罗斯蒙特压力传感器选型手册

表 4. 3051GP 量程和传感器限值最大回路电阻 = 43.5 （电源电压 - 10.5)11通信所需的最小(1)1.假定大气压为 14.7 p sig 。

4-20 mA HART （输出代码 A ）电源要求采用外部电源。

标准变送器 (4-20mA) 无负载时的工作电压为 10.5-42.4 Vdc 。

负载限制最大回路电阻取决于外部电源的电压水平，描述如下：回路电阻为 250 欧姆。

(1) 对于加拿大标准协会 (CSA) 认证，电源电压不得超过 42.4零点和量程调整要求零点和量程值可在表 3 和表 4 所列的量程极限范围内任意设置。

量程必须大于或等于表 3 和表 4 列出的最小量程。

输出用户可选择两线制 4-20mA 作为线性或平方根输出。

将数字化过程变量叠加在 4-20 mA 信号上，任何符合 HART 协议的主机都可调用。

可选泽的 HART 修订版3051 具有可选择的 HART 修订版。

必须选择基于 HART 修订版 5 （选项代码 HR5）或修订版7 （选型代码 HR7）协议的数字通信。

在现场，可以使用任何基于 HART的组态工具来切换 HART 修订版。

过压极限罗斯蒙特 3051DP/DG•量程 1：13.78 MPa (2000 psig)•量程 2-5：17.23 MPa (2500 psig)25 MPa(3626 psig)，用于选项代码 P7负载 ( s )罗斯蒙特 3051GP•量程 1：5.17 MPa (750 psi)•量程 2：10.34 MPa (1500 psi)•量程 3：11 MPa (1600 psia)•量程 4：41 MPa (6000 psi)爆破压力极限3051D 共平面或传统过程法兰7266 psi (50 MPa)3051G 直接安装式11000 psi (75.8 MPa)故障模式报警 如果自诊断系统检测到一个传感器或微处理器故障，模拟信号 将被强行设置为高或低，从而向用户发出警告。

罗斯蒙特1199 远传膜片系统（全球供货系列产品）用于罗斯蒙特3051S、 3051 、1151 与 2088 型变送器扩大压力变送器应用范围•极热与极冷的温度•腐蚀性的测量场合•易堵塞的过程•要求清洁卫生的场合应用•液位、流量、压力、界面与密度的测量。

目录技术规格 (3)远传膜片选择指南 (5)订货信息 (9)远传膜片的连接 (10)一般用途膜片组件 (16)综合技术资料 (58)全球最完整的供货实力罗斯蒙特 1199 型远传膜片系统提供世界最广泛的产品品种与规格，满足各种测量与应用的要求。

本产品选型资料重点介绍罗斯蒙特 1199 型远传膜片各种过程连接结构形式、直接安装或毛细管系统，以及各种结构材料。

经验证明Tuned-Systems™系统为差压－液位装置提供最佳的工程质量当前市场上只有罗斯蒙特有能力提供优化非平衡系统（Tuned-System）。

采用此系统可带来 :•变送器安装费用减少 20％•总的系统性能提高 10％•时间响应特性改善 80％以上。

仪表工程软件Instrument Toolkit ：•计算远传膜片系统的温度指标与响应时间•帮助第一次及以后每次正确选型远传膜片系统要了解关于仪表工程软件更多的内容，详见第 68 页。

要了解关于优化非平衡系统(Tuned-System) 更多的内容，详见第 60 页。

可选用罗斯蒙特1199 型远传膜片的压力变送器类型罗斯蒙特 1199 型远传膜片可组装到罗斯蒙特 3051S、3051 、1151 及 2088 型差压、表压 与绝压变送器及液位变送器上。

有关详细信息，请在定购罗斯蒙特 1199 型远传膜片前，查阅下列产品选型资料：罗斯蒙特 3051S 型压力变送器规模可变的压力、流量与液位测量解决方案，实现了安装与维护的最佳应用实践。

罗斯蒙特 3051 型压力变送器全面领先的性能、灵活的共平面（Coplanar™）平台、5 年稳定性保证。

罗斯蒙特 3095MV 型质量流量变送器精确地测量差压、静压与过程温度，完全实时补偿计算质量流量。

Quick Start Guide00825-0100-4803, Rev GAOctober 2021 Rosemount™ 3051S and 3051SF Series Flow Meter MultiVariable™ TransmittersQuick Start Guide October 2021 ContentsAbout this guide (3)Mount the transmitter (5)Consider housing rotation (11)Set the switches (12)Connect wiring and power up (13)Engineering Assistant installation (17)Flow configuration (19)Verifying device configuration (28)Trimming the transmitter (32)Safety instrumented systems installation (33)Product certifications (34)2Rosemount 3051SMVOctober 2021Quick Start Guide1About this guideThis guide provides basic guidelines to install the Rosemount 3051SMultiVariable Transmitter. It also provides the basic Rosemount 3051SMVconfiguration guidelines for the Rosemount 3051SFA, Rosemount 3051SFC,and Rosemount 3051SFP. It does not provide instructions for detailedconfiguration, diagnostics, maintenance, service, troubleshooting, orinstallations. Refer to the Rosemount 3051SMV Reference Manual for moreinstruction. The manual and this guide are also available electronically at/Rosemount.1.1Safety messagesWARNINGFailure to follow these installation guidelines could result in death orserious injury.Ensure only qualified personnel perform the installation.ExplosionsExplosions could result in death or serious injury.Installation of device in an explosive environment must be in accordancewith appropriate local, national, and international standards, codes, andpractices.Review the Hazardous Locations Certifications for any restrictionsassociated with a safe installation.Process leaksProcess leaks could result in death or serious injury.Install and tighten thermowells and sensors before applying pressure.Do not remove the thermowell while in operation.Conduit/cable entriesUnless marked, the conduit/cable entries in the transmitter housing usea ½–14 NPT thread form. Entries marked “M20” are M20 × 1.5 threadform. On devices with multiple conduit entries, all entries will have thesame thread form. Only use plugs, adapters, glands, or conduit with acompatible thread form when closing these entries.When installing in a hazardous location, use only appropriately listed orEx certified plugs, glands, or adapters in cable/conduit entries.Quick Start Guide3Quick Start Guide October 2021 WARNINGElectrical shockElectrical shock could cause death or serious injury.Avoid contact with the leads and terminals. High voltage that may bepresent on leads can cause electrical shock.Unless marked, the conduit/cable entries in the housing use a ½–14 NPTthread form. Entries marked “M20” are M20 × 1.5 thread form. Ondevices with multiple conduit entries, all entries will have the samethread form. Only use plugs, adapters, glands, or conduit with acompatible thread form when closing these entries.When installing in a hazardous location, use only appropriately listed orEx certified plugs, glands, or adapters in cable/conduit entries.Physical accessUnauthorized personnel may potentially cause significant damage to and/ormisconfiguration of end users’ equipment. This could be intentional orunintentional and needs to be protected against.Physical security is an important part of any security program andfundamental to protecting your system. Restrict physical access byunauthorized personnel to protect end users’ assets. This is true for allsystems used within the facility.4Rosemount 3051SMVOctober 2021Quick Start Guide 2Mount the transmitter2.1Liquid flow applicationsProcedure1.Place taps to the side of the line.2.Mount beside or below the taps.3.Mount the transmitter so that the drain/vent valves are orientedupward.AA. Direction of flow2.2Gas flow applicationsProcedure1.Place taps in the top or side of the line.Mount beside or above the taps.2.A. Direction of flowQuick Start Guide52.3Steam flow applicationsProcedure1.Place taps to the side of the line.2.Mount beside or below the taps.3.Fill impulse lines with water.AA. Direction of flow2.4Mounting bracketsFigure 2-1: Mounting Bracket – Coplanar FlangePanel mountPipe mountQuick Start Guide October 2021 6Rosemount 3051SMVFigure 2-2: Mounting Brackets – Traditional FlangePanel mountPipe mountFigure 2-3: Mounting Brackets – In-linePanel mountPipe mount2.5Bolting considerationsIf the transmitter installation requires assembly of a process flange,manifold, or flange adapters, follow these assembly guidelines to ensure atight seal for optimal performance characteristics of the transmitter. Onlyuse bolts supplied with the transmitter or sold by Emerson as spare parts.Figure 2-4 illustrates common transmitter assemblies with the bolt lengthrequired for proper transmitter assembly.October 2021Quick Start Guide Quick Start Guide7Figure 2-4: Common Transmitter AssembliesA 4 × 1.75-in.(44 mm)D4 × 1.75-in.(44 mm)4 × 2.25-in.(57 mm)C4 × 1.75-in. (44 mm) 4 × 1.50-in.(38 mm)4 × 2.88-in.(73 mm)A.Transmitter with coplanar flange B.Transmitter with coplanar flange and optional flange adapters C.Transmitter with traditional flange and optional flange adapters D.Transmitter with coplanar flange and optional Rosemount Conventional Manifold and flange adaptersNoteFor all other manifolds, contact Customer Central technical support.Bolts are typically carbon steel or stainless steel. Confirm the material byviewing the markings on the head of the bolt and referencing Table 2-1 . Ifbolt material is not shown in Table 2-1, contact the local Emersonrepresentative for more information.Use the following bolt installation procedure:Procedure1.Carbon steel bolts do not require lubrication and the stainless steelbolts are coated with a lubricant to ease installation. However, noadditional lubricant should be applied when installing either type ofbolt.2.Finger-tighten the bolts.3.Torque the bolts to the initial torque value using a crossing pattern.See Table 2-1 for initial torque value.4.Torque the bolts to the final torque value using the same crossing pattern. See Table 2-1 for final torque value.Quick Start Guide October 20218Rosemount 3051SMVOctober 2021Quick Start Guide5.Verify the flange bolts are protruding through the sensor modulebefore applying pressure (see Figure 2-5).ExampleTable 2-1: Torque Values for the Flange and Flange Adapter BoltsFigure 2-5: Proper Bolt InstallationA.BoltB.Sensor moduleQuick Start Guide92.6O-rings with flange adaptersWARNINGFailure to install proper flange adapter O-rings may cause process leaks,which can result in death or serious injury. Only use the O-ring that isdesigned for its specific flange adapter.DA.Flange adapterB.O-ring C.PTFE-based profile (square)D.Elastomer profile (round)Whenever the flange or adapters are removed, visually inspect the O-rings.Replace them if there are any signs of damage, such as nicks or cuts. If the O-rings are replaced, re-torque the flange bolts and alignment screws afterinstallation to compensate for seating of the O-rings.Quick Start Guide October 202110Rosemount 3051SMV3Consider housing rotationTo improve field access to wiring or to better view the optional LCD display:Procedure1.Loosen the housing rotation set screw.2.Turn the housing up to 180° left or right of its original (as shipped)position.3.Re-tighten the housing rotation set screw.Figure 3-1: Transmitter Housing Set ScrewA.LCD displayB.Housing rotation set screw (3/32-in.)CAUTIONDo not rotate the housing more than 180° without first performing adisassembly procedure. Over-rotation may sever the electricalconnection between the sensor module and the electronics.4Set the switchesThe transmitter’s default configuration sets the alarm condition to high (HI)and the security to off.Procedure1.If the transmitter is installed, secure the bus and remove power.2.Required: Remove the transmitter cover opposite the field terminalside. Do not remove the instrument covers in explosiveenvironments when the circuit is live.3.Slide the Security and Alarm switches into the preferred position byusing a small screwdriver.NoteThe Security switch will need to be in the off position in order to makeany configuration changes.4.Required: In order to meet explosion-proof requirements, reinstallthe housing cover and tighten so the cover is fully seated with metalto metal contact between the housing and cover. After the cover isseated properly, replace the flathead screw located on the bottom ofthe housing cover.Figure 4-1: Transmitter Switch ConfigurationA BA.SecurityB.AC Termination5Connect wiring and power upCAUTIONDo not connect the power across the test terminals. Power could damagethe test diode in the test connection. Twisted pairs yield best results. Use 24to 14 AWG wire and do not exceed 5,000 ft. (1500 m).Use the following steps to wire the transmitter:Procedure1.Remove the cover on the field terminals side of the housing.2.Connect the positive lead to the “PWR/COMM +” terminal, and thenegative lead to the “PWR/COMM –” terminal.3.If the optional process temperature input is not installed, plug andseal the unused conduit connection. If the input is being utilized, seeInstall optional process temperature input (Pt 100 RTD sensor) formore information.When the enclosed pipe plug is utilized in the conduit opening, itmust be installed with a minimum engagement of five threads tocomply with explosion-proof requirements. Refer to the Rosemount™3051SMV Reference Manual for more information.4.If applicable, install wiring with a drip loop. Arrange the drip loopso the bottom is lower than the conduit connections and thetransmitter housing.5.Reinstall the housing cover and tighten so that metal contacts metalto meet explosion-proof requirements.Figure 5-1 shows the wiring connections necessary to power aRosemount 3051SMV and enable communications with a hand-heldField Communicator.Figure 5-1: Transmitter WiringA. Power supplyNoteInstallation of the transient protection terminal block does notprovide transient protection unless the Rosemount 3051SMVhousing is properly grounded.5.1Conduit electrical connector wiring (option GE or GM)For Rosemount 3051SMV with conduit electrical connectors GE or GM, referto the cordset manufacturer’s installation instructions for wiring details. ForFM Intrinsically Safe, Division 2 hazardous locations, install in accordancewith Rosemount drawing 03151-1009 to maintain outdoor rating (NEMA®4X and IP66). See the Rosemount 3051SMV Reference Manual.5.2Power supplyThe dc power supply should provide power with less than two percent ripple.The total resistance load is the sum of the resistance of the signal leads andthe load resistance of the controller, indicator, intrinsic safety barriers, andrelated components.Figure 5-2: Load Limitation5.3Install optional process temperature input (Pt 100 RTDsensor)NoteTo meet ATEX/IECEx Flameproof certification, only ATEX/IECEx Flameproofcables (temperature input code C30, C32, C33, or C34) may be used.Procedure1.Mount the Pt 100 RTD sensor in the appropriate location.NoteUse shielded four-wire cable for the process temperatureconnection.2.Connect the RTD cable to the Rosemount 3051SMV by inserting thecable wires through the unused housing conduit and connect to thefour screws on the transmitter terminal block. An appropriate cablegland should be used to seal the conduit opening around the cable.3.Connect the RTD cable shield wire to the ground lug in the housing.Figure 5-3: RTD Wiring ConnectionA.Ground lugB.RTD cable assembly wiresC.Pt 100 RTD sensor6Engineering Assistant installationEngineering Assistant 6.1 or laterThe Rosemount 3051SMV Engineering Assistant 6.1 or later is PC-basedsoftware that performs configuration, maintenance, diagnostic functions,and serves as the primary communication interface to the transmitter withthe fully compensated mass and energy flow feature board.The Rosemount 3051SMV Engineering Assistant software is required tocomplete the flow configuration.To ensure correct operation, download the most current version of theEngineering Assistant software at /Rosemount-Engineering-Assistant.6.1System requirementsThe following are the minimum system requirements to install theRosemount 3051SMV Engineering Assistant software:•Pentium®-grade processor: 500 MHz or faster•Operating system: Windows™ XP Professional (32-bit), or Windows 7 (32-bit or 64-bit)•256 MB RAM•100 MB free hard disk space•RS232 serial port or USB port (for use with HART® modem)•CD-ROM6.2Install Rosemount 3051SMV Engineering Assistant 6.1 orlaterProcedure1.Uninstall any existing versions of Engineering Assistant 6.2.Insert the new Engineering Assistant disk into the CD-ROM.3.Windows should detect the presence of a CD and start theinstallation program. Follow the on-screen prompts to finish theinstallation. If Windows does not detect the CD, use WindowsExplorer or My Computer to view the contents of the CD-ROM, andthen double click the SETUP.EXE program.4. A series of screens (Installation Wizard) will appear and assist in theinstallation process. Follow the on-screen prompts. It isrecommended to use the default installation settings.NoteEngineering Assistant versions 6.1 or later require the use ofMicrosoft®.NET Framework version 4.0 or later. If .NET version 4.0 isnot currently installed, the software will be automatically installedduring the Engineering Assistant installation. Microsoft .NET version4.0 requires an additional 200 MB of disk space.6.3Connect to a personal computerProcedure1.Remove the cover from the field terminals side of the housing.2.Power the device as outlined in Connect wiring and power up.3.Connect the HART modem cable to the PC.4.On the side of the transmitter marked “Field Terminals,” connect themodem mini-grabbers to the two terminals marked “PWR/COMM.”unch the Engineering Assistant software. For more information onlaunching software, see Launch Engineering Assistant 6.1 or later.6.Once the configuration is complete, replace cover and tighten untilmetal contacts metal to meet explosion-proof requirements.Figure 6-1 shows how to connect a computer to a Rosemount3051SMV.Figure 6-1: Connecting a PC to the TransmitterA.Power supplyB.Modem7Flow configurationRosemount 3051SMV Engineering Assistant 6.1 or laterThe Rosemount 3051SMV Engineering Assistant is designed to guide theuser through the setup of the flow configuration for a Rosemount 3051SMV.The flow configuration screens allow the user to specify the fluid, operatingconditions, and information about the primary element, including insidepipe diameter. This information will be used by the Rosemount 3051SMVEngineering Assistant software to create flow configuration parameters thatwill be sent to the transmitter or saved for future use.Online and offline modesThe Engineering Assistant software can be used in two modes: Online andOffline. In Online mode, the user can receive the configuration from thetransmitter, edit the configuration, send the changed configuration to thetransmitter, or save the configuration to a file. In offline mode, the user cancreate a new flow configuration and save the configuration to a file or openand modify an existing file.The following pages provide instructions on creating a new flowconfiguration in offline mode. For more information on other functionality,see the Rosemount 3051SMV Reference Manual.7.1Basic navigation overviewFigure 7-1: Engineering Assistant Basic Navigation OverviewAFGHB C D E7.2Launch Engineering Assistant 6.1 or laterFlow configuration for the Rosemount 3051SMV is achieved by launchingthe Engineering Assistant software from the Start menu.Procedure1.Select the Start menu→All Programs→Engineering Assistant.Engineering Assistant will open to the screen shown in Figure 7-2.2.Select Offline button located in the lower right hand corner of thescreen shown in Figure 7-2.Figure 7-2: Engineering Assistant Device Connection Screen7.3Use Preferences tabThe Preferences tab, shown in Figure 7-3, allows you to select the preferredengineering units to display.Procedure1.Select the preferred engineering units.2.If Custom Units are selected, configure the Individual Parameters.3.Check the box if unit preferences should be retained for futureEngineering Assistant sessions.Figure 7-3: Preferences Tab7.4Select fluid for database liquid/gasThe Fluid Selection tab shown in Figure 7-4 allows the user to choose theprocess fluid.Figure 7-4: Fluid Selection TabNoteThe following example will show a flow configuration for the database gas air used with a Rosemount 405C Conditioning Orifice Plate as the primary element. The procedure to set up any other fluid with any other primary element will be similar to this example. Natural gases, custom liquids, and custom gases require additional steps during the configuration. See the Rosemount 3051SMV Reference Manual for more information. Procedure1.Engineering Assistant may open to the Preferences tab. Using the tabsat the top of the screen, navigate to the Fluid Selection tab.2.Expand the Gas category (click on the + icon).3.Expand the Database Gas category.4.Select Air from the list of database fluids.5.Enter the Nominal Operating Pressure, select the Enter or Tab key.6.Enter the Nominal Operating Temperature, select the Enter or Tab key.Engineering Assistant will automatically fill in suggested operatingranges, as shown in Figure 7-4. These values may be edited asneeded by the user.7.Verify the Reference/Atmospheric Conditions are correct for theapplication. These values may be edited as needed.NoteReference pressure and temperature values are used by EngineeringAssistant to convert the flow rate from mass units to mass unitsexpressed as standard or normal volumetric units.8.Select Next to proceed to the Fluid Properties tab.7.5Fluid propertiesNoteThe Fluid Properties tab is an optional step and is not required to complete aflow configuration.The Fluid Properties tab for the database gas air is shown in Figure 7-5. This isused to verify the properties of the chosen fluid are acceptable.To check density, compressibility, and viscosity of the selected fluid at otherpressure and temperature values, enter a Pressure and Temperature andselect Calculate.NoteChanging the pressure and temperature values on the Fluid Properties tabdoes not affect the fluid configuration.Figure 7-5: Fluid Properties Tab7.6Select primary elementThe Primary Element Selection tab shown in Figure 7-6 allows the user tochoose the primary element.Figure 7-6: Primary Element Selection TabContinuing with the example configuration:Procedure1.Expand the Conditioning Orifice Plate category.2.Select 405C/3051SFC.3.Enter the measured Meter Tube Diameter (pipe ID) at a referencetemperature. If the meter tube diameter cannot be measured, selecta Nominal Pipe Size and Pipe Schedule to input an estimated valuefor the meter tube diameter (English units only).4.If necessary, edit the Meter Tube Material.5.Enter the Line Size and select the Beta of the conditioning orificeplate. The required primary element sizing parameters will bedifferent depending on what primary element was selected.6.If necessary, select a primary element Material from the dropdownmenu.7.Select Next > to advance to the Save/Send Configuration tab.NoteTo be in compliance with appropriate national or internationalstandards, beta ratios and differential producer diameters should bewithin the limits as listed in the applicable standards. TheEngineering Assistant software will alert the user if a primary element value exceeds these limits, but will allow the user to proceed with the flow configuration.7.7Save/send configurationThe Save/Send Configuration tab shown in Figure 7-7 allows you to verify,save, and send the configuration information to the transmitter with thefully compensated mass and energy flow feature board.Procedure1.Review the information under the Flow Configuration and DeviceConfiguration headings.NoteFor more information, see Verifying device configuration.Figure 7-7: Save/Send Configuration Tab2.Select the icon above each window to edit the configurationinformation in these windows.NoteThe user will be notified if the configuration has been modified sinceit was last sent to the transmitter. A warning message will be shownto the right of the Send Flow Data and/or Send Transmitter Data checkboxes.3.To send the configuration, select the Send To button.NoteThe Send Flow Data and Send Transmitter Data check boxes can beused to select what configuration data is sent to the transmitter. Ifeither check box is unselected, the corresponding data will not besent.4.The Engineering Assistant Device Connection screen will appear, seeFigure 7-8.Figure 7-8: Engineering Assistant Device Connection Screen5.Select the Search button located in the lower right hand corner ofthe screen. Engineering Assistant will begin to search for connected devices.6.When the search is completed, select the device to communicatewith and select Send Configuration button.NoteAfter the configuration is sent to the device, saving the configuration file is recommended. The user can select the Save button on theSave/Send screen or select Save from the program menu.Once the configuration is finished being sent to the device, the user will be notified by a pop-up dialog box.7.If finished with the configuration process, close EngineeringAssistant.8Verifying device configurationUse Rosemount 3051SMV Engineering Assistant or any HART-compliantmaster to communicate with and verify configuration of the Rosemount3051SMV.Table 8-1 shows the Field Communicator fast keys for the fully compensatedmass and energy flow. Table 8-2 shows the Fast Keys for the direct processvariable output.NoteDevice configuration procedures are given for Rosemount 3051SMVEngineering Assistant 6.1 or later and AMS Device Manager 9.0 or later in theRosemount 3051SMV Reference Manual.A check (✓) indicates the basic configuration parameters. At a minimum,these parameters should be verified as part of the configuration and startupprocedure.Table 8-1: Fast Keys for Fully Compensated Mass and Energy FlowTable 8-2: Fast Keys for Direct Process Variable Output9Trimming the transmitterTransmitters are shipped fully calibrated per request or by the factorydefault of full scale.9.1Zero trimA zero trim is a single-point adjustment used for compensating mountingposition and line pressure effects on static and differential pressure sensors.When performing a zero trim, ensure that the equalizing valve is open andall wet legs are filled to the correct level.The transmitter will only allow up to five percent of URL zero error to betrimmed.9.1.1Perform a zero trim using the Field CommunicatorProcedure1.Equalize or vent the transmitter and connect the FieldCommunicator (for more information on connecting,see Figure 5-1).2.If the device is equipped with a static pressure sensor, zero the sensorby inputting the following Fast Key sequence at the Rosemount3051SMV menu:e the zero trim (selection 1) for a transmitter equipped with a gagestatic pressure sensor or lower sensor trim (selection 2) for atransmitted equipped with an absolute static pressure sensor.NoteWhen performing a lower sensor trim on an absolute pressuresensor, it is possible to degrade the performance of the sensor ifinaccurate calibration equipment is used. Use a barometer that is atleast three times as accurate as the absolute sensor of thetransmitter.4.Zero the differential pressure sensor by inputting the following FastKey sequence at the Rosemount 3051SMV menu:10Safety instrumented systems installation For safety certified installations, refer to the appropriate reference manualfor the installation procedure and system requirements:•For DP only measurements (measurement type D) refer to theRosemount 3051S Reference Manual.•For MultiVariable measurements (measurement type 1–7) refer to the Rosemount 3051SMV Reference Manual.11Product certifications11.1Rosemount 3051SMV/3051SFxRev 2.10European directive informationA copy of the EC Declaration of Conformity can be found at the end of theQuick Start Guide. The most recent revision of the EC Declaration ofConformity can be found at /Rosemount.Ordinary location certificationAs standard, the transmitter has been examined and tested to determinethat the design meets the basic electrical, mechanical, and fire protectionrequirements by a nationally recognized test laboratory (NRTL) as accreditedby the Federal Occupational Safety and Health Administration (OSHA).Installing Equipment in North AmericaThe US National Electrical Code (NEC) and the Canadian Electrical Code(CEC) permit the use of Division marked equipment in Zones and Zonemarked equipment in Divisions. The markings must be suitable for the areaclassification, gas, and temperature class. This information is clearly definedin the respective codes.11.1.1USAE5 US Explosionproof (XP) and Dust-Ignitionproof (DIP)Certificate FM16US0089XStandards FM Class 3600 – 2011, FM Class 3615 – 2006, FM Class 3616 –2011, FM Class 3810 – 2005, ANSI/NEMA 250 – 2003 Markings XP CL I, DIV 1, GP B, C, D; T5; DIP CL II, DIV 1, GP E, F, G; CL III;T5(–50 °C ≤ T a ≤ +85 °C); Factory Sealed; Type 4XI5 US Intrinsically Safe (IS) and Nonincendive (NI)Certificate FM16US0233Standards FM Class 3600 –2011, FM Class 3610 – 2007, FM Class 3611 –2004, FM Class 3616 – 2006, FM Class 3810 – 2005, NEMA250 – 1991Markings IS CL I, DIV 1, GP A, B, C, D; CL II, DIV 1, GP E, F, G; Class III; Class1, Zone 0 AEx ia IIC T4; NI CL 1, DIV 2, GP A, B, C, D; T4(–50 °C ≤T a ≤ +70 °C) when connected per Rosemount drawing03151-1206; Type 4XNoteTransmitters marked with NI CL 1, DIV 2 can be installed in Division 2locations using general Division 2 wiring methods or Nonincendive FieldWiring (NIFW). See Drawing 03151-1206.US Intrinsic Safety (IS) and Nonincendive (NI)Certificate:1143113Standards:FM Class 3600:2011, FM Class 3610:2010, FM Class3611:2004, FM Class 3810:2005, UL50E (1st Ed.)Markings:IS Class I/II/III, Division 1, Groups A, B, C, D, T4/ E, F, and GT135 °C; Class I, Zone 0 AEx ia IIC T4 Ga;T4 (-50 °C ≤ T a ≤ +70 °C) [HART];T4 (-50 °C ≤ T a ≤ +60 °C) [Fieldbus];when connected per Rosemount drawing 03151-1207; Type4XIE US FISCO Intrinsically SafeCertificate FM16US0233Standards FM Class 3600 – 2011, FM Class 3610 – 2010, FM Class 3611 –2004, FM Class 3616 – 2006, FM Class 3810 – 2005, NEMA250 – 1991Markings IS CL I, DIV 1, GP A, B, C, D; T4(–50 °C ≤ Ta ≤ +70 °C); whenconnected per Rosemount drawing 03151-1006; Type 4X US FISCO Intrinsically SafeCertificate:1143113Standards:FM Class 3600:2011, FM Class 3610:2010, FM Class3611:2004, FM Class 3810:2005, UL50E (1st Ed.)Markings:IS Class I/II/III, Division 1, Groups A, B, C, D, T4/ E, F, and GT135 °C; Class I, Zone 0 AEx ia IIC T4 Ga;T4 (-50 °C ≤ T a ≤ +70 °C) [HART];T4 (-50 °C ≤ T a ≤ +60 °C) [Fieldbus];when connected per Rosemount drawing 03151-1207; Type4X11.1.2CanadaE6 Canada Explosionproof, Dust Ignition-proof, Division 2Certificate1143113。

快速安装指南00825-0206-2654, Rev HB3 年 2021 月罗斯蒙特™ 0065/0185 传感器组件快速安装指南 3 年 2021 月内容关于本指南 (3)接线图 (4)传感器组件尺寸 (7)技术规格 (10)产品认证 (14)符合性声明 (25)中国 RoHS (27)/Rosemount1关于本指南本指南提供罗斯蒙特 0065 和 0185 型传感器的基本指导。

本指南不提供组态、诊断、维护、检修、故障排除、防爆、隔爆或本质安全 (I.S.) 安装的 说明。

如果订购的罗斯蒙特 0065 和 0185 要求组装到温度变送器上，则请参考相应的《快速安装指南》，了解有关组态和危险场所认证的信息。

1.1安全信息 警告爆炸可能会导致死亡 或严重受伤。

在易爆环境中安装本变送器时，请务必遵守适用的当地、国家和国际标准、规范及规程。

导线管/电缆入口除非另外标明，否则外壳中的导线管/电缆入口采用 ½–14 NPT 螺纹牙型。

标有“M20”的入口为 M20 × 1.5 螺纹牙形。

在具有多个导线管入口的装置上，所有入口都采用相同的螺纹牙形。

在封闭这些入口时，只能使用具有相容螺纹牙形的堵头、接头、密封接头或导线管。

物理接触未经授权的人员可能会对最终用户的设备造成明显受损和/或误组态。

这可能是有意或无意的，需要采取相应的防护措施。

物理安全措施是任何安全计划的重要部分，是保护您的系统的基础。

限制未经授权人员进行物理接触，以保护最终用户的资产。

这对于设施中使用的所有系统均是如此。

小心请参阅本《快速安装指南》文档的“产品认证”一节。

3 年 2021 月快速安装指南快速安装指南32接线图图 2-1: 罗斯蒙特 65 系列热电阻引线排列方式Wht Wht系列热电阻接线端子（端接代码 2 和 4）双元件(1)RedRed Wht321Red Red 65123456(1)接线端子上接线柱的颜色可能与连接到外壳的引线的颜色不匹配。

2700/1700面板操作一. 屏幕显示说明:SELECT--- 确认键 SCROLL---- 选择键LED---状态指示灯二. 显示器密码:如果需要密码,CODE的字样就会出现在密码屏幕的顶部. 输入密码时候,通过使用SCROLL来选择数字, 并用SELECT移到下一个字符, 一次只好输入一个字符.如果你面对显示器密码屏幕, 却不知道密码, 在60秒内不按下任何显示器光敏开关.则此密码屏幕将自动退回到初始屏幕.三. 调零步骤:四. 显示器回路测试:五. 显示器查看报警:LED指示灯状态及报警查看六. 管理累积量和库存量:七: 测量单位设置:SELECT+SCROLL 按4秒SEE ALARM [SCROLL]OFFLINE MAINTAIN [SELECT] [SCROLL]CONFIG [SELECT] MASS [SELECT]可以按SCROLL选择你要的单位选定后按SELECT按SCROLL直到出现EXIT [SELECT]体积单位和密度单位设置和上述步骤相同八量程设置(LRV URV)[SELECT+SCROLL] 按4秒SEE ALARM [SCROLL]OFFLINE MAINTAIN [SELECT] 继续按SCROLL直到出现MAO1 [SELECT] SRC MAO1 [SELECT]MFLOW [SELECT] SRC MAO1 [SCROLL]4 MAO1 输入最小量程 [SCROLL+SELECT] 4 MAO1[SCROLL] 20 MAO1 [SELECT] 输入最大量程 [SELECT+SCROLL] 20 MAO1 [SCROLL] EXIT 按SELECT退出.其他量程设置和上述步骤相同.NOTE: SELECT+SCROLL 表示两个键同时按下九: 报警代码和解决办法。

Product Data SheetMarch 201700813-0100-4733, Rev PF⏹Factory assembled, leak-tested, and calibrate⏹Full breadth of offering including integral, in-line, and conventional ⏹Integral design enables “flangeless” connection to instrument ⏹Block and bleed, 2-, 3-, and 5-valve configurations ⏹Compact, lightweight design ⏹Easy in-process calibration ⏹Direct-mount capability⏹Available in NACE ®-compliant materials of constructionRosemount ™ ManifoldsRosemount Manifolds March 2017 Selection guideRosemount 305 Integral ManifoldSee “Rosemount mounting brackets” on page28.⏹Assembles directly to transmitter, eliminating need for flange⏹2-, 3-, and 5-valve configuration⏹Available with vertical or horizontal process connections⏹Compact, lightweight assembly⏹Factory assembled, seal-tested, and calibrated⏹50 percent fewer leak points than conventional transmitter toflange to manifold interface⏹Female NPT process connectionsRosemount 306 In-line ManifoldSee “Rosemount mounting brackets” on page28.⏹Assembled directly to in-line pressure transmitters orRosemount Wireless Pressure Gauge⏹Block-and-bleed and 2-valve configurations⏹Male or female threaded NPT process connectionRosemount 306 In-Line ManifoldRosemount 304 ConventionalManifoldSee “Rosemount mounting brackets” on page28.⏹Attaches to transmitter flange⏹2-, 3-, and 5-valve configurations⏹Traditional (Flange ϫ Flange, Flange ϫ NPT) and wafer styles⏹Factory assembled, seal-tested, and calibratedRosemount 304 Conventional Manifold - Traditional StyleRosemount 304 Conventional Manifold - Wafer StyleContentsValve configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3Ordering information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13Dimensional drawings . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 Rosemount 305 Integral Manifold -Coplanar StyleRosemount 305 Integral Manifold -Traditional StyleRosemount ManifoldsMarch 2017Valve configurationBlock-and-bleedThe block-and-bleed configuration is available on theRosemount 306 Manifold for use with in-line gage and absolute pressure transmitters. A single isolate valve provides instrument isolation and a bleed screw provides drain/vent capabilities.Rosemount 306 ManifoldTwo-valveThe 2-valve configuration is available on Rosemount 305, 306, and 304 Manifolds for use with absolute and gage pressure transmitters. An isolate valve provides instrument isolation and a drain/vent valve allows venting, draining, or calibration.Rosemount 305 and 306 ManifoldsRosemount 304 ManifoldThree-valveThe 3-valve configuration is available on Rosemount 305 and 304 Manifolds for use with differential pressure and multi-variable transmitters. Two isolate valves provide instrument isolation, and one equalize valve is positioned between the high and low process connections.Rosemount 305 ManifoldRosemount 304 (Traditional) ManifoldRosemount 304 (Wafer) ManifoldNoteVent ports receive plastic caps to protect threaded connections unless otherwise noted.NotePlugged connections receive 1/4-in. NPT plugs unless otherwisenoted.Rosemount Manifolds March 2017Five-valveThe 5-valve configuration is available on Rosemount 305 and 304 Manifolds for use with differential pressure and multivariable transmitters. Two isolate valves provide instrument isolation and one equalize valve is positioned between the high and low process connections. In addition, two drain/vent valves allow for controlled venting, 100 percent capture of vented or drained process, and simplified in-process calibration capability.Rosemount 305 Manifolds and 304 (Wafer)Five-valve natural gasThe 5-valve natural gas configuration is available on the Rosemount 305 and 304 Manifolds for use with differential pressure and multivariable transmitters. Two isolate valves provide instrument isolation and a single drain/vent valve allows for controlled venting, 100 percent capture of vented or drained process, and simplified in-process calibration capability. In addition, two equalize valves provide extra protection from leaking to ensure DP signal integrity.⏹“NG” option includes wide handle pattern and soft seats for ease of use as well as a larger bore to reduce plugging Rosemount 305 Manifolds and 304 (Traditional)NoteVent ports receive plastic caps to protect threaded connections unless otherwise noted.NotePlugged connections receive 1/4-in. NPT plugs unless otherwise noted.Ordering information Rosemount Manifolds can be ordered as a stand-alone product or as an integrated assembly attached to a transmitter.Stand-alone manifold1.Reference the “Selection guide” on page2 for assistanceon choosing the type of manifold.2.Specify a completed model number by referencing theapplicable ordering table for the selected manifold type:⏹Rosemount 305 Integral Manifold, see page5.⏹Rosemount 306 In-line Manifold, see page8.⏹Rosemount 304 Conventional Manifold, see page10.Transmitter/manifold assembly1.Specify a completed Rosemount transmitter modelnumber by referencing the applicable product data sheet.2.Specify a completed manifold model number byreferencing the applicable ordering table for the selectedmanifold type:⏹Rosemount 305 Integral Manifold, see page5.⏹Rosemount 306 In-line Manifold, see page8⏹Rosemount 304 Conventional Manifold, see page10.3.Verify the transmitter model number contains the correct“Process Connection” code or “Manifold Option” code for the desired transmitter manifold assembly (see Table 1).Table 1. Ordering Codes for a Transmitter/ManifoldAssemblyTransmitter ManifoldProcessconnection code“Manifold”option codeRosemount3051S305A11N/A306A11N/A304A12N/ARosemount3051/2051305N/A S5306N/A S5304N/A S6Rosemount2088305N/A N/A306N/A S5304N/A N/AAlisa Peng whdkmsale@ wechat:whdkmsaleRosemount Manifolds March 2017Specification and selection of product materials, options, or components must be made by the purchaser of the equipment. See page13 for more information on material selection.Table 2. Rosemount 305 Integral Manifold Ordering InformationThe starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.Model Product description0305Integral manifoldManufacturerR Rosemount★Manifold styleC Coplanar★T Traditional★M Traditional (DIN-compliant flange)★Manifold type22-valve★33-valve★5(1)5-valve★6(2)5-valve natural gas metering pattern★7(2)(3)2-valve (per ASME B31.1 [ANSI] power and piping code)8(2)(3)3-valve (per ASME B31.1 [ANSI] power and piping code)9(2)(3)5-valve (per ASME B31.1 [ANSI] power and piping code)Body(4)Bonnet Stem and tip/ball2316 SST/316L SST316 SST316 SST★3(5)Alloy C-276Alloy C-276Alloy C-2764(5)(6)Alloy 400Alloy 400Alloy 400Process connection styleA(7)1/4–18 NPT female ★B(8)1/2–14 NPT female★Packing material1(9)PTFE★2(10)Graphite-basedValve seat1 Integral★5Soft POM (only available with natural gas metering pattern)★OptionsExtended product warrantyWR33-year limited warranty★WR55-year limited warranty★Rosemount Manifolds March 2017Table 2. Rosemount 305 Integral Manifold Ordering InformationThe starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.Mounting bracketsB1Bracket for 2-in. pipe mounting, CS bolts★B3(11)Flat bracket for 2-in. pipe mounting, CS bolts★B4SST mounting bracket for 2-in. pipe mounting, 300 SST bolts★B7B1 bracket with 316 SST bolts★B9(11)B3 bracket with 316 SST bolts★BA316 SST B1 bracket with 316 SST bolts★BC(11)316 SST B3 bracket with 316 SST bolts★BE316 SST B4 bracket with 316 SST bolts★BF CS panel mount bracket★BG300 SST panel mount bracket★Bolt materialsL4(12)Austenitic 316 SST bolts★L5ASTM A193, Grade B7M bolts★L8ASTM A193, Class 2, Grade B8M bolts★Cleaning(13)P2Cleaning for special services★Material recommendations for NACE(5)(14)SG Sour gas (meets NACE MR0175/ISO 15156, MR0103/ISO 17495)★Adapters(15)DF1/2–14 NPT female flange adapter★DQ12 mm ferrule tube flange adapterProcess flowmeter configurationPF Relocated equalize valve for 9295 Process FlowmeterProcess flange bolting connection(16)HK10 mm (M10) process flange bolting connection★HL12 mm (M12) process flange bolting connection★Typical coplanar integral manifold model number: 305 R C 3 2 B 1 1 B41.Not available with traditional manifold style T.2.Only available with coplanar manifold style code C.3.Only available with 316 SST materials of construction code 2 and graphite-based packing code 2.4.Refer to Table 13 on page18 for additional detail on process wetted materials of construction.5.Materials of construction comply with recommendations per NACE MR0175/ISO 15156 for sour oil field production environments. Environmental limits apply tocertain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103/ISO 17495 for sour refining environments.6.Includes Alloy C - 276 drain vents.7.Only available with traditional manifold style codes T and M.8.Not available with traditional manifold style code M. Manifold style code T does not include mounting holes on process flange.9.Includes PTFE tape on drain/vent valves and plugs.Rosemount Manifolds March 201710.Includes graphite tape on drain/vent valves and plugs.11.Not compatible with the Rosemount 3095 Transmitter.12.Not available with ASME B31.1 manifold type codes 7, 8, and 9.13.Not available with graphite-based packing material code 2.14.Only allowed with material of construction code 2.15.Only allowed with traditional manifold style codes T and M. Not allowed with graphite-based packing code 2.16.Only available with traditional manifold style code M.Rosemount Manifolds March 2017 Specification and selection of product materials, options, or components must be made by the purchaser of the equipment. Seepage13 for more information on material selection.Table 3. Rosemount 306 Pressure Manifold Ordering InformationThe starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.Model Product description0306Pressure manifoldManufacturerR Rosemount★Manifold styleT Threaded★Manifold type1Block-and-bleed★22-valve★3(1)2-valve (per ASME B31.1 power piping code)Body(2)Bonnet Stem and tip/ball2316 SST/316L SST316 SST316 SST★3(3)(4)Alloy C-276Alloy C-276Alloy C-276Process connectionAA1/2–14 male NPT process connection for in-line transmitter ★AW1/2–14 male NPT process connection for Rosemount Wireless Pressure Gauge★BA(3)1/2–14 female NPT process connection for in-line transmitter★BW1/2–14 female NPT process connection for Rosemount Wireless Pressure Gauge★Packing material1(5)PTFE★2(6)Graphite-basedValve seat1Integral★OptionsExtended product warrantyWR33-year limited warranty★WR55-year limited warranty★Cleaning(7)P2Cleaning for special servicesRosemount ManifoldsMarch 2017Material recommendations for NACE (4)(8)SGSour gas (meets NACE MR0175/ISO 15156, MR0103/ISO 17495)★Typical integral manifold model number: 306 R T 2 2 BA 1 11.Only available with 316 SST materials of construction and graphite-based packing.2.Refer to Table 14 on page 18 for additional detail on process wetted materials of construction.3.Not available with block-and-bleed manifold type.4.Materials of Construction comply with recommendations per NACE MR0175/ISO 15156 for sour oil field production environments. Environmental limits apply to certain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103/ISO 17495 for sour refining environments.5.Includes PTFE tape on drain/vent valves and plugs.6.Includes graphite tape on plugs.7.Not available with graphite-based packing material code 2.8.Only allowed with material of construction code 2.Table 3. Rosemount 306 Pressure Manifold Ordering InformationThe starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.Rosemount Manifolds March 2017 Specification and selection of product materials, options, or components must be made by the purchaser of the equipment.See page13 for more information on material selection.Table 4. Rosemount 304 Conventional Manifold Ordering InformationThe starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.Model Product description0304Conventional manifoldManufacturerR Rosemount★Manifold styleT Traditional (flange ϫ flange or flange ϫ NPT)★W(1)WaferManifold type2(2)2-valve★33-valve★5(3)5-valve★6(2)5-valve natural gas metering pattern★7(2)(4)2-valve (per ASME B31.1 [ANSI] power and piping code)8(2)(4)3-valve (per ASME B31.1 [ANSI] power and piping code)Body(5)Bonnet Stem Tip2316 SST/316L SST316 SST316 SST316 SST★5CS316 SST316 SST316 SST★Process connection styleB1/2–14 NPT★F(2)Flanged★Packing/stem seal material1(6)PTFE★2(1)(7)Graphite-based3(8)FKM Elastomer O-ring★Bolts1For assembly to Rosemount 2051/3051 Traditional Flange★2For assembly to Rosemount 2051/3051 DIN-compliant Traditional Flange★3For assembly to Rosemount2051/3051 Coplanar™ Flange★Table 4. Rosemount 304 Conventional Manifold Ordering InformationThe starred offerings (★) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.OptionsGas-metering configurationNG(9)Wide handle pattern, 3/8-in. bore, soft POM seat★Extended product warrantyWR33-year limited warranty★WR55-year limited warranty★Mounting bracketsVC(2)Manifold heavy duty mounting bracket, CS for traditional style★VS(2)Manifold heavy duty mounting bracket, 316 SST for traditional style★B4(3)Manifold SST mounting bracket for 2-in. pipe mount with series 300 SST bolts for wafer style★Adapters and connectors(10)DF1/2–14 NPT female flange adapter★DT1/2-in. ferrule tube flange adapter★DQ12mm ferrule tube flange adapter★DV(11)1/2–14 NPT male non-stabilized connectors★DH(11)1/2–14 NPT male stabilized extended connectors★Dielectric isolator kitsG2(12)Dielectric isolators and bolt sleeves for connectors★Bolt materialL4(13)Austenitic 316 SST bolts★L5ASTM A193, Grade B7M bolts★L8ASTM A193, Class 2, Grade B8M bolts★Material recommendations for NACE(1)(14)SG Sour gas (meets NACE MR0175/ISO 15156, MR0103/ISO 17954)★Cleaning(15)P2Cleaning for special serviceHeater block kits(16)SB Steam block kit, 1/4-in. NPT connection★Typical model number: 0304 R T 3 2 B 1 1 VS1.Only allowed with material of construction code2.2.Not available with wafer manifold style code W.3.Not available with traditional manifold style code T.4.Only available with 316 SST materials of construction code 2 and graphite-based packing code 2.5.Refer to Table 15 on page18 for additional detail on process wetted materials of construction.6.Includes PTFE tape on drain/vent valves and plugs.7.Includes graphite tape on plugs.8.Only available with option code NG.9.Only available with manifold type code 6.10.Only allowed with both manifold style code T and process connection code F. Not allowed with Graphite-based packing code 2.11.Only available with manifold style code 6.12.Only available with option codes DV and DH.13.Not available with manifold type codes 7, 8.14.Materials of construction comply with recommendations per NACE MR0175/ISO 1516 for sour oil field production environments. Environmental limits apply tocertain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103/ISO 17495 for sour refining environments.15.Not available with Graphite-based packing material code 2.16.Not available with manifold type code 6.SpecificationsMaterial selectionEmerson ™ provides a variety of Rosemount product with various product options and configurations including materials ofconstruction that can be expected to perform well in a wide range of applications. The Rosemount product information presented is intended as a guide for the purchaser to make an appropriate selection for the application. It is the purchaser’s sole responsibility to make a careful analysis of all process parameters (e.g. all chemical components, temperature, pressure, flow rate, abrasives, contaminants), when specifying product, materials, options and components for the particular application. Emerson is not in a position to evaluate or guarantee the compatibility of the process fluid or other process parameters with the product, options, configuration or materials of construction selected. For more information on material compatibility, refer to the Material Selection Technical Note.Pressure and temperature ratingsFigure 1. Rosemount 305 Integral ManifoldsTable 5. Rosemount 305 Integral Manifolds (1)1.Except option HK:PTFE, integral seat: 2324 psi @ 200 °F (160 bar @ 93 °C), 1680 psi @ 400 °F (116 bar @ 204 °C)Graphite, integral seat: 2324 psi @ 200 °F (160 bar @ 93 °C), 1125 psi @ 750 °F (78 bar @ 399 °C)PackingSeatPressure and temperature ratingsPTFE Integral 6092 psi @ 200 °F (420 bar @ 93 °C)4000 psi @ 400 °F (276 bar @ 204 °C)PTFE Soft POM 6092 psi @ 200 °F (420 bar @ 93 °C)GraphiteIntegral 6092 psi @ 200 °F (420 bar @ 93 °C)1500 psi @ 750 °F (103 bar @ 399 °C)Graphite (ASME B31.1)Integral6092 psi @ 100 °F (420 bar @ 38 °C)3030 psi @ 1000 °F (201 bar @ 538 °C)Figure 2. Rosemount 306 In-line ManifoldsTable 6. Rosemount 306 In-line ManifoldsPackingSeatPressure and temperature ratingsPTFE Integral 10000 psi @ 85 °F (689 bar @ 29 °C)4000 psi @ 400 °F (276 bar @ 204 °C)GraphiteIntegral 6000 psi @ 200 °F (414 bar @ 93 °C)1500 psi @ 750 °F (103 bar @ 399 °C)Graphite (ASME B31.1)Integral6000 psi @ 100 °F (414 bar @ 38 °C)3030 psi @ 1000 °F (201 bar @ 538 °C)Figure 3. Rosemount 304 Conventional ManifoldsTable 7. Rosemount 304 Conventional ManifoldsPackingSeatPressure and temperature ratingsPTFE (1)1.Maximum working pressure limited to 4500 psi (310 bar) with G2 option.Integral 6000 psi @ 200 °F (414 bar @ 93 °C)4000 psi @ 400 °F (276 bar @ 204 °C)Graphite - wafer Integral 6000 psi @ 200 °F (414 bar @ 93 °C)1500 psi @ 750 °F (103 bar @ 399 °C)Graphite - flanged (SST)Integral 6000 psi @ 200 °F (414 bar @ 93 °C)1500 psi @ 1000 °F (103 bar @ 538 °C)Graphite - flanged (CS)Integral 6000 psi @ 200 °F (414 bar @ 93 °C)1500 psi @ 800 °F (103 bar @ 427 °C)Graphite (ASME B31.1)Integral 6000 psi @ 100 °F (414 bar @ 38 °C)3030 psi @ 1000 °F (201 bar @ 538 °C)PTFE POM 4500 psi @ 212F (310 bar @ 100 C)FKM O-ringPOM4500 psi @ 212 F (310 bar @ 100 C)Instrument connectionsO-ringsFigure 5. Rosemount 304 Conventional ManifoldTable 8. Manifold - Transmitter InterfaceModelConnectionRosemount 305 Integral Manifold Mounted directly to coplanar sensor module of transmitter, 1.3-in. (287 mm) center-to-center process isolatorsRosemount 306 In-line Manifold 1/2–14 male NPT for In-line transmitters 1/2-14 female NPT for Rosemount Wireless Pressure GaugeRosemount 304 Conventional ManifoldMounted to traditional transmitter flange, 21/8-in. (54 mm) center-to-center connection per IEC 61518, Type B shut-off device (without spigot)1.Available in packing material code 1 (PTFE) or code 2 (Graphite).Process connectionsVent port connections1/4–18 female NPTManifold boltsStandard material is plated Carbon Steel per ASTM A449, Type 1Alternative bolt materials offered through option codes:⏹L4 for Austenitic 316 stainless steel bolts ⏹L5 for ASTM A193, Grade B7M Bolts ⏹L8 for ASTM A193, Grade B8M Class 2 boltsTable 9. Rosemount 305 Integral ManifoldStyleConnectionCoplanar 1/2–14 female NPTTraditional1/4–18 female NPT(process adapters optional)Table 10. Rosemount 306 In-line ManifoldStyleConnectionBlock-and-bleed 1/2–14 male NPT(1)1.1/2-14 female NPT option only available with Wireless Pressure Gauge.2-valve1/2–14 NPT (male or female)Table 11. Rosemount 304 Conventional ManifoldStyleConnectionFlange by pipe 1/2–14 female NPTFlange by flange 21/8-in. (54 mm) center-to-centerconnection (process adapters required)Wafer1/2-14 female NPTTable 12. Adapters and ConnectorsOption DescriptionImageDF1/2-14 NPT female flange adapter•Available with Rosemount 305Integral and 304 Conventional ManifoldsDT1/2-in. ferrule tube flange adapter•Available with Rosemount 304 Conventional ManifoldDQ12mm ferrule tube flange adapter•Available with Rosemount 305 Integral and 304 Conventional ManifoldsDV (1)Non-stabilized connector•3.00-in.•No stabilizing foot•Includes assembly hardwareDH (1)Stabilized extended connectors•4.75-in.•Stabilizing foot•Includes assembly hardwareG2(1)(2)Dielectric isolators•Rated to 2500 VDC and 5 mega-Ohms•Includes bolts sleeves and assembly hardware1.Only allowed with both Rosemount 304 Manifold type code 6 and process connection code F. Not allowed with Graphite- based packing code2.2.Maximum working pressure of assembly limited to 4500 psi (310 bar), 3626 psi (250 bar) at –20 °F (–29 °C), and 3626 psi (250 bar) at 150 °F (66 °C).Table 12. Adapters and ConnectorsOption DescriptionImageMaterials of construction Process wetted TypicalFigure 6. Typical Rosemount Manifold Valve Estimated weightTable 13. Rosemount 305 Integral ManifoldComponent Option 2Option 2with SGOption 3Option 4Body 316 SST/316L SST316 SST/316L SSTAlloy C-276Alloy 400Ball/tip 316 SST/316Ti SSTAlloyC-276Alloy C-276Alloy 400Stem316 SST AlloyC-276Alloy C-276Alloy 400Packing PTFE/GraphitePTFE/GraphitePTFE/GraphitePTFE/GraphiteBonnet316 SST316 SST Alloy C-276Alloy 400 Pipe plug316 SST316 SST Alloy C-276Alloy 400Drain/vent valve 316 SSTAlloyC-276Alloy C-276Alloy 400Table 14. Rosemount 306 In-line ManifoldComponent Option 2Option 2with SGOption 3Body 316 SST/316L SST316 SST/316L SSTAlloy C-276Ball/tip 316 SST/316Ti SSTAlloy C-276Alloy C-276Stem316 SST Alloy C-276Alloy C-276 Packing PTFE/Graphite PTFE/Graphite PTFE/Graphite Bonnet316 SST316 SST Alloy C-276 Pipe plug316 SST316 SST Alloy C-276Bleed screw 316 SST/316Ti SSTAlloy C-276Alloy C-276Table 15. Rosemount 304 Conventional ManifoldComponent Option 2Option 2with SGOption 5Body 316 SST/316L SST316 SST/316L SSTCSBall/tip 316 SST/316Ti SSTAlloy C-276316 SSTStem316 SST Alloy C-276316 SSTPacking PTFE/GraphitePTFE/GraphitePTFEBonnet316 SST316 SST CS Pipe plug316 SST316 SST CS A. BonnetB. StemC. PackingD. Ball/tipE. BodyTable 16. Rosemount 305 Integral Manifold Description Weight2-valve coplanar 4.5 lbs (2.0 kg) 2-valve traditional 6.0 lbs (2.7 kg) 3-valve coplanar 4.7 lbs (2.1 kg) 3-valve traditional 6.0 lbs (2.7 kg) 5-valve coplanar 6.5 lbs (3.0 kg) Table 17. Rosemount 306 In-line Manifold Description Weight Block-and-bleed 1.1 lbs (0.5 kg) 2-valve 2.5 lbs (1.1 kg) Table 18. Rosemount 304 Conventional Manifold Description Weight2-valve traditional flange ϫ NPT 5.0 lbs (2.3 kg) 2-valve traditional flange ϫ flange 5.5 lbs (2.5 kg) 3-valve traditional flange ϫ NPT 5.2 lbs (2.4 kg) 3-valve traditional flange ϫ flange 5.7 lbs (2.6 kg) 3-valve wafer flange ϫ NPT 4.0 lbs (1.8 kg) 5-valve wafer flange ϫ NPT 5.7 lbs (2.6 kg) 5-valve traditional flange ϫ NPT 5.7 lbs (2.6 kg) 5-valve traditional flange ϫ flange 5.7 lbs (2.6 kg)Dimensional drawingsRosemount 305 Manifold(1)Figure 7. Rosemount 305RC 2-Valve Coplanar Style ManifoldA. 1/2–14 NPT on manifold for process connection, 1/4–18 NPT for test/vent connectionDimensions are in inches (millimeters).Figure 8. Rosemount 305RC 3-Valve Coplanar Style ManifoldsA. Drain/vent valveB. 1/2–14 NPT on manifold for process connections, 21/8-in. center-to-centerDimensions are in inches (millimeters).1.Manifold handle assembly may vary slightly from image shown. All valve handle assemblies provide the same function and meet all stated drawing dimensions.Figure 9. Rosemount 305RC 5-Valve Coplanar Style ManifoldA. 1/2–14 NPT on manifold for process connections, 21/8-in. center-to-center, 1/4–18 NPT for test/vent connection Dimensions are in inches (millimeters).Figure 10. Rosemount 305RT 2-Valve Traditional Style ManifoldA./2–14 NPT on optional process adapterB. 1/4–18 NPT on traditional manifold for process connection without the use of a process adapter Dimensions are in inches (millimeters).Figure 11. Rosemount 305RT 3-Valve Traditional Style ManifoldFigure 12. Rosemount 305RM 2-Valve Traditional DIN Style ManifoldA. Drain/vent valveB. 1/2–14 NPT on optional process adapter (1)1.Adapters can be rotated to give adapter connection centers of 2.0 (51), 2.125 (54), or 2.25 (57).C. 1/4–18 NPT on traditional manifold for process connections without the use of process adaptersDimensions are in inches (millimeters).A. 1/2–14 NPT on optional process adapterC. 1/4–18 NPT vent connection B. 1/4–18 NPT on traditional manifold for process connection without the use of a process adapter Dimensions are in inches (millimeters).Figure 13. Rosemount 305RM 3-Valve Traditional DIN Style ManifoldFigure 14. Rosemount 305RM 5-Valve Traditional DIN Style ManifoldB. 1/2–14 NPT on optional process adapter (1)1.Adapters can be rotated to give adapter connection centers of 2.0 (51), 2.125 (54), or 2.25 (57).4D. 0.75 (19) clearance for cover removalDimensions are in inches (millimeters).A. 1/2–14 NPT on optional process adapter (1)B. 1/4–18 NPT on traditional manifold for process connections without the use of process adapters Dimensions are in inches (millimeters).1.Adapters can be rotated to give adapter connection centers of 2.0 (51), 2.125 (54), or 2.25 (57).Rosemount 306 Manifold (1)Figure 15. Rosemount 306RT Pressure Style Manifold (3051S_T Shown)(2)Rosemount 304 Manifold (1)Figure 16. Rosemount 304RT 2-Valve Flange ϫ NPT Conventional Manifold1.Manifold handle assembly may vary slightly from image shown. All valve handle assemblies provide the same function and meet all stated drawing dimensions.Block-and-bleed style2-valve styleA. Bleed screw (unspecified dimension) - not designed for accessory attachments. C. 1/2–14 NPT female NPT process connection (code BA)B. 1/4-in. vent connection–pipe plug supplied with manifold, but not installed at factory (pipe plug supplied loose)Dimensions are in inches (millimeters).2.Manifold valve orientation may vary with respect to transmitter mounting holes.Instrument sideProcess sideA. 0.281 mounting holes (2)B. 1/4-in. NPT test (plugged)C. 1/2-in. NPT process connection on 2.125 (54) centers (2)Dimensions are in inches (millimeters).∅。

¢00825-0100-4774e¤Transmitter must be PROFIBUS profile 2.0 or 3.02Go to “Exchanging the electronics board without an LCD procedure:” on page 5Go to “Install the LOI configuration buttons” on page 6Go to “Exchanging the electronics board with an LCD procedure” on page 3Does transmitter have an LCD?No YesInstructions for Installing the Profibus Local Operator Interface (LOI) Upgrade Kit© 2010 Rosemount Inc. All rights reserved. All marks property of owner.Rosemount and the Rosemount logotype are registered trademarks of Rosemount Inc.Rosemount Inc.8200 Market Boulevard Chanhassen, MN USA 55317 T (US) (800) 999-9307T (Intnl) (952) 906-8888F (952) 949-7001Emerson Process Management GmbH & Co. OHGArgelsrieder Feld 382234 WesslingGermanyT 49 (8153) 9390, F49 (8153) 939172Emerson Process Management Asia Pacific Private Limited1 Pandan CrescentSingapore 128461T (65) 6777 8211F (65) 6777 0947/65 6777 0743Beijing Rosemount Far East Instrument Co., LimitedNo. 6 North Street, Hepingli, Dong Cheng District Beijing 100013, ChinaT (86) (10) 6428 2233F (86) (10) 6422 8586This installation guide provides basic guidelines for Rosemount 3051 transmitters (reference manual document number 00809-0100-4001). It does not provide instructions for diagnostics, maintenance, service, or troubleshooting. This document is also available electronically on .Explosions could result in death or serious injury:Installation of this transmitter in an explosive environment must be in accordance with the appropriate local, national, and international standards, codes, and practices. Please review the approvals section of the 3051 reference manual for any restrictions associated with a safe installation.•Before connecting a Field Communicator in an explosive atmosphere, ensure theinstruments in the loop are installed in accordance with intrinsically safe or non-incendive field wiring practices.•In an Explosion-proof/Flameproof installation, do not remove the transmitter covers when power is applied to the unit.Process leaks may cause harm or result in death.•Install and tighten process connectors before applying pressure.Electrical shock can result in death or serious injury.•Avoid contact with the leads and terminals. High voltage that may be present on leads can cause electrical shock.Conduit/Cable Entries•Unless marked, the conduit/cable entries in the transmitter housing use a 1/2-14 NPTthread form. Only use plugs, adapters, glands or conduit with a compatible thread form when closing these entries.23Exchanging the electronics board with an LCD procedureNOTEReplacing electronics board will upgrade device to Profile 3.02.1.Remove the housing cover opposite the field terminal side. Field terminals are identifiedon the certifications label.2.Loosen the two captive screws on the right and left side of the LCD to release theelectronics board / LCD assembly.ing the two captive screws, slowly pull the electronics board / LCD assembly out of thehousing. The assembly is electrostatically sensitive; observe handling precautions for static-sensitive components. Use caution when removing the assembly as there is a 10-pin Connector that joins the two components.4.Detach the sensor module ribbon cable that holds the electronics board to the housingby pushing the connector release.10-pin ConnectorCaptive ScrewRibbon Cable Connector Release5.Disassemble the electronics board / LCD assembly by removing the LCD, screws, and10-pin connector from electronics board by following these steps:a.Remove the captive screws from the electronics board plastic shroud by turning themcounter-clockwise while pulling slightly.b.Slide off the LCD, careful not to damage 10-pin connector holding the two piecestogether.c.Remove 10-pin connector from electronics board.d.Do not discard the captive screws, 10-pin connector, or LCD. These will bere-assembled to the new electronics board in Step 6. Set aside the electronics board.6.Assemble the new electronics board / LCD assembly:a.Insert 10-pin connector on new electronics board.b.Slide LCD on to 10-pin connector, connecting the LCD to the new electronics boardc.Engage the captive screws through the new electronics board / LCD assembly to helphold the two pieces together.7.Assemble the new electronics board / LCD assembly to the ribbon cable by removing thecable connector from its position inside of the internal black cap and attaching it to the electronics board.ing the two captive screws as handles, insert the electronics board/LCD assembly intothe housing. Make sure the posts from the electronics housing properly bond to the receptacles on the electronics board. Do not force. The electronics board should slide gently on the connections.9.Tighten the captive mounting screws to torque value 3 in.-lbs.10.Replace the electronics housing cover. The transmitter covers must be engagedmetal-to-metal to ensure a proper seal and to meet explosion-proof requirements.11.Proceed to “Install the LOI configuration buttons” on page6.45Exchanging the electronics board without an LCD procedure:NOTEReplacing electronics board will upgrade device to Profile 3.02.1.Remove the housing cover opposite the field terminal side. Field terminals are identifiedon the certifications label.2.Loosen the two captive screws on the right and left side of the electronics to release theelectronics board.ing the two captive screws, slowly pull the electronics board out of the housing. Theelectronics board is electrostatically sensitive; observe handling precautions forstatic-sensitive components. The sensor module ribbon cable holds the electronics board to the housing.4.Detach the sensor module ribbon cable that holds the electronics board to the housingby pushing the connector release.5.Connect the new electronics board/LCD assembly to the ribbon cable by removing thecable connector from its position inside of the internal black cap and attaching it to the electronics board.ing the two captive screws as handles, insert the electronics board/LCD assembly intothe housing. Make sure the posts from the electronics housing properly bond to the receptacles on the electronics board. Do not force. The electronics board should slide gently on the connections.7.Tighten the captive mounting screws to torque value of 3 in.-lbs.8.Install the enclosed electronics housing cover. The transmitter covers must be engagedmetal-to-metal to ensure a proper seal and to meet explosion-proof requirements.9.Proceed to “Install the LOI configuration buttons” on page 6.Ribbon Cable Connector Release6Install the LOI configuration buttons 1.Loosen the screw holding the certifications label. Slide the label to expose theconfiguration button location.2.Remove blank retainer and gasketa.Insert small screwdriver in the retaining tabs and lift out the retainer.b.Take out gasket with the screwdriver.c.Discard retainer and gasket.3.Assemble new LOI configuration buttonsa.Insert one spring into each hole.b.Insert one magnet, magnet end down, into each spring.c.Insert gasket around the magnets.d.Place the retainer on top of the gasket.1.Tilt the retainer so one clip goes into the grove.2.Then press firmly to fully secure retainer.e.Slide certification label to final closed position. Tighten the screw on the certification label.。

产品数据表00813-0106-4690, Rev QB2021 年 10 月Rosemount™ 2088 绝压和表压变送器■通过精度选项提供 0.065% 的性能■轻巧、紧凑的设计，可实现经济高效的安装■使用协议包括 4–20 mA HART®及 1–5 Vdc HART 低功率■绝压和表压范围可高达 4,000 psi (276 bar)■量程比 50:1产品供应为表压和绝压应用提供业经验证的可靠性■适用协议包括 4–20 mA HART 及 1–5 Vdc HART 低功率■完全可组态 LCD 显示屏可显示过程变量、量程百分比和诊断消息■结构轻巧、紧凑，易于安装■提供不锈钢 (SST) 或合金 C-276 接液材料选择通过艾默生无线 THUM ™适配器发挥设备的真正价值■获得现场智能，改善质量、安全性、可用性，降低维护成本■远程管理设备和监控工况■支持新的无线测量点■利用现有回路成熟、可靠和创新的差压液位测量技术■通过全面的过程连接产品、灌充液、直接安装或毛细管连接件和材料，可连接到几乎任何过程。

■利用 QZ 选件量化和优化整个系统的性能内容产品供应...........................................................................................................................................................................................2订购信息...........................................................................................................................................................................................4规格.................................................................................................................................................................................................11产品认证.........................................................................................................................................................................................17尺寸图 ............................................................................................................................................................................................26选项. (28)Rosemount 20882021 年 10 月一体化阀组 - 高质量、方便、易用■经过精心设计和制造，可实现罗斯蒙特变送器的最佳性能。

产品说明书00813-0106-4001, Rev WE2023 年 4 月Rosemount™ 3051 压力变送器通过 Rosemount 3051 压力变送器，您将更有效地控制工厂，能够在众多压力、液位和流量应用中借助我们的产品，减少产品变化和复杂性，降低总拥有成本。

您将可以访问各种信息，方便您进行诊断、校正甚至防止出现问题。

以我们无与伦比的可靠性和丰富的经验打造的 Rosemount 3051 符合行业标准，可帮助您以更高的效率和安全性标准进行工作，从而保持全球竞争力。

Rosemount 30512023 年 4 月内容建立压力测量标准 (2)Rosemount 3051C 共平面压力变送器订购信息 (6)Rosemount 3051T 直连式变送器订购信息 (18)Rosemount 3051CF 流量计选择指南 (28)Rosemount 3051L 液位变送器订购信息 (62)技术规格 (74)Rosemount 3051 产品认证 (91)尺寸图 (92)选项外， (106)建立压力测量标准经实践检验的一流性能、可靠性和安全性■超千万装机量■参考精度为量程的 0.04%■安装总性能为量程的 0.14%■稳定性可保持在 URL 的 0.1% 长达 12 年■SIL 2/3 认证（IEC 61508）Coplanar ™平台增强安装和应用灵活性■通过集成的差压流量计、差压液位解决方案和一体化阀组提高可靠性和性能。

■安装方便，所有方案都全面组合，并经过渗漏测试和标定。

■丰富的产品满足您的应用需求。

高级功能Bluetooth ® 技术■提高生产力、可靠性和人员安全性。

无需高温作业许可。

无需攀爬储罐或建筑脚手架。

■快速组态、检修和排除故障，所有设备对技术人员触手可及，速度比传统 HART ® 连接快十倍。

诊断■回路完整性诊断将连续地监测电路，检测影响通讯信号的问题，并提供腐蚀、外罩进水或电源不稳定等警报。

产品数据表00813-0106-3008, Rev AD2020 年 9 月罗斯蒙特™ RBI pH/ORP 传感器用于恶劣环境应用的高性能 pH/ORP 测量罗斯蒙特 RBI pH/ORP 传感器采用多重参比液接设计，使之非常适合用在含硫化物及其他有毒离子的恶劣环境应用。

该传感器提供多种配置，能够满足广泛的应用要求。

订购信息罗斯蒙特 RBI pH/ORP 传感器主体材质为 Kynar ®，提供两种配置：一种是 ¾-in. 美制标准管螺纹 (MNPT) 外螺纹直接/浸没式，允许传感器用于 T 型管或浸没储罐；另一种是可插拔式，可以穿过球阀进行各式安装。

高性能和坚固耐用设计■坚固的 Kynar 主体和可选 O 型圈材料 （EPDM 、Viton ® 或Kalrez ™），化学抗性出色。

■可耐受高达 150 psig (1,035 kPa) 的压力■多重参比液接更大程度增加传感器寿命。

易于安装■直接/浸没式主体采用 ¾-in. NPT 前端和后部过程连接，直接安装到过程介质管道中，或连入一个 ¾-in. FNPT 接合延长管用于潜水安装。

■可插拔传感器选件可以插入球阀安装。

通用 VP8 连接■使用 Variopol (VP8) 电缆连接器选件避免了缆线缠绕，实现电缆向传感器快速电缆释放。

在线产品组态工具很多产品可使用我们的产品组态工具进行在线组态。

选择Configure(组态)按钮或访问我们的网站开始。

使用此工具内置的逻辑和持续验证，您可以更快、更准确地度组态您的产品。

内容订购信息 (2)规格...................................................................................................................................................................................................5尺寸图...............................................................................................................................................................................................6附件. (13)罗斯蒙特 RBI2020 年 9 月/Rosemount型号测量类型/电极A10 和 A11 配有 PT100 热电阻 (RTD)，用于温度补偿。

定 货 信 息型号变送器型号CD CG 2051C压力变送器••代码测量类型CD CG D差压•-G表压-•代码压力量程（量程/最小量程）CD CG2051CD2051CG1–25 至 25 inH2O/0.5 inH2O(–62,2 至 62,2 mbar/1,2 mbar)–25 至 25 inH2O/0.5 inH2O(–62,1 至 62,2 mbar/1,2 mbar)••2–250 至 250 inH2O/2.5 inH2O(–623 至 623 mbar/6,2 mbar)–250 至 250 inH2O/2.5 inH2O(–623 至 623 mbar/6,2 mbar)••3–1000 至 1000 inH2O/10 inH2O(–2,5 至 2,5 bar/25 mbar)–393 至 1000 inH2O/10 inH2O(–0,98 至 2,5 bar/25 mbar)••4–300 至 300 psi/3 psi(–20,7 至 20,7 bar/0,2 bar)–14.2 至 300 psi/3 psi(–0,98 至 20,7 bar/0,2 bar)••5–2000 至 2000 psi/20 psi(–137,9 至137,9 bar/1,4 bar)–14.2 至 2000 psig/20 psi(–0,98 至 137,9 bar/1,4 bar)••代码输出CD CG A基于HART协议的4–20 mA 数字信号••M低能耗，基于HART协议的1–5 V dc 数字信号••F基金会现场总线协议••代码结构件材料CD CG 过程法兰类型法兰材料排液/排气阀2共面不锈钢不锈钢••3(1)共面铸造 C-276哈氏合金 C-276••5共面碳钢不锈钢••7(1)共面不锈钢哈氏合金 C-276••8(1)共面碳钢哈氏合金 C-276••0替代过程连接(需要选择法兰,阀组,或者一次元件，选项代码见27页)••代码隔离膜盒CD CG 2(1) 316L 不锈钢 ••3(1) 哈氏合金 C-276 ••代码O型环A玻璃填充特氟隆••B石墨填充特氟隆••代码灌充液CD CG 1硅油••2惰性液（卤代烃）••代码外壳材料导线管入口尺寸CD CG A铝，覆聚氨酯涂层1/2- 14 NPT••B铝，覆聚氨酯涂层M20 × 1.5 (CM20)••D铝，覆聚氨酯涂层G 1/2••J不锈钢1/2- 14 NPT••K不锈钢M20 × 1.5 (CM20)••M不锈钢G 1/2 ••代码选项CD CG 替代过程连接：法兰（2）H2传统法兰, 316 不锈钢, 不锈钢 排液/排气阀 ••H3(1)传统法兰, 铸造C-276, 哈氏合金 C-276 排液/排气阀••H7(1)传统法兰, 316不锈钢, 哈氏合金 C-276排液/排气阀••HJ符合DIN的传统法兰, 不锈钢, 7/16 英寸接头/阀组螺栓 ••HK(3)符合DIN的传统法兰, , 10 mm 接头/阀组螺栓 ••HL符合DIN的传统法兰,不锈钢, 12mm接头/阀组螺栓••FA液位法兰, 不锈钢, 2 英寸, ANSI 150 级,垂直安装••FB液位法兰, 不锈钢, 2 英寸, ANSI 300 级,垂直安装••FC液位法兰, 不锈钢, 3 英寸, ANSI 150 级,垂直安装••FD液位法兰, 不锈钢, 3 英寸, ANSI 300 级,垂直安装••FP DIN 液位法兰, 不锈钢, DN 50, PN 40, 垂直安装 ••FQ DIN 液位法兰, 不锈钢, DN 80, PN 40, 垂直安装 ••替代过程连接：阀组（2）（4）S5与罗斯蒙特305一体化阀组一起安装 ••S6与罗斯蒙特304阀组或连接系统一起安装 ••替代过程连接：一次元件（2）（4）S4(5)与罗斯蒙特一次元件一起安装 •—S3与罗斯蒙特405一次元件一起安装 •—密封膜盒安装S1(6)与一台罗斯蒙特1199远传密封膜盒一起安装 ••S2(7)与两台罗斯蒙特1199远传密封膜盒一起安装 •—安装支架B1(8)传统法兰支架，用于 2 英寸管道安装, 碳钢螺栓••B2(8)传统法兰支架，用于面板安装, 碳钢螺栓••B3(8)传统法兰平支架，用于2 英寸管道安装, 碳钢螺栓 ••B4(9)共面法兰支架，用于2 英寸管道或面板安装,全部是不锈钢••B7(8)B1 支架，配300 系列不锈钢螺栓••B8(8)B2 支架，配300 系列不锈钢螺栓••B9(8)B3 支架，配300 系列不锈钢螺栓••BA(8)不锈钢 B1 ，配300 系列不锈钢螺栓 ••BC(8)不锈钢 B3 ，配300 系列不锈钢螺栓 ••产品认证E1(10)ATEX 防火认证••E2(10)INMETRO 防火认证••E3(10)China 防火认证••E4(10)TIIS 防火认证••E5厂家互检FM，隔爆认证, 防粉尘引燃••E6CSA隔爆认证, 防粉尘引燃，2区••E7IECEx 防火认证••EP(10)韩国 (KOSHA) ••EW(10)印度 (CCOE) 防火认证 ••EM(10)GOST 隔爆认证I1ATEX 本质安全认证••I2(10)INMETRO 本质安全认证 ••I3(10)China 本质安全认证••I4(10)TIIS 本质安全认证 ••I5厂家互检FM，本质安全认证, 2区••I6CSA 本质安全认证 ••I7(10)IECEx 本质安全认证••IA(11)ATEX FISCO 本质安全认证••IB(11)INMETRO FISCO 本质安全认证••IC(11)中国 FISCO 本质安全认证••ID(11)TIIS FISCO 本质安全认证••IE(11)厂家互检FM FISCO 本质安全认证••IF(11)CSA FISCO 本质安全认证••IG(11)IECEx FISCO 本质安全认证••IP(10)韩国 (KOSHA) 本质安全认证••IM(10)GOST 本质安全认证••IW(10)印度 (CCOE) 本质安全认证••K1(10)ATEX 防火认证,本质安全认证, n型认证, Dust••K2(10)INMETRO 防火认证,本质安全认证, n型认证••K3(10)中国 防火认证,本质安全认证, n型认证••K4(10)TIIS 防火认证,本质安全认证 ••K5厂家互检FM，隔爆认证,防粉尘引燃,本质安全，2区••K6CSA 隔爆认证,防粉尘引燃,本质安全，2区 ••K7(10)IECEx 防火认证, 本质安全认证, n型认证 ••KA ATEX 和 CSA 防火认证,本质安全认证,2区 ••KB厂家互检FM 和 CSA隔爆认证, 防粉尘引燃, 本质安全,2区••KC厂家互检FM 和 ATEX隔爆认证, 本质安全,2区••KD(10)厂家互检FM,CSA和 ATEX 隔爆认证,本质安全 ••N1(10)ATEX n型认证••N7(10)IECEx n型认证••ND ATEX Dust ••螺栓选项••L4奥氏体 316 不锈钢 螺栓••L5ASTM A 193, 等级 B7M 螺栓L6ASTM A 193 等级2, 等级 B8M 螺栓 ••数字显示M5LCD 显示••特殊配置（硬件）D4(12)零点和量程的硬件调整••DF(13)1/2-14 NPT 法兰转换接头••D9(14)JIS 过程连接，RC 1/2 法兰转换接头用于RC 1/4 法兰••V5(15)外部接地螺钉组件•• 性能P8(16)0.065% 精确度和5年的稳定性 ••端子组件T1雷电保护•• 特殊组态（软件）C1(17)客户软件组态(需要完成软件数据表)••模拟量输出，符合NAM U R，推荐NE 43, 高报警••C4(17)(18)CN(17)模拟量输出，符合NAM U R，推荐NE 43, 低报警••(18)特殊作业P1静压试验••P2(19)用于特殊场合的清洗••P94500 psig (310 bar) 静态压力限制 (仅量程 2-5)••P3(19)要求氯/氟含量小于百万分之一的清洗。

罗斯蒙特1199 远传膜片系统（全球供货系列产品）用于罗斯蒙特3051S、 3051 、1151 与 2088 型变送器扩大压力变送器应用范围•极热与极冷的温度•腐蚀性的测量场合•易堵塞的过程•要求清洁卫生的场合应用•液位、流量、压力、界面与密度的测量。

目录技术规格 (3)远传膜片选择指南 (5)订货信息 (9)远传膜片的连接 (10)一般用途膜片组件 (16)综合技术资料 (58)全球最完整的供货实力罗斯蒙特 1199 型远传膜片系统提供世界最广泛的产品品种与规格，满足各种测量与应用的要求。

本产品选型资料重点介绍罗斯蒙特 1199 型远传膜片各种过程连接结构形式、直接安装或毛细管系统，以及各种结构材料。

经验证明Tuned-Systems™系统为差压－液位装置提供最佳的工程质量当前市场上只有罗斯蒙特有能力提供优化非平衡系统（Tuned-System）。

采用此系统可带来 :•变送器安装费用减少 20％•总的系统性能提高 10％•时间响应特性改善 80％以上。

仪表工程软件Instrument Toolkit ：•计算远传膜片系统的温度指标与响应时间•帮助第一次及以后每次正确选型远传膜片系统要了解关于仪表工程软件更多的内容，详见第 68 页。

要了解关于优化非平衡系统(Tuned-System) 更多的内容，详见第 60 页。

可选用罗斯蒙特1199 型远传膜片的压力变送器类型罗斯蒙特 1199 型远传膜片可组装到罗斯蒙特 3051S、3051 、1151 及 2088 型差压、表压 与绝压变送器及液位变送器上。

有关详细信息，请在定购罗斯蒙特 1199 型远传膜片前，查阅下列产品选型资料：罗斯蒙特 3051S 型压力变送器规模可变的压力、流量与液位测量解决方案，实现了安装与维护的最佳应用实践。

罗斯蒙特 3051 型压力变送器全面领先的性能、灵活的共平面（Coplanar™）平台、5 年稳定性保证。

罗斯蒙特 3095MV 型质量流量变送器精确地测量差压、静压与过程温度，完全实时补偿计算质量流量。

差压流量产品手册更具灵活性的流量测量方式“罗斯蒙特差压流量”更具灵活性的流量测量方式应用领域 – 液体，气体，蒸汽流量测量面临的挑战技术标准的不确定性带来的高风险潜在泄漏点带来的安全隐患特殊工况无法实现停车检修双向流、腐蚀介质、小管道流量导致测量难度大读数误差、小流量测量和直管段不足会降低测量精度大管径管道测量带来的高成本测量时压损过大带来的能源损失降低使用风险一体化流量计出厂前通过整体标定保证系统测量精度一体化设计和出厂前泄漏检测可大幅减少泄漏点，从而避免潜在安全隐患严格的原材料管理体系，保证所有物料可追溯，实现产品质量有效控制应对特殊工况针对无法停车检修的工况，可采用在线插拔安装方式一次元件可提供多种不同材质，来应对腐蚀工况面对双向流测量，可根据实际情况，提供更理想解决方案减少运营成本一体化安装可降低施工及维护成本阿牛巴流量计，在保证超强差压信号的前提下，更大程度减少永久压损调整型孔板大幅降低直管段需求，从而降低管道成本性能出色实时动态多参量补偿，提高流量测量精度可提供15年稳定性，15年质保流量计量程比大，适用范围广Rosemount差压流量计的优势13051SMV实时动态补偿实现蒸汽质量流量的精准测量挑战石化行业蒸汽总管线与分支管线流量差值很大，平衡率仅为70%。

由于无法准确计量各装置蒸汽用量，导致很难准确核算能耗成本。

解决方案采用罗斯蒙特3051SMV多参量变送器，测量差压、静压和温度数值，实现实时温压补偿。

同时实时计算动态补偿的质量流量，并修正来自于流量系数、密度、气体膨胀以及粘度的误差，从而提高测量精度。

方案优势提高测量的准确性和可重复性，实现更好的工艺控制通过精确的流量控制，帮助工厂有效的进行能源管理，能耗平衡率达到92%以上2多参量流量变送器大幅提高流量测量精度一流的性能变送器最高精度可达到读数的0.04%一台表可以同时测量并计算六个流量相关的变量：差压、压力、温度、质量/体积流量、热量累积器 兼容不同种类流量测量元件严格的流量计量标准内嵌IAPWS-IF97数据库: 水蒸汽计量全球标准 符合国家标准蒸汽热值输出标准动态补偿为流量方程中多达25个流体变量参数提供实时动态补偿优化能源计量提高收益变送器直接显示补偿后的质量流量或能量流量变送器三合一卓越特性Calendar-Van Dusen 传感器匹配提高温度测量精度提高精度 75%真正的表压传感器更容易标定简化维护小流量信号切除可停止无流量时的累计改善精度差压传感器静压传感器减少管道开孔，降低安装成本易于组态和标定EA 软件实现快速且简单的过程组态 可兼容市面上不同种类的差压流量测量元件节约安装和维护成本3差压变送器压力变送器温度变送器阿牛巴的广泛应用大管道的蒸汽流量精确测量流量计，压损小，测量精度高，不仅精确测蒸汽流量，还可实现蒸汽的热值输出。