Fisher DVC2000系列数字式阀门控制器-中文详细说明书

INMETRO Hazardous Area Approvals for FIELDVUE™ DVC2000 Digital Valve ControllerThis supplement provides INMETRO Hazardous Area Approval information for the DVC2000 digital valve controller instruction manual and quick start guide. Use this in conjunction with information provided in the instruction manual (D103176X012) or quick start guide (D103203X012).INMETRO— National Institute of Metrology, Quality and Technology. INMETRO approval is accepted in Brazil. Certain nameplates may carry more than one approval, and each approval may have unique installation/wiring requirements and/or conditions of “safe use”. These special instructions for “safe use” are in addition to, and may override, the standard installation procedures. Refer to the instruction manual or quick start guide for for all other information regarding DVC2000 digital valve controllers.NoteThis information supplements the nameplate markings affixed to the product.Always refer to the nameplate itself to identify the appropriate certification.WARNINGFailure to follow these conditions of “safe use” could result in personal injury or property damage from fire or explosion, and area re‐classification.Certificate Number: IEx 10.0004XINMETRO Marking: Ex ia IIC T4/T5 Ga IP66T4: -40°C ≤Tamb ≤+80°C; T5: -40°C ≤Tamb ≤+40°CStandards Used for Certification: NBR IEC 60079­0:2008, NBR IEC 60079­11:2009Instruction Manual Supplement D103780X012DVC2000 Digital Valve ControllerApril 20162Special conditions for safe use (X):- The equipment shall be connected in accordance with the manufacturer’s installation instructions to intrinsic safety barriers that satisfy the following parameters for each set of terminals;- For Zone 0 (EPL Ga), due to the fact that the equipment housing is aluminum, precautions must be taken to prevent ignition caused by impact or friction;­ The acrylic display can only be cleaned with a damp cloth to prevent accumulation of electrostatic charges.Electrical Paramameters:Main 4-20 mA Ui = 30 V, Ii = 130 mA, Pi = 1 W, Li = 0.55 mH, Ci = 10.5 nFXMTR circuit Ui = 28 V, Ii = 100 mA, Pi = 1 W, Li = 0 mH, Ci = 5 nFLimit Switch 1 (LS1)Ui = 16 V, Ii = 76 mA, Pi = 1 W, Li = 0 mH, Ci = 5 nFLimit Switch 2 (LS2)Ui = 16 V, Ii = 76 mA, Pi = 1 W, Li = 0 mH, Ci = 5 nFFigure 1. Typical INMETRO Approval NameplateEmerson Process ManagementMarshalltown, Iowa 50158 USASorocaba, 18087 BrazilCernay, 68700 FranceDubai, United Arab EmiratesSingapore 128461 SingaporeThe contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they are not to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability. All sales are governed by our terms and conditions, which are available upon request. We reserve the right to modify or improve the designs or specifications of such products at any time without notice.E 2013, 2016 Fisher Controls International LLC. All rights reserved.Fisher and FIELDVUE are marks owned by one of the companies in the Emerson Process Management business unit of Emerson Electric Co. Emerson Process Management, Emerson, and the Emerson logo are trademarks and service marks of Emerson Electric Co. All other marks are the property of their respective owners.Neither Emerson, Emerson Process Management, nor any of their affiliated entities assumes responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use, and maintenance of any product remains solely with the purchaser and end user.。

费希尔fisher定位器DVC2000调试简易说明书今天我们举例来讲讲如何快速调试DVC2000的参数，费希尔fisherDVC2000数字式阀门控制器的大体部件组成（从外到里依次y）：带玻璃窗的外壳，EMI保护罩，主板带LCD和触摸式按钮，放大器主键，集成块组件，I/P转换器，接线端子与传感器组件，排气孔，壳体。

fisher阀门定位器DVC2000参数设置方法：1、先拆下外壳，再进行接线，接着打开电流发生器电源送入4mA~20mA电流信号,使LCD显示屏打开，然后进行语言选择。

操作方法：上下左右四键同时按住3秒，再用上下键在七种语言中选择您所需要的语种。

之后，按一下向右键以确认。

2、然后根据阀体的执行机构是气开式还是气闭式进行对参数设置。

操作方法：按向下键找到“详细设置”选项，再按右键确认进入如果阀体的执行机构是：气开式（FC）：按右键查找“零控制信号”项，再按上下键选择“阀关”按右键确认。

再按右键查找“行程变送器输出4mA”项，按上下键选择“阀关”按右键确认气闭式（FO）：按右键查找“零控制信号”项，再按上下键选择“阀开”按右键确认。

再按右键查找“行程变送器输出4mA”项，按上下键选择“阀关”按右键确认3、行程自动标定设置：操作方法：按向下键找到“行程标定”项，按右键确认进入，再按上下键选择“自动”按右键确认，LCD显示“按右键3秒钟阀门将动作”然后按照它的提示操作，它便可以自动搜索走完整个行程0％、100％、50％。

完成后按右键确认。

注：搜索途中不可退出，按任何键都不起作用，必须等走完整个行程才可以。

整定设置增益代码（C~M），C时阀门动作最慢，M时阀门动作最快。

选择合适的，一般设置为“L”，以阀门不振荡为准。

操作方法：按向下键找到“整定”项，按右键确认进入，再按上下键选择“自动”按右键确认，LCD显示“按右键3秒钟阀门将动作”然后按照它的提示操作，进入自动整定，接着等待，完成后按右键确认。

DVC2000数字式高级监控诊断功能阀门控制器高级监控诊断功能阀门控制器DVC 更好的控制性能0805%(008mA 信号改变时-0.5% (0.080.5% (0.08mA mA))输入输入信号改变时信号改变时,,控制性能对比DVC2000其它厂家定位器不能跟踪阶跃改变满足0.5%可控性[File Name or Event]基本诊断功能–及时掌握DVC与阀门的工作与健康状况•199个状态参数与报警•阀门状态参数趋势记录•11组报警记录在DVC里面[File Name or Event]高级诊断－最完整的阀门诊断技术高级诊断最完整的阀门诊断技术阀门特性曲线•检测并提供压力-全行程(-5%-105%)的曲线与分析数据,•执行机构弹簧弹性系数,•弹簧预紧力实际值,•阀座情况分析,•实际填料摩擦力以及理想的摩擦力范围,•实际阀座关紧力,•曲线有8000个采样点,不同曲线可以叠加比较.带来的好处•提供最完整的阀门诊断信息,以评估阀门组件的故障/问题,为阀门检修作出科学决策,帮助客户减少阀门维护成本.[File Name or Event]高级诊断－最完整的阀门诊断技术动态误差带高级诊断最完整的阀门诊断技术•提供全行程(-5%-105%)-输入信号的曲线,有8000个采样点,•带分析数据.带来的带来的好处•提供对阀门的滞后,死区以及动态误差的图形化与数据分析[File Name or Event]高级诊断－最完整的阀门诊断技术阶跃响应高级诊断最完整的阀门诊断技术•提供30个阶跃响应,•带分析数据.带来的好处•评估阀门如何对DSC 信号作出响应,•获得阀门超调,滞后,死区,t63,和t86的数据分析.[File Name or Event]z 故障发现：工厂位号为21FV40428B 阀门在线诊断应用阀门在线诊断应用实例实例在PE 工厂，位号为21FV40-428B 的冷水控制阀门用来控制反应器温度. 在线PD 测试表明阀门行程偏差非常大，DVC 的I/P 驱动信号过高。

Digital Setpoint Control for Fisher ® FIELDVUE™DVC6200, DVC2000, and DVC6000 Digital Valve Controllers1. Digital Valve Controller SetupA. Electrical PowerSet the digital valve controller to PT-PT or MULTI-DROP.For example, figure 1 shows the PT-PT/MULTI-DROP switch, which is located on the main electronics board, for the DVC6200 HW2 digital valve controller.Voltage ‐- ensure the switch is set in the “MULTI-DROP” position. The current will be fixed around 8.3 mA with a 24 V power source.Milliamp current ‐- ensure the switch is set in the “PT-PT” position. Milliamp signal power to the instrument should be set to a value between 6 and 20 mA.NotesD Factory default is switch set to PT-PT.D For Multi-Drop and 24 V power a LC340 Line Conditioner may be required to ensure quality HART ® communications.D For Point-to-Point and a milliamp powered system a HF340 HART filter may be required to ensure quality HART communications.D The DVC2000 does not have a PT-PT / MULTI-DROP switch; it only uses a milliamp current.PT-PT/MULTI-DROPSELECTIONFigure 1. PT-PT or MULTI-DROP Selection2Using a Field Communicator or AMS Device Manager verify or set the following:B. Control Mode set to “Digital” C. Restart Control Mode set to “Digital”D. Instrument mode set to “In Service”If additional product information is needed refer to Related Documents on page 5.2. 775 THUM™ SetupA. ElectricalWiring diagrams are shown in figure 2.NotesD This configuration is only appropriate for one digital valve controller and one THUM adapter.D The THUM adapter requires up to 2.5 VDC additional compliance voltage above and beyond the digital valve controllerrequirements.Figure 2. Wiring DiagramsPWB SET TO MultiPWB SET TO PT-PTDIGITAL VALVE CONTROLLERDIGITAL VALVE CONTROLLERPWB— PT-PT/MULTI SWITCH LOCATION24 V POWER SOURCEMILLIAMP SIGNAL POWERB. ConfigurationUsing a 775 THUM Wireless HART r adapter, map either “PV, SV, TV, QV” or “Process Variable with STATUS”; this allows the Gateway to see TRAVEL_SETPOINT.3. Wireless Gateway SetupA. Map TRAVEL_SETPOINTSee figure 3 and 4 for Gateway settings.NotesD Requires a Rosemount r 1410 or 1420 Smart Wireless Gateway version 4.5 or later.D Best practice is to use the latest available software or firmware version for all products.D Do not map to the THUM adapter.D If TRAVEL_SETPOINT does not show up in the drop-down selection box in Modbus or OPC select Run Command Configuration on the THUM and reset update rates.Refer to Annex B of the appropriate HART Field Device Specification supplement for additional information on joining a digital valve controller to a wireless network using the THUM adapter. See Related Documents on page 5.34Figure 3. Mapping TRAVEL_SETPOINT in Modbus Figure 4. Mapping TRAVEL_SETPOINT in OPCRelated DocumentsDVC6200D DVC6200 Series Digital Valve Controller Quick Start Guide (D103556X012)D DVC6200 HW2 Digital Valve Controller Instruction Manual (D103605X012)D HART r Field Device Specification for DVC6200 Digital Valve Controller (D103639X012)D DVC6200 HW1 Digital Valve Controller Instruction Manual (D103409X012)D HART Field Device Specification for DVC6000 and DVC6200 HW1 Digital Valve Controller (D103649X012)DVC6000 HW2D DVC6005 Series Remote Mount Digital Valve Controllers Quick Start Guide (D103784X012)D DVC6000 HW2 Digital Valve Controller Instruction Manual (D103785X012)D HART Field Device Specification for DVC6000 HW2 Digital Valve Controller (D103782X012)DVC2000D DVC2000 Digital Valve Controller Quick Start Guide (D103203X012)D DVC2000 Digital Valve Controller Instruction Manual (D103176X012)D HART Field Device Specification for DVC2000 Digital Valve Controller (D103783X012)DVC6000 (Supported)D DVC6000 Digital Valve Controllers Instruction Manual (D102794X012)D HART Field Device Specification for DVC6000 and DVC6200 HW1 Digital Valve Controller (D103649X012) MiscellaneousD HF340 Filter Instruction Manual (D102796X012)D LC340 Line Conditioner instruction manual (D102797X012) ArrayDocuments are available from your Emerson Process Management sales officeor at 5Emerson Process ManagementMarshalltown, Iowa 50158 USA Sorocaba, 18087 BrazilChatham, Kent ME4 4QZ UK Dubai, United Arab Emirates Singapore 128461 SingaporeThe contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they are not to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability. All sales are governed by our terms and conditions, which are available upon request. We reserve the right to modify or improve the designs or specifications of such products at any time without notice.Fisher, FIELDVUE, THUM, and Rosemount are marks owned by one of the companies in the Emerson Process Management business unit of Emerson Electric Co. Emerson Process Management, Emerson, and the Emerson logo are trademarks and service marks of Emerson Electric Co. HART and Wireless HART are registered trademarks of the FieldComm Group. All other marks are the property of their respective owners.Neither Emerson, Emerson Process Management, nor any of their affiliated entities assumes responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use, and maintenance of any product remains solely with the purchaser and end user.。

DVC2000 基本设置及初始校验
上图为DVC2000打开前盖的视图.
1.按键↓,显示面板依次显示”快速设置”;”行程校验”;”整定”;”详细设
置",按→进入.
2.显示”零信号阀门关或开”按↑↓键选择,按→确认.”零信号"是指输入信
号为零时,阀门的自然位置,对于气开阀为关,对于气关阀则为开. 按→确认.
3.压力单位:可选bar,psi或kpa, 按↑↓键选择,按→确认.
4.输入信号低值:4-19mA可选，按↑↓键选择,按→确认.正常调节选4mA.
5.输入信号高值:5-20mA可选，按↑↓键选择,按→确认.正常调节选20mA.
6.特性选线性. 按→确认.
7.保存并退出? 按→确认.
8.按↑↓键选择,进入”行程校验”. 按→确认.
9.校验→选自动，按→确认.
10.按→3秒钟阀门会动作，按→3秒后放开，则定位器驱动阀门走100%，0%，
50%，完成后显示“校验完成”按→确认.
11.此时输入不同信号值，检查阀门定位是否准确，稳定。

12.若不稳定，则按按↑↓键选择”整定”按→确认.
13.整定→自动，按→确认. 按→3秒钟阀门会动作，按→3秒后放开，显示”自
动整定进行中”
14.完成后显示"自动整定完成”按→确认.
15.说明:在任意分菜单下,同时按下←→3-10秒钟会返回图中显示画面.。

Supplement to HART r Communicating Fisherr FIELDVUE t Digital Valve Controller InstructionManualsFIELDVUE Digital Valve Controller Split RangingProcesses requiring extended rangeability may use two or more control valves. The first valve operates over the firstportion of the range. When the first valve is nearly 100% open, the control action begins to open the second valve. This is called split ranging. When split ranging is performed a single signal from the control system is supplied to the valve actuators. This single signal is split among the positioning devices on each valve. The positioning devices are used to achieve full valve travel over the reduced input range. Most applications need a predictable overlap region in the middle of the signal range to avoid a zone of no control. Positioning devices provide accuracy to ensure the correct overlap exists.When split ranging FIELDVUE digital valve controllers, each device requires a minimum voltage available at the instrument terminals of at least 12 volts (See the appropriate instruction manual for details). Many control systems provide a compliance voltage that is less than the minimum requirement of 24 volts for two instruments wired inseries. This supplement describes two methods to address the potential discrepancy between the compliance voltage and the requirements of FIELDVUE instruments.Limitations of Split Ranging FIELDVUE Digital Valve ControllersSplit ranging FIELDVUE digital valve controllers provides the following limitations:D Most control systems cannot provide the 24 volt compliance voltage. A device to boost the compliance voltage may be required, such as the Action Instruments Action Pak R AP4380-2000.D To communicate with multiple HART instruments on one pair of wires may require the polling addresses for the instruments be nonzero. This means the instrument polling addresses must be reset and the HART devices (either the 475/375 Field Communicator or ValveLink software with a HART modem) must be programmed to poll for instruments at polling addresses other than zero.D Use of the HART Tri‐Loop t is limited to communication with only one instrument.D The instrument polling addresses may be nonzero, thus limiting communication with a HART multiplexer.Guidelines for Split Ranging FIELDVUE Instruments1. Check the voltage available at the instrument terminals using the method in the instrument instruction manual.2. Verify that the control system compliance voltage is at least 24 volts DC at 20 mA output. If the compliance voltage is less than 24 volts DC, add a device to boost the compliance voltage (such as the Action Instruments ModelAP4380‐2000). (Note: the AP4380‐2000 does not have any hazardous area approvals. Appropriate non‐hazardous installations should be selected.)3. Verify that cable length will not limit HART communication. See the instruction manual for details.4. For intrinsically safe installations, install approved intrinsic safety barriers between the non‐hazardous andhazardous areas.Methods of Split RangingTwo methods are available for split ranging FIELDVUE instruments: the traditional method and an alternate method.Traditional MethodThe traditional method uses the traditional split‐range wiring where the two instruments are connected in series to a single pair of wires from the control system, as shown in figure 1. With the traditional method:D The device used to boost the compliance voltage may be required to operate beyond its specifications.D To communicate with multiple HART instruments on one pair of wires requires the polling addresses for the instruments be nonzero. This means the instrument polling addresses must be reset and the HART devices (either the 375 Field Communicator or ValveLink Software with a HART modem) must be programmed to poll forinstruments at polling addresses other than zero.D Because the instrument polling address for one of the instruments must be nonzero, communication with a HART multiplexer is not possible.D Use of the HART Tri‐Loop is limited to communication with only one instrument. In addition, because the default polling address for the Tri‐Loop is one (1), the instrument polling addresses must be set in the range of 2 to 15.Alternate MethodThe alternate method requires more field wiring, but this method:D Allows the device used to boost the compliance voltage to operate within its specifications because it supplies a single instrument.D The polling addresses can remain at zero (0) because the two instruments are not on the same HART loop.D Allows communicating over a HART multiplexer network.D Multiple Tri‐Loops may be used allowing multiple instruments to operate in burst mode.D Split ranging with more than two FIELDVUE digital valve controllers is possible. Installation—Traditional MethodWhen connecting two instruments in series for a split range application, the compliance voltage must equal at least 24 volts DC. This is generally impractical with most DCS controllers, but quite possible with older analog controllers. For example, a Fisher TL108 controller with 45 volt DC power supply provides a compliance voltage of 27 volts DC at 20 mA output and a C master of 10,000 pF. For other controllers or DCS systems, an Action Instruments AP4380-2000 isolator or other similar device may be used to increase the compliance voltage.The published compliance voltage of the AP4380‐2000 is less than 24 volts DC. However, typical compliance voltage for this isolator is much higher. To ensure sufficient compliance voltage, the Action Instruments distributor can check2compliance voltage of the AP4380-2000 prior to shipment. This should be done using the technique described in the instrument instruction manual. Generally, a compliance voltage of 25 volts DC at 20 mA output with a guaranteed line voltage of 120 volts AC is adequate for normal lengths of field wiring.Wiring Hook‐UpThe Action Instruments product bulletin describes the product details and limitations (available on the web at ). These should be read and observed. Before installation, configure each instrument with different HART polling addresses (example HART polling addresses 2 and 3). The connections are shown in figure 1. A typical installation has the control system 4‐20 mA DC output signal connected to the AP4380-2000 input terminals. The isolator can be installed in the rack room. Connect the 4‐20 mA DC output from the AP4380‐2000 to the field wiring. In the field, connect the AP4380‐2000 positive (+) output terminal to the first FIELDVUE instrument LOOP + terminal. Connect the first FIELDVUE instrument LOOP - terminal to the second FIELDVUE instrument LOOP + terminal. Connect the second FIELDVUE instrument LOOP - terminal to the AP4380-2000 negative (-) output terminal.Figure 1. Typical Installation Schematic, Traditional MethodConfigurationCurrent flowing through the input terminals of the isolator is regenerated at the output terminals of the isolator (at a higher voltage) and flows through both FIELDVUE instruments. Input ranging of the FIELDVUE instruments is easily changed without recalibrating. This is done by configuring the Input Range Low and the Input Range High to the desired values. A typical configuration would be:FIELDVUE Instrument Input Range Low Input Range High Polling Address#1 #24 mA12 mA12 mA20 mA233Installation—Alternate MethodWhen connecting two instruments in series for this split range application, the compliance voltage requirement from the DCS controller is much lower. This is because the Action Instruments AP4380‐2000 is in series with the first FIELDVUE instrument and requires minimum voltage (0.3 volts). The isolator powers only the second FIELDVUE instrument and therefore provides adequate voltage.Wiring Hook‐UpThe Action Instruments product bulletin describes the product details and limitations (available on the web at ). These should be read and observed. The connections are shown in figure 2. For a typical installation, connect the control system positive (+) output terminal to the AP4380‐2000 positive (+) input terminal. Connect the AP4380‐2000 input negative (-) terminal to the first FIELDVUE instrument LOOP + terminal. Connect the first FIELDVUE instrument LOOP - terminal to the control system negative (-) terminal. Connect the AP4380‐2000 positive (+) output terminal to the second FIELDVUE instrument LOOP + terminal. Connect the AP4380‐2000 negative (-) output terminal to the second FIELDVUE instrument LOOP - terminal.Figure 2. Typical Installation Schematic, Alternate MethodInput Range: 4-12 mA FIELDVUE Instrument #2 Input Range: 12-20 mAHART Polling Address 0HART Polling Address 04ConfigurationCurrent flowing through the input terminal of the isolator is regenerated at the output terminals of the isolator (at a higher voltage) and flows through the second FIELDVUE instrument only. Input ranging of the FIELDVUE instruments is easily changed without recalibrating. This is done by configuring the Input Range Low and the Input Range High to the desired values. A typical configuration would be:FIELDVUE Instrument Input Range Low Input Range High Polling Address#1 #24 mA12 mA12 mA20 mAMultiple Split RangeThe installation described for the alternate method can be extended to multiple instruments, as shown in figure 3. This architecture allows up to four units to be split ranged. Due to an increase in the signal to noise ratio as the input span decreases, the minimum input span should be limited to 4 mA. Be aware that as the number of units to be split ranged increases, the accuracy of each unit is affected.Figure 3. Typical Multiple Split Range InstallationFIELDVUE Instrument #1 Input Range: 4-8 mA FIELDVUE Instrument #2Input Range: 8-12 mAFIELDVUE Instrument #3Input Range: 12-16mAFIELDVUE Instrument #4Input Range: 16-20 mAHART Polling Address 0HART Polling Address 0HART Polling Address 0HART Polling Address 056Related Fisher DocumentsD FIELDVUE DVC5000 Series Digital Valve Controllers Instruction ManualNoteThe DVC5000 digital valve controller is obsolete. Contact your Emerson Process Management sales office if a copy of this instruction manual is needed.D FIELDVUE DVC6200 Digital Valve Controller Instruction Manual (D103409X012)D FIELDVUE DVC6200 Digital Valve Controller Quick Start Guide (D103410X012)D FIELDVUE DVC6000 Digital Valve Controllers Instruction Manual (D102794X012)D FIELDVUE DVC6000 Digital Valve Controllers Quick Start Guide (D102762X012)D FIELDVUE DVC2000 Digital Valve Controllers Instruction Manual (D103176X012)D FIELDVUE DVC2000 Digital Valve Controllers Quick Start Guide (D103203X012)NoteNeither Emerson, Emerson Process Management, nor any of their affiliated entities assumes responsibility for the selection, use, or maintenance of any product. Responsibility for the selection, use, and maintenance of any product remains with the purchaser and end‐user.Emerson Process Management Marshalltown, Iowa 50158 USA Sorocaba, 18087 BrazilChatham, Kent ME4 4QZ UK Dubai, United Arab Emirates Singapore 128461 SingaporeThe contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they are not to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability. All sales are governed by our terms and conditions, which are available upon request. We reserve the right to modify or improve the designs or specifications of such products at any time without notice. Neither Emerson, Emerson Process Management, nor any of their affiliated entities assumes responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use, and maintenance of any product remains solely with the purchaser and end user.EFisher Controls International LLC 2006, 2011; All Rights Reserved Fisher, FIELDVUE, ValveLink, and Tri‐Loop are marks owned by one of the companies in the Emerson Process Management business division of Emerson Electric Co. Emerson Process Management, Emerson, and the Emerson logo are trademarks and service marks of Emerson Electric Co. HART is a mark owned by the HART Communication Foundation. All other marks are the property of their respective owners.。

根据贵厂定位器2000出现的问题，做出以下总结、调试方法以及建议
故障：DVC2000显示：“仪表被HART锁定”，
解决方法：通过475手操器通讯，进入online→setup&diag→按“»»”键进入Insrument Mode →将out of SERVICE改为IN SERVICE→按Enter确认返回，
再到DVC2000本机上进行快速设置→按右键3秒以上→阀门会自动进行效验→完成后按右键回到初始界面。

正常来讲，只要能自动效验过，定位器就能正常工作。

不要轻易更改定位器里面的参数，尤其是控制模式，控制模式永远都是模拟控制。

如果快速设置不能够效验完成，请进入详细设置，一直按右键走一遍，直到提示“保存并退出按右键”结束，其目的是让定位器重新记忆一遍详细设置的参数；再进入到模拟输入效验→按右键3秒以上→提示“输入4MA”，就给个4MA信号，按右键→提示“输入20MA”，就给个20MA信号，按右键→保存并退出按右键即可，再次返回到快速设置进行自动效验。

通过这次在现场效验，发现0位时，DVC2000上显示的电流值为3.1MA，根据DVC2000的输入信号要求中：最小控制电流：不低于3.8MA，低于3.8MA可能会引起微处理器重新启动，也就是死机状态，需要断电后再给电，并需要快速设置一遍，才能够正常工作，也就是贵单位所反应的老死机，不动作等现象。

Fisher ® GX三通阀和执行机构目录介绍.......................................................................1手册范围................................................................1说明.......................................................................1规格.......................................................................2阀门安装.....................................................................2维护.............................................................................3执行机构维护.........................................................5填料维护................................................................7更换填料................................................................8阀内件维护..........................................................10成套零件...................................................................13零件清单. (14)介绍手册范围该指导手册包括Fisher ® GX 三通阀和执行机构的安装、维护及零件信息。

状态信息仪表通电后其LCD屏幕上含有基本状态信息，在仪表上可以进行适当的调校和操作，下列图框(图3-1)所显示的信息可以通过按右方向键►获得。

TRA VEL＝##·#％—目前调节阀的阀位，以百分度表示；##·# MA—目前提供给调节阀的输入信号，以mA表示；##·# BAR—目前提供给调节阀的气压信号，以BAR、PSI或MPA表示；SWITCH1—目前可选的限位开关的状态，接在+41和-42端子上；SWITCH2—目前可选的限位开关的状态，接在+51和-52端子上；PROTECTION—指示就地界面是否需要保护，ON表示带有保护并且就地不能进行组态或调校；基本设置一、语言的设置仪表里有七种语言可供选择：有English(英语)、French(法语)、German(德语)、Italian(意大利语)、Spanish(西班牙语)、Chinese(中文)和Japanese(日语) 见图3-2，要进入语言选择菜单首先要同时一起按下面板上的四个按键3秒钟，然后使用向上▲或向下▼方向键来选择合适的语言，并按右方向键►去确定你的选择。

快速设置按下向下方向键▼和右方向键►后即可进入快速设置程序，并且屏幕上有一条警语，警告你此程序会引起阀门的行程移动，按下右键►即可开始自动调校，按下左键方向◄即可返回到主菜单，这一过程是自动调校仪表并提供适合阀门开关的参数。

如果想中止自动调校，一起按下右方向键►和左键方向◄大约3秒。

当自动调校完成后，按下右方向键►返回到状态信息，如果在30秒右方向键►没有被按下，装置将自动返回到状态信息。

全行程调校仪表在没有改变调校值下可进行手动调校和自动调校，按下向下方向键▼二次然后按下右方向键►一次就可进入调校状态，并可按照图3-4的提示进行下去。

自动调校将按照阀门运行的方式提供状态信息手动调校需要你首先调整输入信号移动阀门，然后按右方向键►确认。

手动调校完成后，你可以选择存储调校或不存储退出调校程序，如果没有存储而退出，则最后的调校项被存储。

Fisher定位器有许多型号，还有许多仪表级别的可用功能。

下面以DVC2000为例，介绍在选型时需要考虑到这些各仪表级别的可用功能符号或代码，包括：AC、AD、HC、PD的含义。

1、AC-自动校准利用LCD或375型现场通讯器通信，提供基本设置和校准功能。

2、AD-高级诊断（通过ValueLink软件）提供全部脱机诊断测试（涉及动态误差带、驱动信号、阶跃响应和阀门特征曲线）和联机趋势分析功能。

3、HC-HART通信利用LCD375型通讯器和AMS ValveLink软件通信，提供基本设置，校准行程截止和限值，最小开启和关闭时间，输入特征（线性，等百分比，快速开启和自定义）和报警号（行程偏差报警，行程信号报警高、低，高高和低低，驱动信号报警，辅助端子报警，循环技术器报警和行程累加器报警）。

4、PD-性能诊断还提供联机阀门特征曲线测试（摩擦分析）Deice Rev-"装置版本"系为实现现场通讯器和仪表的通讯而采用的软件的版本号；Firmware Date-"固体日期"系正在使用的固体的版日期；Fireware Rev-"固体版本"系仪表中Fisher固体的版本号；Main Elect Rev-"次要电子设备版本"系次要电子元件的版本号；Sensor Serial Num-"传感器序列号"系传感器的序列号。

用户在对费希尔DVC2000及其他产品进行选型时，要知道型号所代表的含义，选择最为合适的产品，切记不能把型号的每个数字搞错，否则直接会影响到后续的使用。