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3051S 型系列订货资料3051S 型系列共平面3051S 型可变规模的压力变送器1 超级型: 0.04% 的精度,200:1 的可调量程比,10 年稳定性,有限寿命期的保证2 经典型: 0.065% 的精度,100:1 的可调量程比,5 年稳定性C 共平面D 差压G 表压A 绝压0A -3 至 3 inH2O (-7.47 至 7.47 毫巴)不适用 0 至 5 psia (0 至 3.4 巴)1A -25 至 25 inH2O (-62.2 至 62.2 毫巴) -25 至 25 inH2O (-62.2 至 62.2 毫巴) 0 至 30 psia (0 至 2.06 巴)2A -250 至 250 inH2O (-623 至 623 毫巴) -250 至 250 inH2O (-623 至 623 毫巴) 0 至 150 psia (0 至 10.34 巴)3A -1000 至 1000 inH2O (-2.5 至 2.5 巴) -393 至 1000 inH2O (-1.0 至 2.5 巴) 0 至 800 psia (0 至 55.2 巴)4A -300至 300 psi (-20.7 至 20.7 巴) -14.2至 300 psi (-1.0 至 21 巴) 0 至 4000 psia (0 至 275.8 巴)5A -2000至 2000 psi (-137.9 至 137.9 巴) -14.2至 2000 psi (-1.0 至 137.9 巴) 不适用2 316L 不锈钢(1)3 哈司合金 C-276(1)4 蒙乃尔合金 400(1)5 金属钽(对 3051S_CA 型不提供)6 镀金蒙乃尔 400 合金(包括填充石墨的四氟乙烯 O 形环)7 镀金的 316L 不锈钢213051 型系列2000 无A11 装配到一体化305 阀组B11 装配到一个膜盒密封组件;只对性能等级选项代码 2 提供B12 装配到两个膜盒密封组件;只对性能等级选项代码 2 提供C11 装配到 405P 小巧孔板D11 装配到 1195 一体化孔板及 305 一体化阀组EA2 装配到 Annubar 及共平面法兰 316 不锈钢 316 不锈钢 . EA3 装配到 Annubar 及共平面法兰哈司合金 C-276 哈司合金 C-276EA5 装配到 Annubar 及共平面法兰 316 不锈钢哈司合金 C-276. .E11 共平面法兰 ¼-18 NPT 碳钢 316 不锈钢E12 共平面法兰 ¼-18 NPT 316 不锈钢 316 不锈钢E13(1)共平面法兰 ¼-18 NPT 哈司合金 C-276 哈司合金 C-276E14(1〕共平面法兰 ¼-18 NPT 蒙乃尔合金 400 蒙乃尔合金 400E15(1〕共平面法兰 ¼-18 NPT 316 不锈钢哈司合金 C-276E16(1〕共平面法兰 ¼-18 NPT 碳钢哈司合金E21 共平面法兰 RC ¼ 碳钢 316 不锈钢E22 共平面法兰 RC ¼ 316 不锈钢 316 不锈钢E23(1〕共平面法兰 RC ¼ 哈司合金 C-276 哈司合金 C-276E24(1〕共平面法兰 RC ¼ 蒙乃尔合金 400 蒙乃尔合金 400E25(1〕共平面法兰 RC ¼ 316 不锈钢哈司合金 C-276E26(1〕共平面法兰 RC¼ 碳钢哈司合金 C-276F12 传统法兰 ¼-18 NPT 316 不锈钢 316 不锈钢F13(1〕传统法兰 ¼-18 NPT 哈司合金 C-276 哈司合金 C-276F14(1〕传统法兰 ¼-18 NPT 蒙乃尔合金 400 蒙乃尔合金 400F15(1〕传统法兰 ¼-18 NPT 316 不锈钢哈司合金 C-276F22 传统法兰 RC ¼ 316 不锈钢 316 不锈钢F23(1〕传统法兰 RC ¼ 哈司合金 C-276 哈司合金 C-276F24(1〕传统法兰 RC ¼ 蒙乃尔合金 400 蒙乃尔合金 400F25(1〕传统法兰 RC ¼ 316 不锈钢哈司合金 C-276F32 底部排气传统法兰 ¼-18 NPT 316 不锈钢 316 不锈钢F52 符合 DIN 传统法兰 ¼-18 NPT 316 不锈钢 316 不锈钢7/16 in 螺栓连接F62 符合 DIN 传统法兰 ¼-18 NPT 316 不锈钢 316 不锈钢 M10 螺栓连接F72 符合 DIN 传统法兰 ¼-18 NPT 316 不锈钢 316 不锈钢 M12 螺栓连接G11(1〕垂直安装液位法兰 2-in ANSI 150 级316 不锈钢G12(1〕垂直安装液位法兰 2-in ANSI 300 级316 不锈钢G14(1〕垂直安装液位法兰 2-in ANSI 150 级哈司合金 C-276G15(1〕垂直安装液位法兰 2-in ANSI 300 级哈司合金 C-276G21(1〕垂直安装液位法兰 3-in ANSI 150 级316 不锈钢G22(1〕垂直安装液位法兰 3-in ANSI 300 级316 不锈钢G24(1〕垂直安装液位法兰 3-in ANSI 150 级哈司合金 C-276G25(1〕垂直安装液位法兰 3-in ANSI 300 级哈司合金 C-276G31(1〕垂直安装液位法兰 DIN-DN 50 PN 40 316 不锈钢G41(1〕垂直安装液位法兰 DIN-DN 80 PN 40 316 不锈钢A 4-20 毫安,基于 HART 协议数字信号。
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。
经实践检验的压力测量行业领袖·一流性能,参考精度高达 0.065%·量程比能力达100:1·共面™平台支持集成压力、流量和液位方案·整个 HART 产品系列通过了 IEC 61508 SIL2 级安全认证,可在遵从法规的同时简化您的工作 ·超过20年的向后兼容性使您在投资最新特性的同时不会增加工厂的复杂性·全球装机量超过 7 百万台罗斯蒙特 3051 压力变送器目录订购信息. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 第 2 页规格. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 第9 页产品认证. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .第14 页尺寸图. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .第18页罗斯蒙特 3051D 共平面压力变送器其他信息规格:第9 页认证:第14 页尺寸图:第18 页表 1. 3051D 共平面压力变送器订购信息★ 标准产品表示最普通的选项。
为了实现快速交货,建议选择带星号的选项(★)。
对于扩展选项,交付周期需要另行商定。
型号变送器类型3051D共平面压力变送器测量类型标准标准P差压★G表压★压力范围3051DP3051DG标准标准1-6.216 kPa 至 6.216 kPa(–25 至 25 inH2O)-6.216 kPa 至 6.216 kPa(–25 至 25 inH2O)★2-62.1603 kPa 至 62.1603 kPa(–250 至 250 inH2O)-62.1603 kPa 至 62.1603 kPa(–250 至 250 inH2O)★3-248.641 kPa 至 248.641 kPa(–1000 至 1000 inH2O)-97.7159 kPa 至 248.641 kPa(–393 至 1000 inH2O)★4-2068.431 kPa 至 2068.431 kPa(–300 至 300 psi)-97.9057 kPa 至 2068.431 kPa(–14.2 至 300 psi)★5-13789.54 kPa 至 13789.54 kPa(–2000 至 2000 psi)-97.9057 kPa 至 13789.54 kPa(–14.2 至 2000 psi)★变送器输出标准标准A(1)4–20 mA,采用基于HART协议的数字信号★结构材料工艺法兰类型法兰材料排放/排气阀标准标准2共平面式316 不锈钢316 不锈钢★3(2)共平面式铸铁 C-276 合金 C-276★6共平面式304 不锈钢316 不锈钢★7(2)共平面式316 不锈钢合金 C-276★0备选工艺连接★3051D 共平面压力变送器2表 1. 3051D 共平面压力变送器订购信息★ 标准产品表示最普通的选项。
产品说明书00813-0106-4016, Rev UC2023 年 3 月Rosemount™差压液位变送器和 1199 远传密封件应用■液位、流量、压力、界面、密度■极热和极冷环境■腐蚀、堵塞或粘滞过程■卫生要求■特殊过程连接件成熟、可靠和创新的技术使用资产位号随时获取信息新发运设备包含一个唯一的二维码资产位号,您可以通过它直接从设备访问序列化信息。
通过此功能,您可以:■在您的 MyEmerson 账号上访问设备图纸、图表、技术文档和故障排除信息■优化维修和保持效率的平均时间■确保您定位了正确的设备■省去耗时的先定位和抄录铭牌再查看资产信息的工作罗斯蒙特液位变送器此液位变送器将世界先进的罗斯蒙特压力仪表与直接安装密封件相结合,全部集成为一个型号。
Rosemount 3051SAL、3051L 和 2051L型液位变送器■全焊接系统具备突出的系统可靠性■无线组态提供新数据访问■使用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成熟、可靠和创新的技术 (2)Rosemount 3051S 电子远程传感器 (ERS™) 系统 (6)Rosemount 3051S Scalable™液位变送器 (26)用于 Rosemount 3051SAL 的法兰密封件 (40)Rosemount 3051L 液位变送器订购信息 (65)Rosemount 2051L 液位变送器 (77)直接安装式密封系统订购信息 (86)远传安装式密封系统订购信息 (92)法兰密封件 (98)螺纹密封件 (123)卫生型密封件 (129)专业密封件 (144)技术规格 (153)产品认证 (173)尺寸图 (216)2023 年 3 月/Rosemount罗斯蒙特 Tuned-System ™ 组件优化结果罗斯蒙特 Tuned-System 组件在高压连接件上采用直接安装密封件,在低压连接件上则采用远程安装(毛细管式)密封件。
Product Data Sheet00813-0100-4801, Rev BA Catalog 2002 – 2003Model 3051S Series•Best-in-class performance with 0.02% high accuracy •Industry's first 10 year stability under actual process conditions•Unprecedented reliability backed by a limited lifetime warranty•SuperModule ™ design platform enables more cost effective installation and maintenance practices •Scalable functionality to meet your expanding needsContent“Specifications” . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page Pressure-7“Hazardous Locations Certifications” . . . . . . . . . . . . . . . . . . . . . . . . . . . page Pressure-14“Dimensional Drawings” . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page Pressure-16“Ordering Information”. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page Pressure-24“Model 3051S HART Configuration Data Sheet”. . . . . . . . . . . . . . . . . . . page Pressure-36Model 3051S SeriesProduct Data Sheet00813-0100-4801, Rev BACatalog 2002 – 2003Model 3051S SeriesPressure-4Success goes beyond the transmitter to an enabling platformIntroducing the next evolution in measurement, the Model 3051S Series. This scalable platform enablesimplementation of the best measurement practices from design and installation to maintenance and operations.Best-in-class performance with 0.04% accuracy The Model 3051S delivers cutting edge performance beginning with the SuperModule platform. Among the many advances, Saturn ™ sensing technology incorporates a secondary sensor to optimize performance and expand diagnostic capabilities.Industry's first 10 year stability under actual process conditionsStability begins with an all-welded, 316L SSThermetically sealed SuperModule which houses the single board electronics, thus eliminating moisture and field contaminant effects.Unprecedented reliability backed by a limited lifetime warrantyThe SuperModule design delivers the most reliable platform to further enhance installation practices and advanced diagnostic capabilities.SuperModule design platform enables more cost effective installation and maintenance practices A scalable architecture enables direct mounting of the SuperModule for maximum performance and reliability. The flexible remote mount meter provides access to all digital communications and diagnostics.Scalable functionality to meet your expanding needsFrom basic process variable generation to advanced PlantWeb ™ functionality and highly integrated measurement solutions, the Model 3051S Series meets every application requirement.Rosemount ® Pressure SolutionsModel 3095MV Mass Flow TransmitterAccurately measures differential pressure, static pressure and process temperature to dynamically calculate fully compensated mass flow. See product data sheet 00813-0100-4716.Model 305 and 306 Integral Manifolds Factory-assembled, calibrated and seal-tested manifolds reduce on-site installation costs. See product data sheet 00813-0100-4733.Model 1199 Diaphragm SealsProvides reliable, remote measurements of process pressure and protects the transmitter from hot,corrosive, or viscous fluids. See product data sheet 00813-0100-4016.Model 1195 Integral Orifice andProPlate/Mass ProPlate FlowmetersConvenient ready-to-install assembly designed for small-bore flow measurement of any clean gas, liquid, or vapor. See product data sheet 00813-0100-4686.Annubar Flowmeter SeriesA series of highly accurate and repeatableinsertion-type flowmeters available in 2-in. to 72-in. (50.8 to 1829 mm) line sizes. See product data sheet 00813-0100-4809.Model 405P Compact OrificeA wafer style primary element with an integral three-valve manifold. See product data sheet00813-0100-4810.Product Data Sheet00813-0100-4801, Rev BA Catalog 2002 – 2003Pressure-5Model 3051S SeriesModel 3051S Selection GuideSELECT AN INSTRUMENT CONFIGURATIONModel 3051S_C Coplanar ™ Differential, Gage, and AbsoluteSee ordering information on page Pressure-24.•Performance up to 0.04% accuracy with 200:1 turndown •Available 10 year stability and limited lifetime warranty •Coplanar platform enables integrated manifold, primary element and diaphragm seal solutions •Calibrated spans from 0.1 inH 2O to 4000 psi (0,25 mbar to 276 bar)•316L SST, Hastelloy ® C, Monel ®, Tantalum, gold-plated Monel, or gold-plated 316L SST process isolatorsModel 3051S_T In-Line Gage and AbsoluteSee ordering information on page Pressure-28.•Performance up to 0.04% accuracy with 200:1 turndown•Available 10 year stability and limited lifetime warranty•Calibrated spans from 0.15 to 10000 psi (10,3 mbar to 689 bar)•Multiple process connections available •316L SST and Hastelloy C process isolatorsModel 3051S_L Liquid LevelSee ordering information on page Pressure-30.•Performance up to 0.065% accuracy with 100:1 turndown•Flush, 2-, 4-, and 6-in. extended diaphragms •Multiple fill fluids available•316L SST, Hastelloy, or Tantalum wetted materialsC O P L A N A R /3151_E 27BProduct Data Sheet00813-0100-4801, Rev BACatalog 2002 – 2003Model 3051S SeriesPressure-6CONSIDER PERFORMANCE REQUIREMENTS DETERMINE HOUSING AND PROCESS CONNECTIONUltraClassic•0.04% accuracy, 200:1 turndown•10 year stability and limited lifetime warranty•0.065% accuracy, 100:1 turndown •5 year stability••Product Data Sheet00813-0100-4801, Rev BA Catalog 2002 – 2003Pressure-7Model 3051S SeriesSpecificationsPERFORMANCE SPECIFICATIONSFor zero-based spans, reference conditions, silicone oil fill, SST materials, Coplanar flange (Model 3051S_C) or 1/2 in.- 18 NPT (Model 3051S_T) process connections, digital trim values set to equal range points.Conformance to specification (±3 Sigma)Technology leadership, advanced manufacturing techniques and statistical process control ensure specification conformance to at least ±3 sigma.Reference AccuracyTotal PerformanceLong Term StabilityUltra (1) (2)Classic (1)(2)Model 3051S_CD, CG±0.04% of span; for spans less than 10:1, accuracy =Range 1: ±0.09% of span;for spans less than 15:1, accuracy =Range 0: ±0.09% of span; for spans less than 2:1,accuracy= ±0.045% of URL±0.065% of span; for spans less than 10:1, accuracy =Range 1: ±0.10% of span;for spans less than 15:1, accuracy =Range 0: ±0.10% of span; for spans less than 2:1,accuracy= ±0.05% of URLModel 3051S_T±0.04% of span; for spans less than 10:1, accuracy =±0.065% of span; for spans less than 10:1, accuracy =Model 3051S_CA±0.04% of span; for spans less than 10:1, accuracy =Range 0: ±0.075% of span;for spans less than 5:1, accuracy =±0.065% of span; for spans less than 10:1, accuracy =Range 0: ±0.075% of span;for spans less than 5:1, accuracy =Model 3051S_LNot available±0.065% of span; for spans less than 10:1, accuracy =(1)Stated reference accuracy includes terminal based linearity, hysteresis, and repeatability.(2)For F OUNDATION fieldbus transmitters, use calibrated range in place of span.0.0050.0035+URLSpan ------------% of Span±0.0150.005+URLSpan ------------% of Span±0.0150.005+URLSpan ------------% of Span±0.0250.005+URLSpan ------------% of Span±0.004URLSpan ------------% of Span±0.0065URLSpan ------------% of Span±0.004URL Span ------------% of Span±0.0250.01+URL Span ------------% of Span±0.0065URL Span ------------% of Span±0.0250.01+URL Span ------------% of Span±0.0150.005+URL Span ------------% of Span±Ultra (1)Classic (1)Model 3051S_C CD Ranges 2-3 and CG Ranges 2-5±0.125% of span; for ±50°F (28°C) temperaturechanges, 0-100% relative humidity, up to 1000 psi (68,9 bar) line pressure (CD only), from 1:1 to 5:1 rangedown.±0.15% of span; for ±50°F (28°C) temperature changes, 0-100% relative humidity, up to 1000 psi (68,9 bar) line pressure (CD only), from 1:1 to 5:1 rangedown.(1)Total performance is based on combined errors of reference accuracy, ambient temperature effect, and line pressure effect.UltraClassicModel 3051S_C CD Ranges 2-3 and CG Ranges 2-5±0.20% of URL for 10 years; for ±50°F (28°C)temperature changes, 0-100% relative humidity, up to 1000 psi (68,9 bar) line pressure (CD only)±0.125% of URL for 5 years; for ±50°F (28°C)temperature changes, 0-100% relative humidity, up to 1000 psi (68,9 bar) line pressure (CD only)Product Data Sheet00813-0100-4801, Rev BACatalog 2002 – 2003Model 3051S SeriesPressure-8Dynamic PerformanceAmbient Temperature Effect per 50 °F (28 °C)Line Pressure Effect per 1000 psi (69 bar)For line pressures above 2000 psi (137,9 bar) and ranges 4-5, see the Model 3051S Series reference manual (document number 00809-0100-4801).Mounting Position EffectsUltraClassicModel 3051S_CD, CG± (0.009% URL + 0.04% span) from 1:1 to 10:1± (0.018% URL + 0.08% span) from 10:1 to 200:1Range 0: ± (0.25% URL + 0.05% span)Range 1: ± (0.1% URL + 0.25% span)± (0.0125% URL + 0.0625% span) from 1:1 to 5:1± (0.025% URL + 0.125% span) from 5:1 to 100:1Range 0: ± (0.25% URL + 0.05% span)Range 1: ± (0.1% URL + 0.25% span)Model 3051S_T± (0.0125% URL + 0.125% span) from 1:1 to 10:1± (0.025% URL + 0.125% span) from 10:1 to 200:1Range 1:± (0.025% URL + 0.125% span) from 1:1 to 10:1± (0.05% URL + 0.125% span) from 10:1 to 200:1Range 5: ± (0.1% URL + 0.15% span)± (0.025% URL + 0.125% span) from 1:1 to 30:1± (0.035% URL + 0.125% span) from 30:1 to 100:1Range 1:± (0.025% URL + 0.125% span) from 1:1 to 10:1± (0.05% URL + 0.125% span) from 10:1 to 100:1Range 5: ± (0.1% URL + 0.15% span)Model 3051S_CA± (0.025% URL + 0.125% span) from 1:1 to 30:1± (0.035% URL + 0.125% span) from 30:1 to 200:1Range 0: ± (0.1% URL + 0.25% span)± (0.025% URL + 0.125% span) from 1:1 to 30:1± (0.035% URL + 0.125% span) from 30:1 to 100:1Range 0: ± (0.1% URL + 0.25% span)Model 3051S_LNot availableSee Rosemount Instrument Toolkit ™UltraClassicModel 3051S_CDZero Error(1)± 0.035% of URL for line pressures from 0 to 2000 psi (0 to 137,9 bar)Range 0: ± 0.125% URL per 100 psi (6,89 bar)Range 1: ± 0.25% URLSpan Error± 0.1% of readingRange 0: ± 0.15% of reading per 100 psi (6,89 bar)Range 1: ± 0.4% of reading(1)Zero error can be calibrated outZero Error (1)± 0.05% URL for line pressures from 0 to 2000 psi (0 to 137,9 bar)Range 0: ± 0.125% URL per 100 psi (6,89 bar)Range 1: ± 0.25% URLSpan Error± 0.1% of readingRange 0: ± 0.15% of reading per 100 psi (6,89 bar)Range 1: ± 0.4% of readingUltra and ClassicModel 3051S_C Zero shifts up to ±1.25 inH 2O (3,11 mbar), which can be calibrated out; no span effectModel 3051S_LWith liquid level diaphragm in vertical plane, zero shift of up to 1 inH 2O (25,4 mmH 2O); with diaphragm in horizontal plane, zero shift of up to 5inH 2O (127 mmH 2O) plus extension length on extended units; all zero shifts can be calibrated out; no span effectModel 3051S_T and Model 3051S_CAZero shifts to 2.5 inH2O (63,5 mmH20), which can be calibrated out; no span effectProduct Data Sheet00813-0100-4801, Rev BA Catalog 2002 – 2003Pressure-9Model 3051S SeriesVibration EffectAll Models:Less than ±0.1% of URL when tested per the requirements of IEC60770-1 field or pipeline with high vibration level (10-60 Hz 0.21mm peak to peak displacement / 60-2000 Hz 3g).Option Codes 1J, 1K, 1LLess than ±0.1% of URL when tested per the requirements of IEC60770-1 field with general application or pipeline with low vibration level (10-60 Hz 0.15mm peak to peak displacement / 60-2000 Hz 2g).Power Supply EffectAll Models:Less than ±0.005% of calibrated span per voltRFI EffectsAll Models:±0.1% of span from 20 to 1000 MHz and for field strength up to 30 V/mTransient Protection (Option T1)All Models:Meets IEEE Standard 587, Category B1 kV crest (10 × 1000 microseconds)3 kV crest (8 × 20 microseconds)6 kV crest (12 × 50 microseconds)Meets IEEE Standard 472, Surge Withstand CapabilitySWC 2.5 kV crest, 1 MHz wave form General Specifications:Response Time: < 1 nanosecondPeak Surge Current: 5000 amps to housing Peak Transient Voltage: 100 V dc Loop Impedance: < 25 ohmsApplicable Standards: IEC 801-4, IEC 801-5NOTE:Calibrations at 68 °F (20 °C) per ASME Z210.1(ANSI)FUNCTIONAL SPECIFICATIONSRange and Sensor LimitsR a n g eMinimum Span 3051S_Range and Sensor Limits 3051S_Ultra Classic Upper (URL)Lower (LRL)Model 3051S_CD Model 3051S_CGModel 3051S_LD00.1 inH 2O (0,25 mbar)0.1 inH 2O (0,25 mbar) 3.0 inH 2O (7,5 mbar)–3.0 inH 2O (–7,5 mbar)NA NA 10.5 inH 2O (1,24 mbar)0.5 inH 2O (1,24 mbar)25.0 inH 2O (62,3 mbar)–25.0 inH 2O (–62,3 mbar)–25.0 inH 2O (–62,3 mbar)–25.0 inH 2O (–62,3 mbar)2 1.3 inH 2O (3,11 mbar) 2.5 inH 2O (6,23 mbar)250.0 inH 2O (0,62 bar)–250.0 inH 2O (–0,62 bar)–250.0 inH 2O (–0,62 bar) –250.0 inH 2O (–0,62 bar)3 5.0 inH 2O (12.4 mbar)10.0 inH 2O (24,9 mbar)1000.0 inH 2O (2,49 bar)–1000.0 inH 2O (-2,49 bar)0.5 psia (34,5 mbar)–1000.0 inH 2O (–2,49 bar)4 1.5 psi (103.4 mbar) 3.0 psi (206,8 mbar)300.0 psi (20,7 bar)–300.0 psi (–20,7 bar)0.5 psia (34,5 mbar)–300.0 psi (–20,7 bar)510.0 psi (689,5 mbar)20.0 psi (1,38 bar)2000.0 psi (137,9 bar)– 2000.0 psi (–137,9 bar)0.5 psia (34,5 mbar)– 2000.0 psi (–137,9 bar)Model 3051S_CA Range and Sensor LimitsMinimum SpanUpper (URL)Lower (LRL)Range UltraClassic00.167 psia (11,5 mbar)0.167 psia (11,5 mbar) 5 psia (0,34 bar)0 psia (0 bar) 10.3 psia (20,7 mbar)0.3 psia (20,7 mbar) 30 psia (2,07 bar) 0 psia (0 bar) 20.75 psia (51,7 mbar) 1.5 psia (0,103 bar) 150 psia (10,34 bar) 0 psia (0 bar) 3 4 psia (275,8 mbar)8 psia (0,55 bar) 800 psia (55,16 bar) 0 psia (0 bar) 420 psia (1,38 bar)40 psia (2,76 bar)4000 psia (275,8 bar)0 psia (0 bar)Product Data Sheet00813-0100-4801, Rev BACatalog 2002 – 2003Model 3051S SeriesPressure-10ServiceLiquid, gas, and vapor applications4–20 mA (output code A)Zero and Span AdjustmentZero and span values can be set anywhere within the range.Span must be greater than or equal to the minimum span.OutputTwo-wire 4–20 mA is user-selectable for linear or square root output. Digital process variable superimposed on 4–20 mA signal, available to any host that conforms to the HART protocol.Power SupplyExternal power supply required. Standard transmitter (4–20 mA) operates on 10.5 to 42.4 V dc with no load.Load LimitationsMaximum loop resistance is determined by the voltage level of the external power supply, as described by:F OUNDATION fieldbus (output code F)Power SupplyExternal power supply required; transmitters operate on 9.0 to 32.0 V dc transmitter terminal voltage.Current Draw17.5 mA for all configurations (including LCD meter option)Overpressure LimitsTransmitters withstand the following limits without damage:Model 3051S_CD, CG Range 0: 750 psi (51,7 bar)Range 1: 2000 psig (137,9 bar)Ranges 2–5: 3626 psig (250,0 bar)4500 psig (310,3 bar) for Option Code P9Model 3051S_CARange 0: 60 psia (4,13 bar)Range 1: 750 psia (51,7 bar)Range 2: 1500 psia (103,4 bar)Range 3: 1600 psia (110,3 bar)Range 4: 6000 psia (413,7 bar)Model 3051S_TG, TA Range 1: 750 psi (51,7 bar)Range 2: 1500 psi (103,4 bar)Range 3: 1600 psi (110,3 bar)Range 4: 6000 psi (413,7 bar)Range 5: 15000 psi (1034,2 bar)Model 3051S_LD, LGLimit is 0 psia to the flange rating or sensor rating, whichever is lower (see the table below).Static Pressure LimitModel 3051S_CD OnlyOperates within specifications between static line pressures of 0.5 psia and 3626 psig;4500 psig (310,3 bar) for Option Code P9Range 0: 0.5 psia to 750 psig (0,03 to 51,71 bar)Range 1: 0.5 psia to 2000 psig (0,03 to137,90 bar)Model 3051S_T Range and Sensor LimitsRange Minimum SpanUpper (URL)Lower (LRL) (Abs.)Lower (1) (LRL) (Gage)UltraClassic 10.15 psi (10,3 mbar)0.3 psi (20,7 mbar)30 psi (2,07 bar)0 psia (0 bar)–14.7 psig (–1,01 bar)20.75 psi (51,7 mbar) 1.5 psi (0,103 bar)150 psi (10,34 bar)0 psia (0 bar)–14.7 psig (–1,01 bar)3 4 psi (275,8 mbar)8 psi (0,55 bar)800 psi (55,16 bar)0 psia (0 bar)–14.7 psig (–1,01 bar)420 psi (1,38 bar)40 psi (2,76 bar)4000 psi (275,8 bar)0 psia (0 bar)–14.7 psig (–1,01 bar)51000 psi (68,9 bar)2000 psi (137,9 bar)10000 psi (689,5 bar)0 psia (0 bar)–14.7 psig (–1,01 bar)(1)Assumes atmospheric pressure of 14.7 psig.L o a d (O h m s )Communication requires a minimum loop resistance of 250 ohms.Max. Loop Resistance = 43.5 (Power Supply Voltage – 10.5)StandardTypeCS RatingSST RatingANSI/ASME Class 150285 psig 275 psig ANSI/ASME Class 300740 psig 720 psig ANSI/ASME Class 6001480 psig 1440 psigAt 100 °F (38 °C), the rating decreaseswith increasing temperature.DIN PN 10–4040 bar 40 bar DIN PN 10/1616 bar 16 bar DIN PN 25/4040 bar 40 barAt 248 °F (120 °C), the rating decreaseswith increasing temperature.Product Data Sheet00813-0100-4801, Rev BA Catalog 2002 – 2003Pressure-11Model 3051S SeriesBurst Pressure LimitsBurst pressure on Coplanar or traditional process flange is 10000 psig (689,5 bar).Burst pressure for the Model 3051S_T is:Ranges 1–4: 11000 psi (758,4 bar)Range 5: 26000 psig (1792,64 bar)Temperature LimitsAmbient–40 to 185 °F (–40 to 85 °C)With integral meter: –4 to 175 °F (–20 to 80 °C)Storage–50 to 230 °F (–46 to 110 °C)With integral meter: –40 to 185 °F (–40 to 85 °C)Process Temperature Limits At atmospheric pressures and above.Humidity Limits0–100% relative humidityTurn-On TimePerformance within specifications less than 2.0 seconds after power is applied to the transmitterVolumetric DisplacementLess than 0.005 in 3 (0,08 cm 3)DampingAnalog output response to a step input change is user-selectable from 0 to 60 seconds for one time constant. This software damping is in addition to sensor module response time.Failure Mode AlarmHART 4-20mA (output code A)If self-diagnostics detect a gross transmitter failure, the analog signal will be driven offscale to alert the user. Rosemount standard, NAMUR, and custom alarm levels are available (see Table 1 below).High or low alarm signal is software-selectable orhardware-selectable via the optional switch (option D1).F OUNDATION Fieldbus (output code F)The AI block allows the user to configure HI-HI, HI, LO, or LO-LO, alarms.PHYSICAL SPECIFICATIONSElectrical Connections1/2–14 NPT, G 1/2, and M20 × 1.5 (CM20) conduit. HART interface connections fixed to terminal block for output code A.Process ConnectionsModel 3051S_C1/4–18 NPT on 21/8-in. centers1/2–14 NPT and RC 1/2 on 2 in.(50.8mm), 21/8 in. (54.0 mm), or 21/4-in. (57.2mm) centers (process adapters)Model 3051S_T1/2–14 NPT female, Non-Threaded instrument flange(available in SST for Range 1–4 transmitters only), G 1/2 A DIN 16288 Male (available in SST for Range 1–4 transmitters only), or Autoclave type F-250-C (Pressure relieved 9/16–18 gland thread; 1/4 OD high pressure tube 60° cone; available in SST for Range 5 transmitters only).Model 3051S_C CoplanarSilicone Fill Sensor (1)(1)Process temperatures above 185 °F (85 °C) require derating theambient limits by a 1.5:1 ratio.with Coplanar Flange –40 to 250 °F (–40 to 121 °C)(2)(2)220 °F (104 °C) limit in vacuum service; 130 °F (54 °C) forpressures below 0.5 psia.with Traditional Flange –40 to 300 °F (–40 to 149 °C)(2)with Level Flange–40 to 300 °F (–40 to 149 °C)(2)with Model 305 Integral Manifold–40 to 300 °F (–40 to 149 °C)(2)Inert Fill Sensor (1)0 to 185 °F (–18 to 85 °C)(3)(4)(3)160 °F (71 °C) limit in vacuum service.(4)Not available for Model 3051S_CA.Model 3051S_T In-Line (Process Fill Fluid)Silicone Fill Sensor (1)–40 to 250 °F (–40 to 121 °C)(2)Inert Fill Sensor (1)–22 to 250 °F (–30 to 121 °C)(2)Model 3051S_L Low-Side Temperature Limits Silicone Fill Sensor (1)–40 to 250 °F (–40 to 121 °C)(2)Inert Fill Sensor (1)0 to 185 °F (–18 to 85 °C)(2)Model 3051S_L High-Side Temperature Limits(Process Fill Fluid)Syltherm ®XLT–100 to 300 °F (–73 to 149 °C)D.C.® Silicone 704(5)(5)Upper limit of 600 °F (315 °C) is available with Model 1199 sealassemblies mounted away from the transmitter with the use of capillaries and up to 500 °F (260 °C) with direct mount extension.60 to 400 °F (15 to 205 °C)D.C. Silicone 200–40 to 400 °F (–40 to 205 °C)Inert–50 to 350 °F (–45 to 177 °C)Glycerin and Water 0 to 200 °F (–18 to 93 °C)Neobee M-20®0 to 400 °F (–18 to 205 °C)Propylene Glycol and Water0 to 200 °F (–18 to 93 °C)TABLE 1. Alarm ConfigurationHigh AlarmLow Alarm Rosemount≥ 21.75 mA ≤ 3.75 mA NAMUR compliant (1)(1)Analog output levels are compliant with NAMUR recommendationNE 43 (June 27, 1996)≥ 22.5 mA ≤ 3.6 mA Custom levels (2)(2)Low alarm must be 0.1 mA less than low saturation and high alarmmust be 0.1 mA greater than high saturation.20.2 - 23.0 mA3.6 - 3.8 mAProduct Data Sheet00813-0100-4801, Rev BACatalog 2002 – 2003Model 3051S SeriesPressure-12Model 3051S_LHigh pressure side: 2 in.(50.8mm), 3 in. (72 mm), or 4-in.(102mm), ASME B 16.5 (ANSI) Class 150, 300 or 600 flange; 50, 80 or 100 mm, DIN 2501 PN 40 or 10/16 flange Low pressure side: 1/4–18 NPT on flange 1/2–14 NPT on process adapterProcess-Wetted PartsProcess Isolating DiaphragmsDrain/Vent Valves316 SST, Hastelloy C-276, or Monel 400 material (Monel is not available with Model 3051S_L.)Process Flanges and AdaptersPlated carbon steel, CF-8M (Cast version of 316 SST, material per ASTM-A743), CW-12MW (Cast version of Hastelloy C-276, material per ASTM A494), M-30C (Cast version of Monel 400, material per ASTM A494).Wetted O-ringsGlass-filled TFE(Graphite-filled TFE with isolating diaphragm Option Code 6)Model 3051S_L Process Wetted PartsFlanged Process Connection (Transmitter High Side)Process Diaphragms, Including Process Gasket Surface 316L SST, Hastelloy C-276, or Tantalum ExtensionCF-3M (Cast version of 316L SST, material per ASTM-A743), or CW-12MW (Cast version of Hastelloy C, material ASTM A494); fits schedule 40 and 80 pipe Mounting FlangeZinc-cobalt plated CS or 316 SSTReference Process Connection (Transmitter Low Side)Isolating Diaphragms 316L SST or Hastelloy C-276Reference Flange and AdapterCF-3M (Cast version of 316L SST, material per ASTM-A743)Non-Wetted PartsElectronics HousingLow-copper aluminum or CF-3M (Cast version of 316L SST) NEMA 4X, IP 65, IP 66Coplanar Sensor Module Housing CF-3M (Cast version of 316L SST)BoltsPlated carbon steel per ASTM A449, Type 1: Austenitic 316 SST, ASME B 16.5 (ANSI)/ASTM-A-193-B7M, or Monel Sensor Module Fill FluidSilicone or inert halocarbon (Inert is not available with Model 3051S_CA.) In-Line series uses Fluorinert ® FC-43Process Fill Fluid (Liquid Level Only)Model 3051S_L: Syltherm XLT, D.C. Silicone 704, D.C. Silicone 200, inert, glycerin and water, Neobee M-20, propylene glycol and water Paint Polyurethane Cover O-rings Buna-NOrdinary Locations CertificationsAs standard, the transmitter has been examined and tested to determine that the design meets basic electrical, mechanical, and fire protection requirements by FM, a nationally recognized testing laboratory (NRTL) as accredited by the Federal Occupational Safety and Health Administration (OSHA).Isolating Diaphragm Material Model 3051S_CD, CG T CA L 316L SST•••S e e B e l o wHastelloy C-276 ®•••Monel 400••Tantalum•Gold-plated Monel 400••Gold-plated 316L SST ••Shipping Weights for Model 3051S TABLE 2. SuperModule weightsTABLE 3. Transmitter weights without optionsTABLE 4. Model 3051S_L weights without optionsTABLE 5. Transmitter option weightsSuperModule Weight in lb. (kg)Coplanar (1)(1)Flange and bolts not included.3.1 (1,4)In-Line1.4 (0,64)Complete Transmitter (1)(1)Fully functional transmitter with terminal block,covers, and SST flange.Add Weight In lb (kg)Model 3051S_C with junction box housing 6.9 (3,1)Model 3051S_T with junction box housing 3.3 (1,5)Model 3051S_C with PlantWeb housing 7.2 (3,3)Model 3051S_T with PlantWeb housing3.6 (1,6)FlangeFlush lb. (kg)2-in. Ext.lb (kg)4-in. Ext.lb (kg)6-in. Ext.lb (kg)2-in., 15012.5 (5,7)———3-in., 15017.5 (7,9)19.5 (8,8)20.5 (9,3)21.5 (9,7)4-in., 15023.5 (10,7)26.5 (12,0)28.5 (12,9)30.5 (13,8)2-in., 30017.5 (7,9)———3-in., 30022.5 (10,2)24.5 (11,1)25.5 (11,6)26.5 (12,0)4-in., 30032.5 (14,7)35.5 (16,1)37.5 (17,0)39.5 (17,9)2-in., 60015.3 (6,9)———3-in., 60025.2 (11,4)27.2 (12,3)28.2 (12,8)29.2 (13,2)DN 50 / PN 4013.8 (6,2)———DN 80 / PN 4019.5 (8,8)21.5 (9,7)22.5 (10,2)23.5 (10,6)DN 100 / PN 10/1617.8 (8,1)19.8 (9,0)20.8 (9,5)21.8 (9,9)DN 100 / PN 4023.2 (10,5)25.2 (11,5)26.2 (11,9)27.2 (12,3)Code OptionAdd lb (kg)1J, 1K, 1L SST PlantWeb housing3.4 (1,5)2A, 2B, 2C Aluminum Junction Box housing 1.2 (5,4)1A, 1B, 1C Aluminum PlantWeb housing1.2 (5,4)M5LCD meter for aluminum PlantWeb housing (1),LCD meter for SST PlantWeb housing (1)0.8 (0,4)1.72 (0,8)B4SST mounting bracket for Coplanar flange 0.6 (0,3)B1, B2, B3Mounting Bracket for Traditional flange2.3 (1,0)B7, B8, B9Mounting Bracket for Traditional flange with SST bolts 2.3 (1,0)BA, BC SST Bracket for Traditional flange 2.3 (1,0)F12, F22SST Traditional flange (2)3.3 (1,5)F13, F23Traditional flange (Hastelloy) 2.7 (1,2)E12, E22SST Coplanar flange (2) 1.9 (8,6)F14, F24Traditional flange (Monel)2.6 (1,2)F15, F25Traditional Flange (SST with Hastelloy D/V) 2.5 (1,1)G21Level flange—3 in., 15010.8 (4,9)G22Level flange—3 in., 30014.3 (6,5)G11Level flange—2 in., 15010.7 (4,8)G12Level flange—2 in., 30014.0 (6,3)G31DIN Level flange, SST, DN 50, PN 408.3 (3,8)G41DIN Level flange, SST, DN 80, PN 4013.7 (6,2)(1)Includes LCD meter connector board and meter cover (2)Includes mounting boltsItemWeight In lb. (kg)Aluminum standard cover 0.4 (0,2)SST standard cover 1.26 (0,6)Aluminum meter cover 0.7 (0,3)SST meter cover 1.56 (0,7)LCD meter (1)0.1 (0,1)Junction Box terminal block 0.3 (0,2)PlantWeb terminal block0.2 (0,1)Hazardous Locations CertificationsFactory Mutual (FM) ApprovalsE5Explosion proof for Class I, Division 1, Groups B, C, and D;dust-ignition proof for Class II and Class III, Division 1,Groups E, F, and G; hazardous locations;enclosure Type 4X, conduit seal not required when installed according to Rosemount drawing 03151-1003.I5/IE Intrinsically Safe for use in Class I, Division 1, Groups A, B, C, and D; Class II, Division 1, Groups E, F, and G; Class III, Division 1 when connected in accordance with Rosemountdrawing 03151-1006; Temperature Code T4; Non-incendive for Class I, Division 2, Groups A, B, C, and D), EnclosureType 4XFor entity parameters see control drawing 03151-1006.CENELEC/BASEEFA ApprovalsI1/ IA Intrinsic SafetyCertificate No. BAS01ATEX1303XATEX Marking: II 1GI1EEx ia IIC T5 (-60°C ≤Ta ≤40°C)T4 (-60°C ≤Ta ≤70°C)IA EEx ia IIC T4 (-60°C ≤Ta ≤40°C)Input Parameters (IA)Ui = 15VIi = 215mA (IIC) Pi = 2W (IIC)Ii = 0.5A (IIB) Pi = 5.32W (IIB)Ci = 0 Li = 0SPECIAL CONDITIONS FOR SAFE USE (X):The apparatus with transient protection is not capable of withstanding the 500V test defined in Clause 6.4.12 of EN50 020. This must be considered during installation.The terminal pins of the Model 3051S must be protected to IP20 minimum.N1Non-incendiveCertificate No. BAS01ATEX3304XATEX Marking: II 3 GEEx nL IICND DustCertificate No. BAS01ATEX1374XATEX Marking: II 1 D T105°C (Ta 85°C)IP66SPECIAL CONDITIONS FOR SAFE USE (X):1. The user must ensure that the maximum rated voltage and current (42.2 volts, 22 milliamps, DC) are not exceeded. All connections to other apparatus or associated apparatus shall have control over this voltage and current equivalent to a category “ib” circuit according to EN50020.2. Cable entries must be used which maintain the ingress protection of the enclosure to at least IP66.3. Unused cable entries must be filled with suitable blanking plugs which maintain the ingress protection of the enclosure to at least IP66.4. Cable entries and blanking plugs must be suitable for the ambient range of the apparatus and capable of withstanding a 7J impact test.5. The 3051S must be securely screwed into a Housing to maintain the ingress protection of the enclosure.KEMA/CENELEC Flameproof CertificationCertificate No. KEMA 00ATEX 1243XATEX Marking: II 1/2 GE1EEx d IIC T6 (T amb = 65 °C);EEx d IIC T5 (T amb = 80 °C)SPECIAL CONDITIONS FOR SAFE USEThis device contains a thin wall diaphragm. Installation, maintenance and use shall take into account the environmental conditions to which the diaphragm will be subjected. The manufacturer’s instructions for installation and maintenance shall be followed in detail to assure safety during its expected lifetime. The Model 3051S pressure transmitter must include a Series 300S housing integrally mounted to a Series Model 3051S Sensor module as per Rosemount drawing 0351-1023.Input Parameters (I1)GroupsUi = 30V HART/4—20mAIi = 300 mA HART/4—20mAPi = 1.0W HART/4—20mAPi = 1.3W with output F or WCi = 30nFCi = 11.4nF with a Housing option Li = 0。
罗斯蒙特变送器选型及技术参数本公司所选用的产品大部分为直插式经典的表压和绝压3051S_T系列变送器3051S_T系列产品的选择仪表配置:•性能指标高达 0.04% 的精度,量程比 200: 1。
•提供 10 年的稳定性与有限寿命期的保证•标定量程从 0.15 至 10000 psi•提供多种过程连接件•过程隔离膜片材质为 316L 不锈钢、哈氏合金 C•参考精度、环境温度影响及静压影响结合起来的误差提出的性能:±0.15% ;在温度变化±50°F(28°C)考虑性能要求:•0.065% 的精度,100: 1量程比外壳与过程连接:•工厂管控网外壳详细的技术规格参考精度:± 0.065% 精度; 超过 10:1量程比,精度 = ±[ 0.0065 (量程上限/量程 )%;上述的参考精度包括测量的线性度、迟滞性与重复性。
总体性能:±0.15% ;在温度变化± 50°F(28°C),相对湿度 0-100%、1000 psi (68.9 bar) 静压,从 1:1 到 5:1 量程比;总体性能是根据参考精度、环境温度影响及静压影响结合起来的误差提出的性能。
长期稳定性:±0.125% ;在温度变化± 50°F(28°C),相对湿度 0-100%、1000 psi (68.9bar) 静压动态性能:总体响应间 (Td + Tc):3051S_C 量程 2-5: 100 毫秒量程 1: 255 毫秒量程 0: 700 毫秒3051S_T: 100 毫秒停滞时间 (Td ):45 毫秒更新速率:22次/秒环境温度每变化 50°F (28°C) 的影响:±(0.025 %量程上限+ 0.125% 量程), 1:1至 30:1 ±(0.035 %量程上限+ 0.125% 量程), 30:1至100:1 量程1: ±(0.025 %量程上限+ 0.125% 量程), 1:1至10:1 ±(0.05 %量程上限+ 0.125% 量程), 10:1至100:1 量程5: ±(0.1% 量程上限+ 0.15% 量程)静压每变化1000 psi (69 bar) 的影响:零点误差静压由 0 至 2000psi 误差为±0.05%量程 0: 每变化100psi 误差为±0.125%量程1: ±0.25%满量程误差±0.1%量程 0: 每变化100psi 误差±0.15%量程1: ±0.4%安装位置的影响:零漂最高为 2.5 英寸水柱 , 可标定抵消掉 ; 对量程无影响振动影响所有型号:误差小于量程上限的±0.1% ,选项代码 1J 、1K 、1L,误差小于量程上限的±0.1% 。
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。
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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。
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