Table of Contents
GE Energy
Masoneilan
Products
*
FVP
110
*
(Rev B)
Maintenance Manual
FVP110 offers advanced control
technology for pneumatically
actuated valves.
Table of Contents
loading

Summary of Contents for GE FVP110

  • Page 1 GE Energy Masoneilan Products (Rev B) Maintenance Manual FVP110 offers advanced control technology for pneumatically actuated valves.
  • Page 2 Warranty Items sold by GE Energy are warranted to be free from defects in materials and workmanship for a period one (1) year from first use or eighteen (18) months from delivery provided said items are used according to GE recommended usages. GE reserves the right to discontinue manufacture of any product or change product materials, design or specifications without notice.
  • Page 3: Table Of Contents

    For Safe Use of Product ......................3 Installation ..........................3 Wiring ...........................3 Operation ..........................3 Maintenance.........................4 ATEX Documentation ........................4 Safety .............................7 FVP110 Product Safety ......................7 Nameplate..........................8 Transport............................8 Storage ............................9 Choosing the Installation Location .....................9 Use of a Transceiver........................9 Insulation Resistance Test and Withstand Voltage Test............10 Insulation Resistance Test Procedure ................10...
  • Page 4 Double Acting Type......................33 Block Diagram..........................34 Installing the FVP110 on the Actuator ..................35 General ............................35 General Installation Procedures: FVP110 to the Actuator ............35 Installing FVP110 on a Linear-motion Control Valve ............36 Installing FVP110 on Rotary-motion Control Valve............40 A/M Switching ......................42 Camflex Rotary Valve Mounting ..................43 87/88 Reciprocating Valve Mounting .................46...
  • Page 5 Function Block Execution Control ..................95 Block Setting ..........................96 Link Object .........................96 Trend Object ........................97 View Object ........................97 Function Block Parameters ....................107 Actions of the FVP110 During Operation ...................109 Block Modes ..........................109 Alarm Generation........................112 Simulation Function .......................113 Resource Block ..........................115 General ..........................115 Alarm Processing........................115...
  • Page 6 GE Energy FVP 110 Fieldbus Valve Positioner Manual Travel Calibration........................129 Online Diagnostics .........................129 XD_ERROR ........................129 Fail-safe Action ........................131 Operation Result Integration ....................131 Recording of Revisions ....................131 Control Parameters........................132 Temperature and Pressure Measurement ................132 AO Function Block ........................133 General ..........................133 Modes ............................134 Forward Path .........................134...
  • Page 7 AR (Arithmetic) Function Block ....................153 General ..........................153 Functions Supported ......................155 Supported Modes......................156 Alarm Types ........................156 Mode Handling .........................156 Status Handling........................156 Initialization ........................156 Power Failure Recovery....................156 PID Function Block ........................157 General ..........................157 Modes ............................158 Input Processing ........................159 Setpoint (SP) Limiters ......................159 PID Computation........................159 Control Output........................160 Direction of Control Action .....................161...
  • Page 8 GE Energy FVP 110 Fieldbus Valve Positioner Manual Function Block Parameters ......................183 Parameters of Resource Block ....................184 Parameters of Transducer Block ...................188 Parameters of AO Block ......................198 Parameters of DI Block ......................201 Parameters of OS Block ......................203 Parameters of PID and PID2 Blocks (Optional) ..............205 Parameters of IS (SIGSEL) Block..................209...
  • Page 9 Preparations for Software Downloading ................240 Software Download Sequence....................241 Download Files ........................242 Steps after Activating a Field Device ..................243 Troubleshooting ........................244 Resource Block’s Parameters Relating to Software Download ..........245 Software Download System/Network Management VFD Parameters ........247 Comments on System/Network Management VFD Parameters Relating to Software Download Position Adjustment of Feedback Lever ..................251 Manual Tuning Guideline ......................253 General ..........................253...
  • Page 10 GE Energy FVP 110 Fieldbus Valve Positioner Manual Installation and Operating Precautions for JIS Flameproof Equipment ........265 General ..........................265 Electrical Apparatus of Flameproof Type of Explosion- Protected Construction ....266 Terminology ...........................266 Installation of Flameproof Apparatus ..................267 External Wiring for Flameproof Apparatus................267 Maintenance of Flameproof Apparatus..................269...
  • Page 11 Inserting Pin into Hole of Feedback Lever (In case of using F9176HA) ......42 A/M Selector Switch......................43 Camflex Mounting ......................44 FVP110 Mounted on a Camflex Valve (Side View) ............45 Lever for 87/88 Multi-Spring Actuator ................46 FVP Mounted on Reciprocating Valve ................47 Namur Mounting Kit ......................49...
  • Page 12 Logical Structure of Each Block ..................86 Cabling..........................88 Available Range of Node Addresses ................91 Example of Loop Connecting Function Block of FVP110 with Other Instruments ....93 Function Block Schedule and Communication Schedule ..........93 Status Transition by Setting PD Tag and Node Address ..........94 SIM.ENABLE Switch.......................113...
  • Page 13 Boost Threshold 1......................261 Boost Threshold 1......................262 SERVO_I_SLEEP_LMT and SERVO_DEADBAND ............263 SERVO_P_ALPHA Operation ..................263 xiii...
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  • Page 15 Optional Specifications For Explosion Protected Types ..........79 Parameters for Setting Address Range ................90 Operation Parameter Values of the FVP110 to be Set to LM Devices ......91 Execution Schedule of the FVP110 Function Blocks............92 Execution Schedule of the FVP110 Function Blocks............96 Execution Schedule of the FVP110 Function Blocks............
  • Page 16 STATUS_OPTS of PID Block ..................165 STATUS_OPTS of PID Block ..................166 Block Alarm (BLOCK_ALM)................... 167 Process Alarms......................168 FVP110’s Parameters Containing Integrated Operation Result Quantity ...... 170 Troubleshooting Communications ................. 176 Troubleshooting Function Block Parameters ..............176 Troubleshooting Valve Control ..................178 Troubleshooting AutoTuning..................
  • Page 17: Introduction

    ❑ Functions describes the software functions of FVP110. In order for the FVP110 to be fully functional and to operate in an efficient manner, both parts in this manual must be carefully read to become familiar with the functions, operation, and handling of the FVP110.
  • Page 18: Conventions Used In This Manual

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Conventions Used in This Manual Conventions used in this manual are as follows: ❑ Italics is used for emphasis on important items. ❑ Fields where data is entered or user-entered data is italicized.
  • Page 19: For Safe Use Of Product

    In case the instrument is handled in contradiction to these instructions, GE Masoneilan does not guarantee safety. GE Masoneilan will not be liable for malfunctions or damage resulting from any modification made to this instrument by the customer.
  • Page 20: Maintenance

    Tutti i manuali operativi di prodotti ATEX contrassegnati con Ex sono disponibili in inglese, tedesco e francese. Se si desidera ricevere i manuali operativi di prodotti Ex in lingua locale, mettersi in contatto con l’ufficio GE Masoneilan più vicino o con un rappresentante.
  • Page 21 Tous les manuels d’instruction des produits ATEX Ex sont disponibles en langue anglaise, allemande et française. Si vous nécessitez des instructions relatives aux produits Ex dans votre langue, veuillez bien contacter votre représentant GE Masoneilan le plus proche. Alle Betriebsanleitungen für ATEX Ex bezogene Produkte stehen in den Sprachen Englisch, Deutsch und Französisch zur Verfügung.
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  • Page 23: Safety

    FVP110 is delivered, visually check that no damage occurred during the shipment. FVP110 Product Safety For FVP110 positioners intended for use with industrial compressed air: Ensure that an adequate pressure relief provision is installed when the application of system supply pressure could cause peripheral equipment to malfunction.
  • Page 24: Nameplate

    FVP 110 Fieldbus Valve Positioner Manual Before using these products with fluids/compressed gases WARNING other than air or for non-industrial applications, consult GE. This product is not intended for use in life support systems. Do not use damaged instruments. WARNING...
  • Page 25: Storage

    Safety Storage Storage When an extended storage period is expected, observe the following precautions: ❑ If at all possible, store the positioner in factory-shipped condition, that is, in the original shipping container. ❑ Choose a storage location that satisfies the following requirements: A location that is not exposed to rain or water.
  • Page 26: Insulation Resistance Test And Withstand Voltage Test

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Insulation Resistance Test and Withstand Voltage Test Overvoltage of the test voltage is so small that it does not CAUTION cause an dielectric breakdown but can deteriorate insulation and lower the safety performance; to prevent this, keep the amount of testing to a minimum.
  • Page 27: Notes For Safety

    A) FM Intrinsically Safe Type Cautions for FM Intrinsically safe type. (Following contents refer "Doc No. IFM017-A12 P.1, 1-1, 2, 2-1, and 2-2.") Note 1. Model FVP110 Advanced Valve Positioner with optional code /FS15 are applicable for use in hazardous locations. ❑...
  • Page 28 GE Energy FVP 110 Fieldbus Valve Positioner Manual ❑ Non-incendive for Class I, Division 2, Groups A, B, C, D and Class I, Zone 2, Group IIC ❑ Indoor/Outdoor hazardous locations, NEMA 4X Ambient Temperature: -40 to 60 °C Note 2. Electrical Data...
  • Page 29: Installation Diagram (Intrinsically Safe, Division 1 Installation)

    Safety FM Certification ❑ The safety barrier may include a terminator. ❑ More than one field instruments may be connected to the power supply line. Note 3. Installation ❑ Dust-tight conduit seal must be used when installed in Class II and Class III environments.
  • Page 30 GE Energy FVP 110 Fieldbus Valve Positioner Manual Note 4. FISCO rules The FISCO concept allows the interconnection of intrinsically safe apparatus to associated apparatus not specifically examined in such combination. The criterion for such interconnection is that the voltage (Ui), the current (Ii) and the power (Pi) which...
  • Page 31: Passive Devices

    Figure 3 Passive Devices Note 5. Maintenance and Repair The instrument modification or parts replacement by other than authorized representative of GE Masoneilan is prohibited and will void Factory Mutual Intrinsically Safe and Non-incendive Approval.
  • Page 32: Installation Diagram (Nonincendive, Division 2 Installation)

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Figure 4 Installation Diagram (Nonincendive, Division 2 Installation) *1: Dust-tight conduit seal must be used when installed in Class II and Class III environments. *2: Installation should be in accordance with the National Electrical Code (ANSI/NFPA 70) Sections 504 and 505.
  • Page 33: B) Fm Explosionproof Type

    Maximum Internal Capacitance Ci: 1.76 nF Maximum Internal Inductance Li: 0 μH B) FM Explosionproof Type Caution for FM explosionproof type. Note 1. Model FVP110 Valve Positioner with optional code /FF1 are applicable for use in hazardous locations. ❑ Applicable standard: FM3600, FM3615, FM3810, ANSI/NEMA250 ❑...
  • Page 34: C) Fm Nonincendive Approval

    GE Energy FVP 110 Fieldbus Valve Positioner Manual C) FM Nonincendive approval Model FVP110 Advanced Valve Positioner with optional code/FN15. ❑ Applicable standard: FM3600, FM3611, FM3810 ❑ Nonincendive Approval Class I, Division 2, Groups A, B, C and D Class II, Division 2, Groups F and G...
  • Page 35: Cenelec Atex (Kema) Certification

    Safety CENELEC ATEX (KEMA) Note 1. Use dust-tight conduit seal when installed in Class II and Class III environments. Note 2. Install in accordance with National Electrical Code (ANSI/NFPA 70) Sections 504, 505 and Local Electrical Code. Note 3. The configuration of Associated Apparatus must be Factory Mutual Research Approved.
  • Page 36 GE Energy FVP 110 Fieldbus Valve Positioner Manual Note1 Model FVP110 Advanced Valve positioner with optional code /KS25 for potentially explosive atmospheres: No. KEMA 02ATEX1274X ❑ Applicable standard: EN50014, EN50020, EN500284, EN50281-1-1 ❑ Certificate: KEMA 02ATEX1274X Note 2. Ratings [EEx ia IIC T4]...
  • Page 37 18). Note 4. Maintenance and Repair The instrument modification or parts replacement by other than authorized representative of GE Masoneilan is prohibited and will void KEMA Intrinsically safe Certification. Note 5. Special Conditions for Safe Use In the case where the enclosure of the Valve Positioner is made of aluminum, if it is...
  • Page 38: Supply Unit

    GE Energy FVP 110 Fieldbus Valve Positioner Manual FISCO Model Figure 6 FISCO Model I.S. fieldbus system complying with FISCO The criterion for such interconnection is that the voltage (Ui), the current (Ii) and the power (Pi), which intrinsically safe apparatus can receive, must be equal or greater than the voltage (Uo), the current (Io) and the power (Po) which can be provided by the associated apparatus (supply unit).
  • Page 39: Cable

    Safety CENELEC ATEX (KEMA) Cable The cable used to interconnect the devices needs to comply with the following parameters: ❑ Loop resistance R': 15 to 150 Ω/km ❑ Inductance per unit length L': 0.4 to 1 mH/km ❑ Capacitance per unit length C': 80 to 200 nF/km C' = C' line/line + 0.5 C' line/screen, if both lines are floating C' = C' line/line + C' line/screen, if the screen is connected to one line length of spur cable: max.
  • Page 40: Number Of Devices

    GE Energy FVP 110 Fieldbus Valve Positioner Manual EEx ia IIB T4 ❑ Maximum Voltage (Ui) = 17.5 V ❑ Maximum Current (Ii) = 380 mA ❑ Maximum Power (Pi) = 5.32 W ❑ Internal Capacitance (Ci) = 1.76 nF ❑...
  • Page 41: Field Instruments

    B) CENELEC ATEX (KEMA) Flameproof Type Caution for CENELEC ATEX (KEMA) flameproof type. Note 1. Model FVP110 Valve Positioner with optional code /KF2 is applicable for potentially explosive atmospheres: ❑...
  • Page 42: C) Cenelec Atex Type Of Protection N

    The instrument modification or parts replacement by other than authorized representative of GE Masoneilan is prohibited and will void KEMA Flameproof Certification. C) CENELEC ATEX Type of Protection n Note 1. Model FVP110 Advanced Valve Positioner with optional code /KN25. ❑ Applicable standard: EN60079-15:2003 ❑...
  • Page 43: Installation Diagram

    Note 4. Maintenance and Repair ❑ The instrument modification or parts replacement by other than authorized representative of GE Masoneilan is prohibited and will void Type of Protection n. Figure 8 Installation Diagram (2) Electrical Connection The type of electrical connection is stamped near the electrical connection port according to the following marking.
  • Page 44: Type Of Electrical Connection

    Take care not to generate mechanical sparking when access to the instrument and peripheral devices in hazardous locations. (5) Maintenance and Repair The instrument modification or parts replacement by other CAUTION than authorized Representative of GE Masoneilan Electric Corporation is prohibited and will void the certification.
  • Page 45 Safety Entity Model (6) Name Plate Figure 10 Nameplates MODEL: Specified model code. SUFFIX: Specified suffix code. STYLE: Style code. SUPPLY: Air supply pressure. NO.: Serial number and year of production*1. INPUT: Type of electrical input (FOUNDATION FIELDBUS).
  • Page 46: Csa Certification

    CSA Certification A) CSA Explosionproof Type Cautions for CSA Explosionproof type. Note 1. Model FVP110 Advanced Valve Positioner with optional code /CF1 are applicable for use in hazardous locations: ❑ •Applicable standard: C22.2 No. 0, No. 0.4, No. 0.5, No. 25, No. 30, No. 94, No.
  • Page 47: Tiis Certification

    Low Voltage Directive TIIS Certification A) TIIS Flameproof Type The model FVP110 Valve Positioner with optional code /JF3, which has obtained certification according to technical criteria for explosion-protected construction of electric machinery and equipment (Standards Notification No. 556 from the Japanese Ministry of Labor) conforming to IEC standards, is designed for hazardous areas where inflammable gases or vapors may be present.
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  • Page 49: Part Names

    Part Names Appearance and Part Names Single Acting Type Figure 12 Single Acting Parts Double Acting Type Figure 13 Double Acting Parts...
  • Page 50: Block Diagram

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Block Diagram Figure 14 Block Diagram...
  • Page 51: Installing The Fvp110 On The Actuator

    Installing the FVP110 on the Actuator General For installation of a FVP110, see “Choosing the Installation Location” on page 9. For the ambient, environmental conditions required for installation, see “Standard Specifications” on page 73. To avoid injury or the process being affected when installing or replacing...
  • Page 52: Installing Fvp110 On A Linear-Motion Control Valve

    Figure 15 FVP Installed on Linear-motion Valve/Actuator 1. Attach the bracket to FVP110 using the four M8 bolts supplied (See “Part Names” on page 33). 2. Choose the appropriate feed back lever. The FVP110 with option code /LV1 comes with two different feedback levers, (1) and (2), and the one with option code /LV2 comes with lever (3) (Figure 16).
  • Page 53: Stroke Of Lever

    5 to 20 mm 14 to 25 mm 3. Ensure that the rotation angle (Figure 17) of the FVP110’s feedback shaft does not exceed the allowable range (10 to 25°). The range of the rotation angle must be within this specification to guarantee that the specified accuracy is obtainable by linearity correction (see the description for travel calibration in “Carrying out Tuning”...
  • Page 54: Disassembling A Lever Assembly

    FVP110 positioner. 6. Insert the FVP110’s feedback shaft into the small hole on the stopper side of the lever (Figure 19).
  • Page 55: Attaching Lever And Clamp

    Figure 20 Attaching Lever and Clamp 8. Attach the clamp to the stem (Figure 21). You must set the clamp of the FVP110 in a position that allows the feedback lever to be at an angle within ±15 ° from the horizontal level when the valve stem is at the 50% position.
  • Page 56: Installing Fvp110 On Rotary-Motion Control Valve

    251. Installing FVP110 on Rotary-motion Control Valve This section gives the general installation procedure when assembling a FVP110 with a rotary-motion control valve (Figure 22) combined with a diaphragm actuator or cylinder actuator. The most suitable procedure may differ depending on the bracket shapes and valve actuator, and the structure of the actuator.
  • Page 57: Allowable Range Of Rotation Angle Of Feedback Shaft

    Installing FVP110 on Figure 23 Allowable Range of Rotation Angle of Feedback Shaft 1. Attach the bracket to the FVP110 using the four M8 bolts provided (See “Part Names” on page 33). The installation method is determined by the combination of the control valve and positioner, as well as by the valve manufacturer who performs the adjustment.
  • Page 58: A/M Switching

    Misalignment of these rotation axes decreases the level of accuracy. b. Inserting the pin attached to the valve spindle, into the long hole of the FVP110 positioner feedback shaft. c. Attaching the bracket to the actuator with the specified bolts.
  • Page 59: Camflex Rotary Valve Mounting

    Camflex Rotary Valve Mounting This section describes the procedure for mounting the FVP on rotary control valves, using GE Masoneilan rotary valves as an example. Refer to Figure 27 on page 44 and Figure 28 on page 45 for details.
  • Page 60: Camflex Mounting

    GE Energy FVP 110 Fieldbus Valve Positioner Manual To install: 1. Place the mounting bracket by turning the bracket so that side that mounts to the FVP (with the off-center hole) has more space to the right of the hole when facing the actuator.
  • Page 61: Fvp110 Mounted On A Camflex Valve (Side View)

    Camflex Rotary Valve Mounting This device may be damaged if the feedback shaft exceeds CAUTION its allowable limit. When mounting the FVP110 on a rotary valve, ensure that the rotation of the feedback shaft is correct by checking that: ❑...
  • Page 62: 87/88 Reciprocating Valve Mounting

    This section describes the procedure for mounting the FVP on reciprocating control valves and uses the GE Masoneilan 87/88 Multi-Spring actuator as an example. See Figure 30 on page 47 for an example of an FVP on a reciprocating valve.
  • Page 63: Fvp Mounted On Reciprocating Valve

    Installing the FVP110 on the 87/88 Reciprocating Valve Table 2 Lever Hole Locations for 87/88 Multi-Spring Actuator Valve Stroke mm Lever Hole (inches) 20.3 (0.8) 25.4 (1.0) 38.1 (1.5) 50.8 (2.0) 63.5 (2.5) 4. Mount the FVP to the mounting bracket using four 1/4 - 20 UNC socket-head cap screws.
  • Page 64: Turnbuckle Length

    Table 3 Turnbuckle Length Actuator Size Turnbuckle Length 1.25” 1.25” 2.90" 5.25” When assembling an FVP110 on a reciprocating valve ensure NOTE that the rotation angle of the feedback shaft does not exceed the allowable range of 10 to 25°.
  • Page 65: Mounting The Fvp110 With Namur Kits

    Installing the FVP110 on the Mounting the FVP110 with Mounting the FVP110 with NAMUR Kits The kit comes complete for mounting to various two valves. The socket head screws vary depending on the valve. Tools required: ❑ M4 hex key ❑...
  • Page 66 GE Energy FVP 110 Fieldbus Valve Positioner Manual 3. Place the FVP Rotary Mounting Bracket (#1) into place sliding it through the anti-backlash spring (#14) into the dowel pin (3#) at the end of the plate into the hex head screw installed in step 2.
  • Page 67: Wiring And Piping

    Wiring and Piping General This section describes the air piping and electric wiring connections. Cut off all inputs to the valve actuator and other accessories of the valve WARNING and actuator, including the air supply and electric signal before making or modifying the piping and wiring connections.
  • Page 68: Piping

    FVP 110 Fieldbus Valve Positioner Manual Piping Air Supply For stable operation of the FVP110 over a long term, a clean and dry supply of air needs to be maintained. Be careful about the following: ❑ To prevent moisture, oil, and dust from being led into the FVP110 through pipes, give careful consideration to the choice of the air supply system and supply air suction point as well as installation of the air supply header and air supply piping.
  • Page 69: Pneumatic Piping Port

    Pneumatic Piping To connect pneumatic piping: 1. Connect the air supply pipe to the SUP port of the FVP110, and the output pressure pipe to the OUT1 port. The FVP110 has two air supply ports (SUP): one at the rear CAUTION and the other on the side.
  • Page 70: Wiring

    Read “Installation and Operating Precautions for JIS Flameproof Equipment” prior to the work. Recommended Cables For wiring for a FVP110: ❑ Use a cable for H1 fieldbus segments specified by the Fieldbus FOUNDATION™. A shielded cable is recommended. For the details of cables required for H1 fieldbus segments, see Fieldbus Technical Information (TI 38K3A01-01).
  • Page 71: Flameproof Type (Jis)

    NOTE a flameproof metal conduit by (Figure 35): Installing only flameproof packing adapters approved by ❑ GE Masoneilan. Applying a nonhardening sealant to the terminal box ❑ connection port and to the threads on the flameproof packing adapter for waterproofing.
  • Page 72: Installing Flameproof Packing Adapter

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 4 Flameproof Packings and Applicable Cable Outer Diameters Optional Wiring Port Applicable Identifying Code Thread Cable OD Mark Diameter (mm) 8 to 10 16 8-10 G 1/2 10.1 to 12 16 10-12 4.
  • Page 73: Grounding

    Wiring and Piping Grounding 5. Install a seal fitting near the terminal box connection port for a sealed construction (Figure 37). 6. Apply a non-hardening sealant to the threads of the terminal box connection port, flexible metal conduit and seal fitting for waterproofing. Figure 37 Typical Wiring Using Flameproof Metal Conduit Grounding Grounding is always required for the proper operation of transmitters.
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  • Page 75: Setup

    After mechanically attaching the FVP110 to an actuator and finishing the wiring and piping, connect the FVP110 to a fieldbus and make settings, such as carrying out auto tuning and setting the tight-shut option, using a parameter setting tool or the like.
  • Page 76: Set Basic Parameters

    When a power failure or serious hardware damage is detected, the FVP110 cuts the current signal being fed to the I/P module to zero, moving the valve to the safe side. The action of the FVP110 on occurrence of a communication error can be predefined by AO block’s parameters;...
  • Page 77: Carrying Out Tuning

    ❑ Adjusts the parameter settings for controlling the valve. Auto Tuning in FVP110 sets the 0% point at the position where the valve is fully closed and 100% point at the position where the valve stem stops against the mechanical stopper (fully open).
  • Page 78 The values of the hysteresis of valve actions and the air supply pressure measured during auto tuning are stored in parameters of the FVP110. transducer block. The pressure data such as air supply pressure data are available only for a FVP110 with an optional pressure sensor.
  • Page 79: Travel Calibration

    Setup Travel Calibration Normally, control parameters need not be readjusted after auto tuning. If there is a problem, see “Troubleshooting” on page 175. To carry out fine adjustments of the zero-point and span settings, perform the travel calibration. Travel Calibration If the full stroke of the valve is too large for the maximum required flow rate, you can change the span of the travel by carrying out a travel calibration: 1.
  • Page 80: Set Transducer Block Parameters

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Set Transducer Block Parameters Set the following parameters as necessary. For the settings made as default when shipped, see the parameter lists in “Function Block Parameters” on page 183. 1. Write the Position-to-flow Rate Characteristic Type.
  • Page 81 These on/off statuses can be transferred to a DI function block. A hysteresis of 1% is applied to the thresholds, LIMSW_HI_LIM and LIMSW_LO_LIM. 5. Write the Thresholds for Operation Result Integration Alarms by: The FVP110 has a function to integrate the following operation result quantities individually: ❑...
  • Page 82 GE Energy FVP 110 Fieldbus Valve Positioner Manual ❑ CYCLE_COUNT_LIM ❑ TRAVEL_LIM ❑ OPEN_TIME_LIM ❑ CLOSE_TIME_LIM ❑ NEAR_CLOSE_TIME_LIM 6. Set NEAR_CLOSE_THRESHOLD to define the threshold of the valve position for counting NEAR_CLOSE_TIME, as necessary. For other alarms and self-diagnostic functions, see “Online Diagnostics” on page 129.
  • Page 83: Maintenance

    Maintenance General The modular structure of the FVP110 increases the ease of maintenance work. This section describes cleaning and part replacement procedures. The FVP110 is a precision instrument; read the following carefully when carrying out maintenance. For calibrations, see “Setup” on page 59...
  • Page 84: Periodic Inspections

    The FVP110 fixed nozzle is attached to the control relay’s surface that engages the FVP110’s main structure (Figure 40). To clean the fixed nozzle: 1. Detach the control relay from the FVP110 main structure as in “Replacing the Control Relay Assembly” on page 69.
  • Page 85: Part Replacement

    Maintenance Part Replacement Part Replacement Replacing the Control Relay Assembly 1. Decrease the air supply pressure to zero. 2. Using a Philips screwdriver, unscrew the four mounting screws on the bottom face. 3. Pull the relay assembly downwards to detach it. 4.
  • Page 86: Replacing The Screen Filters

    3. Remove the pneumatic circuit holding plate and gasket. There are two gaskets for Double Acting Type. 4. Remove the air filter and O-ring. 5. Set the new filter in place. 6. Perform steps 3, then 2 to restore the FVP110. Figure 43 Replacing the Internal Air Filter...
  • Page 87: Tuning The Pressure Balance Of Control Relay

    50 to 90% of the supply air pressure is appropriate. The pressure balance of the FVP110 is set to approx. 75% at the time of shipment. To reduce the hunting phenomenon and air consumption adjust the balance pressure.
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  • Page 89: Standard Specifications

    Standard Specifications Standard Specifications Applicable Control Valve: Linear or Rotary Motion Control Valve (Diaphragm Actuator and Cylinder) Functions: Function Blocks: AO: One Analog Output ❑ DI: Two Discrete Inputs ❑ OS: One Splitter Block ❑ PID: One PID Control Function (Optional) ❑...
  • Page 90: Diaphragm, Single Acting Cylinder

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Housing Materials: Case: Aluminum die-cast Paint: Polyurethane resin-baked finish Color: Grey Communication: Digital: FOUNDATION fieldbus Supply Voltage: 9 to 32V DC for general use and flameproof type 9 to 24V DC for intrinsically safe type Entity model 9 to 17.5V DC for intrinsically safe type FISCO model...
  • Page 91: Diaphragm, Double Acting Cylinder

    Standard Specifications Standard Specifications Table 6 Diaphragm, Double Acting Cylinder Calibration Supply Air Pressure Gauge Scale Unit Pressure Supply Air Output Signal 200 to 700 kPa 1 kPa 1 MPa 2 to 7 kgf/cm 2 to 7 30 to 105 Pressure Gauge Case: Stainless steel JIS SUS 304 Normal Operating Conditions:...
  • Page 92: Diaphragm, Single Acting Cylinder

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Air Consumption and Output Capacity: Table 7 Diaphragm, Single Acting Cylinder Parameter Value Maximum Air Consumption 0.20 SCFM (0.32 Nm3/h) at 140 kPa Maximum Output Capacity 4.1 SCFM (6.6 Nm3/h) at 140 kPa...
  • Page 93: Performance Specifications

    Standard Specifications Performance Specifications Table 9 Pressure Gauge Connection Connections Codes Value Rc 1/8 female 1/8 NPT female Mounting: ❑ Front of Actuator with bracket. ❑ Direct Connection for rotary valve. Weight: ❑ Single Acting Actuator: 2.4 kg (5.3 lb) ❑...
  • Page 94: Model And Suffix Codes

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Model and Suffix Codes Figure 45 Model and Suffix Codes Optional Specifications Table 10 Optional Specifications Item Description Code Lightning protection Power supply 9 to 32V DC Allowable current Max. 6000 A(1 x 40 s), repeating...
  • Page 95: Optional Specifications For Explosion Protected Types

    Standard Specifications Optional Specifications For Optional Specifications For Explosion Protected Types Table 11 Optional Specifications For Explosion Protected Types Description Code CSA Explosionproof Approval*1 ❑ Applicable standard: C22.2 No. 0, No. 0.4, No. 0.5, No. 25, No. 30, No. 94, No. 1010.1 ❑...
  • Page 96 *2: Applicable for Connections code 3 and 6. *3: Applicable for Connections code 1, 3 and 6. *4: If cable wiring is to be used to a TIIS flameproof type transmitter, do not fail to add the GE Masoneilan assured flameproof packing adapter.
  • Page 97: Dimensions

    Standard Specifications Dimensions Dimensions Figure 46 Single Acting Actuator Dimensions...
  • Page 98: Double Acting Actuator Dimensions

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Figure 47 Double Acting Actuator Dimensions...
  • Page 99: Terminal Configuration

    Standard Specifications Dimensions Figure 48 Terminal Configuration...
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  • Page 101: About Fieldbus

    For information on other features, engineering, design, construction work, startup and maintenance of Fieldbus, refer to Fieldbus Technical Information (TI 38K3A01-01E). Internal Structure of FVP110 The FVP110 contains two virtual field devices (VFD) that share the following functions. System/ Sets node addresses and Physical Device tags (PD Tag) necessary ❑...
  • Page 102: Logical Structure Of Each Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual ❑ Control signal from an upstream block and pass the signal to Transducer block. ❑ Valve position signal from Transducer block and feedbacks it to an upstream block. DI function block - Receives the discrete signal from ❑...
  • Page 103: System Configuration

    5 cm (2"). Termination processing depends on the type of device being deployed. For FVP110, use an M4 screw terminal claw. Some hosts require a connector. Refer to GE Masoneilan when making arrangements to purchase the recommended equipment.
  • Page 104: Connection Of Devices

    Disconnect the relevant control loop from the bus if necessary. Integration of DD If the host supports DD (Device Description), install the DD of the FVP110. Check if the host has the following directory under its default DD directory: 594543/0001 594543/0007 (/EE) (594543 is the manufacturer number of GE Masoneilan, and 0001 or 0007 is the FVP110 device number, respectively.)
  • Page 105: Configuration

    Configuration This section contains information on how to adapt the function and performance of the FVP110 to suit specific applications. Because two or more devices are connected to Fieldbus, settings including the requirements of all devices need to be determined.
  • Page 106: Network Design

    Fieldbus. The maximum current consumed (power supply voltage 9 V to 32 V) for FVP110 is 17 mA. 3. Ensure the cable has a spur in a minimum length with terminators installed at both ends of the trunk.
  • Page 107: Available Range Of Node Addresses

    Fieldbus. Refer to the specification of each device for details. Table 13 lists FVP110 specification values. Table 13 Operation Parameter Values of the FVP110 to be Set to LM Devices Symbol...
  • Page 108: Definition Of Combining Function Blocks

    FVP110 link object. See “Block Setting” on page 96 for details. For the FVP110, in order to minimize the delay in data transfer between Transducer block and AO function block, transducer blocks are designed to execute in conjunction with the execution of AO function block.
  • Page 109: Example Of Loop Connecting Function Block Of Fvp110 With Other Instruments

    Definition of Combining Function Figure 53 shows an example of schedule based on the loop shown in Figure 52. Figure 52 Example of Loop Connecting Function Block of FVP110 with Other Instruments Figure 53 Function Block Schedule and Communication Schedule...
  • Page 110: Setting Of Tags And Addresses

    Setting of Tags and Addresses To set PD Tags and node addresses in the FVP110: 1. Connect the FVP110 with other network devices and turn on the power of the host and the bus. There are three states of Fieldbus devices (Figure 54), and if the state is other than the lowest SM_OPERATIONAL state, no function block is executed.
  • Page 111: Communication Setting

    VCR Setting Set VCR (Virtual Communication Relationship), which specifies the called party for communication and resources. FVP110 has 29 VCRs whose application can be changed, except for the first VCR, which is used for management. Change parameters together for each VCR, as modification for each parameter can cause inconsistent operation.
  • Page 112: Block Setting

    Set the parameter for the VFD function block. Link Object Link object combines the data voluntarily sent by the function block with VCR. FVP110 has 25 non-factory set link objects. A single link object specifies one combination. Each link object has the parameters listed in Table 15. Change parameters together for each VCR, as modifications made to each parameter can cause inconsistent operation.
  • Page 113: Trend Object

    Trend Object You can set the parameter so that the function block automatically transmits Trend. FVP110 has seven non-factory set Trend objects, five for analog data, and two for discrete data. A single Trend object specifies the trend of one parameter.
  • Page 114: View Object For Transducer Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 17 View Object for Transducer Block...
  • Page 115 Configuration View Object Table 11 View Object for Transducer Block (continued)
  • Page 116 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 11 View Object for Transducer Block (continued) *1: These parameters are not usually used. “TEST_48 (Relative index 165)” applies to option code EE.
  • Page 117: View Object For Ao Function Block

    Configuration View Object Table 18 View Object for AO Function Block...
  • Page 118: View Object For Di1, Di2 Function Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 19 View Object for DI1, DI2 Function Block...
  • Page 119: View Object For Os Function Block

    Configuration View Object Table 20 View Object for OS Function Block...
  • Page 120: View Object For Pid Function Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 21 View Object for PID Function Block...
  • Page 121: View Object For Resource Block

    Configuration View Object Table 22 View Object for Resource Block...
  • Page 122: Indexes Of View For Each Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 23 Indexes of View for Each Block Table 24 View Object for IS (SIGSEL) Block Table 25 AR Block Arithmetic Block Access...
  • Page 123: Function Block Parameters

    Function block parameters are read from the host or can be set. For a list and details of the parameters of blocks held by the FVP110, refer to the section for each function block and the list of parameters in the latter part of this manual.
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  • Page 125: Actions Of The Fvp110 During Operation

    This mode is a memo to record mode what an operator expects in normal conditions. Table 26 shows the modes supported by each FVP110 function block. Modes marked with ( ) cannot be specified as target. Table 26 Block Modes...
  • Page 126 IMan mode Initialization Manual mode. Only the AO and PID blocks in the FVP110 support this mode. When one of these blocks detects a loss of a correct path to the downstream block (such as when the downstream block is in the O/S, Man, Auto or LO mode), it enters IMan mode.
  • Page 127: Examples Of Block Mode Combinations And Operation Statuses

    Table 27 shows examples of block mode combinations in a FVP110. When a block changes mode or the data status of a signal changes for some reason, the other blocks connected to that block identify the change by detecting the change in status of an input signal, and change their modes, too.
  • Page 128: Alarm Generation

    FVP 110 Fieldbus Valve Positioner Manual Alarm Generation When the FVP110 detects an abnormality in the device using the self-diagnostic function, a device alarm is issued from the resource or transducer block. An abnormality in a function block or in a process value is issued from the corresponding block as a block error or process alarm.
  • Page 129: Simulation Function

    Unit code of the related data Simulation Function The FVP110 has a function to simulate input signals to its internal function blocks to make the blocks to carry out the specified actions to allow for testing applications in the host computer or alarm handling processes. Each function block has a parameter to switch on/off the simulation function.
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  • Page 131: Resource Block

    Resource Block General The resource block stores device hardware information related to all function blocks in the same device, such as the memory size, and controls the device hardware and internal function blocks. Regardless of the execution schedule of the function blocks, the resource block runs at a certain interval.
  • Page 132: Device Status

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Device Status When a fault occurs, the corresponding bits in the parameters DEVICE_STATUS_1 to _3 of the resource block are set on. Table 30 to Table 32 show the codes and indications corresponding to the individual bits in DEVICE_STATUS_ 1 to _3 as well as the meanings represented.
  • Page 133 Resource Block Device Status Table 30 DEVICE_STATUS_1 (Continued) Hexadecimal Indication when Meaning Indication Device Description is Installed Link Obj.4/20 not open The VCR*1 to which link object 4 or 20 is 0x00001000 specified to be linked is not open. Link Obj.5/21 not open The VCR*1 to which link object 5 or 21 is 0x00000800 specified to be linked is not open.
  • Page 134: Device_Status_2

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 31 DEVICE_STATUS_2 Hexadecimal Indication when Meaning Indication Device Description is Installed 0x80000000 0x40000000 0x20000000 0x10000000 0x08000000 0x04000000 TB TRAVEL_ CALIB_RESULT Travel Calibration has not been succeeded. 0x02000000 not Succeeded TB AUTO_ TUNE_RESULT Auto tuning has not been succeeded.
  • Page 135 Resource Block Device Status Table 31 DEVICE_STATUS_2 (Continued) Hexadecimal Indication when Meaning Indication Device Description is Installed 0x00000080 0x00000040 0x00000020 OS in O/S mode OS block is in O/S mode. 0x00000010 PID in O/S mode PID block is in O/S mode. 0x00000008 DI2 in O/S mode DI2 block is in O/S mode.
  • Page 136: Device_Status_3

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 32 DEVICE_STATUS_3 Hexadecimal Indication when Meaning Indication Device Description is Installed 0x80000000 0x40000000 0x20000000 0x10000000 0x08000000 0x04000000 0x02000000 0x01000000 0x00800000 0x00400000 0x00200000 0x00100000 0x00080000 0x00040000 0x00020000 0x00010000...
  • Page 137 Resource Block Device Status Table 32 DEVICE_STATUS_3 (Continued) Hexadecimal Indication when Meaning Indication Device Description is Installed 0x00008000 Servo output drift warning Shows the contents of the XD_ERROR in the transducer block. 0x00004000 A/D Converter failure Refer to Table 36 on page 130 for details. 0x00002000 Position sensor failure 0x00001000...
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  • Page 139: Transducer Block

    ❑ Fail safe The FVP110 transducer block is connected to an AO function block and two DI blocks via its channels as shown in Table 33 and Figure 56. Table 33 Correspondence between Channels and I/O Signals Channel...
  • Page 140: Position-To-Flow Rate Characteristic Conversion

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Figure 56 Function Diagram of Transducer Block Position-to-flow Rate Characteristic Conversion The parameter POSITION_CHAR_TYPE defines the characteristics between the valve position and flow rate, and is set to one the following: ❑...
  • Page 141: Tight-Shut And Full-Open Actions

    Transducer Block Tight-shut and Full-open Actions Tight-shut and Full-open Actions The tight-shut action decreases the output pressure to a level much lower than the 0% pressure level for an air-to-open valve (or increases it to a level much higher than the 0% pressure level for an air-to-close valve) when FINAL_VALUE.value is less than FINAL_VALUE_CUTOFF_LO in order to ensure that the valve is tightly shut off.
  • Page 142: Limit Switches

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Limit Switches Limit switches monitor whether the valve position has reached a specified high or low limit position and sends the high limit switch status to channel 2 and the low limit switch status to channel 3.
  • Page 143 Transducer Block Auto Tuning Table 34 Types of Auto Tuning (Continued) Value Comment Description Travel calibration with step by Step-by-step travel calibration at the tight-shut and full-open step (for very large valve) positions Self-check only Execution of self-diagnostics only (without parameter tuning) Auto Tuning sets the 0% point at the position where the NOTE valve is fully closed and 100% point at the position where...
  • Page 144: Auto_Tune_Result & Travel_Calib_Result

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 35 AUTO_TUNE_RESULT & TRAVEL_CALIB_RESULT (Continued) Value Comment Error Description /Warning (*2) 50% angle warning VALVE_TYPE is linear and the rotation angle at the 50% position exceeds ±20°. Small angle span error Rotation-angle span <...
  • Page 145: Travel Calibration

    50% point. Also, if the feedback lever slightly deviates from a horizontal level due to careless FVP110 positioner installation, an error caused by this shift is corrected by the 50%-point calibration. Carrying out auto tuning of Index 2 or 4 clears the 50% calibration result.
  • Page 146 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 36 XD_ERROR Value Comment Description Cycle count limit exceed TOTAL_CYCLE_COUNT has reached CYCLE_COUNT_LIM. Travel limit exceed TOTAL_TRAVEL has reached TRAVEL_LIM. Total open limit exceed TOTAL_OPEN_TIME has reached OPEN_TIME_LIM. Total close limit exceed TOTAL_CLOSE_TIME has reached CLOSE_TIME_LIM.
  • Page 147: Fail-Safe Action

    A/D converter failure is deactivated automatically when the cause of the failure is cleared. Operation Result Integration The FVP110 has a function to integrate the following operation result quantities individually. To reset an integrated quantity, write 0 to the corresponding parameter. TOTAL_CYCLE_...
  • Page 148: Control Parameters

    ❑ 1102 = °F A FVP110 with an optional pressure sensor can measure the output air pressure to the valve actuator and sets it in the parameter OUTPUT_PRESSURE. The unit of pressure is defined by Unit Code in SPRING_RANGE and is selected from: ❑...
  • Page 149: Ao Function Block

    AO Function Block General The AO function block receives the control signal from the transducer block and outputs it to the actuator. The major functions of the AO function block include (Figure 57): ❑ Scaling ❑ Setpoint limiters - for both the value and rate of change ❑...
  • Page 150: Modes

    GE Energy FVP 110 Fieldbus Valve Positioner Manual The AO function block performs bi-directional signal handling (Figure 58): transfer of the valve control signal to the transducer block (forward path) and feedback of the valve position signal from the transducer block to the upstream block (backward path).
  • Page 151: Fault State

    Fault State Fault State As for Fieldbus-enabled positioners including the FVP110, not only a power failure but also other errors (such as a communication error) can cause the fail-safe action. For example, when the status of the CAS_IN input of the AO block from its upstream block indicates a specific status, such as a communication error, the case is regarded as an abnormality and fault state actions including a mode change are enacted.
  • Page 152: Io_Opts And Status_Opts

    GE Energy FVP 110 Fieldbus Valve Positioner Manual IO_OPTS and STATUS_OPTS These parameters stipulate options about the block’s signal processing and mode transitions. The settings of these options are made by setting or resetting the respective bits: on = true, off = false. Table 37 shows the options available in AO block IO_OPTS.
  • Page 153: Mode Shedding On Computer Failure

    AO Function Block Mode Shedding on Computer Mode Shedding on Computer Failure When the data status of RCAS_IN falls to Bad while the block is running in RCas (remote cascade) mode, mode shedding occurs in accordance with the setting in SHED_OPT.
  • Page 154: Initialization At Start

    GE Energy FVP 110 Fieldbus Valve Positioner Manual (*1) The modes to which the AO block can transfer are limited to those set in MODE_BLK.permitted, and the priority levels of modes (Figure 59). In fact, if Normal shed, normal return is set for SHED_OPT, the detection of a computer failure causes MODE_BLK.actual to change to Cas, Auto, or Man, whichever is set in...
  • Page 155: Alarm Processing

    AO Function Block Alarm Processing Alarm Processing When a condition shown inTable 40 is met, the AO block changes the bit statuses of BLOCK_ERROR accordingly and generates a block alarm. Table 40 BLOCK_ERROR in AO Block Name of Error Condition Represented Simulate Active SIMULATE is active.
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  • Page 157: Di Function Block

    DI Function Block General An FVP110 contains two DI function blocks, which individually transfer the valve-position high and low limit switch signals generated by the transducer block (Figure 60). Figure 60 Inputs/Outputs of DI Function Block The major functions of a DI function block include (Figure 61): ❑...
  • Page 158: Modes

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Modes The target mode for a DI function block can be set from three block modes: O/S, Auto, and Man. PV Value (PV_D) A limit switch signal is transferred from the transducer block via a channel. Normally, the Transducer Value and Transducer Status values in SIMULATE_D are copied to FIELD_VAL_D, indicating the on/off status of the corresponding limit switch.
  • Page 159: Io_Opts And Status_Opts

    DI Function Block IO_OPTS and STATUS_OPTS IO_OPTS and STATUS_OPTS These parameters stipulate options about block’s signal processing and mode transitions. The settings of these options are made by setting or resetting the respective bits: on = true, off = false. Table 42 shows the options available in the DI block IO_OPTS. Table 42 IO_OPTS of DI Block Meaning Description...
  • Page 160: Alarm Processing

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Alarm Processing Block Alarms When a condition shown in Table 44 is met in a DI block, the block changes the bit statuses of BLOCK_ERROR accordingly and generates a block alarm. Table 44 BLOCK_ERROR in DI Block...
  • Page 161: Os Function Block

    OS Function Block General The OS (output splitter) function block splits a single control signal into two parts for coordinating the actions of two or more valves, such as for split-range control or sequencing control of a large and a small valve (Figure 62). Figure 62 Inputs/Outputs of OS Function Block The OS block receives a control signal and converts it into two signals in accordance with the predefined relationships.
  • Page 162: Modes

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Modes The target mode for the OS function block can be set from three block modes: Cas, Auto, and O/S. Regardless of the target mode, the OS block automatically enters the IMan mode when a specified condition is met.
  • Page 163: Backward Path (Bkcal_Out)

    OS Function Block Backward Path (BKCAL_OUT) In areas outside the endpoints (i.e., start and stop points) of each operation characteristic, the output is retained at the Y value at the nearer end point. For OUT_1, however, depending on the setting of LOCKVAL, it is possible to: Set the value of OUT_1 to Y11 in the areas outside the endpoints if SP is greater than X12 and if LOCKVAL is false.
  • Page 164: Status_Opts

    GE Energy FVP 110 Fieldbus Valve Positioner Manual STATUS_OPTS This parameter stipulates options about the block’s signal processing and mode transitions. Table 45 shows the options available in the OS block STATUS_OPTS. Table 45 STATUS_OPTS of PID Block Options in CONTROL_OPTS...
  • Page 165: Is (Sigsel) Function Block

    IS (SIGSEL) Function Block General The signal selector block provides selection of up to four inputs and generates an output based on the configured action (Figure 66). This block normally receives its inputs from AI blocks. The block performs maximum, minimum, middle, average and first good signal selection.
  • Page 166: Function Supported

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Figure 67 Function Diagram of SIGSEL Function Block Function Supported This block is intended to be used in a forward path only and is not intended to receive signals from the output of a controller. There is no back calculation support or propagation of control status values.
  • Page 167: Supported Modes

    IS (SIGSEL) Function Block Supported Modes If SELECT_TYPE is Middle, sort the remaining inputs by value. If there are 3 or 4 values, discard the highest and lowest value. If two values are left, compute their average. Transfer the value to the output of the block. Set SELECTED to zero if an average was used, else set SELECTED to the number of the input with the middle value.
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  • Page 169: Ar (Arithmetic) Function Block

    AR (Arithmetic) Function Block General The AR (Arithmetic) block (Figure 68) contains math functions that are selected by name. Figure 68 Inputs/Outputs of AR Function Block The block has five inputs. The first two are dedicated to a range extension function that results in a PV, with status reflecting the input in use.
  • Page 170: Function Diagram Of Ar Function Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual The major functions of the block are shown in Figure 69. Figure 69 Function Diagram of AR Function Block The range extension function has a graduated transfer, controlled by two constants referenced to IN. An internal value, g, is zero for IN less than RANGE_LO. It is one when IN is greater than RANGE_HI.
  • Page 171: Functions Supported

    AR (Arithmetic) Function Block Functions Supported Functions Supported The following function types are supported: Flow compensation, linear Used for density compensation of volume flow. func = f * PV Flow compensation, square root Usually, IN_1 is pressure, IN_2 temperature, and IN_3 is the compressibility factor Z. func = f * PV f = sqrt (t_1 / t_2 / t_3) [limited] Flow compensation, approximate...
  • Page 172: Supported Modes

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Simple HTG compensated level Where PV is the tank base pressure, IN_1 is the top pressure, IN_2 is the density correction pressure, and GAIN is the height of the density tap. func = (PV -t_1) / (PV - t_2) After the value of func is calculated, it is multiplied by GAIN, and then BIAS is added to the result.
  • Page 173: Pid Function Block

    PID Function Block General The PID function block receives an input signal (Figure 70), performs PID control computation, and outputs the control signal, like a single-loop controller. Figure 70 Inputs/Outputs of PID Function Block...
  • Page 174: Modes

    GE Energy FVP 110 Fieldbus Valve Positioner Manual In practice, it performs PID computation based on the deviation between the setpoint set in the actual mode and the PV, and generates a value of its output OUT so as to decrease the deviation.
  • Page 175: Input Processing

    PID Function Block Input Processing Input Processing The input signal to IN is filtered through a lag filter whose time constant is set in PV_FTIME, and then set as the process variable (PV). Setpoint (SP) Limiters The path for computing the SP differs depending on the mode. In Cas mode, CAS_IN is used for SP.
  • Page 176: Control Output

    GE Energy FVP 110 Fieldbus Valve Positioner Manual In Cas mode Where: ΔMV = change in control output ΔPV = change in measured (controlled) value = PV - PV ΔT = control period = period_of_execution in block header K = proportional gain = GAIN (= 100/proportional band)
  • Page 177: Direction Of Control Action

    PID Function Block Direction of Control Action Direction of Control Action The direction of the control action is determined by the Direct Acting setting in CONTROL_OPTS (Table 48). Table 48 PID Control Parameters Value of Direct Acting Resulting Action The output increases when the input PV is True greater than the setpoint SP.
  • Page 178: Feed-Forward

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Feed-forward Feed-forward adds a compensation input signal FF_VAL to the output of the PID control computation and is typically used for feed-forward control. In practice, the value of the change in FF_VAL is scaled to the range of the OUT, multiplied by the value of FF_GAIN, and then added to the PID control computation result, as illustrated by Figure 73.
  • Page 179: Measured-Value Tracking

    PID Function Block Measured-value Tracking Measured-value Tracking Measured-value tracking, also referred to as SP-PV tracking, is the action of equalizing the setpoint SP to the measured value PV when the block mode (MODE_BLK.actual) is Man in order to prevent a sudden change in control output from being caused by a mode change to Auto.
  • Page 180: Initialization And Manual Fallback (Iman)

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 49 CONTROL_OPTS of PID Block (Continued) Options in CONTROL_OPTS Description Obey SP limits if Cas or RCas Puts the setpoint high/low limits in force in the Cas or RCas mode. No OUT limits in Manual Disables the high/low limits for OUT in the Man mode.
  • Page 181: Status_Opts

    PID Function Block STATUS_OPTS STATUS_OPTS Table 50 shows the options in STATUS_OPTS. Table 50 STATUS_OPTS of PID Block Options in CONTROL_OPTS Description IFS if BAD IN Sets the sub-status component of OUT.status to IFS if IN.status is Bad except when PID control bypass is on. IFS if BAD CAS IN Sets the sub-status component of OUT.status to IFS if CAS_IN.status is Bad.
  • Page 182: Mode Shedding On Computer Failure

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Mode Shedding on Computer Failure Mode shedding occurs in accordance with the SHED_OPT setting when: ❑ (1) the data status of RCAS_IN, which is the setting received from a computer as the setpoint SP, falls to Bad while the PID block is running in the RCas (remote cascade) mode, ❑...
  • Page 183: Alarms

    PID Function Block Alarms (*1) The modes to which the PID block can transfer are limited to those set in MODE_BLK.permitted, and the priority levels of modes (Figure 75). In fact, if Normal shed, normal return is set for SHED_OPT, detection of a computer failure causes MODE_BLK.actual to change to Cas, Auto, or Man, whichever is set in MODE_BLK.permitted and has the lowest priority level.
  • Page 184: Process Alarms

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Process Alarms There are six types of process alarms (Table 53). Only one process alarm can be generated at a time, and the process alarm having the highest priority level from among those occurring at the same time is generated.
  • Page 185: Diagnostics

    The FVP110 features diagnostics as shown below. ❑ Set the measurement conditions for the signature(s) you want to measure ( “Signatures and Relevant Parameters”...
  • Page 186: Integration Functions

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Integration Functions The transducer block has the parameters containing an integrated operation result quantity (Table 54). Table 54 FVP110’s Parameters Containing Integrated Operation Result Quantity Item Parameter (upper: Description integrated value; lower:...
  • Page 187: Signature Measurement Functions

    Diagnostics Signature Measurement Functions Signature Measurement Functions Acquisition of detailed data is essential to ensure that changes in valve’s characteristics are captured and on-target maintenance is performed. The signature functions measure the input-to-position characteristics of the valve, and the input-to-position characteristics and step response of the positioner while off-line.
  • Page 188: Signatures And Relevant Parameters

    ❑ Performing measurements sets the pressure data in SIGN_DATA_X and the position data (%) in SIGN_DATA_Y. To save the signature to FVP110 non-volatile memory: Select 2 (Save as a Factory data) or 3 (Save as record ❑ data) in SIGN_DATA_SAVE and save. The standard signature previously saved is overwritten.
  • Page 189 Diagnostics Signatures and Relevant Scan Time [seconds] Deviation Margin [%] Sampling Rate [milliseconds] (not used in this function) Performing measurements sets the pressure data in SIGN_DATA_X and the position data (%) in SIGN_DATA_Y. High Resolution The high-resolution actuator signature is the valve Actuator Signature *1 input-to-position characteristics, measured with high resolution while sampling data at the specified time rate.
  • Page 190 GE Energy FVP 110 Fieldbus Valve Positioner Manual Positioner Signature The positioner signature is the setpoint input-to-position charac- teristics of the positioner, measured at points in equal intervals within a specified range over a round trip. The positioner signature reflects the positioner Cv characteristics, cutoff level, and limits, allowing the positioner setting conditions to be ascertained.
  • Page 191: Troubleshooting

    Is the A/M selector on the positioner set to A (automatic)? Wiring: ❑ Is the FVP110 positioner correctly connected to the fieldbus? ❑ Are the conductors incorrectly connected, in other words, is the plus side connected to minus, and vice-versa? ❑...
  • Page 192: Troubleshooting Communications

    The FVP110 can be The node address of the Change it to an operable “Setting of Tags detected, but neither FVP110 is left as the default address. See the and Addresses” function blocks nor (0xF8-0xFB). descriptions for address...
  • Page 193 Troubleshooting Troubleshooting Function Block Table 56 Troubleshooting Function Block Parameters (Continued) Problem Presumed Cause Remedy See Section ❑ “Function The actual mode of a O/S is set for the target mode Change the target mode of Block Parame- function block cannot be of the resource block.
  • Page 194: Troubleshooting Valve Control

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Troubleshooting Valve Control Table 57 Troubleshooting Valve Control Problem Presumed Cause Remedy See Section A change in setpoint Air piping is incorrect. Correct piping. “Piping” on causes no action of the page 52 valve.
  • Page 195 253 ❑ “Installing the There’s air leak from the pipe Check the piping and FVP110 on the of output pressure, or attachment of the lever, Actuator” on feedback lever is not correctly and write 4 or 3 to page 35 attached.
  • Page 196 253 ❑ “Installing the There’s air leak from the pipe Check the piping and FVP110 on the of output pressure, or attachment of the lever, Actuator” on feedback lever is not correctly and write 4 or 3 to page 35 attached.
  • Page 197: Troubleshooting Autotuning

    123. ❑ “Installing the When auto tuning has The span of rotation angle is Correct the installation and FVP110 on the finished, incorrect or the 50% position try auto tuning again. Actuator” on AUTO_TUNE_RESULT deviation from the horizontal...
  • Page 198: Troubleshooting Position, Pressure, And Temperature Sensors

    The feedback lever is not See the descriptions for “Installing the remains unchanged. properly attached. positioner installation. FVP110 on the Actuator” on page 35 The position sensor has failed If ADVAL_BW does not — or there is breakage in the...
  • Page 199: Function Block Parameters

    Function Block Parameters Throughout the following tables, the Write column shows the modes in which the respective parameters can be written. The legends of the entries are as follows: ❑ O/S: Can be written when the corresponding block is in O/S mode. ❑...
  • Page 200: Parameters Of Resource Block

    MANUFAC_ 0x00594543 — Manufacturer ID; 5850435 (= 0x594543) is assigned to Yokogawa Electric Corporation. 1011 DEV_TYPE — — ID number of device; 1 or 7 (/EE) is assigned to the FVP110. 1012 DEV_REV — — Revision number of the FVP110...
  • Page 201 ❑ Bit 1: Scalar output ❑ Bit 2: Discrete input ❑ Bit 3: Discrete output 1016 RESTART — Restart the FVP110 in the selected way: 1: Running 2: Restart Resource 3: Restart with the default settings defined in specifications.*1 4: Restart CPU...
  • Page 202 (factory setting) 1023 NV_CYCLE_ — Cycle of saving the settings of non-volatile attribute parameters to the EEPROM. 0 is set with the FVP110, and saving is not cyclically done. 1024 FREE_ — Shows the free space memory for SPACE configurations as a percent value. FVP110 shows zero which means the pre-configured resource.
  • Page 203 1047 DEVICE_STA — Shows device statuses - mainly the contents of TUS_3 XD_ERROR in each block. 1048 DEVICE_STA — Not used in the FVP110. TUS_4 1049 DEVICE_STA — Not used in the FVP110. TUS_5 1050 DEVICE_STA —...
  • Page 204: Parameters Of Transducer Block

    Default Write Description Index Name (factory setting) 1051 DEVICE_STA — Not used in the FVP110. TUS_7 1052 DEVICE_STA — Not used in the FVP110. TUS_8 *1: FF-891 “Foundation Specification Function Block Application Process Part 2” Parameters of Transducer Block Parameters marked with (*1) are automatically set and changed by autotuning.
  • Page 205: Xd_Error

    INAL_VALUE. 2015 FINAL_ 110% If the value of FINAL_VALUE is greater than VALUE the value set in this parameter, the FVP110 moves the valve to the full-open position. _CUTOFF_HI 2016 FINAL_ -10% If the value of FINAL_VALUE is less than the...
  • Page 206 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 61 Transducer Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 2018 SERVO_ Static control loop gain set by auto tuning [0.5 GAIN (*1) to 1300 ]...
  • Page 207 Function Block Parameters Parameters of Transducer Block Table 61 Transducer Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 2033 POSITION_ Defines the valve position-to-flow CHAR characteristics: _TYPE 1 = linear 2 = equal % (50:1) 3 = equal % (30:1) 4 = quick open (inverse of 50:1 equal %) 5 = Camflex Percentage...
  • Page 208 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 61 Transducer Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 2042 SERVO_ – — Output current (%) to I/P module OUTPUT _SIGNAL 2043 SERVO_ Derivative gain; a control parameter set by auto...
  • Page 209 (in radians) 2063 TRAVEL_ Switch for starting a travel calibration. CALIB _EXEC 2064 TRAVEL_ — Indicates the result of a travel calibration. CALIB _RESULT 2065 OPEN_STOP – — Not used for FVP110. _ADJ 2066 AUTO_TUNE Switch for starting auto tuning. _EXEC...
  • Page 210 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 61 Transducer Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 2067 AUTO_TUNE — Indicates the result of auto tuning. _RESULT 2068 AUTO_TUNE — Indicates auto tuning sequence number.
  • Page 211 Function Block Parameters Parameters of Transducer Block Table 61 Transducer Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 2081 TOTAL_ 0 hour Total time where valve position is equal to or CLOSE less than OPEN_CLOSE_THRESHOLD. To reset the count, write 0.
  • Page 212 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 61 Transducer Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 2090 RELEASE As specified Used to release the block from the fail-safe upon ordering state. _FAILSAFE When the value of this parameter is 3, writing 1 will release the block from the fail-safe state.
  • Page 213 Function Block Parameters Parameters of Transducer Block Table 61 Transducer Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 2100 SIGN_DATA_ Saves the measurements of the standard SAVE actuator signature to non-volatile memory as record data. 1 = off 2101 SIGN_ Parameter used to specify the measured data...
  • Page 214: Parameters Of Ao Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 61 Transducer Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 2113 SERVO_ 10 sec High-limit alarm setting for total time of Servo TIME_TH Output Drift warning.
  • Page 215 Function Block Parameters Parameters of AO Block Table 62 AO Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 5004 ALERT_KEY Universal parameter used as a key to identify the point from which an alert is issued; normally used by an upper level system to select alerts to provide to a particular operator who covers a specific area of the plant.
  • Page 216 Lower limit for setpoint (SP) 5022 CHANNEL Defines the channel number of the hardware channel connected to the transducer block. Always set to 1 for the AO block in a FVP110. 5023 FSTATE_ 0 second Defines the time from when the fault state TIME...
  • Page 217: Parameters Of Di Block

    Function Block Parameters Parameters of DI Block Table 62 AO Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 5029 UPDATE_ – — Shows the contents of an update event upon occurrence. 5030 BLOCK_ALM – — Shows the contents of a block alarm upon occurrence.
  • Page 218 FVP110 60011 6111 OUT_STATE Index to the text describing the states of a discrete output, but not supported by FVP110. 6012 6112 GRANT_ Used to check whether various user operations DENY can be put into effective.
  • Page 219: Parameters Of Os Block

    Function Block Parameters Parameters of OS Block Table 63 DI Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 6021 6121 ACK_OPTIO 0XFFFF Defines the priority of WRITE_ALM as well as allows for notification to be disabled and makes acknowledgement unnecessary for WRITE_ALM .
  • Page 220 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 64 OS Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 14006 BLOCK_ERR — — Indicates the error statuses related to the block itself. 14007 SP Auto Indicates the setpoint for the block.
  • Page 221: Parameters Of Pid And Pid2 Blocks (Optional)

    Function Block Parameters Parameters of PID and PID2 Table 64 OS Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 14023 UPDATE_EV Shows the contents of an update event upon occurrence. 14024 BLOCK_ALM Shows the contents of a block alarm upon occurrence.
  • Page 222 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 65 PID Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 8007 — — Indicates the primary analog value (or the corresponding process value) used to execute the specified actions, and the status of that value.
  • Page 223 Function Block Parameters Parameters of PID and PID2 Table 65 PID Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 8024 RESET — Integration time (seconds). 8025 BAL_TIME Unused. 8026 RATE Derivative time (seconds) 8027 BKCAL_IN Readback of control output 8028 OUT_HI_LIM...
  • Page 224 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 65 PID Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 8041 FF_SCALE 0-100% Scale limits used for converting the FF_VAL value to a non-dimensional value. 8042 FF_GAIN Gain for FF_VAL.
  • Page 225: Parameters Of Is (Sigsel) Block

    Function Block Parameters Parameters of IS (SIGSEL) Block Table 65 PID Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 8060 HI_HI_ALM — – Alarm that is generated when the PV value has exceeded the HI_HI_LIM value and whose priority order* is defined in HI_HI_PRI.
  • Page 226 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 66 IS Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 17002 TAG_DESC Spaces Universal parameter storing the description of the tag 17003 STRATEGY Universal parameter used by an upper-level...
  • Page 227 Function Block Parameters Parameters of IS (SIGSEL) Block Table 66 IS Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 17019 SELECT_TYP Determines the selector action: 1: First good 2: Minimum 3: Maximum 4: Middle 5: Average 17020 MIN_GOOD If the number of inputs which are good is less than the value of MIN_GOOD then set the out...
  • Page 228: Parameters Of Ar (Arithmetic) Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Parameters of AR (Arithmetic) Block Table 67 AR (Arithmetic) Block Parameters Relative Index Parameter Default Write Description Index Name (factory setting) 17500 Block Header Block Tag Information about this block, including the...
  • Page 229 Function Block Parameters Parameters of AR (Arithmetic) Table 67 AR (Arithmetic) Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 17511 OUT_RANGE This is the display scaling for the output. It has no effect on the block. It is used by many blocks.
  • Page 230 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 67 AR (Arithmetic) Block Parameters (Continued) Relative Index Parameter Default Write Description Index Name (factory setting) 17529 ARITH_TYPE 0 The identification number of the arithmetic algorithm. 1 to 9. 17530 BAL_TIME...
  • Page 231: Io_Opts - Availability Of Options For Each Block

    Function Block Parameters IO_OPTS - Availability of Options IO_OPTS - Availability of Options for Each Block Table 68 IO_OPTS - Availability of Options for Each Block Contents Invert SP tracks PV if Man Reserved SP tracks PV if LO SP tracks RCas or Cas if LO or Man Increase to close Faultstate Type Faultstate Type...
  • Page 232: Control_Opts - Availability Of Options For Each Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 69 STATUS_OPTS - Availability of Options for Each Block (Continued) Contents PID/PID2 (SIGSEL) Uncertain if Man mode Target to next permitted mode if Bad CAS_IN CONTROL_OPTS - Availability of Options for Each Block...
  • Page 233: Link Master Functions

    Link Master Functions Link Active Scheduler A link active scheduler (LAS) is a deterministic, centralized bus scheduler that can control communications on an H1 fieldbus segment. There is only one LAS on an H1 fieldbus segment. FVP supports the following LAS functions: ❑...
  • Page 234: Link Master

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Link Master A link master (LM) is any device containing a link active scheduler (Figure 76). There must be at least one LM on a segment. When the LAS on a segment has failed, another LM on the same segment starts working as the LAS.
  • Page 235: Node Address Ranges

    Link Master Functions Transfer of LAS To set up a FVP as a device that is capable of backing up the LAS: When changing the FVP settings, add the FVP to the CAUTION segment in which an LAS is running. After making changes to the settings, do not turn off the power to the FVP for at least 60 seconds.
  • Page 236: Lm Functions

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Figure 80 ConfiguredLinkSettingsRecord (YVP Index 369 (SM)) Example 3. Set the FVP LAS settings for the values of V(FUN) and V(NUN) so that they include the node addresses of all nodes within the same segment (Figure 81).
  • Page 237: Lm Parameters

    Link Master Functions LM Parameters Table 71 LM Functions (Continued) Function Description Domain download server Sets the schedule data. The schedule data can be equalized only when the Domain Download command is carried out from outside the LM in question. The version of the schedule is usually monitored, but no action takes place, even when it changes.
  • Page 238: Lm Parameter Part List

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 72 LM Parameter Part List...
  • Page 239 Link Master Functions LM Parameter List...
  • Page 240: Descriptions For Lm Parameters

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Descriptions for LM Parameters The following describes LM parameters of a FVP. Do not turn off the power to the FVP immediately after setting. CAUTION When the parameters are saved to the EEPROM, the redundant processing is executed for the improvement of reliability.
  • Page 241 Link Master Functions Descriptions for LM Parameters LiveListStatusArrayVariable A 32-byte variable, in which each bit represents the status of whether a device on the same segment is live or not. The leading bit corresponds to the device address 0x00, and final bit to 0xFF. The value of LiveListStatusArrayVariable in the case where devices having the addresses 0x10 and 0x15 in the fieldbus segment is shown below.
  • Page 242: Currentlinksettingrecord And Configuredlinksettingsrecord

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 75 CurrentLinkSettingRecord and ConfiguredLinkSettingsRecord Table 76 DlmeBasicInfo...
  • Page 243 Link Master Functions Descriptions for LM Parameters Table 77 PlmeBasicCharacteristics Table 78 ChannelStates Table 79 PlmeBasicInfo...
  • Page 244 GE Energy FVP 110 Fieldbus Valve Positioner Manual LinkScheduleActivationVariable Writing the version number of an LAS schedule, which has already been downloaded to the domain, to this parameter causes the corresponding schedule to be executed. On the other hand, writing 0 to this parameter stops execution of the active schedule.
  • Page 245: Faqs

    Link Master Functions FAQs FAQs Q1. When the LAS stops, a FVP does not back it up by becoming the LAS. Why? A1-1. Is that FVP running as an LM? Check that the value of BootOperatFunctionalClass (index 367) is 2 (indicating that it is an LM). A1-2.
  • Page 246 FVP 110 Fieldbus Valve Positioner Manual This page intentionally left blank.
  • Page 247: Dd Methods And Dd Menu

    DD methods. As for the FVP110, there are twelve DD methods for the transducer block, two for the AO block, and one for the OS block. The following describes these methods for each block...
  • Page 248: Transducer Block

    This method guides you through each step of the most common setup procedure that always needs to be performed after installing the FVP110 on a valve. For the details of the setup and pertaining parameters, see “Setup” on page 59.
  • Page 249: Search Stop Points

    DD Methods and DD Menu Transducer Block Search Stop Points This method guides you through each step to search for the valve’s mechanical stop positions (both on the closed and open sides) by maximizing and minimizing the output pressure to the positioner. Setup procedure 1.
  • Page 250: Operational Parameter Configuration

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Operational Parameter Configuration This method guides you through the setting of individual operational parameters excluding the selection of position to-flow rate characteristic type. Operational parameter configuration procedure: 1. AO/Transducer block mode check 2.
  • Page 251: Instant Trouble Shooting

    DD Methods and DD Menu Transducer Block Instant Trouble Shooting This is a help utility which provides troubleshooting instructions such as indicating the points and parameters to be checked for troubleshooting. This method does not contain a utility to change parameter settings. For troubleshooting of device statuses, see “Troubleshooting”...
  • Page 252: Upload Signature Data

    GE Energy FVP 110 Fieldbus Valve Positioner Manual c. Measure extended actuator signature: Setting EXT_ACT_SIGN_SET: Executing signature measurement (SIGN_MEAS_EXEC) ❑ Uploading data (see “Upload Signature Data” on page 236). ❑ d. Step response test: Setting STEP_RESP_SET: Executing step response test (SIGN_MEAS_EXEC) ❑...
  • Page 253: Ao Block

    DD Methods and DD Menu AO Block AO Block Simulation Enable This is a method for causing the AO block to activate the simulation status. When a block is in the simulation status, you can apply simulated inputs to the block to let the block function with that input, and check the actions of the function block application and alarm processing.
  • Page 254: Os Block

    GE Energy FVP 110 Fieldbus Valve Positioner Manual OS Block X-Y Scaling This is a method for setting the scales of the X- and Y-axes for defining the conversion characteristics for OUT_1 and OUT_2 (values of IN_ARRAY and OUT_ARRAY), by setting the coordinates of four endpoints: P1 as the start point of OUT_1, P2 as the end point of OUT_1, P3 as the start point of OUT_2, and P4 as the end point of OUT_2.
  • Page 255: Software Download

    Software Download Benefits of Software Download This function enables you to download software to field devices via a FOUNDATION Fieldbus. Typical uses are to add new features such as function blocks and diagnostics to existing devices, and to optimize existing plant field devices. Figure 82 Concept of Software Downloading...
  • Page 256: Specifications

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Specifications Steady-state current: Max. 17 mA Current Draw (Steady-state): 17mA (max) Current Draw (Software Download state): 24mA (max) Current during FlashROM blanking time: Max. 24 mA additional to steady-state current Based on Fieldbus Foundation Specification Download class: Class 1...
  • Page 257: Software Download Sequence

    Software Download Software Download Sequence Software Download Sequence Figure 83 outlines the software download procedure. Although the time taken for the entire procedure varies depending on the size of the field bus device’s software, it generally take about 20 minutes where there is a one-to-one connection between a fieldbus device and download tool, and longer when multiple field devices are connected to the fieldbus.
  • Page 258: Download Files

    GE Energy FVP 110 Fieldbus Valve Positioner Manual On completion of the activation, the target fieldbus device resets internally, which temporarily halts fieldbus communication and function block executions. Be especially careful about a valve positioner; the output air pressure falls to the minimum level (i.e., zero).
  • Page 259: Steps After Activating A Field Device

    Software Download Steps after Activating a Field Steps after Activating a Field Device When the communication with a field device has recovered after activating the device, check, using the download tool, that the software revision of the field device has been updated accordingly.
  • Page 260: Troubleshooting

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Troubleshooting For information on the download tool’s error messages, see the software’s User’s Manual. Table 83 Problems After Software Update...
  • Page 261: Resource Block's Parameters Relating To Software Download

    Software Download Resource Block’s Parameters Resource Block’s Parameters Relating to Software Download Table 84 Resource Block’s Parameters Relating to Software Download...
  • Page 262: Download Error Codes

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 85 Download Error Codes...
  • Page 263: Software Download System/Network Management Vfd Parameters

    Software Download Software Download System/ Software Download System/Network Management VFD Parameters Write Mode: R/W = read/write; R = read only Table 86 System/Network Management VFD Parameters...
  • Page 264: Comments On System/Network Management Vfd Parameters Relating To Software Download

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Comments on System/Network Management VFD Parameters Relating to Software Download Do not turn off the power to a field device immediately after CAUTION changing parameter settings. Data writing actions to the EEPROM are dual redundant to ensure reliability. If the power is turned off within 60 seconds after setup, the parameters may revert to the previous settings.
  • Page 265 Software Download Comments on System/Network Table 88 DOMAIN_DESCRIPTOR...
  • Page 266 GE Energy FVP 110 Fieldbus Valve Positioner Manual Table 89 DOMAIN_HEADER...
  • Page 267: Position Adjustment Of Feedback Lever

    WARNING carried out following the instructions shown in “Wiring and Piping”. 1. Using a flat-head screwdriver, turn the FVP110 A/M selector switch clockwise to change the selector position to M (manual). Be sure to turn the switch until it stops.
  • Page 268: Checking Position At Which Clamp Should Be Fixed

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Figure 84 Checking Position at Which Clamp Should Be Fixed...
  • Page 269: Manual Tuning Guideline

    Manual Tuning Guideline General The FVP110 can improve controllability by properly performing the manual tuning of control parameters for each valve and actuator. Figure 85 shows the whole tuning procedure. Figure 85 Manual Tuning Flowchart...
  • Page 270: Control Parameter Tuning Procedure

    GE Energy FVP 110 Fieldbus Valve Positioner Manual If you cannot obtain expected response characteristics by Auto Tuning: 1. Change the modes of the AO function block and transducer block to O/S. 2. Verify the 10% step response and compare your response waveform with the three types of response waveforms shown in “Control Parameter Tuning Procedure”...
  • Page 271: Improving The Stabilization Time

    Manual Tuning Guideline Moderate Response without changing the value of 0 in X_BST_ON_THRESHOLD[1][2] and X_BST_OFF_THRESHOLD[1][2]. First, try to input a negative value of half that of BOOST_VALUE [1] [2], and if necessary, increment or decrement the value by ❑ If necessary, increment or decrement the value for SERVO_GAIN by 30. Improving the Stabilization Time 1.
  • Page 272: Modifying Overshoot

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Modifying overshoot ❑ Increment the value for SERVO_GAIN. Verify the 10% step response and increment the value by 1.5 times. ❑ If you input a value in a small step of approx. 5% or less, and you cannot obtain a significant improvement effect compared to the 10% step, increment the value for SERVO_RATE by 0.2 to reduce an excessively rapid response.
  • Page 273: Modifying Overshoot

    Manual Tuning Guideline Moderate Response with a Flat ❑ If necessary, decrease the value for SERVO_GAIN to 2/3 or 1/2 of the originally entered value. ❑ If necessary, set the SERVO_DEADBAND. Set a value in approximately the range of a limit cycle (recommended upper limit is 2%). ❑...
  • Page 274: Examples Of Tuning Control Parameters

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Examples of Tuning Control Parameters Table 90 shows examples of tuning parameters for double-acting actuators. [1] Valtek25sq.in. double-acting actuator, stroke = 0.75 in, capacity = approx. 300 cc, supply pressure = 400 kPa, hysteresis = 150N [2] Valtek25sq.in.
  • Page 275: Description Of Control Parameters

    Description of Control Parameters Description of Control Parameters The FVP110's basic method of controlling the valve position is PI-D control. This control is characterized by the fact that a rapid output change is prevented by the derivative term of D being added to the feedback.
  • Page 276: Servo_Rate

    GE Energy FVP 110 Fieldbus Valve Positioner Manual SERVO_RATE Tuning range: 0, 0.05 to 1.0 sec (Default: 0.22 sec) Set the derivative time of PI-D control. The derivative term relates to the feedback and prevents a rapid output change, and the preventive effect increases in proportion to the derivative time.
  • Page 277: Servo_Offset

    Manual Tuning Guideline SERVO_OFFSET SERVO_OFFSET Tuning range: 0 to 100% of MV (Default: 55%) Set the initial value for the electric current that is output from the CPU to the I/P module after the power is turned on. The value simultaneously serves as the base point for an integration operation.
  • Page 278 GE Energy FVP 110 Fieldbus Valve Positioner Manual If the difference between the old set point and the new set point is greater than BOOST_ON_THRESHOLD[2], BOOST_VALUE[2] functions independently from BOOST_VALUE[1], and the added value is removed when the deviation enters the range of BOOST_OFF_THRESHOLD[2].
  • Page 279: Servo_P_Alpha

    Manual Tuning Guideline SERVO_P_ALPHA If the deviation from the set point value exceeds the SERVO_DEADBAND, this function starts. If 0 is set to SERVO_DEADBAND, this function is invalid. Figure 92 SERVO_I_SLEEP_LMT and SERVO_DEADBAND SERVO_P_ALPHA Tuning range: 0 to 100% (Default: 0%) Setting this parameter adds more values to the proportional term for a large step compared to a small step.
  • Page 280: Internal_Gain

    GE Energy FVP 110 Fieldbus Valve Positioner Manual INTERNAL_GAIN Tuning range: 0.5 to 50 rad/mA (Default: 5 rad/mA) INTERNAL_GAIN is the total gain of the I/P module, the control relay, the valve, the actuator, and the feedback lever. INTERNAL_GAIN is part of the loop gain of PI-D control.
  • Page 281: Installation And Operating Precautions For Jis Flameproof Equipment

    Installation and Operating Precautions for JIS Flameproof Equipment Apparatus Certified Under Technical Criteria (IEC-compatible Standards) General The following describes precautions on electrical apparatus of flameproof construction (hereinafter referred to as flameproof apparatus) in explosion-protected apparatus. Following the Labour Safety and Health Laws of Japan, flameproof apparatus is subjected to type tests to meet either the technical criteria for explosion proof electrical machinery and equipment (standards notification no.556 from the Japanese Ministry of Labour) (hereinafter referred to as technical criteria), in conformity with the IEC Standards, or the Recommended...
  • Page 282: Electrical Apparatus Of Flameproof Type Of Explosion- Protected Construction

    GE Energy FVP 110 Fieldbus Valve Positioner Manual Electrical Apparatus of Flameproof Type of Explosion- Protected Construction Electrical apparatus which is of flameproof construction is subjected to a type test and certified by the Japanese Ministry of Labour aiming at preventing explosion caused by electrical apparatus in a factory or any location where inflammable gases or vapors may be present.
  • Page 283: Installation Of Flameproof Apparatus

    Installation and Operating Installation of Flameproof Installation of Flameproof Apparatus Installation Area Flameproof apparatus may be installed, in accordance with applicable gases, in a hazardous area in Zone 1 or 2, where the specified gases are present. Those apparatus shall not be installed in a hazardous area in Zone 0.
  • Page 284 GE Energy FVP 110 Fieldbus Valve Positioner Manual corrosive gases or moisture, apply nonhardening sealant such as liquid gaskets to those threads for waterproofing. ❑ Specific cables shall be used as recommended by the “USER’S GUIDELINES for Electrical Installations for Explosive Gas Atmospheres in General Industry,”...
  • Page 285: Maintenance Of Flameproof Apparatus

    Installation and Operating Maintenance of Flameproof Maintenance of Flameproof Apparatus To maintain the flameproof apparatus, do the following. Maintenance Flameproof apparatus shall not be maintenance-serviced with servicing with the its power turned on. However, in cases where maintenance ser- power on vicing is to be conducted with the power turned on, with the equipment cover removed, always use a gas detector to check that there is no explosive gas in that location.
  • Page 286 GE Energy FVP 110 Fieldbus Valve Positioner Manual Repair If the flameproof apparatus requires repair, turn off the power and transport it to a safety (non-hazardous) location. Observe the fol- lowing points before attempting to repair the apparatus. Make only such electrical and mechanical repairs as will ❑...
  • Page 287: Selection Of Cable Entry Devices For Flameproof Type

    Selection of Cable Entry Devices for Flameproof Type The cable glands (cable entry devices for flameproof type) conforming to IEC Standards are certified in combination with the flameproof apparatus. So, GE Masoneilan-specified cable entry devices for flameproof type shall be used to meet this demand.
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  • Page 289: Customer Maintenance Parts List

    Customer Maintenance Parts List...
  • Page 290 GE Energy FVP 110 Fieldbus Valve Positioner Manual...
  • Page 292 DIRECT SALES OFFICE LOCATIONS BELGIUM JAPAN SOUTH & CENTRAL Phone: +32-2-344-0970 Chiba AMERICA AND THE CARIBBEAN Fax: +32-2-344-1123 Phone: +81-43-297-9222 Phone: +55-12-2134-1201 Fax: +81-43-299-1115 Fax: +55-12-2134-1238 BRAZIL Phone: +55-11-2146-3600 KOREA SPAIN Fax: +55-11-2146-3610 Phone: +82-2-2274-0748 Phone: +34-93-652-6430 Fax: +82-2-2274-0794 Fax: +34-93-652-6444 CANADA Ontario...

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