Model 3051 Foundation fieldbus - Automaatikafb.pdf · Rosemount Inc. 3 Why Foundation ™ Fieldbus?...
Transcript of Model 3051 Foundation fieldbus - Automaatikafb.pdf · Rosemount Inc. 3 Why Foundation ™ Fieldbus?...
Product Data Sheet 00813-0100-4774
Model 3051 Foundation™ fieldbus
APPLICATIONS
• Pressure
• Level
• Flow
INDUSTRY’S BEST TOTAL PERFORMANCE
• Five year stability
• Fast, dynamic sensor response
COMPLETE POINT SOLUTIONS
• Compact, lightweight Coplanar™ designoptimizes measurement, reduces flange costs,and minimizes on-site inventory requirements.
PLANTWEB™ ARCHITECTURE
• Full scalability
• Intelligent field devices
• Digital communication standard
Model 3051 with FoundationTM fieldbus
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Electronics Flexibility Sensor Technology Leadership
Complete Point Solutions
ElectronicsHousing
4–20mA/HART electronics
FOUNDATION fieldbus electronics
Low power/HART electronics
Coplanar capacitancesensor module
Piezoresistivesensor module
Programmable LCD meter
Meter cover
Coplanar flangeTraditional flange
Traditional 3-valveintegral-mount
manifold
3- valve integral-mount manifold
5-valve integral-mount manifolds
2-valve inlinepressure manifold
Level flange
Integral orifice plateassemblies
Model 1199capillary diaphragmseal assembly
Diamond II Annubar
Model 1199direct-mountdiaphragm seal forModel 3051Ctransmitter
Model 1199direct-mountdiaphragm sealfor Model 3051Ttransmitter
HookUps™ transmitter connection system
Multivariablesensor module
Rosemount Inc.
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Why Foundation ™ Fieldbus?
Cost Savings
Installation and Wiring
• Apply a simplified wiring architecture• Reduce I/O equipment
• Connect 16 transmitters per two wires• Minimize control room size
• Save 60% for installation, labor and materials
Easy Commissioning
• Setup one configuration for multiple devices• Achieve instant host recognition of
new devices
• Trim commissioning time by 30-60%
Simplified Operation and Maintenance
• Enable advanced diagnostics with fieldbus• Prevent unscheduled downtime
• Identify and resolve problems immediately
Advanced Functionality
Advanced Diagnostics
• Plugged impulse lines• Statistical process monitoring
Control in the Field
• Transfer control to the process loop withfieldbus function blocks
• Decrease plant variability• Employ high-speed communication
High-Speed Communication
• Increase loop execution speed
• Communicate peer-to-peer• Implement all-digital communication protocol
Flexible Wiring Topology
• Apply a multi-drop, tree, orcombination configuration
Truly Interoperable
• Select best-in-class instruments
• Utilize standard Device DescriptionLanguage (DDL)
• Implement common function blocks
Designed for Process Controlby Process Control Experts
FOUNDATION fieldbus is an all digital, serial, two-waycommunication protocol that interconnects field equipmentsuch as transmitters, valves, and controllers. Fieldbus is aLocal Area Network (LAN) for instruments used in processcontrol with built-in capability to distribute the controlapplication across the network.
FOUNDATION fieldbus was designed from the ground upspecifically for the process control industry by a group ofprocess control experts. The technology is owned andmaintained by the Fieldbus Foundation, a not-for-profitorganization that consists of more than 100 of the world’sleading control and instrumentation suppliers and end users.
Model 3051 with FoundationTM fieldbus
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Enhanced Measurement0.15% total performance and 5-year stability specsguarantee high-quality measurements and enableextremely accurate and stable control strategies.
Diagnostics
Real-time indication of instrument status allows yourmaintenance personnel to closely monitor the processand the operation of the transmitter.
Control AnywhereThe Model 3051 provides control functionality with anoptional PID/Regulatory Control function block, whichallows the migration of control from the DCS to the field.
PlantWeb is a revolutionary architecture thatuses the power of intelligent field devices to improve plantperformance. With PlantWeb-compatible instruments you canaccess more information, exercise better control, identify faults,and predict failures before they happen. The PlantWebarchitecture saves you money by reducing process variability andallowing you to more efficiently utilize maintenance resources.And the scalable technology of the PlantWeb architecture meansyou can start with one loop and increment at your own pace.
Integrating the Model 3051 with FOUNDATION™ fieldbus intothe PlantWeb architecture yields the following advantages:
Integrate the Model 3051 Transmitter into thePlantWeb™ Architecture for Superior Performance
• Greater flexibility simplifies engineering specifications• Increased performance and field reliability optimizes
process control and process availability
• Easier installation saves time and money
• Reduced inventory requirements – spares inventorycan be leveraged across multiple applications
The Coplanar design of the Model 3051 places the sensor module inthe “neck” of the transmitter, which isolates the sensor electronically, thermally,and mechanically from the process. To further guarantee robustness, all internalelectrical components of the sensor module assembly are encapsulated. Theresult is less wear and tear on the sensor which results in longer life and betteraccuracy.
The Fieldbus Foundation logo and the accompanying registration check markindicate that an instrument is registered with the Fieldbus Foundation and that it isfully compatible with FOUNDATION fieldbus communication protocol. The logo andcheckmark also guarantee interoperability with other registered instrumentsregardless of manufacturer.
The Fieldbus Foundation’s comprehensive interoperability test system, unlike testsof other control network protocols, allows end users to select field devices based
on best-in-class performance and features, not a proprietary protocol. Instruments from Rosemount Inc. were among the world’sfirst to pass the Fieldbus Foundation interoperability tests.
Fisher-Rosemount Inc. has the widest offering of best-in-class FOUNDATION fieldbus-compatibleinstruments in the world.
The Rosemount Model 3051Transmitter is Among theWorld’s First Devices to beRegistered with theFieldbus Foundation!
3051
-305
1_08
B
Coplanar Platform: The Industry Standard
Rosemount Inc.
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Technical Overview
THE SENSOR MODULE
The Model 3051 with FOUNDATION fieldbus isavailable with either a capacitance sensor or apiezoresistive sensor depending on application andpressure range (see Figure 2). The capacitancesensor measures differential and gage pressures andis commonly used in flow and level applications. Twotransport tubes in the capacitance sensor transmitprocess pressure from the process isolators to thesensor.
The piezoresistive sensor measures absolute gagepressure and is commonly used in vacuum and levelapplications. One transport tube in the piezoelectricsensor transmits the process pressure from theprocess isolator to the sensor. The sensor modulesinclude the following features:
• Dynamic responseMinimal dead time allows loops to beaggressively tuned to reduce variation.
• Mechanical, electrical, andthermal process isolationThe sensor is in the “neck” of the housing,protected from direct stress, which improvesaccuracy, performance, and reliability.
• Glass-sealed capillary tubes and aninsulated cell mountingProtect the electronic circuitry from electricaltransients.
• Integral temperature sensorElectronically compensates for thermal effects,improving accuracy and performance.
• Precise signal correctionDuring operation is achieved with temperatureand pressure correction coefficients that arecharacterized over the full range of thetransmitter and stored in sensor module memory.
• Programmable read-only memoryStores module information and correctioncoefficients separately from the electronics board,allowing for easy repair, reconfiguration, andreplacement.
FIGURE 1. Block Diagram for the Model 3051 Transmitter with FOUNDATION fieldbus
3051
-30
51_0
1B
PressureInput
LCD BlockDisplay
Transducer BlockSensor linearizationRerangeDampingDiagnosticsEngineering unitsTemperature correction
Function BlocksAIPIDIselCharacterizerArithmeticFoundation
FieldbusCompliantCommunicationsStack Resource Block
Physical deviceinformation
AdvancedDiagnostics BlockStatistical ProcessMonitoringPlugged impulse line
Digital SignalConversion
Link ActiveScheduler
Communicationscontroller
PIEZORESISTIVE
FIGURE 2. Cross Sections of the Sensor Modules
3051
-303
1D
12B
,303
1D12
A
CAPACITANCE
Model 3051 with FoundationTM fieldbus
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Hardware
The electronics boards use digital ASIC,microcomputer, and surface-mount technology. Theelectronics digitize the input signal from the sensormodule and apply correction coefficients, whichresults in a corrected output.
Memory
Configuration data is stored in nonvolatile FLASHmemory. If power is interrupted, the transmitter isimmediately functional upon power-up.
LCD Meter
The optional LCD meter will plug directly into theelectronics board. The display can be configured toshow digital output in pressure units, percent ofanalog range, or custom-defined pressure, flow, orlevel units.
SOFTWARE
The Model 3051 with FOUNDATION fieldbus allowsremote configuration and testing using theFisher-Rosemount DeltaV™ system, or otherFOUNDATION fieldbus-compliant host. The majorfeatures of the software include the TransducerBlock, Resource Block, Diagnostics, LCD, FunctionBlocks, and the Link Active Scheduler (LAS).
Function Block
Analog Input (AI), PID, Arithmetic, Integrator,Signal Characterizer, and the Input Selector Blockare all available to provide sophistication and addedcontrol to the process.
The Model 3051 with FOUNDATION fieldbus comesstandard with two AI blocks, one for the processvariable, and one for the sensor temperature.
The optional PID block provides an input for controldeviation, filtering, and cascade control capability.The user can select the PID type (series ISA) on thederivative filter.
The Regulatory Control Suite option adds severalnew functions, along with the PID block. TheArithmetic Block makes Electronic Remote Sealsand other functions possible. The Integrator Blockcan be used as a flow totalizer. The SignalCharacterizer Block enables strapping tables forlevel applications. And finally, the Input SelectorBlock blocks certain control applications.
Transducer Block
The Transducer Block contains thetransmitter-specific data. It includes informationabout sensor type, engineering units, linearization,reranging, temperature and pressure correction, andbasic sensor diagnostics.
Resource Block
The Resource Block holds the physical transmitterinformation, including manufacturer identification,type of device, and features.
LCD Transducer Block
This block allows the LCD display to be configuredto show process variables with custom units, andcan display up to four select parameters from anyblock within the Model 3051 device.
Diagnostics Block
The diagnostic suite includes statistical processmonitoring and plugged impulse line detection.
Link Active Scheduler (LAS)
In the event that a host system is disabled, the LASworks with FOUNDATION fieldbus protocol tocoordinate the communications on a segment. Thisfeature also allows a transmitter to control asegment in the field without a DCS.
Diagnostics and Service
The transmitter automatically performs continuousself diagnostics, and the user can perform on-linetesting of the transmitter. Along with the DeltaVsystem with AMS Inside, the diagnostics messagescan be stored and analyzed, and provide a healthstatus for the device, loop, and overall operation.
Setup
Basic setup requires connecting the transmitter to afieldbus network. The FOUNDATIONfieldbus-compliant host will automatically establishcommunication with the device.The transmitter can easily be configured using theFisher-Rosemount DeltaV Fieldbus configurationtool, with AMS Inside, or other FOUNDATIONfieldbus-compliant host. User configurableparameters include: alarm limits, linear or squareroot output, damping, and engineering units.
Tagging information can be entered into thetransmitter to allow identification and a physicaldescription. Tags made up of thirty charactersprovide identification of the transmitter and eachfunction block.
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Product OfferingMODEL 3051C DIFFERENTIAL, GAGE, AND ABSOLUTEPRESSURE TRANSMITTERS
• Superior performance: 0.075% accuracy,100:1 rangeability
• Differential pressure: calibrated spans from 0.1 inH2O to2000 psi (0,25 mbar to 138 bar)
• Gage pressure: calibrated spans from2.5 inH2O to 2000 psig (6,2 mbar to 138 bar)
• Absolute pressure: calibrated spans from 0.167 psia to 4000 psia(11,5 mbar to 276 bar)
• SST, Hastelloy® C, Monel®, Tantalum (CD, CG only), orgold-plated Monel process isolators
• Compact, rugged, and lightweight design for easy installation
• Compound Range (CD and CG only) allows negative calibrations
MODEL 3051T GAGE AND ABSOLUTEPRESSURE TRANSMITTER
• Superior performance: 0.075% accuracy
• Absolute pressure: calibrated spans from0.3 to 10000 psia (21 mbar to 689 bar)
• Gage pressure: calibrated spans from0.3 to 10000 psig (21 mbar to 689 bar)
• SST and Hastelloy C process isolators• Single isolator design
• Silicone and inert fill fluid• Available DIN and Autoclave-compatible process connections
• Compound Range (CD and CG only) allows negative calibrations
MODEL 3051L LIQUID LEVEL TRANSMITTER• Liquid level measurement with 0.075% accuracy• Calibrated spans from 2.5 inH2O to 8310 inH2O
(6,2 mbar to 20,7 bar)• Flush, 2-, 4-, and 6-in. extended diaphragms• Many fill fluids available• Compact and lightweight for easy installation and
maintenance• SST, Hastelloy, or Tantalum wetted materials• See Instrument Toolkit™ or SOAP™ 2000 software for
performance details
MODEL 3051H HIGH PROCESS TEMPERATUREPRESSURE TRANSMITTER
• High process temperature capability to375 °F (191 °C) without the use of remote diaphragm seals orcapillaries
• 0.075% accuracy and 100:1 rangeability• Reduced temperature effects and time response for high
temperature applications
• Same sensor module and electronics as the Model 3051C
305
1-30
5100
3B30
51-
305
100
4B30
51-3
0510
01B
3051
-30
51-5
A
Model 3051 with FoundationTM fieldbus
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Complete Point SolutionsCOPLANAR FLANGE•Standard flange for the Model 3051C•Compact, lightweight design for easy installation
•Available in plated carbon steel, SST, Hastelloy C, or Monel material•250 °F (121 °C) process temperature limit
TRADITIONAL FLANGE•Direct replacement for Model 1151 or other traditionallydesigned transmitters
•Accommodates installations that require traditionalbiplanar configurations
•Process temperature limit increased to 300 °F (149 °C)at process ports
•SST, Hastelloy C, or Monel material
LEVEL FLANGE•Simple, low-cost solution for measuring level processes not prone toclogging•Permits direct process mounting to 2-in. and3-in. Class 150 and 300 ANSI, and DIN PN 40 flanges
•SST material
THREADED DIRECT MOUNT•Rugged, all-welded process connection used on Model 3051T•Single isolator design, available in SST or Hastelloy
•Available DIN or Autoclave compatibility
•Compact, lightweight design•250 °F (121 °C) process temperature limit
DIAPHRAGM SEALS•Direct mount or capillary systems•Calibrated spans from 2.5 inH2O to 2000 psi (6,2 mbar to 138 bar)
•Low-volume Coplanar flange design provides reducedtemperature effects
•Wide variety of seal-system materials andprocess connections•Sanitary seal offerings that conform to3-A® Sanitary Standards
•High rangeability reduces inventory•Differential and gage pressures
•See PDS 00813-0100-4016 or PDS 00813-0201-4016 for moreinformation
3051
-303
1A
07E
305
1-3
031B
07H
3001
-300
1A01
A30
51-3
051T
B6B
119
9-30
51A
28A
3001
-300
1A01
A
Rosemount Inc.
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MODELS 305 AND 306 INTEGRAL MANIFOLD• Innovative Coplanar design of Model 3051 family
of transmitters allows valves to be integrated withtransmitter
• Factory-assembled, calibrated, and seal-tested toreduce on-site installation costs
• Reduced engineering, purchasing, shipping, andon-site assembly costs
• In-process calibration capability
• Fewer process seals ease regulatory complianceand reduce risks
• Available in Coplanar or traditional styles
INTEGRAL ORIFICE• Convenient, “out-of-box” primary element and
pressure transmitter combination• Designed for highly accurate, small-bore flow
measurement of any clean gas, liquid, or vapor
• Numerous process connections andconstruction materials
• Wide orifice bore/flow range capability
• Complies with NACE MR 01-75 (90)
ANNUBAR® AVERAGING PITOT TUBE• Convenient, “out-of-box” primary element and
pressure transmitter combination
• Innovative, patented Diamond II+ Annubar®
design requires a single pipe penetration, therebyenabling easy installation
• Low operating costs due to low permanentpressure drop
• Reduced process variability due to long termstability of flow sensor
• Low maintenance due to lack of moving parts
LCD METER• Direct plug-in connection
• Displays engineering units, diagnostic errors, andselect variables
• Custom configuration through LCD TransducerBlock
3051
-305
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31A
29B
;305
1-30
51A
29B
,30
51A
01A
1195
-11
51B
21A
,30
51-3
031B
07E
3051
-000
0B01
A,1
295-
0536
B
Annubar Cross Section
305
1-30
31A
18A
Model 3051 with FoundationTM fieldbus
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SpecificationsModel 3051C (Ranges 2-5) & Model 3051TTotal Performance
• Best in class• ±0.15% of calibrated range
• ±50 °F (28 °C)• Up to 1000 psi (6,9 MPa)
• 1:1 to 5:1 rangedown
Reference Accuracy
• ±0.075% of calibrated range
Stability
• ±0.125% of URL for five years• ±50 °F (28 °C)
• Up to 1000 psi (6,9 MPa)• 1:1 to 5:1 rangedown
Model 3051CD–Low/Draft (Ranges 0-1)Reference Accuracy
• ±0.10% of calibrated rangeStability
• ±0.2% of URL for one year
Model 3051L–Liquid LevelReference Accuracy
• ±0.075% of calibrated range
Model 3051H—High ProcessTemperatureReference Accuracy
• ±0.075% of spanStability
• ±0.1% of URL for 12 months for Ranges 2 and 3
• ±0.2% of URL for 12 months for Ranges 4 and 5
Model 3051 Dynamic Performance• Fastest responding sensor
• Optimal electronics for quick pressurechange
• Enhanced loop control
Conformance to Specifications• Exceeds published specifications
• 3 sigma (σ) conformance
• Commitment to continual improvement
MODEL 3051 REFERENCE CLASS
Competitor C
Competitor A
Competitor B
MODEL 3051
Per
cen
to
fS
pan
Err
or
Calibrated Span (inH2O)
Operating Conditions: Ambient Temp Change: ±50 °F(28 °C)Line Pressure: £1000 psig (39 bar)
Per
cen
to
fS
pan
Err
or
Months in Service
Performance Over Time
Model 3051
Typical Smart Transmitter (No Calibrations)
Required PerformanceTypical Smart Transmitter(Req’d Calibrations)
Operating Conditions: Calibrated Span: 150 inH2O (373 bar);Amb Temp Change: ±50 °F (28 °C); Line Pressure: 500 psig
(34 bar); Req’d Performance: 0.4% of span
Dynamic Response Performance
Rosemount Inc.
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DETAILED PERFORMANCESPECIFICATIONSZero-based calibrations, reference conditions, silicone oil fill,
and 316 SST isolating diaphragm
Reference Accuracy:
Model 3051T/CA Ranges 1–5:For calibrated ranges less than 10:1, accuracy =
Model 3051CA Range 0:For calibrated ranges less than 5:1, accuracy=Model 3051CD Ranges 1–5 and Model 3051CG:
Model 3051 CD Ranges 1-5 and Model 3051 CG:For calibrated ranges less than 10:1 (15:1 forModel 3051CD Range 1), accuracy =
Model 3051 CD Range 0For calibrated ranges less than 2:1 to 30:1,accuracy = 0.05% URL
Model 3051L and Model 3051HFor calibrated ranges less than 10:1, accuracy =
Ambient Temperature per 50 °F (28 °C)
Model 3051CD/CG±(0.0125% URL + 0.0625% calibrated range)from 1:1 to 10:1±(0.025% URL + 0.125% calibrated range)from 10:1 to 100:1Range 1: ±(0.1% URL + 0.25% calibrated range)
Range 0: ±(0.25% URL + 0.05% calibrated range)
Model 3051LSee the Rosemount Instrument Toolkit® orSOAP 2000™ software.
Model 3051T and Model 3051CA±(0.025% URL + 0.125% calibrated range)from 1:1 to 30:1±(0.035% URL + 0.125% calibrated range)from 30:1 to 100:1
Range 0:±(0.1% URL + 0.25% calibrated range)Range 5:±(0.1% URL + 0.15% calibrated range)
Model 3051T Range 1:±(0.025% URL + 0.125% calibrated range)from 1:1 to 10:1±(0.05% URL + 0.125% calibrated range)from 10:1 to 100:1
Model 3051H±(0.025% URL + 0.125% span + 0.35 inH2O)
For spans below 30:1 rangedown:±(0.035% URL + 0.125% span + 0.35 inH2O)
Static Pressure
Zero Error (Calibrated)Zero line pressure effect per 1000 psi (69 bar); forstatic pressures above 2000 psi (137,9 bar), seemanual.
Percent of Reading Error (Not Calibrated)Percent of reading effect per 1000 psi (69 bar)
Model 3051HD
Zero Error (can be calibrated out atline pressure)±0.1% of URL for line pressures from 0 to 2000psi (0 to 137,9 bar)
For static pressures above 2000 psi (137,9 bar),see user manual (Rosemount publication number00809-0100-4001).
Span Error±0.1% of reading
0.0075 URLCalibrated Range-----------------------------------------
% of Calibrated Range±
0.025 0.01 URLCalibrated Range-----------------------------------------
+ % of Calibrated Range±
0.025 0.005 URLCalibrated Range-----------------------------------------
+ % of Calibrated Range±
0.025 0.005 URLCalibrated Range-----------------------------------------
+ % of Calibrated Range±
Model Range Zero Effect
3051CD 0(1)
(1) Specification expressed in %/100 psi (6,9 bar) up to 750 psi (52 bar)
±0.125% URL1 ±0.25 URL %2,3 ±0.05 URL %
Model Range Zero Effect
3051CD 0(1)
(1) Specification expressed in %/100 psi (6,9 bar) up to 750 psi (52 bar)
±0.15% of reading1 ±0.40% of reading2,3 ±0.10% of reading4,5 ±0.20% of reading
Model 3051 with FoundationTM fieldbus
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Mounting Position Effects
Model 3051CZero shifts(1) up to ±1.25 inH2O (3,1 mbar)
Model 3051LLiquid level diaphragm with vertical plane: zeroshift(1) up to 1 inH2O (25,4 mmH2O); diaphragmin horizontal plane: zero shift up to 5 inH2O(127 mmH2O) plus extension length on extendedunits
Model 3051T/CAZero shifts(1) up to 0.09 psi (6,2 mbar)
Model 3051HZero shifts up to ±5 inH2O (127 mmH2O) can becalibrated out (no span effect)
Vibration Effect
All Models
Measurement effect due to vibrations is insignificantexcept at resonance frequencies. At resonancefrequencies, vibration effect is less than ±0.1% ofURL per g when tested between 15 and 2000 Hz inany axis relative to pipe-mounted process conditions.
Power Supply Effect
All Models
Less than ±0.005% of calibrated span per volt
RFI Effects
All Models
±0.1% of span from 20 to 1000 MHz and for fieldstrength up to 30 V/m
Transient Protection (Option Code T1)
All Models
Meets IEEE Standard 587, Category B
1 kV crest (10 × 1 000 microseconds)3 kV crest (8 × 20 microseconds)6 kV crest (1,2 × 50 microseconds)
Meets IEEE Standard 472,Surge Withstand Capability
SWC 2,5 kV crest, 1 MHz wave form
Note:Calibrations at 68 °F (20 °C) perASME Z210.1 (ANSI)
(1) All zero shifts can be calibrated out.
General Specifications
Response Time < 1 nanosecondPeak Surge Current 5000 amps to housingPeak Transient Voltage 100 V dcLoop Impedance < 25 ohmsApplicable Standards IEC 801-4, IEC 801-5
Rosemount Inc.
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FUNCTIONAL SPECIFICATIONS
Range and Sensor Limits
TABLE 2. Model 3051CA
TABLE 3. Model 3051T
ServiceLiquid, gas, and vapor applications
Power SupplyExternal power supply required; transmitters operateon 9.0 to 32.0 V dc transmitter terminal voltage.
Current Draw17.5 mA with all configurations (including LCDmeter option)
Overpressure LimitsTransmitters withstand the following limitswithout damage:
Model 3051CD/CGRange 0: 750 psi (52 bar)Range 1: 2000 psig (137,9 bar)Ranges 2–53626 psig (250 bar)
Model 3051CARange 0: 60 psia (4,1 bar)Range 1: 120 psia (8,3 bar)Range 2: 300 psia (20,7 bar)Range 3: 1600 psia (110 bar)Range 4: 6000 psia (414 bar)
Model 3051H
All Ranges: 3626 psig (250 bar)
Model 3051TG/TARange 1: 750 psi (52 bar)Range 2: 1500 psi (103 bar)Range 3: 1600 psi (110 bar)Range 4: 6000 psi (414 bar)Range 5: 15000 psi (1034 bar)
For Model 3051L or Level Flange Option Codes FA, FB, FC, andFD, limit is 0 psia to the flange rating or sensor rating, whicheveris lower.
TABLE 1. Model 3051CD, 3051CG, 3051L, and 3051H Range and Sensor LimitsMinimum
Calibrated Range Range and Sensor Limits
Model3051 CD, CG, L, H Upper (URL)
Lower (LRL)
Range3051C
Differential 3051C Gage3051L
Differential3051LGage
3051HDifferential
3051HGage
0 0.1 inH2O(0,25 mbar)
3.0 inH2O(7,5 mbar)
–3.0 inH2O(1)
(–7,5 mbar)NA NA NA NA NA
1 0.5 inH2O(1,2 mbar)
25 inH2O(62,3 mbar)
–25 inH2O (1)
(–62,3 mbar)
(1) This range not available for Model 3051P Reference Class Transmitters.
NA NA NA NA NA
2 2.5 inH2O(6,2 mbar)
250 inH2O(0,6 bar)
–250 inH2O(–0,6 bar)
–250 inH2O(–0,6 bar)
–250 inH2O(–0,6 bar)
–250 inH2O(–0,6 bar)
–250 inH2O(–0,6 bar)
–250 inH2O(–0,6 bar)
3 10 inH2O(25 mbar)
1000 inH2O(2,5 bar)
–1000 inH2O(–2,5 bar)
0.5 psia(34,5 mbar)
–1000 inH2O(–2,5 bar)
0.5psia(34,5 mbar)
–1000inH2O
(–2,5 bar)
0.5 psia(34,5 mbar)
4 3 psi(0,20 bar)
300 psi(20,9 bar)
–300 psi (1)
(–20,9 bar)0.5 psia
(34,5 mbar)–300 psi
(–20,9 bar)0.5 psia
(34,5 mbar)–300 psi(–2,9 bar)
0.5 psia(34,5 mbar)
5 20 psi(1,4 bar)
2000 psi(138 bar)
– 2000 psi (1)
(–138 bar)0.5 psia
(34,5 mbar)NA NA – 2000 psi
(–138 bar)0.5 psia
(34,5 mbar)
Ran
ge
MinimumCalibrated Range
Range and Sensor Limits
Upper(URL)
Lower(LRL)
0 0.167 psia(11,5 mbar)
5 psia(0,34 bar)
0 psia(0 bar)
1 0.3 psia(20,7 mbar)
30 psia(2,07 bar)
0 psia(0 bar)
2 1.5 psia(103 mbar)
150 psia(10,3 bar)
0 psia(0 bar)
3 8 psia(0,55 bar)
800 psia(55,2 bar)
0 psia(0 bar)
4 40 psia(2,76 bar)
4,000 psia(276 bar)
0 psia(0 bar)
Ran
ge Minimum
CalibratedRange
Range and Sensor Limits
Upper(URL)
Lower(LRL) (Abs.)
Lower(1)
(LRL) (Gage)
(1) Assumes atmospheric pressure of 14.7 psig
1 0.3 psi(0,02 bar)
30 psi(2,1 bar)
0 psia(0 bar)
–14.7 psig(–1,01 bar)
2 1.5 psi(0,1 bar)
150 psi(10,3 bar)
0 psia(0 bar)
–14.7 psig(–1,01 bar)
3 8 psi(0,55 bar)
800 psi(55,2 bar)
0 psia(0 bar)
–14.7 psig(–1,01 bar)
4 40 psi(2,76 bar)
4000 psi(276 bar)
0 psia(0 bar)
–14.7 psig(–1,01 bar)
5 2000 psi(138 bar)
10000 psi(689 bar)
0 psia(0 bar)
–14.7 psig(–1,01 bar)
Model 3051 with FoundationTM fieldbus
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Static Overpressure LimitsTransmitters withstand the following limitswithout damage:
Model 3051CD OnlyOperates within specifications between static linepressures of 0.5 psia and 3626 psig (4500 psig forOption Code P9)Range 0: 0.5 psia and 750 psigRange 1 (Model CD): 0.5 psia and 2000 psigRanges 2–3 (Model PD): 0.5 psia and 2000 psig
For Model 3051L or Level Flange Option CodesFA, FB, FC, and FD, limit is 0.5 psia to the flangerating or sensor rating, whichever is lower.
Burst Pressure LimitsBurst pressure on Coplanar or traditional processflange is 10000 psig (689 bar)
Burst pressure for the Model 3051T isRanges 1–4: 11000 psi (758 bar)Range 5: 26000 psig (1 793 bar)
AlarmsThe AI block allows the user to configure HI-HI,HI, LO, or LO-LO alarms, with a variety ofpriority levels.
Temperature Limits
Ambient–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)
ProcessAt atmospheric pressures and above (see Table 5)
Humidity Limits0–100% relative humidity
Turn-on TimePerformance within specifications is achievedless than 2.0 seconds after power is applied tothe transmitter
Volumetric DisplacementLess than 0.005 in3 (0,08 cm3)
DampingOutput response to a step input change isuser-selectable from 0 to 36 seconds for one timeconstant. This software damping is in addition tosensor module response time.
TABLE 4. Model 3051L and Level Flange Rating Limits
Standard ClassCarbon Steel
RatingStainless Steel
Rating
ANSI/ASME 150 285 psig(1)
(1) At 100 °F (38 °C), rating decreases with increasing temperature
275 psig(1)
ANSI/ASME 300 740 psig(1) 720 psig(1)
ANSI/ASME 600 1480 psig(1) 1440 psig(1)
DIN PN 10-40 40 bar(2)
(2) At 248°F (120 °C), rating decreases with increasing temperature
40 bar(2)
DIN PN 10/16 16 bar(2) 16 bar(2)
DIN PN 25/40 40 bar(2) 40 bar(2)
TABLE 5. Model 3051 Process Temperature Limits
Models 3051CD, 3051CG, 3051CA
Silicone Fill Sensor(1)
with Coplanar Flangewith Traditional Flangewith Level Flangewith Model 305 IntegralManifold
(1) Process temperatures above 185 °F (85 °C) require derating theambient limits by a 1.5:1 ratio (0.6:1 ratio for Model 3051H)
–40 to 250 °F (–40 to 121 °C)(2)
–40 to 300 °F (–40 to 149 °C)(2)
–40 to 300 °F (–40 to 149 °C)(2)
–40 to 300 °F (–40 to 149 °C)(2)
(2) 220 °F (104 °C) limit in vacuum service;130 °F (54 °C) for pressures below 0.5 psia
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 3051CA
Models 3051T (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)
Models 3051L 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)
Models 3051L 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 is for seal assemblies mounted away from the transmitterwith the use of capillaries
60 to 600 °F (15 to 315 °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 Water 0 to 200 °F (–18 to 93 °C)
Syltherm 800 –50 to 400 °F (–45 to 205 °C)
Model 3051H (Process Fill Fluid)
D.C. Silicone 200(1) –40 to 375 °F (–40 to 191 °C)
Inert(1) –50 to 350 °F (–45 to 177 °C)
Neobee M-20®(1) 0 to 375 °F (–18 to 191 °C)
Rosemount Inc.
15
PHYSICAL SPECIFICATIONS
Electrical Connections1/2–14 NPT, PG 13.5, G1/2, and M20 x 1.5 (CM20)conduit
Process Connections
All Models except Model 3051L and Model 3051T1/4–18 NPT on 21/8-in. centers;1/2–14 NPT on 2-, 21/8-, or 21/4-in. centers
Model 3051LHigh pressure side: 2-, 3-, or 4-in., Class 150, 300or 600 flange; 50, 80, or 100 mm, PN 40 or10/16 flange
Low pressure side: 1/4–18 NPT on flange1/2–14 NPT on adapter
Model 3051T1/4–18, 1/2–14 NPT female, G1/2 A DIN 16288 Male(Available in SST for Range 1–4 transmittersonly), or Autoclave type F-250-C (Pressurerelieved 9/16–18 gland thread; 1/4 OD high pressuretube 60° cone; available in SST for Range 5transmitters only)
Process-Wetted Parts
Process Isolating Diaphragms
Drain/Vent Valves316 SST, Hastelloy C, or Monel material(Monel is unavailable with Model 3051L)
Process Flanges and AdaptersPlated carbon steel, CF-8M (Cast version of316 SST, material per ASTM-A743), Hastelloy C,or Monel
Wetted O-ringsGlass-filled TFE (Graphite-filled TFE withisolating diaphragm Option Code 6)
Model 3051L Process Wetted Parts
Flanged Process Connection(Transmitter High Side)
Process diaphragms, including processgasket surface:316L SST or Hastelloy C-276
ExtensionCF-3M (Cast version of 316L SST, material per
ASTM-A743), or Hastelloy C;Fits schedule 40 and 80 pipe
Mounting FlangeZinc-cobalt plated CS or SST
Reference Process Connection(Low Side)
Isolating Diaphragms316L SST or Hastelloy C-276
Reference Flange and AdapterCF-3M (Cast version of 316 SST, material perASTM-A743)
Non-Wetted Parts
Electronics HousingLow-copper aluminum or CF-8M (Cast version of316 SST, material per ASTM-A743); NEMA 4X,IP 65, IP 66
Coplanar Sensor Module Housing
CF-3M (Cast version of 316L SST, materialper ASTM-A743)
BoltsPlated carbon steel per ASTM A449, Type 1;Austenitic 316 SST, ANSI/ASTM-A-193-B7M,or Monel
Sensor Module Fill FluidSilicone or inert halocarbon (inert not availablewith Model 3051CA or Model 3051H);Model 3051T uses Fluorinert® FC-43
Process Fill Fluid (Model 3051L and 3051H only)Model 3051L: Syltherm® XLT, D.C.® Silicone 704,D.C. Silicone 200, inert, glycerin and water,NeobeeM-20®, propylene glycol and water, or Syltherm800. Model 3051H: inert, Neobee M-20, or D.C.200 Silicone
PaintPolyurethane
Cover O-ringsBuna-N
Ordinary Location CertificationAs standard, the transmitter has been examinedand tested to determine that the design meetsbasic electrical, mechanical, and fire protectionrequirements by FM, a nationally recognizedtesting laboratory (NRTL) as accredited by theFederal Occupational Safety and HealthAdministration (OSHA).
Isolating Diaphragm Material 3051
CD
/CG
3051
T
3051
CA
3051
L
316L SST • • •
See
Bel
ow
Hastelloy C-276 • • •Monel • •Tantalum •Gold-plated Monel • •Gold-plated SST • •
Model 3051 with FoundationTM fieldbus
16
Hazardous Locations CertificationsFactory Mutual (FM) Approvals
E5 Explosion proof for Class I, Division 1, GroupsB, C, and D. Dust-Ignition Proof for Class IIand Class III, Division 1, Groups E, F, and G;suitable for indoor and outdoor (NEMA 4X)hazardous locations; factory sealed
I5 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 withRosemount drawing 03031-1019; temperaturecode T4; non-incendive for Class I, Division 2,Groups A, B, C, and D; NEMA 4X; factorysealed.
BASEEFA/CENELEC Intrinsic Safety andDust Certification
I1 EEx ia IIC T4 (-60 °C < Tamb < 60 °C)T70 °C(Tamb = –20 to + 40 °C) IP66ATEX Category Marking: Ex II 1 GD
CENELEC Approved Entity ParametersUi= 30 VIi= 300 mAPi= 1.3 WCi= 0.0Li= 0.0
BASEEFA/CENELEC/Type N and Dust CertificationN1 EEx nL IIC T5 (-40 °C < Tamb < 70 °C)
T80 °C(Tamb = –20 to + 40 °C) IP66ATEX Category Marking: Ex II 3 GD
SPECIAL CONDITIONS FOR SAFE USE:When the (T1) optional transient protection terminal block isinstalled, the apparatus is not capable of withstanding the 500 Vinsulation test required by Clause 6.4.12 of EN50020:1994 for I1and Clause 9.1 of EN50021:1998 for N1. This must be taken intoaccount when installing the apparatus.
KEMA/CENELEC Flameproof and Dust CertificationE8 EEx d IIC T5 (Tamb = -50 to 80 °C)
EEx d IIC T6 (Tamb = -50 to 65 °C)T90 C IP66ATEX Category Marking: Ex II 1/2 GD
SPECIAL CONDITIONS FOR SAFE USE:This device contains a thin wall diaphragm. Installation,maintenance and use shall take into account the environmentalconditions to which the diaphragm will be subjected. Themanufacturer’s instructions for installation and maintenanceshall be followed in detail to assure safety during its expectedlifetime.
Canadian Standards Association (CSA) Approvals
E6 Explosion Proof for Class I, Division 1, GroupsB, C, and D; dust-ignition proof for Class IIand Class III, Division 1, Groups E, F, and G;suitable for indoor and outdoor hazardouslocations, CSA Enclosure Type 4X; factorysealed
I6 Intrinsically Safe for Class I, Division 1,Groups A, B, C, and D when connected inaccordance with Rosemount drawings03031-1024; temperature code T3C
SAA Flameproof Certification
E7 Ex d IIC T6 (AMBIENT 40 °C) /DIP T6 (AMBIENT 40 °C)Ex d IIC T5 (AMBIENT 80 °C) /DIP T6 (AMBIENT 80 °C)IP65 Class I, Zone 1
Special conditions for safe use: When the transmitterenclosure has a cable entry thread other than metricconduit treads, the device must be used with anappropriately certified thread adaptor.
Combinations of ApprovalsK5 Combination of E5 and I5KB Combination of K5 and C6
FM and CSA Explosion proof and InstrinsicSafety
K6 Combination C6, I1, and E8K8 Combination I1 and E8C6 Combination I6 and E6
FM Approved Entity Parametersfor Model 3051C
FM Approved for Class I, II, III,Division 1 and 2, Groups:
Vmax = 30V dc A–G
Imax = 300 mA A–G
Pmax = 1.3 W A–G
Ci = 0.0 µF A–G
LI = 0.0 µH A–GCSA Approved Barriers for
Model 3051CCSA Approved for Class I,Division 1 and 2, Groups:
≤ 30 V, ≥ 300 Ω≤ 28 V, ≥ 235 Ω≤ 25 V, ≥ 160 Ω≤ 22 V, ≥ 100 Ω
A–D
CSA Approved EntityParameters for Model 3051C
Vmax = 30V dc A–D
Imax = 300 mA A–D
Pmax = 1.3 W A–D
Ci = 0.0 µF A–D
LI = 0.0 µH A–D
Rosemount Inc.
17
Certification Label
Electronics Housing
Terminal Block
Cover O-ring
Cover
Electronics Board
Nameplate
Sensor Module
Housing Rotation Set Screw(180° Maximum Rotation without
Further Disassembly)
Flange Alignment Screw(Not Pressure Retaining)
Flange BoltsFlange Adapters
Drain/Vent Valve
Coplanar Flange
305
1-3
051B
08A
Flange Adapter O-Ring
Process O-Ring
FIGURE 3. Model 3051 Exploded View
Model 3051 with FoundationTM fieldbus
18
305
1-3
051A
04A
,I0
4A,M
04A
,L04
A.J
04A
FIGURE 4. Coplanar Flange Mounting Configurations with Optional Bracket (B4) for 2-inch Pipe or Panel Mounting
PANELMOUNTING
PIPEMOUNTING
NOTEDimensions are ininches (millimeters).
Optional MountingBracket for Coplanar
Flange Shown(Option Code B4)
5/16 3 1½ Boltsfor Panel Mounting(Not Supplied)
3/8–16 × 1¼ Boltsfor Mounting
to Transmitter
2.8 (71)
3.4(85)
3.3(83)
2-inch U-Boltfor Pipe Mounting
6.0(152)
3/8–16 3 ¼ Bolts (2)Supplied for AttachingBracket to Transmitter
5.0(127)
1.3 (33)
6.2(156)
4.8(120)
2.2(56)
7.1(180)
2.8(71)
FIGURE 5. Model 3051C Coplanar Flange Dimensional Drawing (Differential Pressure Transmitter shown)
1/2–14 NPT Conduit Connection(Two Places, Other SizesAvailable)
Nameplate
Drain/VentValve
1/2–14 NPT on Optional FlangeAdapters. Adapters Can Be Rotatedto Give Connection Centers of 2.00(51), 2.125 (54), or 2.25 (57).
6.4(163)
TransmitterCircuitry
Meter Cover(Optional)
CertificationLabel
Housing RotationSet Screw
Coplanar FlangeProcessConnection Per DINSTD. 19213 2.13(54) ±0.008 in.ConnectionCenters
7.1(181)
8.2(209)
NOTEDimensions are in inches (millimeters).
TerminalConnections
0.75 (20)Clearancefor CoverRemoval
5.0(127)
4.1(105)
0.75 (20) Clearancefor Cover Removal
3051
-303
1A06
B,
B06
A
¼–18 NPT on Coplanar Flangefor Pressure Connection without the Use ofFlange Adapters
Rosemount Inc.
19
10.1(257)
2.7(67)
7.1(181)
OPTION B1/B7/BA:TRADITIONAL FLANGE2-IN. PIPE MOUNTING
BRACKET
OPTION B2/B8:TRADITIONAL FLANGE PANEL
MOUNTING BRACKET
5/16 x 7/8 Bolts for PanelMounting (Not Supplied)
2.81(71)
FIGURE 6. Traditional Flange Mounting Configurations with Optional Brackets for 2-in. Pipe or Panel Mounting
305
1-30
31J1
9D,E
19C
,30
31I1
9C,
303
1C19
A
4.2(106)
1.1 (28)
1.4(33)
4.6(116)
9.6(243)
ImpulsePiping
2.7(67)
3.8(95)
NOTEDimensions are ininches (millimeters).
PIPE MOUNTING BRACKETPANEL MOUNTING BRACKET
NOTEDimensions are ininches (millimeters).
FIGURE 7. Traditional Flange Dimensional Drawing.
3051
-303
1D3
0C,3
031
E3
0A
TransmitterCircuitry
Meter Cover(Optional)
Nameplate
1/4–18 NPT on Traditional Flange for PressureConnection without the Use of FlangeAdapters. Connection Per DIN STD. 192132.13 (54) ±0.008 in. Connection Centers
TerminalConnections
HousingRotation
Set Screw
1/2–14 NPT ConduitConnection (Two Places,Other Sizes Available)
Certification Label
1/2–14 NPT on OptionalFlange Adapters.Adaptors Can Be Rotatedto Give ConnectionCenters of 2.00 (51), 2.125(54), or 2.25 (57).
1.7 (43)
2.2(56)
1.1(28)
3.4(87)
1.1(28)
Drain/Vent Valve
7.9(202)
5.0(127)
4.1(105)
0.75 (20) Clearancefor Cover Removal0.75 (20)
Clearancefor CoverRemoval
Model 3051 with FoundationTM fieldbus
20
NOTEDimensions are in inches (millimeters).
3051
-305
1TA
6C,3
051T
B6A
FIGURE 8. Model 3051T Dimensional Drawings
0.75 (20)Clearancefor CoverRemoval
1/2–14 NPT ConduitConnection (Two
Places, Other SizesAvailable)
TerminalConnections
CertificationLabel
5.0(127)
TransmitterCircuitry
HousingRotation
Set Screw
7.2(183)
4.1(105)
0.75 (20) Clearancefor Cover Removal
Nameplate
OptionalMeter
2 (50)
6.2(156)
2.9(72)
4.3(110)
2.8 (71)
4.8(120)
6.9(175)
5.1(130)
PANEL MOUNTINGPIPE MOUNTING
NOTEDimensions are in inches (millimeters).
305
1-T
B4A
,TC
4A,T
A4A
FIGURE 9. Model 3051T Typical Mounting Configurations with Optional Mounting Bracket.
3.5(90)
6.3(160)
Rosemount Inc.
21
NOTEDimensions are in inches (millimeters).
Impulse Piping
2.7(67)
0.7(16)
4.4(109)
PIPE MOUNTING CONFIGURATION
Impulse Piping
2.7(67)
PANEL MOUNTING CONFIGURATION7/16–203 3/4 Bolts Supplied for
Attaching Bracket to Transmitter
FIGURE 10. Model 3051H Mounting Brackets for 2-inch Pipe and Panel Mount (Option Code B5/B6)
3051
-303
1G19
A,3
051
HA
3A,3
031
F1
9B,3
051
HA
3B
Model 3051 with FoundationTM fieldbus
22
3051
-30
3127
C,
3031
27B
,303
1C
27E
,30
31B
27D
,303
127
D
Serrated FaceGasket Surface
Certification Label
A
HousingRotationSet Screw
Extension2, 4, or 6
(51, 102, or 152)
6.5(165)
1/2–14NPTMountingAdapter(optional)
3- AND 4-IN.FLANGE
CONFIGURATION
E
Certification Label
Gasket
1(25)
Lower Housing(required for 2-inch
configuration) 1/2–14 NPTMounting
Adapter(optional)
A
2-IN. FLANGE CONFIGURATION(FLUSH MOUNT ONLY)
4.1(105)
4.1(105)
C
Flushing Connection
1 (25)
OPTIONAL FLUSHINGCONNECTION RING(LOWER HOUSING)
G
E
DIAPHRAGM ASSEMBLYAND MOUNTING FLANGE
1/2–14 NPT ConduitConnections (optional)
5.0(127) Transmitter
Circuitry 0.75 (19)Clearance forCover Removal
Terminal Connections0.75 (19) Clearance for
Cover Removal
Nameplate
Drain/VentValve
5.14(131)
Meter Cover(optional)
8.2(209)
1/4–18 NPT on Flange for Pressure Connectionwithout the Use of Mounting Adapters
NOTEDimensions are ininches (millimeters).
D
B
7.1(181)
E G
ClassPipeSize
FlangeThickness
(A)
Bolt CircleDiameter
(B)Outside
Diameter (C) No. of BoltsBolt HoleDiameter
Exten.Diam.(D)(1)
(1) Tolerances are 0.040 (1,02), –0.020 (0,51)
O.D. Gask.Surf.(E)
Proc.Side(G)
ASME B16.5 (ANSI)
150
2 (51)3 (76)4 (102)
1.12 (28)1.31 (33)1.31 (33)
4.75 (121)6.0 (152)7.5 (191)
6.0 (152)7.5 (191)9.0 (229)
448
0.75 (19)0.75 (19)0.75 (19)
NA2.58 (66)3.5 (89)
3.6 (92)5.0 (127)6.2 (158)
2.12 (54)3.5 (89)4.5 (114)
ASME B16.5 (ANSI)
300
2 (51)3 (76)4 (102)
1.25 (32)1.50 (38)1.62 (41)
5.0 (127)6.62 (168)7.88 (200)
6.5 (165)8.25 (210)10.0 (254)
888
0.75 (19)0.88 (22)0.88 (22)
NA2.58 (66)3.5 (89)
3.6 (92)5.0 (127)6.2 (158)
2.12 (54)3.5 (89)4.5 (114)
ASME B16.5 (ANSI)
600
2 (51)3 (76)
1.12 (28)1.37 (35)
5.0 (127)6.62 (168)
6.5 (165)6.62 (168)
88
0.75 (19)0.88 (22)
NA2.58 (66)
3.6 (92)5.0 (127)
2.5 (63)3.5 (89)
DINPN10-40
DN 50 26 mm 125 mm 165 mm 4 18 mm NA 4.0 (102) 4.5 (63)
DINPN 25/40
DN 80DN 100
30 mm30 mm
160 mm190 mm
200 mm235 mm
88
18 mm22 mm
65 mm89 mm
5.4 (138)6.2 (158)
3.7 (94)4.5 (114)
DINPN 10/16
DN 100 26 mm 180 mm 220 mm 8 18 mm 89 mm 6.2 (158) 4.5 (114)
FIGURE 11. Model 3051L Dimensional Drawings
Rosemount Inc.
23
Ordering InformationTABLE 6. Model 3051C Differential, Gage, and Absolute Pressure Transmitters
— = Not Applicable • = Applicable
Model Transmitter Type (Select One) CD CG CA
3051CD Differential Pressure Transmitter • — —
3051CG Gage Pressure Transmitter — • —
3051CA Absolute Pressure Transmitter — — •
Code
Pressure Ranges
CD CG CAModel 3051CDRange/Minimum Span
Model 3051CGRange/Minimum Span
Model 3051CARange/Minimum Span
0 –3 to 3 inH2O/0.1 inH2O(–7,47 to 7,47 mbar/0,3 mbar)
Not Applicable 0 to 5 psia/0.167 psia(0 to 0,34 bar/11,5 mbar)
• — •
1 –25 to 25 inH2O/0.5 inH2O(–62,2 to 62,2 mbar/1,2 mbar)
Not Applicable 0 to 30 psia/0.3 psia(0 to 2,1 bar/20,7 mbar kPa)
• — •
2 –250 to 250 inH2O/2.5 inH2O(–623 to 623 mbar/6,2 mbar)
–250 to 250 inH2O/2.5 inH2O(–623 to 623 mbar/6,2 mbar)
0 to 150 psia/1.5 psia(0 to 10,34 bar/0,1 bar)
• • •
3 –1000 to 1000 inH2O/10inH2O(–2,5 to 2,5 bar/25 mbar)
–407 to 1000 inH2O/10 in H2O(–0,8 to 2,5 bar/25 mbar)
0 to 800 psia/8 psia(0 to 55,2 bar/0,55 bar)
• • •
4 –300 to 300 psi/3 psi(–20,7 to 20,7 bar/0,2 bar)
–14.7 to 300 psi/3 psi(0,8 to 20,7 bar/207 mbar)
0 to 4000 psia/40 psia(2 to 275,8 bar/2,8 bar)
• • •
5 –2000 to 2000 psi/20 psi(–137,9 to137,9 bar/1,4 bar)
–14.7 to 2000 psig/20 psi(0,8 to 138 bar/1,4 mbar)
Not Applicable • • —
NOTE: For maximum accuracy, specify the calibration points that best accommodate your application using the Model 3051 with FOUNDATION fieldbusConfiguration Data Sheet 00806-0100-4774.
Code Output CD CG CA
F FOUNDATION fieldbus Protocol. Comes standard with Link Active Scheduler. • • •
Code
Materials of Construction
CD CG CAProcessFlange Type Flange Material Drain/Vent Flange Adapters
2 Coplanar SST SST SST • • •
3 Coplanar Hastelloy C Hastelloy C Hastelloy C • • •
4 Coplanar Monel Monel Monel • • •
5 Coplanar Plated CS SST Plated CS • • •
7 Coplanar SST Hastelloy C SST • • •
8 Coplanar Plated CS Hastelloy C Plated CS • • •
0 Alternate Flange—See Options H2, H3, H4, H7, F1, G1, G2, FA, FB, FC, FD, or S5 • • •
NOTE: Option Codes 3, 7, and 8 meet NACE material recommendations per MR 01-75.
Code Isolating Diaphragm CD CG CA
2 316L SST • • •
3 Hastelloy C-276 (Meets NACE material recommendations per MR 01-75) • • •
4 Monel • • •
5 Tantalum (Available on Model 3051CD and CG, Ranges 2–5 only. Not available on Model 3051CA) • • —
6 Gold-plated Monel • • •
7 Gold-plated SST • • •
Model 3051 with FoundationTM fieldbus
24
Code O-ring CD CG CA
A Glass-filled TFE • • •
B Graphite-filled TFE • • •
Code Fill Fluid CD CG CA
1 Silicone • • •
2 Inert fill (Halocarbon) • • —
Code Housing Material Conduit Entry Size CD CG CA
A Polyurethane-covered Aluminum ½–14 NPT • • •
B Polyurethane-covered Aluminum M20 × 1.5 (CM20) • • •
C Polyurethane-covered Aluminum PG 13.5 • • •
D Polyurethane-covered Aluminum G½ • • •
J SST ½–14 NPT • • •
K SST M20 x 1.5 (CM20) • • •
L SST PG 13.5 • • •
Code Plantweb Software Functionality CD CG CA
B01 Regulatory Control Suite (PID, INT, AR, SGCR, ISEL) • • •
D01 Advanced Device Diagnostics–Plugged Impulse Line Diagnostic and Statistical Process Monitoring • • •
Code Alternate Flange Options (Requires Materials of Construction Code 0) CD CG CA
H2 Traditional Flange, 316 SST, SST Drain/Vent, SST Flange Adapter • • •
H3 Traditional Flange, Hastelloy C, Hastelloy C Drain/Vent, Hastelloy C Flange Adapter(Meets NACE material recommendations per MR 01-75)
• • •
H4 Traditional Flange, Monel, Monel Drain/Vent, Monel Flange Adapter • • •
H7 Traditional Flange, 316 SST, Hastelloy C Drain/Vent, 316 SST Flange Adapter(Meets NACE material recommendations per MR 01-75)
• • •
FA Level Flange, SST, 2 in., ASME B 16.5 (ANSI) Class 150, Vertical Mount • • •
FB Level Flange, SST, 2 in., ASME B 16.5 (ANSI) Class 300, Vertical Mount • • •
FC Level Flange, SST, 3 in., ASME B 16.5 (ANSI) Class 150, Vertical Mount • • •
FD Level Flange, SST, 3 in., ASME B 16.5 (ANSI) Class 300, Vertical Mount • • •
FP DIN Level Flange, SST, DN 50, PN 40, Vertical Mount • • •
FQ DIN Level Flange, SST, DN 80, PN 40, Vertical Mount • • •
Code Integral Mount Manifold (Optional) CD CG CA
S5 Assemble to Model 305 Integral Manifold (Refer to PPL 00814-0100-4733 for Pricing Information) • • •
Code Integral Mount Primary Elements (Optional) CD CG CA
S4 Factory Assembly to Rosemount Primary Element (Annubar® or Model 1195 Integral Orifice)NOTE: With the primary element installed, the maximum operating pressure will equal the lesser ofeither the transmitter or the primary element. Option is available for factory assembly to range 1–4 transmittersonly.
• • •
Code Diaphragm Seal Assemblies (Optional) CD CG CA
S1 One Diaphragm Seal (Direct Mount or Capillary Connection Type) • • •
S2 Two Diaphragm Seals (Direct Mount or Capillary Connection Type) • — —
TABLE 6. (continued) Model 3051C Differential, Gage, and Absolute Pressure Transmitters— = Not Applicable • = Applicable
Rosemount Inc.
25
Code Optional All Welded Diaphragm Seals Systems (For High Vacuum Applications) CD CG CA
S7 One Diaphragm Seal, All-Welded System (Capillary Connection Type) • • •
S8 Two Diaphragm Seals, All-Welded System (Capillary Connection Type) • — —
S0 One Diaphragm Seal, All-Welded System (Direct Mount Connection Type) • • •
S9 Two Diaphragm Seals, All-Welded System (One Direct Mount and One Capillary Connection Type) • — —
NOTE: Option Code S7, S8, S9, and S0 standard flange adapter bolts are austenitic 316 SST.
Code Mounting Brackets (Optional) CD CG CA
B4 Coplanar Flange Bracket for 2-in. Pipe or Panel Mounting, all SST • • •
B1 Traditional Flange Bracket for 2-in. Pipe Mounting, CS Bolts • • •
B2 Traditional Flange Bracket for Panel Mounting, CS Bolts • • •
B3 Traditional Flange Flat Bracket for 2-in. Pipe Mounting, CS Bolts • • •
B7 B1 Bracket with Series 300 SST Bolts • • •
B8 B2 Bracket with Series 300 SST Bolts • • •
B9 B3 Bracket with Series 300 SST Bolts • • •
BA SST B1 Bracket with Series 300 SST Bolts • • •
BC SST B3 Bracket with Series 300 SST Bolts • • •
Code Hazardous Locations Certifications (Optional) CD CG CA
E5 FM Explosion proof Approval • • •
I5 FM Non-incendive and Intrinsic Safety Approval • • •
K5 FM and Nonincendive Explosion proof and Intrinsic Safety Approval • • •
I1 BASEEFA/CENELEC Intrinsic Safety and Dust Certification • • •
N1 BASEEFA/CENELEC Type N and Dust Certification • • •
E8 KEMA/CENELEC Flameproof and Dust Certification • • •
C6 Canadian Standards Association (CSA) Explosion proof and Intrinsic Safety Approval • • •
K6 Combination of CSA and CENELEC Explosion proof and Intrinsic Safety Approval • • •
KB Combination of FM and CSA Explosion Proof and Intrinsic Safety Approvals • • •
K8 Combination of CENELEC Flameproof and Intrinsic Safety Approvals • • •
E7 SAA Explosion proof Certification • • •
Code Bolting Options CD CG CA
L4 Austenitic 316 SST Bolts • • •
L5 ANSI/ASTM-A-193-B7M Bolts • • •
L6 Monel Bolts • • •
Code Meter Options CD CG CA
M5 LCD Meter for Aluminum Housing (Housing Codes A, B, C, and D only) • • •
M6 LCD Meter for SST Housing (Housing Codes J, K, and L only) • • •
TABLE 6. (continued) Model 3051C Differential, Gage, and Absolute Pressure Transmitters— = Not Applicable • = Applicable
Model 3051 with FoundationTM fieldbus
26
Code Other Options CD CG CA
Q4 Calibration Data Sheet • • •
Q8 Material Traceability Certification per EN 10204 3.1BNOTE: This option is available for the sensor module housing and Coplanar or traditional flanges and adapters(Model 3051C), and for the sensor module housing and low-volume Coplanar flange and adapter (Model 3051Cwith Option Code S1).
• • •
T1 Transient Protection Terminal Block • • •
C3 Gage Calibration (Model 3051CA4 only) — — •
P1 Hydrostatic Testing • • •
P2 Cleaning for Special Service • • •
P3 Cleaning for <1 PPM Chlorine/Fluorine • • •
DF 1/2–14 NPT Flange Adapter(s)–Material determined by flange material • • •
D7 Coplanar Flange Without Drain/Vent Ports • • •
D8 Ceramic Ball Drain/Vents • • •
D9 Carbon SteelJIS Process Connection—RC ¼ Flange with RC ½ Flange Adapter
316 SST
•
•
•
•
•
•
P9 4500 psig Static Pressure Limit (Model 3051CD Ranges 2–5 only) • — —
V5 External Ground Screw Assembly • • •
TABLE 6. (continued) Model 3051C Differential, Gage, and Absolute Pressure Transmitters— = Not Applicable • = Applicable
Rosemount Inc.
27
TABLE 7. Model 3051T Gage and Absolute Pressure Transmitter
Model Transmitter Type
3051T Pressure Transmitter
Code Pressure Type
G Gage
A Absolute
Code
Pressure Ranges
3051TGRange/Minimum Span
3051TARange/Minimum Span
1 –14.7 to 30 psi/0.3 psi (–1,01 to 2,0 bar/20,7 mbar) 0 to 30 psia/0.3 psia (0 to 2,07 bar/20,7 mbar)
2 –14.7 to 150 psi/1.5 psi (–1,01 to 10,3 bar/103,4 mbar) 0 to 150 psia/1.5 psia (0 to 10,34 bar/103,4 mbar)
3 –14.7 to 800 psi/8 psi (–1,01 to 55,2 bar/0,55 bar) 0 to 800 psia/8 psia (0 to 55,2 bar/0,55 bar)
4 –14.7 to 4000 psi/40 psi (–1,01 to 276 bar/2,75 bar) 0 to 4000 psia/40 psia (0 to 275,8 bar/2,76 bar)
5 –14.7 to 10000 psi/2000 psi (–1,01 to 690 bar/138 bar) 0 to 10000 psia/2000 psia (0 to 690 bar/138 bar)
Code Output
F FOUNDATION fieldbus Protocol. Comes standard with two AI Blocks and Link Active Scheduler.
Code Process Connection Style
2A ¼–18 NPT Female
2B ½–14 NPT Female
2C G½ A DIN 16288 Male (Available in SST for Range 1–4 only)
2F Coned and Threaded, Compatible with Autoclave Type F-250-C (Includes Gland and Collar, Available in SST for Range 5 only)
Code Isolating Diaphragm Process Connection Wetted Parts Material
2 316L SST 316L SST
3 Hastelloy Hastelloy
NOTE: Option Code 3 meets NACE requirements per MR 01-75.
Code Fill Fluid
1 Silicone
2 Inert
Code Housing Material Conduit Entry Size
A Polyurethane-covered Aluminum ½–14 NPT
B Polyurethane-covered Aluminum M20 × 1.5 (CM20)
C Polyurethane-covered Aluminum PG 13.5
D Polyurethane-covered Aluminum G½
J SST ½–14 NPT
K SST M20 x 1.5 (CM20)
L SST PG 13.5
Code Plantweb Software Functionality
B01 Regulatory Control Suite (PID, INT, AR, SGCR, ISEL)
D01 Advanced Device Diagnostics–Plugged Impulse Line Diagnostic and Statistical Process Monitoring
Code Integral Mount Manifold (Optional)
S5 Assemble to Model 306 Integral Manifold (Requires ½ in. process connection code 2B—Refer to PPL 00814-0100-4733)
Model 3051 with FoundationTM fieldbus
28
Code Remote Diaphragm Seal Assemblies (Optional)
S1 One Remote Diaphragm Seal (Direct Mount or Capillary Connection Type)
Code Mounting Brackets (Optional)
B4 Bracket for 2-in. Pipe or Panel Mounting, All SST
Code Hazardous Locations Certifications (Optional)
E5 FM Explosion proof Approval
I5 FM Non-incendive and Intrinsic Safety Approval
K5 FM and Nonincendive Explosion proof and Intrinsic Safety Approval
I1 BASEEFA/CENELEC Intrinsic Safety and Dust Certification
N1 BASEEFA/CENELEC Type N and Dust Certification
E8 KEMA/CENELEC Flameproof and Dust Certification
C6 Canadian Standards Association (CSA) Explosion proof and Intrinsic Safety Approval
K6 Combination of CSA and CENELEC Explosion proof and Intrinsic Safety Approval
KB Combination of FM and CSA Explosion Proof and Intrinsic Safety Approvals
K8 Combination of CENELEC Flameproof and Intrinsic Safety Approvals
E7 SAA Explosion proof Certification
Code Other Options
M5 LCD Meter for Aluminum Housing (Housing codes A, B, C, and D only)
M6 LCD Meter for SST Housing (Housing codes J, K, and L only)
Q4 Calibration Data Sheet
Q8 Material Traceability Certification per EN 10204 3.1BNOTE: This option is available for the Model 3051T process connection only.
T1 Transient Protection Terminal Block
P1 Hydrostatic Testing
P2 Cleaning for Special Service
P3 Cleaning for <1 PPM Chlorine/Fluorine
V5 External Ground Screw Assembly
TABLE 7. (continued) Model 3051T Gage and Absolute Pressure Transmitter
Rosemount Inc.
29
TABLE 8. Model 3051L Flange-Mounted Liquid Level Transmitter
Model Transmitter Type
3051L Flange-Mounted Liquid Level Transmitter
CodePressure RangesRange/Minimum Span
2 –250 to 250 inH2O/2.5 inH2O (–0,62 to 0,62 bar/6,2 mbar)
3 –1000 to 1000 inH2O/10 inH2O (–2,5 to 2,5 bar/25 mbar)
4 –8310 to 8310 inH2O/10 inH2O (–20,7 to 20,7 bar/25 mbar)
NOTE: For maximum accuracy, specify the calibration points that best accommodate your application using the Model 3051 with FOUNDATION fieldbusConfiguration Data Sheet 00806-0100-4774.
Code Output
F FOUNDATION fieldbus Protocol. Comes standard with Link Active Scheduler.
Code
HIGH PRESSURE SIDE
Diaphragm Size Material Extension Length
G0 2 in./DN 50 316L SST Flush Mount Only
H0 2 in./DN 50 Hastelloy Flush Mount Only
J0 2 in./DN 50 Tantalum Flush Mount Only
A0 3 in./DN 80 316L SST Flush Mount
A2 3 in./DN 80 316L SST 2 in./50 mm
A4 3 in./DN 80 316L SST 4 in./100 mm
A6 3 in./DN 80 316L SST 6 in./150 mm
B0 4 in./DN 100 316L SST Flush Mount
B2 4 in./DN 100 316L SST 2 in./50 mm
B4 4 in./DN 100 316L SST 4 in./100 mm
B6 4 in./DN 100 316L SST 6 in./150 mm
C0 3 in./DN 80 Hastelloy Flush Mount
C2 3 in./DN 80 Hastelloy 2 in./50 mm
C4 3 in./DN 80 Hastelloy 4 in./100 mm
C6 3 in./DN 80 Hastelloy 6 in./150 mm
D0 4 in./DN 100 Hastelloy Flush Mount
D2 4 in./DN 100 Hastelloy 2 in./50 mm
D4 4 in./DN 100 Hastelloy 4 in./100 mm
D6 4 in./DN 100 Hastelloy 6 in./150 mm
E0 3 in./DN 80 Tantalum Flush Mount Only
F0 4 in./DN 100 Tantalum Flush Mount Only
NOTEExtension diameters aresized to fit Schedule 80pipe. Consult factory forSchedule 40 pipe.
Model 3051 with FoundationTM fieldbus
30
Code
MOUNTING FLANGE
Size Rating Material
M 2 in. Class 150
ASME B 16.5 (ANSI)
CS
A 3 in. Class 150 CS
B 4 in. Class 150 CS
N 2 in. Class 300 CS
C 3 in. Class 300 CS
D 4 in. Class 300 CS
P 2 in. Class 600 CS
E 3 in. Class 600 CS
X 2 in. Class 150 SST
F 3 in. Class 150 SST
G 4 in. Class 150 SST
Y 2 in. Class 300 SST
H 3 in. Class 300 SST
J 4 in. Class 300 SST
Z 2 in. Class 600 SST
L 3 in. Class 600 SST
Q DN 50 PN 10–40 DIN
CS
R DN 80 PN 40 CS
S DN 100 PN 40 CS
V DN 100 PN 10/16 CS
K DN 50 PN 10–40 SST
T DN 80 PN 40 SST
U DN 100 PN 40 SST
W DN 100 PN 10/16 SST
Code Process Fill-High Pressure Side Temperature Limits
A Syltherm XLT –100 to 300 °F (–73 to 135 °C)
C D. C. Silicone 704 60 to 600 °F (15 to 315 °C)
D D. C. Silicone 200 –40 to 400 °F (–40 to 205 °C)
H Inert (Halocarbon) –50 to 350 °F (–45 to 177 °C)
G Glycerine and Water 0 to 200 °F (–17 to 93 °C)
N Neobee M-20 0 to 400 °F (–17 to 205 °C)
P Propylene Glycol and Water 0 to 200 °F (–17 to 93 °C)
Code
LOW PRESSURE SIDE
Configuration Flange Adapter Diaphragm Material Sensor Fill Fluid
21 Differential SST 316L SST Silicone
22 Differential SST Hastelloy C-276 Silicone
2A Differential SST 316L SST Inert (Halocarbon)
2B Differential SST Hastelloy C-276 Inert (Halocarbon)
31 Remote Seal SST 316L SST Silicone (Requires Option Code S1)
Code O-ring Material
A Glass-filled TFE
TABLE 8. (continued) Model 3051L Flange-Mounted Liquid Level Transmitter
Rosemount Inc.
31
Code Housing Material Conduit Entry Size
A Polyurethane-covered Aluminum ½–14 NPT
B Polyurethane-covered Aluminum M20 × 1.5 (CM20)
C Polyurethane-covered Aluminum PG 13.5
D Polyurethane-covered Aluminum G½
J SST ½–14 NPT
K SST M20 x 1.5 (CM20)
L SST PG 13.5
Code Plantweb Software Functionality
B01 Regulatory Control Suite (PID, INT, AR, SGCR, ISEL)
D01 Advanced Device Diagnostics–Plugged Impulse Line Diagnostic
Code Diaphragm Seal Assemblies (Optional)
S1 One Diaphragm Seal (requires low pressure side Option Code 31 capillary connection type)
Code Hazardous Locations Certifications (Optional)
E5 FM Explosion proof Approval
I5 FM Non-incendive and Intrinsic Safety Approval
K5 FM and Nonincendive Explosion proof and Intrinsic Safety Approval
I1 BASEEFA/CENELEC Intrinsic Safety and Dust Certification
N1 BASEEFA/CENELEC Type N and Dust Certification
E8 KEMA/CENELEC Flameproof and Dust Certification
C6 Canadian Standards Association (CSA) Explosion proof and Intrinsic Safety Approval
K6 Combination of CSA and CENELEC Explosion proof and Intrinsic Safety Approval
KB Combination of FM and CSA Explosion Proof and Intrinsic Safety Approvals
K8 Combination of CENELEC Flameproof and Intrinsic Safety Approvals
E7 SAA Explosion proof Certification
Code Bolt for Flange and Adapters (Optional)
L4 Austenitic 316 SST Bolts
L5 ASME B 16.5 (ANSI)/ASTM-A-193-B7M Bolts
Code Other Options
M5 LCD Meter for Aluminum Housing (Housing codes A, B, C, and D only)
M6 LCD Meter for SST Housing (Housing codes J, K, and L only)
Q4 Calibration Data Sheet
Q8 Material Traceability Certification per EN 10204 3.1B (This option is available for the diaphragm, upper housing, Coplanar flange,
adapter, sensor module housing/flushing connection, and extension.)
T1 Transient Protection Terminal Block
D8 Ceramic Ball Drain/Vents
V5 External Ground Screw Assembly
TABLE 8. (continued) Model 3051L Flange-Mounted Liquid Level Transmitter
Model 3051 with FoundationTM fieldbus
32
Flushing Connections Diaphragm Size
Code Ring Material Number Size 2 in. 3 in. 4 in.
F1 SST 1 ¼ • • •
F2 SST 2 ¼ • • •
F3 Hastelloy 1 ¼ • • •
F4 Hastelloy 2 ¼ • • •
F7 SST 1 ½ • • •
F8 SST 2 ½ • • •
F9 Hastelloy 1 ½ • • •
F0 Hastelloy 2 ½ • • •
NOTE: Option Code F3 is not available with Option Codes A0, B0, or G0. Option Code FC is not available with Option Code G0.NOTE: Option Code F4 is available for the diaphragm, upper housing, Coplanar flange, adapter, sensor module housing/flushing connection, and extension.
TABLE 8. (continued) Model 3051L Flange-Mounted Liquid Level Transmitter
Rosemount Inc.
33
TABLE 9. Model 3051H Pressure Transmitter for High- Temperature Processes
Model Transmitter Type (Select One) HD HG
3051HD Differential Pressure Transmitter for High-Temperature Processes • —
3051HG Gage Pressure Transmitter for High-Temperature Processes — •
Code
PRESSURE RANGES (RANGE/MIN. SPAN)
3051HD 3051HG
2 –250 to 250 inH2O/2.5 inH2O(–0,62 to 0,62 bar/6,2 mbar)
–250 to 250 inH2O/2.5 inH2O(–0,62 to 0,62 bar/6,2 mbar)
• •
3 –1000 to 1000 inH2O/10 inH2O(–2,5 to 2,5 bar/25 mbar)
–407 to 1000 inH2O/10in H2O(–1,01 to 2,5 bar/25 mbar)
• •
4 –300 to 300 inH2O/3 psi(–20,7 to 20,7 bar/0,2 bar)
–14.7 to 300 psi/3 psi(–1,01 to 20,7 bar/0,2 bar)
• •
5 –2000 to 2000 psi/20 psi(–138 to 138 bar/1,4 bar)
–14.7 to 2000 psig/20 psi(–1,01 to 138 bar/1,4 bar)
• •
NOTE: 3051HG lower range limit varies with atmospheric pressure.
Code Output HD HG
F FOUNDATION fieldbus Protocol. Comes standard with two AI Blocks and Link Active Scheduler. • •
Code
PROCESS CONNECTION
HD HGProcess Flange Material Drain/Vent Flange Adapters
2 SST SST SST • •
7 SST Hastelloy SST • •
NOTE: Process Connection Code 7 meets NACE material recommendations per MR 01-75.
Code Process Isolating Diaphragm HD HG
2 316L SST • •
3 Hastelloy C-276 (Meets NACE material recommendations per MR 01-75) • •
5 Tantalum • •
Code O-ring Material HD HG
A Glass-Filled TFE • •
Code Process Fill Fluid HD HG
D D.C. 200 Silicone • •
H Inert • •
N Neobee M-20 • •
Code Sensor Module Isolator Material HD HG
2 SST • •
Code Sensor Module Fill Fluid HD HG
1 Silicone • •
2 Inert (Halocarbon) • •
Model 3051 with FoundationTM fieldbus
34
Code Housing Material Conduit Entry Size HD HG
A Polyurethane-covered Aluminum ½–14 NPT • •
B Polyurethane-covered Aluminum M20 × 1.5 (CM20) • •
C Polyurethane-covered Aluminum PG 13.5 • •
D Polyurethane-covered Aluminum G½ • •
J SST ½–14 NPT • •
K SST M20 × 1.5 (CM20) • •
L SST PG 13.5 • •
Code Integral Mount Manifold Options HD HG
S4 Factory Assembly to Rosemount Primary Element (Diamond II+Annubar/Model 1195 Integral Orifice)NOTE: With the primary element installed, the maximum operating pressure will equal the lesser of either thetransmitter or the primary element. Option is available for factory assembly to range 1–4 transmitters only.
• —
Code Mounting Bracket Options HD HG
B5 Universal Mounting Bracket for 2-in. Pipe or Panel Mount, CS Bolts • •
B6 Universal Mounting Bracket for 2-in. Pipe or Panel Mount, SST Bolts • •
Code Hazardous Locations Certification Options HD HG
E5 FM Explosion proof Approval • •
I5 FM Non-incendive and Intrinsic Safety Approval • •
K5 FM and Nonincendive Explosion proof and Intrinsic Safety Approval • •
I1 BASEEFA/CENELEC Intrinsic Safety and Dust Certification • •
N1 BASEEFA/CENELEC Type N and Dust Certification • •
E8 KEMA/CENELEC Flameproof and Dust Certification • •
C6 Canadian Standards Association (CSA) Explosion proof and Intrinsic Safety Approval • •
K6 Combination of CSA and CENELEC Explosion proof and Intrinsic Safety Approval • •
KB Combination of FM and CSA Explosion Proof and Intrinsic Safety Approvals • •
K8 Combination of CENELEC Flameproof and Intrinsic Safety Approvals • •
Code Bolt for Flange and Adapter Options HD HG
L4 Austenitic 316 SST Bolts • •
Code Plantweb Software Functionality
B01 Regulatory Control Suite (PID, INT, AR, SGCR, ISEL)
D01 Advanced Device Diagnostics–Plugged Impulse Line Diagnostic
Code Meter Options HD HG
M5 LCD Meter for Aluminum Housing (Housing Codes A, B, C, and D only) • •
M6 LCD Meter for SST Housing (Housing Codes J, K, and L only) • •
Code Other Options HD HG
Q4 Calibration Data Sheet • •
T1 Transient Protection Terminal Block • •
P1 Hydrostatic Testing • •
P2 Cleaning for Special Service • •
P3 Cleaning for <1 PPM Chlorine/Fluorine • •
DF ¼–18 NPT Process Connections (No flange adapters) • •
D8 Ceramic Ball Drain/Vents • •
V5 External Ground Screw Assembly • •
Typical Model Number: 3051HG 2 A 2 2 A H 2 1 A B5
TABLE 9. Model 3051H Pressure Transmitter for High- Temperature Processes
Rosemount Inc.
35
TRANSMITTER CONFIGURATION
Standard ConfigurationUnless otherwise specified, transmitteris shipped as follows:
Engineering units:
Differential/Gage: inH2O (Range 0, 1, 2, and 3)psi (Range 4 and 5)
3051CA/3051T: psi (all ranges)Calibration Points: Specified model code option
(unless otherwise specified)Flange type: Specified model code optionFlange material: Specified model code optionO-ring material: Specified model code optionDrain/vent: Specified model code option
Tagging
Commissioning tagA temporary commissioning tag is attached to alltransmitters. The tag indicates the device ID andallows an area for writing the location.
Three customer tagging options are available:1. Standard SST hardware tag is wired to the
transmitter. Tag character height is 0.125 in.(3,18 mm), 56 characters maximum.
2. Tag may be permanently stamped ontransmitter nameplate upon request,56 characters maximum.
3. A software-only tag may be installed in thetransmitter, or the first 30 characters specifiedin steps 1 or 2 will be stored in the transmitter.
Optional Rosemount Models 305 and 306Integral Manifolds
Factory assembled to Coplanar Model 3051transmitters. Refer to PDS 00813-0100-4733 forordering information.
Optional Three-Valve Conventional ManifoldsThere are a wide variety of two, three, and fivevalve manifolds available. Please contact yourlocal Rosemount representative for additionalinformation.
Output Information
Output range points must be the same unitof measure. Available units of measure include:
Shipping Weights
TABLE 10. Transmitter Weights without Options
TABLE 11. Model 3051L Weights without Options
TABLE 12. Transmitter Option Weights
inH2O @ 68 °F mmH2O @ 68 °F Pa
inH2O @ 4 °C mmH20 @ 4 °C kPa
inHg @ 0 °C mmHg @ 0 °C torr @ 0 °C
ftH2O @ 68 °F psi atm
bar mbar g/cm2
kg/cm2
Transmitter Add Weight in lb (kg)
Model 3051C 5.8 (2,6)Model 3051L See Table 11Model 3051T 3.0 (1,4)Model 3051H 13.6 (6,2)
Flange Flush 2-in. Ext. 4-in. Ext. 6-in. Ext.
2-in., 150 12.0 (5,5) — — —3-in., 150 17.0 (7,7) 19.0 (8,6) 20.0 (9,1) 21.0 (9,5)4-in., 150 23.0(10,) 26.0 (11,8) 28.0 (12,7) 30.0 (13,6)2-in., 300 17.0 (7,7) — — —3-in., 300 22.0(10,2) 24.0 (10,9) 25.0 (11,4) 26.0 (11,8)4-in., 300 32.0(14,7) 35.0 (15,9) 37.0 (16,8) 39.0 (17,7)2-in., 600 14.7 (6,7) NA NA NA3-in., 600 24.7 (11,2) 26.7 (12,1) 27.7 (12,6) 28.7 (13,0)DN 50 / PN 40 13.3 (6,0) NA NA NADN 80 / PN 40 19.0 (8,6) 21.0 (9,5) 22.0 (10) 23.0 (10,4)DN 100 /PN 10/16
17.3 (7,9) 19.3 (8,8) 20.3 (9,3) 21.3 (9,7)
DN 100 / PN 40 22.7 (10,3) 24.7 (11,3) 25.7 (11,7) 26.7 (12,1)
Code OptionAdd
lb (kg)
J, K, L Stainless Steel Housing 3.1 (1,4)M5 LCD Meter for Aluminum Housing 0.5 (0,2)M6 LCD Meter for SST Housing 1.25(0,6)B4 SST Mounting Bracket for Coplanar
Flange1.0 (0,5)
B1, B2, B3 Mounting Bracket for Traditional Flange 2.3 (1,0)B7, B8, B9 Mounting Bracket for Traditional Flange 2.3 (1,0)
BA, BC SST Bracket for Traditional Flange 2.3 (1,0)B5, B6 Mounting Bracket for Model 3051H 2.9 (1,3)
H2 Traditional Flange 2.4 (1,1)H3 Traditional Flange 2.7 (1,2)H4 Traditional Flange 2.6 (1,2)H7 Traditional Flange 2.5 (1,1)
F1, G1, FC Level Flange—3 in., 150 10.8(4,9)F2, G2, FD Level Flange—3 in., 300 14.3(6,5)
FA Level Flange—2 in., 150 10.7(4,8)FB Level Flange—2 in., 300 14.0(6,3)
Rosemount Inc.8200 Market BoulevardChanhassen, MN 55317 USATel 1-800-999-9307Fax (952) 949-7001© 2000 Rosemount, Inc.
PR
INTED
INU.S. A.
Fisher-Rosemount LimitedHeath PlaceBognor RegisWest Sussex PO22 9SHEnglandTel 44 (1243) 863 121Fax 44 (1243) 867 5541
Fisher-RosemountSingapore Pte Ltd.1 Pandan CrescentSingapore 128461Tel (65) 777-8211Fax (65) 777-0947
www.rosemount.com
¢00813-0100-4774W¤00813-0100-4774, Rev. BA, 7/00