecting Instrument Action (Group) (Default) Temperature User Config. Temperature The temperature sensor None −...
Page 284 DVC6000f Series Table 9-2. Using PlantWeb Alerts (Continued) PlantWeb Alert Alert Condition What the Alert is Effect on Valve / Recommended Alert and Category and Help and (Default) Detecting Instrument Action (Group) (Default) Travel User Config. Travel Deviation The difference between None −...
Page 285 PlantWeb Alerts Table 9-2. Using PlantWeb Alerts (Continued) PlantWeb Alert Alert Condition What the Alert is Effect on Valve / Recommended Alert and Category and Help and (Default)) Detecting Instrument Action (Group) (Default) Performance User Config. Performance Critical performance issues None −...
Page 286 DVC6000f Series 9-14 March 2006...
Page 287 Maintenance 10-10 Section 10 Maintenance and Troubleshooting Module Base Maintenance Removing the Module Base ..........10-4 Replacing the Module Base .
Page 288 DVC6000f Series Stroking the Digital Valve Controller Output ......10-14 Troubleshooting ............10-15 Instrument Troubleshooting .
Page 289 Maintenance Maintenance D Check with your process or safety engineer for any additional measures The DVC6000f Series digital valve controller enclosure that must be taken to protect against is rated NEMA 4X and IP66, therefore periodic process media. cleaning of internal components is not required. If the DVC6000f is installed in an area where the exterior surfaces tend to get heavily coated or layered with industrial or atmospheric contaminants, however, it is...
Page 290 DVC6000f Series Table 10-1. Tools Required TERMINAL BOX Tool Size Phillips Screwdriver Relay, printed wiring board MODULE BASE assembly, and cover screws ASSEMBLY Hex key 5 mm Terminal box screw Hex key 1.5 mm Terminal box cover screw Hex key 2.5 mm I/P converter screws Hex key...
Page 291 Maintenance Replacing the Module Base To replace the module base, for DVC6010f, DVC6020f and DVC6030f digital valve controllers, perform the following steps. Refer to figures 11-2, 11-4 and 11-6, respectively, for key number locations. Refer to figure 10-2 for a view of the back of the PWB assembly sub-module.
Page 292 DVC6000f Series CAUTION Exercise care when performing maintenance on the module base. Reinstall the cover to protect the I/P converter and gauges when servicing other submodules. In order to maintain accuracy specifications, do not strike or drop the I/P converter during submodule maintenance.
Page 293 Maintenance Removing the Printed Wiring Board SHROUD Assembly (KEY 169) 1. Separate the module base from the housing by performing the Removing the Module Base procedure. 2. Remove three screws (key 33). SOCKET-HEAD 3. Lift the PWB assembly (key 50) straight out of the SCREWS (4) (KEY 23) module base (key 2).
Page 294 DVC6000f Series Gauges, Pipe Plugs, or Tire Valves Depending on the options ordered, the DVC6000f Series digital valve controller will be equipped with either gauges (key 47), pipe plugs (key 66), or tire valves (key 67). Single-acting direct instruments will also have a screen (key 236, figure 11-8) These are located on the top of the module base next to the relay.
Page 295 Maintenance Removing the Terminal Box 6. Reconnect the field wiring as noted in step 2 in the Removing the Terminal Box procedure. 7. Apply silicone lubricant to the O-ring (key 36) and WARNING install the O-ring over the 2-5/8 inch threads of the terminal box.
Page 296 DVC6000f Series 3. Remove the instrument from the actuator. 1. Remove piping and fittings from the instrument. 2. Remove the digital valve controller from the 4. Loosen the screw (key 80) that secures the actuator. Loosen the screw (key 80) that secures the feedback arm (key 79) to the travel sensor shaft.
Page 297 Maintenance PIN 1 PIN 2 PIN 3 TRAVEL SENSOR WIRES, KEYED REMOTE MOUNT FEEDBACK UNITS (TYPE DVC6015, DVC6025 AND DVC6035) TRAVEL SENSOR CONNECTOR TYPE DVC6010f, DVC6020f AND DVC6030f NOTE: THE POTENTIOMETER RESISTANCE BETWEEN PINS 2 AND 3 CAN BE MEASURED AT THE CONNECTOR. INSERT TWO SHORT LENGTHS OF 22 AWG WIRE INTO THE PIN 2 AND 3 RECEPTACLES IN THE CONNECTOR.
Page 298 DVC6000f Series sensor shaft. Be sure the resistance reading remains at the calculated resistance determined in step 7, Note $100 ohms. Paint the screw to discourage tampering with the connection. For the Type DVC6025 feedback unit, connect the potentiometer assembly 11.
Page 299 Maintenance 18. For the DVC6020f only, connect the travel sensor BIAS SPRING connector to the PWB as described in Replacing the (KEY 82) FEEDBACK Module Base. ASSEMBLY (KEY 84) 19. For both the DVC6020f and the DVC6025, perform the appropriate Travel Sensor Adjust procedure in the Calibration section.
Page 300 DVC6000f Series the hole marked “A” on the feedback arm. Fully $100 ohms. Paint the screw to discourage tampering engage the alignment pin into the tapped hole in the with the connection. housing. Position the feedback arm so that the outer 12.
Page 301 Maintenance Instrument Troubleshooting D Is the digital valve controller correctly connected to the fieldbus? See the Installation section. What to Do First D Is there power to the device? Is the terminal When a problem occurs, check the following first: voltage between 9 and 32 volts? See the Installation section.
Page 302 DVC6000f Series Table 10-2. Instrument Troubleshooting (Continued) Symptom Possible Cause Action 2. Device does not stay on segment. 2.a Incorrect signal level. 2.a1 Check that segment is properly terminated (see host system documentation). 2.a2 Wrong cable type or segment length too long. See Site Planning Guide.
Page 303 Maintenance Table 10-2. Instrument Troubleshooting (Continued) Symptom Possible Cause Action 7. Transducer block Setpoint 7.a Transducer block mode in not Auto. 7.a Change transducer block mode to Auto. (FINAL_VALUE [13]) is not being 7.b AO block is not active. 7.b Change resource block parameter automatically updated from the AO FEATURE_SEL to de-selected DO Control.
Page 304 DVC6000f Series Table 10-2. Instrument Troubleshooting (Continued) Symptom Possible Cause Action 13. Valve responds too slowly. 13.e Defective gasket. 13.e Check gasket for closed holes, excessive deformation due to overtightening or “oozing”. If necessary, replace gasket (see the beginning of this section).
Page 305 Maintenance Table 10-2. Instrument Troubleshooting (Continued) Symptom Possible Cause Action 15. Instrument will not calibrate. 15.a Configuration errors. 15.a Verify configuration. 15.b Feedback arm bent/damaged or bias spring 15.b Replace feedback arm and bias spring (see the missing/damaged. Maintenance section). Perform Setup Wizard (see page 4-2 of the Basic Setup and Tuning Section).
Page 306 DVC6000f Series 10-20 March 2006...
Page 307 Parts 11-11 Section 11 Parts Parts Ordering ............11-2 Parts Kits .
Page 308 DVC6000f Series Parts Ordering Parts Kits Whenever corresponding with your Emerson Process Conversion kit 6 listed below provides the parts Management sales office about this equipment, required to convert a DVC6010f to a DVC6020f. always mention the controller serial number. When...
Page 309 Parts Description Part Number Description Part Number Cover Assembly (includes cover screws) PTFE Sleeve Kit [For pot bushing assembly (kit includes Aluminum 10 sleeves and lubricant)] Standard 38B9580X012 DVC6010f and DVC6020f GE08726X012 Extreme termperature option DVC6030f GE08727X012 (fluorosilicone elastomers) 38B9580X032 Spare Module Base Assembly Kit, aluminum Stainless Steel [kit contains module base assy (key 2);...
Page 310 Cap Screw, hex socket, SST Terminal Box Assembly FIELDBUS Label PWB Assembly Feedback Parts Note Common Feedback Parts Contact your Emerson Process Management sales office for PWB Assembly FS Numbers. Cap Screw, hex socket, SST Square Nut, SST PWB Assembly 223*...
Page 311 Parts Description Part Number Description Part Number For DVC6010f, DVC6015, DVC6030f, and For DVC6020f and DVC6025 DVC6035 Bias Spring, SST Alignment Pin Flange Bearing, Rulon (2 req’d) Bias Spring, SST Feedback Arm Assy, SST Feedback Arm, E-ring, pl stl ) (2 req’d) 304 SST Plain Washer, pl stl (2 req’d)
Page 312 DVC6000f Series SECTION A-A SECTION B-B APPLY LUB, SEALANT NOTES: SEE FIGURE 11-8 FOR GAUGE CONFIGURATIONS 2. APPLY LUBRICANT KEY 65 TO ALL O-RINGS UNLESS OTHERWISE SPECIFIED 49B3261-B SHT 1, 2 & 3 29B3403-A Figure 11-1. Type DVC6005f Base Unit 11-6 March 2006...
Page 313 Parts SECTION C-C SECTION E-E OUTPUT A OUTPUT A OUTPUT B OUTPUT B SUPPLY SUPPLY PIPESTAND MOUNTING WALL MOUNTING APPLY LUB, SEALANT NOTES: 1. APPLY LUBRICANT KEY 65 TO ALL O-RINGS UNLESS OTHERWISE SPECIFIED 49B2361 SHT 3 / DOC Figure 11-1. Type DVC6005f Base Unit (continued) 11-7 March 2006...
Page 314 DVC6000f Series OUTPUT A SECTION A-A OUTPUT B SUPPLY SECTION D-D SECTION C-C SECTION E-E APPLY LUB, SEALANT NOTES: SEE FIGURE 11-8 FOR GAUGE CONFIGURATIONS 2. APPLY LUBRICANT KEY 65 TO ALL O-RINGS UNLESS OTHERWISE SPECIFIED 48B7710-E/G SHT 1 & 2 / DOC 29B3403-A Figure 11-2.
Page 315 Parts SECTION C-C SECTION B-B SECTION D-D SECTION A-A APPLY LUB, SEALANT NOTE: 1. APPLY LUBRICANT KEY 65 TO ALL O-RINGS UNLESS OTHERWISE SPECIFIED 48B7986-A Figure 11-3. Type DVC6015 Digital Valve Controller Assembly 11-9 March 2006...
Page 316 DVC6000f Series SECTION A-A SECTION B-B SECTION C-C SECTION D-D SECTION E-E APPLY LUB, SEALANT 48B9596-E/G SHT 1 & 2 / DOC 29B3403-A Figure 11-4. Type DVC6020f Digital Valve Controller Assembly 11-10 March 2006...
Page 317 Parts APPLY LUB, SEALANT NOTES: SEE FIGURE 11-8 FOR GAUGE CONFIGURATIONS 2. APPLY LUBRICANT KEY 65 TO ALL O-RINGS UNLESS OTHERWISE SPECIFIED 48B9596-E SHT 3 / DOC Figure 11-4. Type DVC6020f Digital Valve Controller Assembly (continued) 11-11 March 2006...
Page 318 DVC6000f Series SECTION B-B SECTION A-A APPLY LUB, SEALANT, THREAD LOCK NOTE: 1. APPLY LUBRICANT KEY 65 TO ALL O-RINGS UNLESS OTHERWISE SPECIFIED 48B7987-A Figure 11-5. Type DVC6025 Digital Valve Controller Assembly 11-12 March 2006...
Page 319 Parts SECTION B-B OUTPUT A SUPPLY SECTION A-A OUTPUT B SECTION C-C SECTION D-D APPLY LUB, SEALANT, THREAD LOCK NOTES: SEE FIGURE 11-8 FOR GAUGE CONFIGURATIONS 2. APPLY LUBRICANT KEY 65 TO ALL O-RINGS UNLESS OTHERWISE SPECIFIED 48B9597-E/G SHT 1 & 2 / DOC 29B3403-A Figure 11-6.
Page 320 DVC6000f Series SECTION C-C SECTION B-B SECTION A-A APPLY LUB, SEALANT, THREAD LOCK NOTE: 1. APPLY LUBRICANT KEY 65 TO ALL O-RINGS UNLESS OTHERWISE SPECIFIED 48B7988-A Figure 11-7. Type DVC6035 Digital Valve Controller Assembly 11-14 March 2006...
Page 321 Parts DOUBLE-ACTING SINGLE-ACTING DIRECT SINGLE-ACTING REVERSE APPLY LUB, SEALANT NOTE: FOR SINGLE-ACTING DIRECT, OUTPUT B IS PLUGGED. FOR SINGLE-ACTING REVERSE, OUTPUT A IS PLUGGED. 48B7710-G SHT 2 / DOC Figure 11-8. Typical DVC6000f Series Digital Valve Controller Gauge Configuration 11-15 March 2006...
Page 322 DVC6000f Series 11-16 March 2006...
Page 323 fieldbus Communication OUNDATION A-A- Appendix A fieldbus OUNDATIONt Communication Fieldbus Communication OUNDATIONt ....... Function Block Overview .
Page 324 DVC6000f Series Fieldbus The Fieldbus F has established the OUNDATION OUNDATIONt function blocks by defining a set of parameters used in Communication all function blocks called universal parameters. The Fieldbus F has also defined a standard set OUNDATION The DVC6000f Series digital valve controllers use of function block classes, such as input, output, fieldbus to communicate with other OUNDATION...
Page 325 fieldbus Communication OUNDATION Input Output Execution Control Events Events Input Processing Output Input Parameter Output Parameter Snap Algorithm Snap Linkages Linkages status status B2711 / IL Figure A-1. Function Block Internal Structure Resource Blocks Block Modes All blocks have modes. The mode determines the The resource block contains hardware specific source of the set point, the destination of the output, characteristics associated with the device;...
Page 326 DVC6000f Series Table A-1. Block Modes Block Supported Mode Values RESOURCE BLOCK Resource Auto and OOS Transducer Auto, Manual, and OOS RCas, Cas, Auto, Man, LO , IMan , and OOS ROut, RCas, Cas, Auto, Man, LO , IMan , and ISEL Auto, Man and OOS ANALOG OUTPUT...
Page 327 fieldbus Communication OUNDATION Table A-2. Examples of Block Mode Combinations and Table A-3. Status Attribute Quality and Substatus Operational statuses for an Instrument with Standard Control Components Blocks Quality Substatus Operational Status Good (NC) Non-specific Initial Setup and Good (NC) Active Block Alarm −...
Page 328 DVC6000f Series Fieldbus Segment LINK MASTER BASIC DEVICES LAS = Link Active Scheduler B2712-1 / IL Figure A-3. Simple Single-Link Fieldbus Network Limit Propagation Fieldbus Foundation specifications for a more detailed description. The following describes how the The following describes limit propagation: transducer block passes status information to the AO AO Block block.
Page 329 fieldbus Communication OUNDATION Host System Schedule DT(A) CD (X, A) Device X Device Y Device Z LAS=Link Active Scheduler P=Publisher S=Subscriber CD=Compel Data DT=Data Transfer Packet B2713-1 / IL Figure A-4. Scheduled Data Transfer group addressing and for use by the data link layer. If D distributes a priority-driven token to devices there are two or more devices with the same address, between scheduled transmissions.
Page 330 DVC6000f Series Host System PT (Z) Schedule LAS=Link Active Scheduler P=Publisher Device X Device Y Device Z S=Subscriber PT=Pass Token M=Message B2714-1 / IL Figure A-5. Unscheduled Data Transfer Figure A-4 diagrams the method of scheduled data All of the devices on the fieldbus are given a chance to transfer.
Page 331 fieldbus Communication OUNDATION Start of Next Macrocycle Macrocycle Start Time Sequence Repeats Offset from macrocycle start time = 0 for AI Execution Device 1 Offset from macrocycle start time = 20 for AI Communication Scheduled Communication Unscheduled Communication Offset from macrocycle start time = 30 for AI Execution Device 2 Offset from macrocycle...
Page 332 DVC6000f Series A-10 March 2006...
Page 333 Device Description (DD) Installation B-B- Appendix B Device Description (DD) Installation Overview ..............Device Descriptions and Methods .
Page 334 DVC6000f Series Overview 4601. This number is stored in the instrument Resource Block in the parameter Device Type Several support files are required for the DVC6000f (parameter name DEV_TYPE). Series digital valve controller. They are: is the 2-digit hexadecimal equivalent of the device revision, as defined by the D Device Description (DD) files—These files manufacturer.
Page 335 Device Description (DD) Installation Device Description and Methods fieldbus technology uses Device OUNDATION Descriptions (DD) and function blocks to achieve interoperability between instruments and control systems or hosts from various manufacturers. The DD provides information to describe the data interface to the device.
Page 336 DVC6000f Series D Device descriptions furnished by Fisher contain only those files applicable to Fisher. All the files are located in the manufacturer ID Folder (005100 for xxxxxx in directory structure above). A readme file is included at the top level. Read this file for any additional information regarding DD installation.
Page 337 Device Description (DD) Installation 4. Copy the 005100 folder (and all its subfolders) from the CD-ROM or website download location to the base folder. If this is an update (the folders already exist), the system informs you that the folders already exist and asks if they should be replaced.
Page 338 DVC6000f Series March 2006...
Page 339 Operating with DeltaVt C-C- Appendix C Operating with DeltaVt Getting Started ............Transducer Block Parameter −...
Page 340 DVC6000f Series Process Systems DeltaVt System Getting Started with DeltaVt Host Systems Appropriate Device Descriptions (DDs) installed. For example, working with a device revision 2 digital valve controller requires DDs that support device revision 2 be installed. For DD installation information see Appendix B.
Page 341 Operating with DeltaVt Table C-1. Transducer Block Parameter − Configuration Index (also refer to figure C-4) PARAMETER LABEL PARAMETER LABEL PARAMETER LABEL Act Fail Action Actuator Port Diameter Trim Travel Travel Alerts Act Manufacturer Actuator Port Type Trim Travel Accum Alert Pt Travel History Alerts Act Model Number Actuator...
Page 342 DVC6000f Series Table C-2. Resource Block Parameter − Configuration Index (also refer to figure C-5) PARAMETER LABEL Actual Mode Mode Alert Key Alarm Handling Block Alarm Alarm Handling Confirm Time Alarm Handling DD Revision Instrument Device Revision Instrument Device Type Instrument Diagnostic Options Options...
Page 343 Operating with DeltaVt Introduction ALL CONTAINERS Note This appendix does not necessarily provide the latest information on the DeltaV system. For the latest information on using the DeltaV system, refer to the on-line help or documentation supplied with the system. This appendix provides specific instructions for performing basic setup operations on the DVC6000f Series DeltaV host system.
Page 344 DVC6000f Series TRANSDUCER BLOCK ICON AND NAME METHODS DIGITAL VALVE CONTROLLER ICON AND NAME Figure C-2. Accessing Transducer Block Methods Starting Methods RESOURCE BLOCK MASTER RESET DISPLAY DD ICON AND NAME METHOD VERSION METHOD Transducer Block The following methods are accessed via the transducer block: Setup Wizard, Auto Travel Calibration, Manual Travel Calibration, Supply Sensor Travel Calibration, Output A Sensor Calibration,...
Page 345 Operating with DeltaVt LEFT-CLICK TO ACCESS TRANSDUCER BLOCK PARAMETERS Figure C-4. Accessing Transducer Block Parameters 3. Highlight the resource block icon in the Contents 3. Locate Configure in the context menu and left-click. of... pane and right-click once on the block icon or 4.
Page 346 DVC6000f Series LEFT-CLICK TO ACCESS RESOURCE BLOCK PARAMETERS Figure C-5. Accessing Resource Block Parameters Simulate PlantWeb Alarms Bringing the Device On-Line To completely configure the digital valve controller for For information on PlantWeb Alarms, refer to page use in a fieldbus loop, the following conditions must be 5-38 of the Transducer Block section of Detailed met.
Page 347 Operating with DeltaVt SIMULATE ALARMS TAB FAILED MAINTENANCE ADVISORY Figure C-6. Accessing Simulate Plant Web Alarms March 2006...
Page 348 DVC6000f Series C-10 March 2006...
Page 349 Loop Schematics/Nameplates This section includes loop schematics required for wiring of intrinsically safe installations. It also includes the approvals nameplates. If you have any questions, contact your Emerson Process Management sales office. SEE NOTES ON NEXT PAGE GE04331-A SHEETS 1 and 2 Figure D-1.
Page 350 DVC6000f Series NOTES GE04331-A SHEET 3 Figure D-1. CSA Schematics for Type DVC6000f Series (continued) March 2006...
Page 351 Loop Schematics/Nameplates SEE NOTES ON NEXT PAGE GE07476-A SHEETS 1 and 2 Figure D-2. CSA Schematics for Type DVC6005f March 2006...
Page 352 DVC6000f Series NOTES GE07476-A SHEET 3 Figure D-2. CSA Schematics for Type DVC6005f (continued) March 2006...
Page 353 Loop Schematics/Nameplates TYPES DVC6010F, DVC6020F, DVC6030F, DVC6010FS, DVC6020FS, DVC6030FS TYPE DVC6005F TYPES DVC6015, DVC6025, DVC6035 Figure D-3. CSA Nameplates March 2006...
Page 354 DVC6000f Series SEE NOTES ON NEXT PAGE GE04332-A SHEETS 1 and 2 Figure D-4. FM Schematics for Type DVC6000f Series March 2006...
Page 355 Loop Schematics/Nameplates NOTES GE04332-A SHEET 3 Figure D-4. FM Schematics for Type DVC6000f Series (continued) March 2006...
Page 356 DVC6000f Series SEE NOTES ON NEXT PAGE GE07475A SHEETS 1 and 2 Figure D-5. FM Schematics for Type DVC6005f March 2006...
Page 357 Loop Schematics/Nameplates NOTES GE07475-A SHEET 3 Figure D-5. FM Schematics for Type DVC6005f (continued) March 2006...
Page 358 DVC6000f Series TYPES DVC6010F, DVC6020F, DVC6030F, DVC6010FS, DVC6020FS, DVC6030FS TYPE DVC6005F TYPES DVC6015, DVC6025, DVC6035 Figure D-6. FM Nameplates D-10 March 2006...
Page 359 Loop Schematics/Nameplates TYPES DVC6010F, DVC6020F, DVC6030F, DVC6010FS, DVC6020FS, DVC6030FS TYPE DVC6005F TYPES DVC6015, DVC6025, DVC6035 Figure D-7. ATEX Nameplates; Intrinsic Safety, Dust-Tight D-11 March 2006...
Page 360 DVC6000f Series TYPES DVC6010F, DVC6020F, DVC6030F, DVC6010FS, DVC6020FS, DVC6030FS TYPE DVC6005F TYPE DVC6015, DVC6025, DVC6035 Figure D-8. ATEX Nameplates; Flameproof, Dust-Tight D-12 March 2006...
Page 361 Loop Schematics/Nameplates TYPES DVC6010F, DVC6020F, DVC6030F, DVC6010FS, DVC6020FS, DVC6030FS TYPE DVC6005F TYPES DVC6015, DVC6025, DVC6035 Figure D-9. ATEX Nameplates; Type n, Dust-Tight D-13 March 2006...
Page 362 DVC6000f Series TYPES DVC6010F, DVC6020F, DVC6030F, DVC6010FS, DVC6020FS, DVC6030FS TYPE DVC6005F TYPES DVC6015, DVC6025, DVC6035 Figure D-10. IECEx Nameplates; Intrinsic Safety, Type n, Flameproof D-14 March 2006...
Page 363: Glossary
Glossary Glossary Algorithm Controller A set of logical steps to solve a problem or A device that operates automatically to regulate a accomplish a task. A computer program contains controlled variable. one or more algorithms. Crossover Point The mid-point of the stroking range of a Alphanumeric sliding-stem actuator.
Page 364 DVC6000f Series Firmware Memory The combination of a hardware device and A type of semiconductor used for storing computer instructions and data that reside as programs or data. FIELDVUE instruments use three types of memory: Random Access Memory read-only software on that device. (RAM), Read Only Memory (ROM), and Non-Volatile Memory (NVM).
Page 365 Glossary Temperature Sensor Tuning A device within the FIELDVUE instrument that The adjustment of control terms or parameter measures the instrument’s internal temperature. values to produce a desired control effect. Tuning Set Travel Preset values that identify gain and rate settings Movement of the valve stem or shaft which for a FIELDVUE instrument.
Page 366 DVC6000f Series Notes Glossary Glossary-4 March 2006...
Page 367 Index Application Information AO Block, 5-70 DI Block, 5-162 Actuator Style, 5-24 PID Block, 5-84 Addressing, A-6 Auto Calibrate Travel, 6-3 Alarm Detection AI Block, 5-126 DI Block, 5-160 ISEL Block, 5-105 Basic Setup, 4-2 PID Block, 5-84 Auto Calibrate Travel, 4-6 Alarms, Setting Priority, 9-3 Stabilize/Optimize, 4-7 Alerts, Enabling, Travel Alerts, High and Low,...
Page 368 DVC6000f Series Report Distribution, A-8 Unscheduled Transfers, A-8 Calibration, 6-2 Device Description (DD) Auto Calibrate Travel, 6-3 Description, A-5 , B-3 Manual Travel Calibration, 6-4 Installation, B-2 Output A Pressure, 6-10 On a DeltaV ProfessionalPlus Output B Pressure, 6-10 Workstation, B-3 Pressure Sensor, 6-9 Other Fieldbus Host Systems, B-4 Supply Pressure Sensor, 6-9...
Page 369 Index Fieldbus Connections Quick Connect Cable Entry, 2-20 Twisted Shielded Pair, 2-20 Feedback Connection, 5-24 , 5-37 Fieldbus Control, 1-2 Feedforward, Calculation, 5-83 Fieldbus Diagnostics, Field Communicator, Field Communicator Fieldbus Logic, 1-2 Alphanumeric Keypad, 3-3 Backlight Adjustment Key, 3-3 FOUNDATION Fieldbus Communication, Block List Selections, 3-6 Principle of Operation, A-2 Changing the I/O Block Schedule, 3-6...
Page 370 DVC6000f Series Modes, 5-100 Output A Pressure Sensor Calibration, 6-10 Parameter List, 5-106 Output B Pressure Sensor Calibration, 6-10 Status Handling Limit Propagation, 5-101 PlantWeb Alerts, 5-29 , 9-2 Quality Use and Propagation, 5-100 Relay Adjust, 6-5 Substatus Propagation, 5-101 Resource Block Mode, 5-4 STATUS_OPTS Supported, 5-104 Restart, 5-7...
Page 371 Index Ordering, 11-2 Printed Wiring Board Assembly, 11-4 Relay, 11-4 Nameplates Terminal Box, 11-4 ATEX Flameproof, Dust-Tight, D-12 Pass Token (PT), A-7 , A-8 Intrinsic Safety, Dust-Tight, D-11 PID Block, 5-80 Type n, Dust-Tight, D-13 375 Field Communicator Menu Structure, CSA, D-5 5-97 FM, D-10...
Page 372 DVC6000f Series Protection, 4-2 Setup Options, 5-5 Feature Selection, Output Readback, 5-5 Transducer Block, 5-23 View lists, 5-19 , 5-142 Proximity Detection, using the DI block for, Viewing Device Information, 7-2 5-160 Setup, Resource Block, 5-4 Publisher (P), A-7 , A-8 Resource Block Mode, 5-4 PW Alarm Enable , 5-30 Response Control, 5-25...
Page 373 Index AO Block, 5-70 Travel Sensor Motion, 5-24 Tvl/Press Select, 5-23 DI Block, 5-161 DO Block, 5-149 Zero Power Condition, 5-24 Limit Propagation Special Instructions for Safe Use and AO Block, A-6 Installation in Hazardous Locations, 2-3 DO Block, A-6 ATEX Flameproof, Dust, 2-4 MAI Channel Map, 5-36 ATEX Intrinsic Safety, Dust, 2-3...
Page 374 DVC6000f Series Tuning Set, 5-25 , 5-26 Tvl Integ DeadZ, 5-26 Variable Limit Switch, using the DI block as, Tvl Integ Enable, 5-26 5-159 Tvl Integ Lim Hi, 5-26 View Lists, 7-2 Tvl Integ Lim Lo, 5-26 AI Function Block, 5-135 AO Block, 5-76 Tvl Integral Gain, 5-26 DI Function Block, 5-166...
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Page 376 PlantWeb, FIELDVUE, ValveLink and Fisher are marks owned by Fisher Controls International LLC, a member of the Emerson Process Management business division of Emerson Electric Co. DeltaV is a mark owned by one of the companies in the Emerson Process Management business division of Emerson Electric Co.

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