Fisher DVC6200 Digital Valve Controller - Emerson

1 FIELDVUE DVC6200 Digital ValveControllerThis manual applies toInstrument LevelHC, AD, PD, ODVD evice Type09 Device Revision1 & 2 Hardware Revision2 Firmware Revision2, 3, 4, 5 & 6DD Revision1, 2, 3, 4 & 5 ContentsSection 1 , Pneumatic and Electrical Connections, and Initial of Used in this 2 Wiring System Terminal Wiring Length Cable in Conjunction with a Rosemountt 333 HART Tri Loopt HART to Analog Signal 3 and Instrument and Point Pressure Integral and Stroke Terminal Variable to HART 5 / HART ManualD103605X012 DVC6200 Digital Valve ControllerJune 2017 Instruction ManualD103605X012 DVC6200 Digital Valve ControllerJune 20172 Contents (continued)Section 4 Input Acting Acting 5 Device Information,Diagnostics, and & Primary Purpose Stroke Test (ODV only) 6 Maintenance and the Magnetic Feedback Base the Module the Module Wiring Board (PWB) , Pipe Plugs or Tire the Terminal the Terminal Voltage Technical Support 7 Converter Connection Terminal Gauges, Pipe Plugs, or TireValve Feedback A Principle of Digital Valve B Field Communicator Menu ManualD103605X012 IntroductionJune 20173 Section 1 Introduction Installation, Pneumatic and Electrical Connections, and Initial ConfigurationRefer to the DVC6200 Series Quick Start Guide (D103556X012)

2 For DVC6200installation, connection and initial configuration information. If a copy of this quick start guide is needed scan or click the QR code at the right, contact your Emerson salesoffice or Local Business Partner, or visit our website at of ManualThis instruction manual is a supplement to the DVC6200 Series Quick Start Guide (D103556X012) that ships withevery instrument. This instruction manual includes product specifications, reference materials, custom setupinformation, maintenance procedures, and replacement part instruction manual describes using the 475 Field Communicator to set up and calibrate the instrument. You canalso use Fisher ValveLink software or ValveLink Mobile software to setup, calibrate, and diagnose the Valve andinstrument. For information on using ValveLink software with the instrument refer to ValveLink software help not install, operate, or maintain a DVC6200 Digital Valve Controller without being fully trained and qualified invalve, actuator, and accessory installation, operation, and maintenance.

3 To avoid personal injury or property damage,it is important to carefully read, understand, and follow all of the contents of this manual, including all safety cautionsand warnings. If you have any questions about these instructions, contact your Emerson sales office or Local BusinessPartner before Used in this ManualNavigation paths and fast key sequences are included for procedures and parameters that can be accessed using theField example, to access Device Setup:Field CommunicatorConfigure > Guided Setup > Device Setup (2 1 1)Refer to Appendix B for Field Communicator menu Digital Valve controllers (figures 1 1 and 1 2) are communicating, microprocessor basedcurrent to pneumatic instruments. In addition to the normal function of converting an input current signal to apneumatic output pressure, the DVC6200 Digital Valve Controller , using the HARTr communications protocol, giveseasy access to information critical to process operation.

4 You can gain information from the principal component of theprocess, the control Valve itself, using the Field Communicator at the Valve , or at a field junction box, or by using apersonal computer or operator's console within the control or click to access field supportInstruction ManualD103605X012 IntroductionJune 20174 Figure 1 1. FIELDVUE DVC6200 Digital ValveController Mounted on a Fisher Sliding-Stem ValveActuatorW9643 Figure 1 2. FIELDVUE DVC6200 Digital ValveController Integrally Mounted to a Fisher GX ControlValveW9616 Using a personal computer and ValveLink software or AMS Suite: Intelligent Device Manager, or a Field Communicator,you can perform several operations with the DVC6200 Digital Valve Controller . You can obtain general informationconcerning software revision level, messages, tag, descriptor, and information is available to aid you when troubleshooting.

5 Input and output configuration parameters canbe set, and the Digital Valve Controller can be calibrated. Refer to table 1 1 for details on the capabilities of eachdiagnostic the HART protocol, information from the field can be integrated into control systems or be received on a singleloop DVC6200 Digital Valve Controller is designed to directly replace standard pneumatic and electro pneumatic valvemounted 1 1. Instrument Level CapabilitiesCAPABILITYDIAGNOSTIC LEVEL(2)HCADPDODVAuto CalibrationXXXXC ustom CharacterizationXXXXB urst CommunicationXXXXA lertsXXXXStep Response, Drive Signal Test & Dynamic Error BandXXXA dvanced Diagnostics ( Valve Signature)XXXP erformance TunerXXXT ravel Control Pressure FallbackXXXS upply Pressure SensorXXXP erformance DiagnosticsXXSolenoid Valve TestingXXLead/Lag Set Point Filter(1)X1.

6 Refer to brochure part # D351146X012 for information on Fisher optimized Digital valves for compressor antisurge HC = HART Communicating ; AD = Advanced Diagnostics ; PD = Performance Diagnostics ; ODV = Optimized Digital ManualD103605X012 IntroductionJune 20175 Specifications WARNINGR efer to table 1 2 for specifications. Incorrect configuration of a positioning instrument could result in the malfunction ofthe product, property damage or personal for DVC6200 Digital Valve controllers are shown in table 1 2. Specifications for the Field Communicatorcan be found in the product manual for the Field DocumentsThis section lists other documents containing information related to the DVC6200 Digital Valve Controller . Thesedocuments include:D Bulletin : DVC6200 - Fisher FIELDVUE DVC6200 Digital Valve Controller (D103415X012)D Bulletin : DVC6200 HC - Fisher FIELDVUE DVC6200 Digital Valve Controller (D103423X012)D Bulletin.

7 DVC6200 (S1) Fisher FIELDUVE DVC6200 Digital Valve Controller Dimensions (D103543X012)D Fisher FIELDVUE DVC6200 Series Digital Valve Controller Quick Start Guide (D103556X012)D FIELDVUE Digital Valve Controller Split Ranging (D103262X012)D Using FIELDVUE Instruments with the Smart HART Loop Interface and Monitor (HIM) (D103263X012)D Using FIELDVUE Instruments with the Smart Wireless THUMt Adapter and a HART Interface Module (HIM)(D103469X012)D Audio Monitor for HART Communications (D103265X012)D HART Field Device Specification - Supplement to Fisher FIELDVUE DVC6200 Digital Valve Controller (D103639X012)D Using the HART Tri Loop HART to Analog Signal Converter with FIELDVUE Digital Valve Controllers (D103267X012)D Implementation of Lock in Last Strategy (D103261X012)D Fisher HF340 Filter Instruction Manual (D102796X012)D 475 Field Communicator User's ManualD ValveLink Software Help or DocumentationAll documents are available from your Emerson sale office or Local Business Partner, or at ManualD103605X012 IntroductionJune 20176 Table 1 2.

8 SpecificationsAvailable MountingDVC6200 Digital Valve Controller or DVC6215feedback unit: JIntegral mounting to the Fisher GXControl Valve and Actuator System JWindowmounting to Fisher rotary actuators JSliding stemlinear applications JQuarter turn rotary applicationsDVC6205 base unit for 2 inch pipestand or wallmounting (for remote mount)The DVC6200 Digital Valve Controller or DVC6215feedback unit can also be mounted on otheractuators that comply with IEC 60534 6-1, IEC60534-6-2, VDI/VDE 3845 and NAMUR ProtocolJHART 5 or JHART 7 Input SignalPoint-to-PointAnalog Input Signal: 4-20 mA DC, nominal; splitranging availableMinimum Voltage Available at Instrument Terminalsmust be VDC for analog control, 10 VDC for HART communicationMinimum Control Current: mAMinimum Current w/o Microprocessor Restart: mAMaximum Voltage: 30 VDCO vercurrent protectedReverse Polarity protectedMulti-dropInstrument Power: 11 to 30 VDC at 10 mAReverse Polarity protectedSupply Pressure(1)Minimum Recommended: bar (5 psig) higherthan maximum actuator requirementsMaximum: bar (145 psig) or maximum pressurerating of the actuator, whichever is lowerMedium: Air or Natural GasSupply medium must be clean, dry and ISA Standard maximum 40 micrometer particle size in the airsystem is acceptable.

9 Further filtration down to 5micrometer particle size is recommended. Lubricantcontent is not to exceed 1 ppm weight (w/w) orvolume (v/v) basis. Condensation in the air supplyshould be ISO 8573-1 Maximum particle density size: Class 7 Oil content: Class 3 Pressure Dew Point: Class 3 or at least 10 K less thanthe lowest ambient temperature expectedOutput SignalPneumatic signal, up to full supply pressureMinimum Span: bar (6 psig)Maximum Span: bar (140 psig)Action: JDouble, JSingle Direct or JReverseSteady State Air Consumption(2)(3)Standard RelayAt bar (20 psig) supply pressure: Less than normal m3/hr (14 scfh)At bar (80 psig) supply pressure: Less than normal m3/hr (49 scfh)Low Bleed RelayAt bar (20 psig) supply pressure: Average value normal m3/hr ( scfh)At bar (80 psig) supply pressure.

10 Average value normal m3/hr ( scfh)Maximum Output Capacity(2)(3)At bar (20 psig) supply normal m3/hr (375 scfh)At bar (80 psig) supply normal m3/hr (1100 scfh)Operating Ambient Temperature Limits(1)(4)-40 to 85_C (-40 to 185_F) -52 to 85_C (-62 to 185_F) for instruments utilizingthe Extreme Temperature option (fluorosiliconeelastomers)-52 to 125_C (-62 to 257_F) for remote mountfeedback unitIndependent Linearity(5)Typical Value: of output spanElectromagnetic CompatibilityMeets EN 61326-1:2013 Immunity Industrial locations per Table 2 of the EN 61326-1 standard. Performance is shown in table 1 3 below. Emissions Class A ISM equipment rating: Group 1, Class A-continued-Instruction ManualD103605X012 IntroductionJune 20177 Table 1 2. Specifications (continued)Lightning and Surge Protection The degree ofimmunity to lightning is specified as Surge immunityin table 1 3.