Fisher FIELDVUE DVC6200p Instruction Manual
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Fisher FIELDVUE DVC6200p Instruction Manual

Digital valve controller
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Download this manual See also: Instruction Manual Supplement
Instruction Manual
D103563X012
Fisher
FIELDVUE
Controller
This manual applies to:
Device ID Number
Device Revision
Hardware Revision
Firmware Revision
DD Revision
Instrument Level
Current GSD
Profile Specific GSD
DTM Revision
www.Fisher.com
DVC6200p Digital Valve
0x1037
1
9
1.5.1.2.0
1, 3
FD
FC051037
PA139710
1.0
DVC6200p Digital Valve Controller
June 2017

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Summary of Contents for Fisher FIELDVUE DVC6200p

  • Page 1 Instruction Manual DVC6200p Digital Valve Controller June 2017 D103563X012 ™ ™ Fisher FIELDVUE DVC6200p Digital Valve Controller This manual applies to: Device ID Number 0x1037 Device Revision Hardware Revision Firmware Revision 1.5.1.2.0 DD Revision 1, 3 Instrument Level Current GSD...

  • Page 3: Table Of Contents

    Instruction Manual DVC6200p Digital Valve Controller D103563X012 June 2017 Contents Section 5 Viewing Device Section 1 Introduction and Specifications Variables and Diagnostics ... Scope of Manual ......Overview .
  • Page 4 Instruction Manual DVC6200p Digital Valve Controller June 2017 D103563X012 Appendix C Blocks ....Appendix D Module Definitions, IO Bytes, Physical Block ....... and Data Length .

  • Page 5: Section 1 Introduction And Specifications

    The DVC6200p can be mounted on single or double‐acting sliding‐stem actuators, as shown in figure 1‐1, or on rotary actuators. It can also be integrally mounted to the Fisher GX control valve and actuator system, as shown in figure 1‐2.
  • Page 6 Introduction and Specifications June 2017 D103563X012 Figure 1‐1 FIELDVUE DVC6200p Digital Valve Figure 1‐2. FIELDVUE DVC6200p Digital Valve Controller Mounted on a Fisher Sliding‐Stem Valve Controller Integrally Mounted to a Fisher GX Control Actuator Valve and Actuator System W9616_profibus W9643_profibus Instrument Blocks The digital valve controller is a block‐based device.

  • Page 7: Specifications

    Instruction Manual Introduction and Specifications D103563X012 June 2017 Function Blocks In addition to the physical and transducer block, the digital valve controller contains the following function blocks. 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.
  • Page 8 Available Mounting Supply Medium Air or Natural Gas DVC6200p digital valve controller and DVC6215 feedback unit: J Integral mounting to Fisher Supply medium must be clean, dry and 657/667 or GX actuators J Integral mounting to non-corrosive. Fisher rotary actuators, J Sliding‐stem linear Per ISA Standard 7.0.01...
  • Page 9 Instruction Manual Introduction and Specifications D103563X012 June 2017 Table 1‐1. Specifications (continued) Independent Linearity CUTR— Customs Union Technical Regulations (Russia, Kazakhstan, Belarus, and Armenia) Typical Value: ±0.50% of output span INMETRO— National Institute of Metrology, Quality and Technology (Brazil) Electromagnetic Compatibility KGS—...
  • Page 10 D103563X012 Table 1‐1. Specifications (continued) Options Declaration of SEP Fisher Controls International LLC declares this Supply and output pressure gauges or product to be in compliance with Article 4 paragraph Tire valves J Integral mounted filter regulator 3 of the PED Directive 2014 / 68 / EU. It was designed Low‐Bleed Relay J Extreme Temperature...

  • Page 11: Related Information

    D Bulletin 62.1:DVC6200p FIELDVUE DVC6200p Digital Valve Controller (D103564X012) D Bulletin 62.1:DVC6200(S1) FIELDVUE DVC6200 Digital Valve Controller Dimensions (D103543X012) All documents are available from your Emerson sales office, Local Business Partner, or at Fisher.com. Educational Services For information on available courses contact:...
  • Page 12 Instruction Manual Introduction and Specifications June 2017 D103563X012...

  • Page 13: Section 2 Wiring Practices

    Instruction Manual Installation D103563X012 June 2017 Section 2 Wiring Practices2‐2‐ Quick Connect Cable Entry The DVC6200p is offered with a quick connect cable entry option, shown in figure 2‐1, for the PROFIBUS signal. The quick connect cable entry provides an easier and more reliable interface to PROFIBUS devices and support modules by providing a standard connection.

  • Page 14: Communication Connections

    Instruction Manual Installation June 2017 D103563X012 c. Insert the wire pigtail into the desired conduit opening on the terminal box. Tighten the quick connector in the conduit opening. d. The instrument is not polarity sensitive. Connect the blue wire to the negative LOOP terminal in the terminal box.

  • Page 15: Section 3 Configuration

    Instruction Manual Configuration D103563X012 June 2017 Section 3 3‐3‐ Configuration Figure 3‐1. Example of Typical Online Screen Transducer Block Mode Modes The transducer block can be in one of two modes: d Automatic (Auto)— This is the operational mode for this block. When the transducer block is in the Auto mode, all other functions blocks will function normally.

  • Page 16: Guided Setup

    Instruction Manual Configuration June 2017 D103563X012 Guided Setup D Device Setup— This procedure, accessible from the Guided Setup tab, as shown in figure 3‐2, is used to configure actuator and valve information, calibrate the valve assembly, and assign the tuning set for the valve assembly. Figure 3‐2.

  • Page 17: Reponse Control

    Instruction Manual Configuration D103563X012 June 2017 Note The DVC6200p may keep the Transducer Block Mode Out‐of‐Service if the instrument is not properly mounted. To setup and calibrate the instrument, the Transducer Block Mode must be AUTO and the output block (AO or DO) must be OOS. Protection must be None.

  • Page 18: Travel Deviation Fallback

    Instruction Manual Configuration June 2017 D103563X012 D Pressure Tune Cutoff Lo defines the low cutoff point for the pressure in percent (%) of pre‐characterized setpoint. Below this cutoff, the pressure target is set to -23%. A Pressure Tune Cutoff Lo of 0.5% is recommended to help ensure maximum shutoff seat loading.
  • Page 19 Use Expert tuning if standard tuning has not achieved the desired results. Table 3‐3 provides tuning set selection guidelines for Fisher and Baumann™ actuators. These tuning sets are recommended starting points. After you finish setting up and calibrating the instrument, you may have to select either a higher or lower tuning set to get the desired response.
  • Page 20 60, 70 Depends upon pneumatic connections. See 1061 Piston Dbl w/o Spring description for Travel Sensor Motion 68, 80, 100, 130 Fisher Depends upon pneumatic connections. See 1066 20, 27, 75 Piston Dbl w/o Spring Specify description for Travel Sensor Motion...

  • Page 21: Pressure Tuning Set

    Instruction Manual Configuration D103563X012 June 2017 Pressure Tuning Set WARNING Changes to the tuning set may cause the valve/actuator assembly to stroke. To avoid personal injury or property damage caused by moving parts, keep hands, tools, and other objects away from the valve/actuator assembly. There are twelve Pressure Tuning Sets to choose from.

  • Page 22: Change Tuning And Integral Setting

    Instruction Manual Configuration June 2017 D103563X012 Change Tuning and Integral Settings Travel Tuning D Travel Tuning Set, there are eleven Travel Tuning Sets to choose from. Each tuning set provides a preselected value for the digital valve controller gain settings. D Travel Proportional Gain, for travel control tuning only. Changing this parameter will also change the tuning set to Expert.

  • Page 23: Performance Tuning

    Instruction Manual Configuration D103563X012 June 2017 Tuner WARNING During tuning the valve may move, causing process fluid or pressure to be released. To avoid personal injury and property damage caused by the release of process fluid or pressure, isolate the valve from the process and equalize pressure on both sides of the valve or bleed off the process fluid.

  • Page 24: Instrument

    Instruction Manual Configuration June 2017 D103563X012 Figure 3‐3. Travel Target Versus Ranged Set Point, for Various Input Characteristics (Zero Power Condition = Closed) Set Point, % Set Point, % Input Characteristic Linear Input Characteristic Equal Percentage Set Point, % Input Characteristic Quick Opening A6535‐1 Instrument Actuator Style—...

  • Page 25: Enter Assembly Specification

    Instruction Manual Configuration D103563X012 June 2017 Note As a general rule, do not use less than 60% of the magnet assembly travel range for full travel measurement. Performance will decrease as the assembly is increasingly subranged. The linear magnet assemblies have a valid travel range indicated by arrows molded into the piece. This means that the hall sensor (on the back of the DVC6200p housing) has to remain within this range throughout the entire valve travel.
  • Page 26 Instruction Manual Configuration June 2017 D103563X012 D Valve Model Number— enter the design letter or type number for the valve on which the instrument is mounted. D Valve Serial Number—enter the serial number of the valve on which the instrument is mounted. D Valve Type—...
  • Page 27 Instruction Manual Configuration D103563X012 June 2017 D Feedback Connection —refer to table 3‐5 for Feedback Connection options. Choose the assembly that matches the actuator travel range. D Travel Sensor Motion— establishes the proper valve travel sensor (feedback) rotation/movement. For quarter‐turn actuators determine rotation by viewing the rotation of the magnet assembly from the back of the instrument. WARNING 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 through its full travel range.

  • Page 28: Units

    Instruction Manual Configuration June 2017 D103563X012 D Field Serial Number— enter the instrument serial number. Units Select the appropriate units for your application. D Temperature Unit— _C or _F D Pressure Unit— psig, kPa, Bar, inHg, inH O, or kg/cm D Travel Unit— cm, mm, inch, or deg D Length Unit—...

  • Page 29: Alert Setup

    Instruction Manual Configuration D103563X012 June 2017 Alert Setup Instrument Alert Conditions, when enabled, detect many operational and performance issues that may be of interest. To view these alerts, you must open the appropriate status screen on a host system. Configure Alert Category— select Failed, Maintenance, or Advisory. Failed A failed alert indicates a failure within the device that will make the device or some part of the device non‐operational.

  • Page 30: Travel Limits

    Instruction Manual Configuration June 2017 D103563X012 Travel Deviation D Travel Deviation—Travel Deviation displays the absolute difference in percent between Travel Target and Actual Travel. D Deviation Alert Point— the alert point for the difference, expressed in percent (%), between the travel target and the actual travel.

  • Page 31: Travel History Alerts

    Instruction Manual Configuration D103563X012 June 2017 Travel Limit Lo Lo This alert is active if the Travel is lower than the Travel Lo Lo Alert point. See figure 3‐5. D Lo Lo Alert Point— set when the value of the travel, in percent (%) of ranged travel, goes below the Travel Lo Lo Alert Point .
  • Page 32 Instruction Manual Configuration June 2017 D103563X012 Figure 3‐6. Cycle Counter Deadband (set at 10%) Deadband exceeded, and direction changed, new Reference Point established Point at which cycle is counted Deadband Reference Point Deadband (+/- 5%) A6533‐1 D Cycle Counter Limit— is the value of the Cycle Counter, in cycles, which, when exceeded, sets the Cycle Counter Alert.

  • Page 33: Pressure Alerts

    Instruction Manual Configuration D103563X012 June 2017 Figure 3‐7. Travel Accumulator Deadband (set at 10%) Deadband exceeded, new Reference Point established This amount of change is Deadband Reference added to the Travel Point Accumulator Deadband (+/- 5%) A6534 Pressure Alerts Supply Pressure Hi Alert This alert is active when the supply pressure exceeds the Supply Pressure Hi Alert Point.

  • Page 34: Temperature Alerts

    Instruction Manual Configuration June 2017 D103563X012 Temperature Alerts Temperature Hi This alert is active if the temperature is greater than the Temperature Hi Alert Point. D Temperature Hi Alert Point— active when the instrument temperature exceeds the Temperature Hi Alert Point. Temperature Low This alert is active if the temperature is lower than the Temperature Lo Alert Point.

  • Page 35: Memory Alerts

    Instruction Manual Configuration D103563X012 June 2017 Memory Alerts Program Memory Alert This alert is active if a pending Flash or NVM failure is present. Static Memory Alert This alert is active if a failure occurs in the FRAM memory where the static parameters are stored. Processor Alert This alert is active if a failure occurs in the I/O processor.

  • Page 36: Calibration Alerts

    Instruction Manual Configuration June 2017 D103563X012 Calibration Alerts Auxiliary Terminal Shorted Alert This alert is active when the Auxiliary Terminal is shorted, to perform auto calibration or auto tuning, for more than the set time. Calibration Automatic This alert is active when Auto calibration is in progress. Calibration by Hand This is alert is active when Manual calibration is in progress.

  • Page 37: Section 4 Calibration

    Instruction Manual Calibration D103563X012 June 2017 Section 4 Calibration 4-4- Calibration Overview When a DVC6200p digital valve controller is ordered as part of a control valve assembly, the factory mounts the digital valve controller on the actuator and connects the necessary tubing, then sets up and calibrates the controller. For digital valve controllers that are ordered separately perform Device Setup to configure and calibrate the instrument.

  • Page 38: Manual

    Instruction Manual Calibration June 2017 D103563X012 Follow the prompts to automatically calibrate travel. 1. The auto calibration procedure is automatic. It is completed when the calibration menu shows the progress is 100% complete. During calibration, the instrument seeks the high and low end points. By searching for the end points, the instrument establishes the limits of physical travel, i.e.
  • Page 39 Instruction Manual Calibration D103563X012 June 2017 Double‐Acting Relay The double‐acting relay is designated by “Relay A” on a label affixed to the relay itself. For double‐acting actuators, the valve must be near mid‐travel to properly adjust the relay. The valve will automatically be positioned when Relay is selected.

  • Page 40: Pressure A Or B Sensor

    Instruction Manual Calibration June 2017 D103563X012 Pressure Sensors Note Air must be applied to the DVC6200p to calibrate the pressure sensors. If no air is present there is potential to calibrate with a span of zero, which will result in the pressure sensors not functioning. Select the appropriate pressure sensor on the A/B Pressure Sensor tab from the Configure >...

  • Page 41: Supply Pressure Sensor

    Instruction Manual Calibration D103563X012 June 2017 Supply Pressure Note The pressure sensor is calibrated at the factory and should not require calibration. To calibrate the supply pressure sensor, connect an external reference gauge to the output side of the supply regulator.

  • Page 42: Auxiliary Terminal Calibration

    Pressure range will also be captured during this procedure. Figure 4‐2. Short the Auxiliary Terminal Connections Note Calibration time varies depending on the type and size of the actuator. For a Fisher 667 size 30 actuator typical calibration time is approximately 4-5 minutes.

  • Page 43: Section 5 Viewing Device Variables And Diagnostics

    Instruction Manual Viewing Device Variables and Diagnostics D103563X012 June 2017 Section 5 Device Information, Diagnostics, and Alerts5‐5‐ Overview Status & Primary Purpose Variables The overview section provides basic information about the current state of the instrument and gives you access to the current values of: D Device/Alert Status D Communication Status...

  • Page 44: Service Tools

    Instruction Manual Viewing Device Variables and Diagnostics June 2017 D103563X012 Service Tools Alerts Active Alerts Instrument Alert Conditions, when enabled, detect many operational and performance issues that may be of interest. Refer to Alert Setup on page 27 for alert information. Alert History Contains information about past alerts, including the date and time.

  • Page 45: Maintenance

    Instruction Manual Viewing Device Variables and Diagnostics D103563X012 June 2017 D Drive Signal Value indicates the drive signal, as a percentage of the maximum drive available, going from the printed wiring board to the I/P converter. In most applications, the drive signal ranges between 50% and 75% of the maximum drive signal.
  • Page 46 Instruction Manual Viewing Device Variables and Diagnostics June 2017 D103563X012 Restart Options WARNING Restarting the instrument may cause loss of process control. To avoid personal injury and property damage caused by the release of pressure of process fluid, isolate the valve from the process and equalize pressure on both sides of the valve or bleed off the process fluid.

  • Page 47: Section 6 Maintenance And Troubleshooting

    Instruction Manual Maintenance and Troubleshooting D103563X012 June 2017 Section 6 Maintenance and Troubleshooting6-6- The DVC6200p digital valve controller enclosure is rated Type 4X and IP66, therefore periodic cleaning of internal components is not required. If the DVC6200p is installed in an area where the exterior surfaces tend to get heavily coated or layered with industrial or atmospheric contaminants, it is recommended that the vent (key 52) be periodically removed and inspected to ensure there is no partial or full obstruction.

  • Page 48: Replacing The Magnetic Feedback Assembly

    Instruction Manual Maintenance and Troubleshooting June 2017 D103563X012 from fire or explosion if natural gas is used as the supply medium and appropriate preventive measures are not taken. Preventive measures may include, but are not limited to, one or more of the following: ensuring adequate ventilation and the removal of any ignition sources.

  • Page 49: Removing The Module Base

    Instruction Manual Maintenance and Troubleshooting D103563X012 June 2017 Removing the Module Base Refer to figure 7‐2 or 7‐4 for key number locations. WARNING To avoid personal injury or equipment damage from bursting of parts, turn off the supply pressure to the digital valve controller and bleed off any excess supply pressure before attempting to remove the module base assembly from the housing.

  • Page 50: Replacing The Module Base

    Instruction Manual Maintenance and Troubleshooting June 2017 D103563X012 Replacing the Module Base Refer to figure 7‐2 or 7‐4 for key number locations. Refer to figure 6‐2 for a view of the back of the PWB assembly sub‐module. Figure 6‐2. Back View of PWB Assembly Sub‐Module TERMINAL BOX CONNECTOR TRAVEL SENSOR CONNECTOR...

  • Page 51: Submodule Maintenance

    Instruction Manual Maintenance and Troubleshooting D103563X012 June 2017 CAUTION Personal injury, property damage, or disruption of process control can result if the cable assemblies/wiring are damaged when attaching the cover to the module base assembly Ensure that the cable assemblies/wiring are positioned in the cavity of the module base so they do not get compressed or damaged when attaching the cover to the module base assembly in step 6.
  • Page 52 Instruction Manual Maintenance and Troubleshooting June 2017 D103563X012 Figure 6‐3. I/P Filter Location O‐RING LOCATED W8072 IN I/P CONVERTER SCREEN (FILTER) LOCATED IN OUTPUT PORT I/P CONVERTER SUPPLY PORT Removing the I/P Converter 1. Remove the front cover (key 43), if not already removed. 2.

  • Page 53: Printed Wiring Board (Pwb) Assembly

    Instruction Manual Maintenance and Troubleshooting D103563X012 June 2017 3. Install the I/P converter (key 41) straight into the module base (key 2), taking care that the two electrical leads feed into the guides in the module base. These guides route the leads to the printed wiring board assembly submodule. 4.

  • Page 54: Pneumatic Relay

    Instruction Manual Maintenance and Troubleshooting June 2017 D103563X012 Pneumatic Relay Refer to figure 7‐2 or 7‐4 for key number locations. The pneumatic relay (key 24) is located on the front of the module base. Note After relay submodule replacement, calibrate the digital valve controller to maintain accuracy specifications. Removing the Pneumatic Relay 1.

  • Page 55: Terminal Box

    Instruction Manual Maintenance and Troubleshooting D103563X012 June 2017 1. Remove the front cover (key 43). 2. Remove the gauge, pipe plug, or tire valve as follows: For gauges (key 47), the flats are on the gauge case. Use a wrench on the flats of the gauge to remove the gauge from the module base.

  • Page 56: Stroking The Digital Valve Controller Output

    Instruction Manual Maintenance and Troubleshooting June 2017 D103563X012 3. Connect the terminal box wiring connector to the PWB assembly (key 50). 4. Reassemble the module base to the housing by performing the Replacing the Module Base procedure. 5. Reconnect the field wiring as noted in step 2 in the Removing the Terminal Box procedure. 6.
  • Page 57 Instruction Manual Maintenance and Troubleshooting D103563X012 June 2017 Table 6‐2. Instrument Troubleshooting Symptom Possible Cause Action 1 Instrument will not communicate. 1a No power to device 1a1 Ensure device is connected to the segment (see host system documentation). 1a2 Measure the terminal voltage. Terminal voltage should be between 9 and 32 VDC.
  • Page 58 Instruction Manual Maintenance and Troubleshooting June 2017 D103563X012 Table 6‐2. Instrument Troubleshooting Symptom Possible Cause Action 5 Input or Output Block does not go to 5a Physical block actual mode is Out of Service 5a Change Physical block target mode to Auto (refer to mode target the Physical Block tab under Manual Setup >...
  • Page 59 Instruction Manual Maintenance and Troubleshooting D103563X012 June 2017 Table 6‐2. Instrument Troubleshooting Symptom Possible Cause Action 12e Defective relay. 12e Remove relay, inspect for missing Belleville washer, missing valve spring, missing valve plug. Inspect “lip” under top O‐ring for breakage due to relay removal. Inspect O‐rings and replace if hard or damaged.
  • Page 60 Instruction Manual Maintenance and Troubleshooting June 2017 D103563X012 Technical Support Checklist Have the following information available prior to contacting your Emerson sales office or Local Business Partner for support. Reference 1. Instrument serial number as read from nameplate _________________________________________ 2. What is the firmware version of the DVC6200p? _________________ 3.

  • Page 61: Section 7 Parts

    Use only genuine Fisher replacement parts. Components that are not supplied by Emerson Automation Solutions should not, under any circumstances, be used in any Fisher instrument. Use of components not supplied by Emerson Automation Solutions may void your warranty, might adversely affect the performance of the instrument, and could cause personal injury and property damage.

  • Page 62: Parts List

    Instruction Manual Parts June 2017 D103563X012 Description Part Number Description Part Number Mounting Shield Kit [kit contains shield, qty. 3 and machine screws, qty. 6] GG05242X022 Note The Remote Mount Feedback Unit kit is not orderable by part number Gasket/Seal Kit, for use with GX actuator due to nameplate/approval requirements.

  • Page 63: Common Parts

    Instruction Manual Parts D103563X012 June 2017 Description Part Number Figure 7‐1. Terminal Box of Natural Gas Certified FIELDVUE DVC6200p Digital Valve Controller Common Parts WIRING CONNECTOR GAS‐BLOCKING (see figure 7‐2, 7‐3, and 7‐4) PRESS‐FIT ADAPTOR DVC6200p and DVC6205p  16* O‐ring (3 req'd)  29...

  • Page 64: Terminal Box

    Instruction Manual Parts June 2017 D103563X012 Description Part Number Description 24* Relay Assembly, (includes shroud, relay seal, mounting screws)   Standard (continued)   Low Bleed PWB Assembly   Housing A (used for GX actuator)    Single‐acting direct (relay C) 38B5786X202 (see figure 7‐2 and 7‐4)    Single‐acting reverse (relay B) 38B5786X192   Housing B (used for all actuators except G)
  • Page 65 Instruction Manual Parts D103563X012 June 2017 Figure 7‐2. FIELDVUE DVC6200p Digital Valve Controller Housing Assembly GGE38642 HOUSING A—BACK VIEW HOUSING B—BACK VIEW (USED FOR GX ACTUATOR) (USED FOR ALL ACTUATORS EXCEPT GX) DOUBLE‐ACTING DIRECT‐ACTING REVERSE‐ACTING APPLY LUBRICANT, SEALANT, OR THREAD LOCK...
  • Page 66 Instruction Manual Parts June 2017 D103563X012 Figure 7‐2. FIELDVUE DVC6200p Digital Valve Controller Housing Assembly (continued) SECTION C-C SCALE 2 : 1 SECTION A-A SECTION E-E SCALE 2 : 1 SST ONLY APPLY LUBRICANT, SEALANT, OR THREAD LOCK SECTION F-F...
  • Page 67 Instruction Manual Parts D103563X012 June 2017 Figure 7‐4. FIELDVUE DVC6205p Base Unit Housing Assembly SECTION B-B SECTION A-A APPLY LUBRICANT, SEALANT, OR THREAD LOCK SECTION H-H APPLY LUBRICANT ON ALL O-RINGS UNLESS OTHERWISE SPECIFIED GE40181...
  • Page 68 Instruction Manual Parts June 2017 D103563X012 Figure 7‐4. FIELDVUE DVC6205p Base Unit Housing Assembly (continued) SST ONLY SECTION C-C SCALE 2 : 1 SECTION E-E SCALE 2 : 1 DOUBLE‐ACTING SHOWN DOUBLE‐ACTING DIRECT‐ACTING REVERSE‐ACTING APPLY LUBRICANT, SEALANT, OR THREAD LOCK APPLY LUBRICANT ON ALL O-RINGS UNLESS OTHERWISE SPECIFIED GE40181...
  • Page 69 Instruction Manual Parts D103563X012 June 2017 Figure 7‐4. FIELDVUE DVC6205p Base Unit Housing Assembly (continued) PIPE MOUNTING WALL MOUNTING APPLY LUBRICANT, SEALANT, OR THREAD LOCK APPLY LUBRICANT ON ALL O-RINGS UNLESS OTHERWISE SPECIFIED GE40181...
  • Page 70 Instruction Manual Parts June 2017 D103563X012 Figure 7‐5. FIELDVUE DVC6215 Remote Feedback Assembly SECTION A-A PARTS NOT SHOWN: 158 APPLY LUBRICANT/SEALANT GE46670-B HOUSING A (USED FOR GX ACTUATOR) SECTION A-A PARTS NOT SHOWN: 158 APPLY LUBRICANT/SEALANT GE40178-B HOUSING B (USED FOR ALL ACTUATORS EXCEPT GX)

  • Page 71: Appendix A Principle Of Operation

    This sensor is used for the minor loop feedback (MLFB) reading. The master module can be rebuilt by replacing the submodules. See figures A‐1 and A‐2. Figure A‐1. FIELDVUE DVC6200p Digital Valve Controller Block Diagram DIGITAL SETPOINT 9–32 VOLT...
  • Page 72 (output A is not available). With relay C an increasing setpoint will produce an increasing pressure on output A (output B is not available). The output A pressure is used for double‐acting and single‐acting direct applications. The output B pressure is used for double‐acting and single‐acting reverse applications. Figure A‐2. FIELDVUE DVC6200p Digital Valve Controller Assembly HOUSING PNEUMATIC RELAY...

  • Page 73: Appendix B Device Diagnostics

    Instruction Manual Device Diagnostics D103563X012 June 2017 Appendix B Device Diagnostics8‐ B‐B‐105. Description of device related diagnosis Unit_Diag_Bit(16) = "Error appears" Unit_Diag_Bit(17) = "Error disappears" Unit_Diag_Bit(35) = "Restart" Unit_Diag_Bit(36) = "Coldstart" Unit_Diag_Bit(37) = "Maintenance required" Unit_Diag_Bit(39) = "Ident_Number violation" Unit_Diag_Bit(40) = "Failure of the device"...
  • Page 74 Instruction Manual Device Diagnostics June 2017 D103563X012 Unit_Diag_Bit(80) = "Temperature Low" Unit_Diag_Bit(81) = "Travel Deviation" Unit_Diag_Bit(82) = "Travel Limit High High" Unit_Diag_Bit(83) = "Travel Limit Low Low" Unit_Diag_Bit(84) = "Travel Limit High" Unit_Diag_Bit(85) = "Travel Limit Low" Unit_Diag_Bit(86) = "Cycle Counter Alert" Unit_Diag_Bit(87) = "Travel Accumulator Alert "...

  • Page 75: Appendix C Blocks

    Instruction Manual Blocks— Physical Block D103563X012 June 2017 Appendix C BlocksC‐ C‐ Physical Block The physical block contains the hardware specific characteristics associated with a device; it has no input or output parameters. The physical block monitors and controls the general operation of other blocks within the device. Most of the physical block parameters are operational parameters that provide information about the instrument such as identification, hardware information, available options, etc.
  • Page 76 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Valid Range Description PARAMETER_NAME Number Value Octet 1: Number of PA profiles within PI Profile Class. Set to 0x40. Octet 2: 0x01: Class A, all standard params have their own memory...
  • Page 77 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Valid Range Description PARAMETER_NAME Number Value Block Mode MODE_BLK 7: OOS ACTUAL Auto Data Type: DS‐37 3: Auto The actual, permitted, and normal modes. 7: OOS PERMITTED OOS + Auto...
  • Page 78 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Valid Range Description PARAMETER_NAME Number Value Octet 1 0-7: Reserved, set to 0 Octet 2 0-2: Reserved, set to 0 3: DIA_WARMSTART - set after power up or after executing...
  • Page 79 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Valid Range Description PARAMETER_NAME Number Value Octet 1 0: DIA_LIMITS - Limits violation (R) 1: DIA_ADVISORY - Advisory message available (R) Bits 2 - 7: Reserved Octet 2 0: BM1 -...
  • Page 80 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Valid Range Description PARAMETER_NAME Number Value Octet 5 0: BM25 - Travel Open (R) 1: BM26 - Travel Closed (R) 2: BM27 - Proximity High High (R) Data Type: Octet String...
  • Page 81 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Valid Range Description PARAMETER_NAME Number Value 1: Reset parameters to default values. The setting of bus address is not affected. 2: Reset informational parameters.
  • Page 82 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Valid Range Description PARAMETER_NAME Number Value Feature FEATURE Octet 1: 0: Diagnosis Condensed_Status supported 1: Diagnosis Classic_Status supported 2: Data exchange SUPPORTED 26.1 0x01000000...
  • Page 83 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Valid Range Description PARAMETER_NAME Number Value DIAG_EVEN_SWITCH STATUS (Bits 0 - 3): 0: GOOD - OK 1: GOOD - maintenance required 2: GOOD - maintenance demanded...
  • Page 84 Instruction Manual Blocks— Physical Block D103563X012 June 2017 Table C‐1. Physical Block Parameter Definitions Label Index RO / Initial Mode Range Description PARAMETER_NAME Number Value Data Type: Unsigned32 Number of seconds since the last time Time Since Reset 0 - 0xFFFFFFFF DVC6200p was restarted.
  • Page 85 Instruction Manual Blocks— Physical Block D103563X012 June 2017 View Lists View lists allow the values of a set of parameters to be accessed at the same time. Table C‐2. Physical Block, View 1 Index Number Parameter ST_REV MODE_BLK.ACTUAL_MODE MODE_BLK.PERMITTED_MODE MODE_BLK.NORMAL_MODE ALARM_SUM.CURRENT ALARM_SUM.UNACKNOWLEDGED ALARM_SUM.UNREPORTED...

  • Page 86: Transducer Block

    Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Transducer Block The transducer block accepts a signal from an output block as a set point to position a valve using a pneumatic actuator. Input to the transducer block is in percent. Closed is 0%, and open is 100%. The transducer block contains setup and calibration information and can be tuned to closely match the actuator.
  • Page 87 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Data Type: Unsigned16 DD_REVISION Octet 1: Number of PA profiles within PI Profile Class. Set to 0x40.
  • Page 88 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Data Type: DS‐69 Block Mode 7: OOS The actual, target, permitted, and MODE_BLK 3: AUTO normal modes.
  • Page 89 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Data Type: Octet String Date of last configuration of the NULL SETUP DEVICE_CONFIG_DATE device.
  • Page 90 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category 0: Undetermined 1: Reserved 2: Aborted 3: Reserved 4: Error in mechanical system (pressure problem) 5-10: Reserved 12-127: Reserved...
  • Page 91 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Data Type: Float Closing time of the valve in seconds. Controls how fast TRAVEL_TARGET changes in response to 0 <= value <= 32768 NONE...
  • Page 92 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category 0: Not initialized 1: Good (new table is valid) 2: Not monotonous increasing (old table is valid) 3: Reserved 4: Not enough values...
  • Page 93 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Data Type: 101 The actual position of the device in units of OUT_SCALE. >=0 FEEDBACK_VALUE Controls AI channel 0x083A.
  • Page 94 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Data Type: 101 Characterized Valve travel in percent SETPOINT_D or characterized percent of pressure range.
  • Page 95 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Travel Pressure Control TVL_PRESS_CONTROL 1=Travel Data Type: Enum 2=Pressure Travel/Pressure Select 88.1 SETUP Selects whether travel sensor or port 3=TVL/PRESS Auto Recv TVL_PRESS_SELECT...
  • Page 96 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Travel Count Data Type: Unsigned16 90.1 TVL_COUNT Raw feedback from pot A/D. Data Type: Unsigned16 Travel Hi Calibration TVL_FAC_LO <= value <= 90.2...
  • Page 97 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Pressure Cutoff Lo Data Type: Float 94.2 -25 -125% 0.50% SETUP PRESS_CUTOFF_LO 0.5% hysteresis on leaving cutoff. Pressure Proportional Gain Data Type: Float >...
  • Page 98 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category SPEC_SHEET_VALVE Valve Size 107.1 NULL Data Type: Octet String VALVE_SIZE Valve Class 107.2 NULL Data Type: Octet String VALVE_CLASS...
  • Page 99 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category SPEC_SHEET_ACT Actuator Size 109.1 NULL Data Type: Octet String ACTUATOR SIZE Effective Area 109.2 0.00 Data Type: Float...
  • Page 100 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Data Type: ENUM Write lock enable/disable If setting is at or above a parameter's protection level then that parameter is read-only.
  • Page 101 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Octet 1 0: reserved, set to 0 1: unused, set to 0 2: Integrator Limited Low 3: Integrator Limited High 4: Tvl Sensor Span Error...
  • Page 102 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category Data Type: Float DI_LO_LO 1: Travel low low alert Data Type: Unsigned 8 active 1 if travel low low alert is active.
  • Page 103 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 Table C‐3. Transducer Block Parameter Definitions Label Index RO / Protect Mode Range Default Value Description PARAMETER_NAME Number Category INST_ALERTS_CONFIG4 Data Type: Uint32 Cycle Count Alert Point > = 0 Alerts when number of cycles is too 130.1 1,000,000% SETUP...
  • Page 104 Instruction Manual Blocks— Transducer Block D103563X012 June 2017 View Lists View lists allow the values of a set of parameters to be accessed at the same time. Table C‐4. Transducer Block, View 1 Index Number Parameter ST_REV MODE_BLK.ACTUAL MODE_BLK.PERMITTED MODE_BLK.NORMAL ALARM_SUM.CURRENT ALARM_SUM.UNACKNOWLEDGED ALARM_SUM.UNREPORTED...

  • Page 105: Analog Output Function Block

    Instruction Manual Blocks— AO Function Block D103563X012 June 2017 Analog 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 shared Index Number indicates sub‐parameter Table C‐1.
  • Page 106 Instruction Manual Blocks— AO Function Block June 2017 D103563X012 Table C‐1. Analog Output Function Block Parameter Definitions Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Data Type: Unsigned16 0.11 0x33 Number of used parameters in the block. NUMBER_OF_PARAMETERS Octet 1: (MSB): Slot...
  • Page 107 Instruction Manual Blocks— AO Function Block D103563X012 June 2017 Table C‐1. Analog Output Function Block Parameter Definitions Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Data Type: DS‐68 The high and low scale values, engineering unit Process Value Scale code, and number of decimal places to be used in PV_SCALE...
  • Page 108 Instruction Manual Blocks— AO Function Block June 2017 D103563X012 Table C‐1. Analog Output Function Block Parameter Definitions Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Data Type: 101 Status Setpoint provided to a supervisory host for monitoring / back calculation and to allow action to Remote Cascade Output be taken under limited conditions or mode change.
  • Page 109 Instruction Manual Blocks— AO Function Block D103563X012 June 2017 Table C‐1. Analog Output Function Block Parameter Definitions Label Index RO / Block Initial Range Description PARAMETER_NAME Number Mode Value Data Type: Unsigned8 SIMULATE_STATUS 35.1 Status written by an operator to simulate Transducer block value status Data Type: Float SIMULATE_VALUE...
  • Page 110 Instruction Manual Blocks— AO Function Block June 2017 D103563X012 View Lists View lists allow the values of a set of parameters to be accessed at the same time. Table C‐5. AO Function Block, View 1 Index Number Parameter ST_REV MODE_BLK.ACTUAL_MODE MODE_BLK.PERMITTED_MODE MODE_BLK.NORMAL_MODE ALARM_SUM.CURRENT...

  • Page 111: Discrete Output Function Block

    Instruction Manual Blocks— DO Function Block June 2017 D103563X012 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 shared Index Number indicates sub‐parameter Table C‐6.
  • Page 112 Instruction Manual Blocks—DO Function Block June 2017 D103563X012 Table C‐6. Discrete Output Function Block Parameter Definitions Label Index RO / Mode Range Initial Value Description PARAMETER_NAME Number Data Type: Unsigned8 0.13 0x01 Number of view objects of the block. NUMBER_OF_VIEWS Data Type: Unsigned16 The revision level of the static data.
  • Page 113 Instruction Manual Blocks— DO Function Block June 2017 D103563X012 Table C‐6. Discrete Output Function Block Parameter Definitions Label Index RO / Mode Range Initial Value Description PARAMETER_NAME Number Data Type: 102 Process variable of the DO block in AUTO and RCAS mode, and is the value specified by the OUT_D operator/engineer in MAN and LO.
  • Page 114 Instruction Manual Blocks—DO Function Block June 2017 D103563X012 Table C‐6. Discrete Output Function Block Parameter Definitions Label Index RO / Mode Range Initial Value Description PARAMETER_NAME Number Data Type: 102 Remote Cascade Output Discrete Setpoint provided to a supervisory host for RCAS_OUT_D monitoring / back calculation and to allow action to be taken under limited conditions or mode change.
  • Page 115 Instruction Manual Blocks— DO Function Block June 2017 D103563X012 Table C‐6. Discrete Output Function Block Parameter Definitions Label Index RO / Mode Range Initial Value Description PARAMETER_NAME Number Extended Parameters Data Type: 101 PV_D Actual valve position in PV_D units. VALUE 45.1 Data Type: Unsigned8...

  • Page 116: Analog Input Function Block

    Instruction Manual Blocks—AI Function Block D103563X012 June 2017 Analog 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 shared Index Number indicates sub‐parameter Table C‐8.
  • Page 117 Instruction Manual Blocks—AI Function Block D103563X012 June 2017 Table C‐8. Analog Input Block Parameter Definitions Label Index RO / Write Block Default Range Description PARAMETER_NAME Number Mode Value Octet 1: Number before the decimal point. Data Type: Unsigned16 0x0302 PROFILE_REVISION Octet 2: Profile revision used for this device.
  • Page 118 Instruction Manual Blocks—AI Function Block D103563X012 June 2017 Table C‐8. Analog Input Block Parameter Definitions Label Index RO / Write Block Default Range Description PARAMETER_NAME Number Mode Value Not used BATCH Reserved by PI Data Type: 101 Contains the measurement value in a vendor specific or configuration adjusted engineering unit and the belonging status in AUTO MODE.
  • Page 119 Instruction Manual Blocks—AI Function Block D103563X012 June 2017 Table C‐8. Analog Input Block Parameter Definitions Label Index RO / Write Block Default Range Description PARAMETER_NAME Number Mode Value 1: TB_ID = 8 2: Transducer Block Parameter Relative Index 56=FEEDBACK_VALUE 80=FINAL_POSITION_ VALUE Data Type: 101 83=TRAVEL_TARGET...
  • Page 120 Instruction Manual Blocks—AI Function Block D103563X012 June 2017 Table C‐8. Analog Input Block Parameter Definitions Label Index RO / Write Block Default Range Description PARAMETER_NAME Number Mode Value High High Alarm HI_HI_ALM UNACKNOWLEDGED 30.1 Data Type: DS‐39 ALARM_STATE 30.2 Contains the state of the upper limit of an alarm and the associated time stamp.
  • Page 121 Instruction Manual Blocks—AI Function Block D103563X012 June 2017 View Lists View lists allow the values of a set of parameters to be accessed at the same time. Table C‐9. AI Function Block, View 1 Index Number Parameter ST_REV MODE_BLK.ACTUAL_MODE MODE_BLK.PERMITTED_MODE MODE_BLK.NORMAL_MODE ALARM_SUM.CURRENT ALARM_SUM.UNACKNOWLEDGED...

  • Page 122: Discrete Input Function Block

    Instruction Manual Blocks —DI Function Block June 2017 D103563X012 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 shared Index Number indicates sub‐parameter Table C‐10.
  • Page 123 Instruction Manual Blocks —DI Function Block D103563X012 June 2017 Table C‐10. Discrete Input Function Block Parameter Definitions Label Index RO / Block Default Range Description PARAMETER_NAME Number Mode Value Data Type: Unsigned16 0.11 0x25 Number of used parameters in the block. NUMBER_OF_PARAMETERS Octet 1 (MSB): Slot...
  • Page 124 Instruction Manual Blocks —DI Function Block June 2017 D103563X012 Table C‐10. Discrete Input Function Block Parameter Definitions Label Index RO / Block Default Range Description PARAMETER_NAME Number Mode Value Data Type: 102 Output of the function block. The value is specified by the operator in MAN mode.
  • Page 125 Instruction Manual Blocks —DI Function Block D103563X012 June 2017 Table C‐10. Discrete Input Function Block Parameter Definitions Label Index RO / Block Default Range Description PARAMETER_NAME Number Mode Value Data Type: Unsigned8 VALUE 35.1 This parameter is updated as long as the block mode is not in OOS.

  • Page 126: Alarm Transducer Block

    Instruction Manual Blocks —Alarm Transducer Block June 2017 D103563X012 Alarm Transducer Block Parameters The logbook includes time stamp with each alert. 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 shared Index Number indicates sub‐parameter Table C‐12.
  • Page 127 Instruction Manual Blocks —Alarm Transducer Block D103563X012 June 2017 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: Unsigned16 The revision level of the static data. Increments by one each time a static Static Revision 0 to 65535 parameter changes, or a change of a table is...
  • Page 128 Instruction Manual Blocks —Alarm Transducer Block June 2017 D103563X012 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Coding of Bit 15 of each STATUS_CLASSES element 0: no Binary Message of this status class is active 1: at least one Binary Message of this status class...
  • Page 129 Instruction Manual Blocks —Alarm Transducer Block D103563X012 June 2017 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_1 Drive Current Failure STATUS_CLASS Data Type: Unsigned16 Status_Class 16.1 0x0001 which this Binary Message...
  • Page 130 Instruction Manual Blocks —Alarm Transducer Block June 2017 D103563X012 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_4 Static Memory Alert STATUS_CLASS Data Type: Unsigned16 Status_Class 19.1 0x0001 which this Binary Message...
  • Page 131 Instruction Manual Blocks —Alarm Transducer Block D103563X012 June 2017 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_7 Blocks Set to Default STATUS_CLASS Data Type: Unsigned16 Status_Class 22.1 0x0001...
  • Page 132 Instruction Manual Blocks —Alarm Transducer Block June 2017 D103563X012 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_10 Port B Pressure Sensor STATUS_CLASS Data Type: Unsigned16 Status_Class 25.1 0x0002...
  • Page 133 Instruction Manual Blocks —Alarm Transducer Block D103563X012 June 2017 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_13 Pressure Fallback STATUS_CLASS Data Type: Unsigned16 Status_Class 28.1 0x0002 which this Binary Message Default: MAINTENANCE REQUIRED = 0x0002...
  • Page 134 Instruction Manual Blocks —Alarm Transducer Block June 2017 D103563X012 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_16 Temperature High STATUS_CLASS Data Type: Unsigned16 Status_Class 31.1 0x0010 which this Binary Message Default: ADVISORY = 0x0010...
  • Page 135 Instruction Manual Blocks —Alarm Transducer Block D103563X012 June 2017 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_19 Travel Limit High High STATUS_CLASS Data Type: Unsigned16 Status_Class 34.1 0x0010...
  • Page 136 Instruction Manual Blocks —Alarm Transducer Block June 2017 D103563X012 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_22 Travel Limit Low STATUS_CLASS Data Type: Unsigned16 Status_Class 37.1 0x0010 which this Binary Message...
  • Page 137 Instruction Manual Blocks —Alarm Transducer Block D103563X012 June 2017 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_25 Travel Open STATUS_CLASS Data Type: Unsigned16 Status_Class 40.1 0x0010 which this Binary Message Default: ADVISORY = 0x0010...
  • Page 138 Instruction Manual Blocks —Alarm Transducer Block June 2017 D103563X012 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_28 Proximity High STATUS_CLASS Data Type: Unsigned16 Status_Class 43.1 0x0010 which this Binary Message Default: ADVISORY = 0x0010...
  • Page 139 Instruction Manual Blocks —Alarm Transducer Block D103563X012 June 2017 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_31 Auxiliary Terminal Shorted STATUS_CLASS Data Type: Unsigned16 Status_Class 46.1 0x0010 which this Binary Message...
  • Page 140 Instruction Manual Blocks —Alarm Transducer Block June 2017 D103563X012 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_34 AI Hi Hi Limit Exceeded STATUS_CLASS Data Type: Unsigned16 Status_Class 49.1 0x0008...
  • Page 141 Instruction Manual Blocks —Alarm Transducer Block D103563X012 June 2017 Table C‐12. Alarm Transducer Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: DS-62 BM_37 AI Lo Limit Exceeded STATUS_CLASS Data Type: Unsigned16 Status_Class 52.1 0x0008...

  • Page 142: Logbook Function Block

    Instruction Manual Blocks —Logbook Function Block June 2017 D103563X012 Logbook Function Block Parameters The logbook includes time stamp with each alert. 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 shared Index Number indicates sub‐parameter Table C‐14.
  • Page 143 Instruction Manual Blocks —Logbook Function Block D103563X012 June 2017 Table C‐14. Logbook Function Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode 0.10 Data Type: Unsigned8 EXECUTION_TIME Data Type: Unsigned16 0.11 0x1C Number of used parameters in the block. NUMBER_OF_PARAMETERS Octet 1 (MSB): Slot...
  • Page 144 Instruction Manual Blocks —Logbook Function Block June 2017 D103563X012 Table C‐14. Logbook Function Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode 0: Reserved 1: NO_INIT Data Type: Unsigned8 2: IDLE Contains the state of the function which is 3: RUNNING STATUS currently executed or presents the result of...
  • Page 145 Instruction Manual Blocks —Logbook Function Block D103563X012 June 2017 Table C‐14. Logbook Function Block Parameter Definitions Label Index RO / Block Range Initial Value Description PARAMETER_NAME Number Mode Data Type: Unsigned16 Shows the number of the Logbook entry which will be returned by the next read access to the parameter POST_READ_ENTRY.
  • Page 146 Instruction Manual Blocks —Logbook Function Block June 2017 D103563X012 View Lists View lists allow the values of a set of parameters to be accessed at the same time. Table C‐15. Logbook Function Block, View 1 Index Number Parameter ST_REV MODE_BLK.ACTUAL MODE_BLK.PERMITTED MODE_BLK.NORMAL ALARM_SUM.CURRENT...

  • Page 147: Appendix D Module Definitions, Io Bytes, And Data Length

    Instruction Manual Module Definitions D103563X012 June 2017 Appendix D Module Definitions, IO Bytes, and Data 9‐ Length D‐D‐ A GSD file contains information about the device capabilities. Modules are defined within the GSD. Each module represents a distinct sub set of parameter values for a specific function block in the DVC6200p;...
  • Page 148 Instruction Manual Module Definitions June 2017 D103563X012 The example below shows an AO Module, number 5, assigned to Slot 1. The slots that are not used have been assigned as an EMPTY_MODULE. Different Class 1 Masters will present different views and may have a different number of configurable slot locations.
  • Page 149 Instruction Manual Module Definitions D103563X012 June 2017 AO Module Slot 1 Assignment Module Module Name Input Bytes Output Bytes EMPTY_MODULE AO_SP(S) AO_SP(L) AO_SP_RDBK_POSD(S) AO_SP_RDBK_POSD(L) AO_SP_CKBK(S) AO_SP_CKBK(L) AO_SP_RDBK_POSD_CKBK(S) AO_SP_RDBK_POSD_CKBK(L) AO_RIN_ROUT(S) AO_RIN_ROUT(L) AO_RIN_ROUT_CKBK(S) AO_RIN_ROUT_CKBK(L) AO_SP_RDBK_RIN_ROUT_POSD(S) AO_SP_RDBK_RIN_ROUT_POSD(L) Module 2 AO_SP(S) AO_SP(S) Module Definition AO_SP(S) AO_SP(L) Input data length...
  • Page 150 Instruction Manual Module Definitions June 2017 D103563X012 Module 4 AO_SP_RDBK_POSD(S) AO_SP_RDBK_POSD(S) AO_SP_RDBK_POSD(L) READBACK, Readback, position discrete, setpoint POS_D, SP Module Definition AO_SP_RDBK_POSD(S) Input (master view) Input data length Initial Address Output data length READBACK - Parameter data length floating-point Identifiers 0x96, 0xA4 number READBACK - status...
  • Page 151 Instruction Manual Module Definitions D103563X012 June 2017 Module 8 AO_SP_RDBK_POSD_CKBK(S) AO_SP_RDBK_POSD(S) AO_SP_RDBK_POSD(L) READBACK, Readback, position discrete, setpoint Module Definition AO_SP_RDBK_POSD_CKBK(S) POS_D, SP Input data length Input (master Output data length view) Parameter data length Initial Address Identifiers 0x99, 0xA4 READBACK - floating-point number READBACK - status Module 9...
  • Page 152 Instruction Manual Module Definitions June 2017 D103563X012 Module 12 AO_RIN_ROUT_CKBK(S) AO_RIN_ROUT_CKBK(S) AO_RIN_ROUT_CKBK(L) RCAS_OUT Readback cascade output, checkback, CHECKBACK remote cascade input Module Definition AO_RIN_ROUT_CKBK(S) RCAS_IN Input data length Input (master view) Output data length Initial Address Parameter data length RCAS_OUT - Identifiers 0x97, 0xA4 floating-point number...
  • Page 153 Instruction Manual Module Definitions D103563X012 June 2017 Module 14 AO_SP_RDBK_RIN_ROUT_POSD_CKBK(S) AO_SP_RDBK_RIN_ROUT_POSD_CKBK(S) AO_SP_RDBK_RIN_ROUT_POSD_CKBK(L) AO_SP_RDBK_RIN_ROUT_POSD_ Module Definition Readback, remote cascade output, CKBK(S) READBACK, position discrete, checkback, setpoint, RCAS_OUT, Input data length remote cascade input POS_D, Output data length CHECKBACK, Parameter data length SP, RCAS_IN Identifiers 0x9E, 0XA9...
  • Page 154 Instruction Manual Module Definitions June 2017 D103563X012 AI Module Slot 2 Assignment Module Module Name Input Bytes Output Bytes AI_OUT(S) AI_OUT(L) Module 16 AI_OUT(S) Module Definition AI_OUTS(S) Input data length Output data length Parameter data length Identifiers 0x94 Module 17 AI_OUT(L) Module Definition AI_OUTS(L)
  • Page 155 Instruction Manual Module Definitions D103563X012 June 2017 DO Module Slot 3 Assignment Module Module Name Input Bytes Output Bytes DO_SP DO_SP_RDBK DO_SP_CKBK DO_SP_RDBK_CKBK DO_RIN_ROUT DO_RIN_ROUT_CKBK DO_SP_RDBK_RIN_ROUT_CKBK Module 18 Module 22 DO_RIN_OUT DO_SP Module Definition DO_SP Module Definition DO_RIN_ROUT Input data length Input data length Output data length Output data length...
  • Page 156 Instruction Manual Module Definitions June 2017 D103563X012 DI Module Slot 4 DI1 Assignment Slot 5 DI2 Assignment Module Module Name Input Bytes Output Bytes DI_OUT Module 25 DI_OUT Module Definition DI_OUT Input data length Output data length Parameter data length Identifiers 0x91...

  • Page 157: Glossary

    Instruction Manual Glossary D103563X012 June 2017 Glossary Algorithm Deadband A set of logical steps to solve a problem or Region around a reference point that must be accomplish a task. A computer program contains exceeded before a new event occurs. one or more algorithms.
  • Page 158 Glossary June 2017 D103563X012 Hardware Revision PROFIBUS PA (Process Automation) Revision number of the Fisher instrument A protocol used to monitor measuring hardware. The physical components of the equipment or control digital instrument are defined as the hardware. controllers/positioners via a process control system in process automation applications.
  • Page 159 Instruction Manual Glossary D103563X012 June 2017 Travel Sensor Motion Watch Dog Timer Increasing or decreasing air pressure causes the A timer that the microprocessor must pulse magnet assembly to move up or down or the periodically. If the microprocessor is unable to rotary shaft to turn clockwise or pulse the timer, the instrument shuts down.
  • Page 160 Instruction Manual Glossary June 2017 D103563X012...

  • Page 161: Index

    Instruction Manual Index D103563X012 June 2017 Index Analog Output Function Block, 103 ANSI/ISA‐75.13.01 Section 5.3.5, Vibration Testing Method, 7 ATEX, 7 Auto Calibration, 35 Actuator Auxiliary Terminal Shorted Alert, 34 Fail Action, 24 Manufacturer, 24 Model Number, 24 Serial Number, 24 Size, 24 Style, 22 Bench Set...
  • Page 162 Instruction Manual Index June 2017 D103563X012 Connections Electromagnetic Compatibility, Specification, 7 Communication, 12 Electronics Alerts, 32 Electrical, 3 EMC Summary Results—Immunity, 8 Pneumatic, 3 Specifications, 7 EN 61326-1 (First Edition), 7 Wiring, 11 Equal percentage, Linearization Type, 21 Construction Materials, 7 Expert tuning Pressure, 19 CSA, 7...
  • Page 163 Instruction Manual Index D103563X012 June 2017 IEC 61514-2, humidity testing method, 7 Terminal Box, 53 Tools Required, 46 IECEx, 7 Manual Calibration, 36 Independent Linearity, Specification, 7 Maximum Output Capacity, Specification, 6 INMETRO, Brazil, Certifications, 7 Maximum Supply Pressure, 23 Input Characterization, 21 Memory Alerts, 33 Installation, 3...
  • Page 164 Instruction Manual Index June 2017 D103563X012 PESO CCOE, India, Certifications, 7 Physical Block, 4, 73 Quick Connect Cable Entry, 11 Overview, 73 parameters, 73 Quick opening, Linearization Type, 21 View Lists, 83 Pneumatic Connections, 3 Pneumatic Relay removing, 52 replacing, 52 Related Documents, 9 Relay, calibration, 36 Port Diameter, 24...
  • Page 165 Instruction Manual Index D103563X012 June 2017 Travel Sensor Motion, 24 Travel Target, Alert, 27 Temperature Alerts, 32 Temperature Limits, Operating Ambient, 6 Travel Tuning, 16 Terminal Box removing, 53 Travel Tuning Set, 16 replacing, 53 Throttling control, AO function block, 19 Travel Tuning Sets, Gain Values, 17 TIIS, Japan, Certifications, 7 Transducer Block, 4, 84...
  • Page 166 Instruction Manual Index June 2017 D103563X012 View Lists AI Function Block, 119 Alarm Transducer Block, 139 AO Function Block, 108 Valve DI Function Block, 123 Actual Travel, 24 DO Function Block, 113 Class, 24 Logbook Function Block, 144 Inlet Pressure, 24 Physical Block, 83 Manufacturer, 23 Transducer Block, 102...
  • Page 168 Responsibility for proper selection, use, and maintenance of any product remains solely with the purchaser and end user. Fisher, FIELDVUE, and Baumann are marks owned by one of the companies in the Emerson Automation Solutions business division of Emerson Electric Co.

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