FCC ID: LW2-RMCT58 2051/3051

 

Reference Manual 00809-0100-4100, Rev. BA May 2017 Rosemount 3051 Wireless Pressure Transmitters Pressure, Level, and Flow Solutions with WirelessHART Protocol Reference Manual 00809-0100-4100, Rev. BA Contents Contents May 2017 Section 1: Introduction 1.1 Using this manual ..................................................................................... 1 1.2 Models covered ....................................................................................... 1 1.3 Product recycling/disposal ............................................................................. 1 Section 2: Configuration 2.1 Overview .............................................................................................. 3 2.2 Safety messages ...................................................................................... 3 2.3 Required bench top configuration ..................................................................... 4 2.3.1 Connection diagrams ........................................................................... 5 2.4 Basic setup ............................................................................................ 5 2.4.1 Set device tag ................................................................................. 5 2.4.2 Join device to network ....................................................................... 6 2.4.3 Configure update rate ........................................................................ 6 2.4.4 Set process variable units .................................................................... 6 2.4.5 Remove power module .......................................................................... 7 2.5 Configure for pressure .................................................................................. 7 2.5.1 Re-mapping device variables ................................................................... 7 2.5.2 Set range points ............................................................................... 8 2.5.3 Set transmitter percent of range (transfer function) ..................................... 8 2.6 Configure for level and flow .......................................................................... 9 2.6.1 Configuring scaled variable ..................................................................... 9 2.6.2 Re-mapping device variables ................................................................. 11 2.6.3 Set range points .............................................................................. 12 2.7 Review configuration data ......................................................................... 13 2.7.1 Review pressure information ................................................................. 13 2.7.2 Review device information ................................................................... 13 2.7.3 Review radio information ..................................................................... 14 2.7.4 Review operating parameters ................................................................ 14 2.8 Configuring the LCD display .......................................................................... 15 2.9 Detailed transmitter setup ......................................................................... 15 2.9.1 Configure process alerts .................................................................... 15 2.9.2 Damping .................................................................................... 16 2.9.3 Write protect ................................................................................. 16 2.10 Diagnostics and service .............................................................................. 17 2.10.1 Master reset.................................................................................. 17 Contents 3 Contents May 2017 Reference Manual 00809-0100-4100, Rev. BA 2.10.2 Join status ...................................................................................... 17 2.10.3 Number of available neighbors ............................................................ 18 2.11 Advanced functions for HART Protocol ............................................................ 18 2.11.1 Saving, recalling, and cloning configuration data ....................................... 18 Section 3: Installation 3.1 Overview ............................................................................................. 21 3.2 Safety messages ..................................................................................... 21 3.3 Installation considerations ........................................................................... 22 3.3.1 Wireless considerations. ..................................................................... 22 3.3.2 Mechanical considerations ................................................................... 23 3.3.3 Environmental considerations ................................................................ 23 3.3.4 Draft range considerations .................................................................... 24 3.4 Installation procedures ............................................................................... 25 3.4.1 Mounting the transmitter ..................................................................... 25 3.4.2 Impulse piping .................................................................................. 31 3.5.3 Process connections ........................................................................... 33 3.5.4 Inline process connection ................................................................... 34 3.5.5 Power module installation .................................................................... 35 3.5.6 Installing the LCD display ..................................................................... 36 3.6 Rosemount 304, 305, and 306 Integral Manifolds ................................................. 37 3.6.1 Rosemount 305 Integral Manifold installation procedure ............................... 37 3.6.2 Rosemount 306 Integral Manifold installation procedure ............................... 38 3.6.3 Rosemount 304 Conventional Manifold installation procedure ......................... 39 3.6.4 Manifold operation ............................................................................ 39 Section 4: Commissioning 4.1 Overview ............................................................................................. 47 4.2 Safety messages ..................................................................................... 47 4.3 Viewing network status ............................................................................. 48 4.4 Verifying operation ................................................................................. 48 4.4.1 Using the Field Communicator ............................................................. 50 4.5 Configuring transmitter security .................................................................... 51 Section 5: Operation and Maintenance 5.1 Overview ............................................................................................. 53 5.2 Safety messages ..................................................................................... 53 5.3 Calibration overview .................................................................................. 54 iv Contents Reference Manual 00809-0100-4100, Rev. BA Contents May 2017 5.3.1 Determining necessary sensor trims. ..................................................... 55 5.3.2 Determining calibration frequency ........................................................ 56 5.3.3 Compensating for span line pressure effects (range 4 and 5) ............................ 57 5.4 Trim the pressure signal .............................................................................. 58 5.4.1 Sensor trim overview .......................................................................... 58 5.4.2 Sensor trim ..................................................................................... 59 5.4.3 Recall factory trimsensor trim ............................................................. 60 5.4.4 Line pressure effect (range 2 and 3) ....................................................... 61 5.4.5 Compensating for line pressure (range 4 and 5). ........................................ 61 5.5 LCD display screen messages ...................................................................... 63 5.5.1 Startup screen sequence.................................................................... 63 5.5.2 Diagnostic button screen sequence ....................................................... 65 5.5.3 Network diagnostic status screens ......................................................... 66 5.5.4 Device Diagnostic screens .................................................................. 68 Section 6: Troubleshooting 6.1 Overview ............................................................................................. 73 6.2 Safety messages ..................................................................................... 73 6.3 Removing from service ............................................................................. 76 6.4 Service support ...................................................................................... 77 Appendix A: Specifications and Reference Data A.1 Performance specifications .......................................................................... 79 A.1.1 Conformance to specification (3s [Sigma]) ............................................... 79 A.1.2 Digital output ................................................................................. 79 A.1.3 Reference accuracy ......................................................................... 79 A.1.4 Flow performance - flow reference accuracy. .......................................... 80 A.1.5 Total performance ........................................................................... 80 A.1.6 Long term stability ............................................................................. 80 A.1.7 Line pressure effect per 1000 psi (6.9 MPa) ............................................... 81 A.1.8 Ambient Temperature Effect per 50 F (28 C) .......................................... 81 A.1.9 Mounting position effects ................................................................... 81 A.1.10 .................................................................................................................................... V ibration effect ............................................................................... 81 A.1.11 .................................................................................................................................... E lectromagnetic compatibility (EMC) ...................................................... 81 A.2 Functional specifications........................................................................... 82 A.2.1 Service ........................................................................................... 82 A.2.2 Range and sensor limits ....................................................................... 82 Contents 5 Contents May 2017 Reference Manual 00809-0100-4100, Rev. BA A.2.3 Zero and span adjustment requirements ................................................... 83 A.3 Wireless self-organizing networks .................................................................. 83 A.3.1 Output ........................................................................................ 83 A.3.2 Wireless radio (internal antenna, WP option) .............................................. 83 A.3.3 Local display .................................................................................... 83 A.3.4 Digital zero trim .............................................................................. 83 A.3.5 Update rate ................................................................................... 83 A.3.6 Wireless sensor module for in-line transmitters ........................................... 83 A.3.7 Power module ................................................................................ 83 A.3.8 Overpressure limits ............................................................................ 83 A.3.9 Static pressure limit ........................................................................... 84 A.3.10 Burst pressure limits .......................................................................... 84 A.3.11 Temperature limits ........................................................................... 84 A.3.12 Humidity limits ................................................................................ 84 A.3.13 Volumetric displacement .................................................................... 84 A.3.14 Damping .................................................................................. 85 A.4 Physical specifications ................................................................................ 85 A.4.1 Electrical connections ........................................................................ 85 A.4.2 Process connections ........................................................................... 85 A.4.3 Process-wetted parts ........................................................................ 85 A.4.4 Rosemount 3051L process wetted parts .................................................... 85 A.4.5 Non-wetted parts .............................................................................. 85 A.4.6 Shipping weights for Rosemount 3051 Wireless ........................................... 86 A.5 Dimensional drawings ................................................................................ 88 A.5.1 Ordering information .......................................................................... 90 A.5.2 Rosemount 3051C Coplanar Pressure Transmitter ........................................ 90 A.5.3 Rosemount 3051T In-Line Pressure Transmitter ........................................... 95 A.5.4 Rosemount 3051CF Flowmeters ............................................................ 98 A.5.5 Rosemount 3051L Level Transmitter ....................................................... 114 A.6 Options .............................................................................................. 119 A.6.1 Standard configuration ..................................................................... 119 A.6.2 Custom configuration ...................................................................... 119 A.6.3 Tagging (3 options available) ................................................................ 119 A.6.4 Optional Rosemount 304, 305, or 306 Integral Manifolds ............................... 119 A.6.5 Other seals ................................................................................... 119 A.6.6 Output information .......................................................................... 119 A.6.7 Display and interface options .............................................................. 119 A.6.8 Configuration buttons ...................................................................... 119 iv Contents Reference Manual 00809-0100-4100, Rev. BA Contents May 2017 A.6.9 Bolts for flanges and adapters ............................................................. 119 A.7 Spare parts .......................................................................................... 121 Appendix B: Product Certifications B.1 European Directive Information .................................................................. 123 B.2 Telecommunication compliance ................................................................... 123 B.3 FCC and IC ........................................................................................... 123 B.4 Ordinary Location Certification ................................................................... 123 B.5 Installing in North America .......................................................................... 123 B.6 USA ................................................................................................ 123 B.7 Canada .................................................................................................. 124 B.8 Europe ................................................................................................ 124 B.9 International ........................................................................................... 124 B.10 Brazil ................................................................................................... 124 B.11 China ................................................................................................... 124 B.12 Japan ............................................................................................... 124 B.13 EAC - Belarus, Kazakhstan, Russia ................................................................. 124 B.14 Korea ............................................................................................... 124 Appendix C: Network Design Best Practices C.1 Effective range ..................................................................................... 125 Appendix D: Field Communicator Menu Trees and Fast Keys D.1 Field Communicator menu tree .................................................................. 127 D.2 Field Communicator Fast Keys .................................................................... 131 Contents 7 Contents May 2017 Reference Manual 00809-0100-4100, Rev. BA viii vi Contents Contents Reference Manual 00809-0100-4100, Rev. BA Title Page May 2017 TitlePage Rosemount 3051 Wireless Pressure, Flow, and Level Solutions NOTICE Read this manual before working with the product. For personal and system safety, and for optimum product performance, make sure you thoroughly understand the contents before installing, using, or maintaining this product. For technical assistance, contacts are listed below:

Customer Central Technical support, quoting, and order-related questions. United States - 1-800-999-9307 (7:00 am to 7:00 pm CST) Asia Pacific- 65 777 8211 Europe/Middle East/Africa - 49 (8153) 9390 North American Response Center Equipment service needs. 1-800-654-7768 (24 hoursincludes Canada) Outside of these areas, contact your local Emerson representative. Failure to follow these installation guidelines could result in death or serious injury. Make sure only qualified personnel perform the installation. Explosions could result in death or serious injury. Installation of this transmitter in an explosive environment must be in accordance with the appropriate local, national, and international standards, codes, and practices. Review the approvals section of this manual for any restrictions associated with a safe installation. Before connecting a Field Communicator in an explosive atmosphere, make sure the instruments are installed in accordance with intrinsically safe or non-incendive field wiring practices. Verify the operating atmosphere of the transmitter is consistent with the appropriate hazardous locations certifications. Process leaks could result in death or serious injury. Install and tighten process connectors before applying pressure. Electrical shock could cause death or serious injury. Avoid contact with the leads and terminals. High voltage that may be present on leads can cause electrical shock. ix Title Page May 2017 Reference Manual 00809-0100-4100, Rev. BA This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. This device must be installed to ensure a minimum antenna separation distance of 20 cm (8-in.) from all persons. Replacement equipment or spare parts not approved by Emerson for use as spare parts could reduce the pressure retaining capabilities of the transmitter and may render the instrument dangerous. Use only bolts supplied or sold by Emerson as spare parts. Improper assembly of manifolds to traditional flange can damage sensor module. For safe assembly of manifold to traditional flange, bolts must break back plane of flange web (i.e., bolt hole) but must not contact sensor module housing. The power module with the wireless unit contains a primary lithium-thionyl chloride battery. Each power module contains approximately 5.0 grams of lithium. Under normal conditions, the power module materials are self-contained and are not reactive as long as the batteries and the pack integrity are maintained. Care should be taken to prevent thermal, electrical or mechanical damage. Contacts should be protected to prevent premature discharge. The products described in this document are NOT designed for nuclear-qualified applications. Using non-nuclear qualified products in applications that require nuclear-qualified hardware or products may cause inaccurate readings. For information on Emerson nuclear-qualified products, contact your local Emerson Sales Representative. x TitlePage Reference Manual 00809-0100-4100, Rev. BA NOTICE Title Page May 2017 The Rosemount 3051 Wireless and all other wireless devices should be installed only after the Smart Wireless Gateway has been installed and is functioning properly. Wireless devices should also be powered up in order of proximity from the Smart Wireless Gateway, beginning with the closest. This will result in a simpler and faster network installation. Shipping considerations for wireless products (lithium batteries: green power module, model number 701PGNKF). The unit was shipped to you without the power module installed. Remove the power module from the unit prior to shipping. Each power module contains one D size primary lithium-thionyl chloride battery. Primary lithium batteries are regulated in transportation by the U.S. Department of Transportation, and are also covered by International Air Transport Association (IATA), International Civil Aviation Organization

(ICAO), and ARD (European Ground Transportation of Dangerous Goods). It is the responsibility of the shipper to ensure compliance with these or any other local requirements. Consult current regulations and requirements before shipping. The power module with the wireless unit contains one D size primary lithium-thionyl chloride battery

(green power module, model number 701PGNKF). Each battery contains approximately 5.0 grams of lithium. Under normal conditions, the battery materials are self-contained and are not reactive as long as the battery and the pack integrity are maintained. Care should be taken to prevent thermal, electrical or mechanical damage. Contacts should be protected to prevent premature discharge. Battery hazards remain when cells are discharged. Power modules should be stored in a clean and dry area. For maximum battery life, storage temperature should not exceed 30 C (86 F). The power module may be replaced in a hazardous area. The power module has surface resistivity greater than one gigaohm and must be properly installed in the wireless device enclosure. Care must be taken during transportation to and from the point of installation to prevent electrostatic charge build-up. Using the Rosemount 3051 Wireless in a manner other than what is specified by the manufacturer may impair the protection provided by the equipment. TitlePage xi Title Page May 2017 Reference Manual 00809-0100-4100, Rev. BA xii TitlePage Section 1 1.1 Reference Manual 00809-0100-4100, Rev. BA Introduction May 2017 Introduction Using this manual The sections in this manual provide information on installing, operating, and maintaining the Rosemount 3051 Wireless Pressure Transmitter with WirelessHART protocol. The sections are organized as follows:

Section 2: Configuration provides instruction on commissioning and operating Rosemount 3051 Wireless. Information on software functions, configuration parameters, and online variables is also included. Section 3: Installation contains mechanical and electrical installation instructions. Section 4: Commissioning contains techniques for properly commissioning the device. Section 5: Operation and Maintenance contains operation and maintenance techniques. Section 6: Troubleshooting provides troubleshooting techniques for the most common operating problems. Appendix A: Specifications and Reference Data supplies reference and specification data, as well as ordering information. Appendix B: Product Certifications contains approval information. Appendix C: Network Design Best Practices provides full menu trees and abbreviated Fast Key sequences for commissioning tasks. Appendix D: Field Communicator Menu Trees and Fast Keys provides information on how to optimize network reliability and performance. 1.2 Models covered The following transmitters are covered by this manual:

Rosemount 3051C Coplanar Pressure Transmitter Measures differential and gage pressure up to 2000 psi (137.9 bar) Measures absolute pressure up to 4000 psi (275.8 bar) Rosemount 3051T In-line Pressure Transmitter Measures gage/absolute pressure up to 10000 psi (689.5 bar) Rosemount 3051L Level Transmitter Measures level and specific gravity up to 300 psi (20.7 bar) Rosemount 3051CF Flowmeters Measures flow in line sizes from 1/2-in. (15 mm) to 96-in. (2400 mm) 1.3 Introduction Product recycling/disposal Recycling of equipment and packaging should be taken into consideration and disposed of in accordance with local and national legislation/regulations. 1 Introduction May 2017 Reference Manual 00809-0100-4100, Rev. BA 2 Introduction Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 Section 2 Configuration Overview . page 3 Safety messages . page 3 Required bench top configuration . page 4 Basic setup . page 5 Configure for pressure . page 7 Configure for level and flow . page 9 Review configuration data . page 13 Configuring the LCD display . page 15 Detailed transmitter setup . page 15 Diagnostics and service . page 17 Advanced functions for HART Protocol . page 18 Overview This section contains information on commissioning and tasks that should be performed on the bench prior to installation. Field Communicator and AMS Device Manager instructions are given to perform configuration functions. For convenience, Field Communicator Fast Key sequences are labeled Fast Keys for each software function below the appropriate headings. Full Field Communicator menu trees and Fast Key sequences are available in Appendix D: Field Communicator Menu Trees and Fast Keys. Safety messages Procedures and instructions in this section may require special precautions to ensure the safety of the personnel performing the operations. Information that raises potential safety issues is indicated by a warning symbol ( ). Refer to the following safety messages before performing an operation preceded by this symbol. Failure to follow these installation guidelines could result in death or serious injury. Make sure only qualified personnel perform the installation. Explosions could result in death or serious injury. Installation of this transmitter in an explosive environment must be in accordance with the appropriate local, national, and international standards, codes, and practices. Review the approvals section of the manual for any restrictions associated with a safe installation. Before connecting a Field Communicator in an explosive atmosphere, make sure the instruments are installed in accordance with intrinsically safe or non-incendive field wiring practices. Verify the operating atmosphere of the transmitter is consistent with the appropriate hazardous locations certifications. 3 2.1 2.2 Configuration Configuration May 2017 2.3 Reference Manual 00809-0100-4100, Rev BA Process leaks could result in death or serious injury. Install and tighten process connectors before applying pressure. Electrical shock could cause death or serious injury. Avoid contact with the leads and terminals. High voltage that may be present on leads can cause electrical shock. This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. This device must be installed to ensure a minimum antenna separation distance of 20 cm (8-in.) from all persons. Replacement equipment or spare parts not approved by Emerson for use as spare parts could reduce the pressure retaining capabilities of the transmitter and may render the instrument dangerous. Use only bolts supplied or sold by Emerson as spare parts. Improper assembly of manifolds to traditional flange can damage sensor module. For safe assembly of manifold to traditional flange, bolts must break back plane of flange web (i.e., bolt hole) but must not contact sensor module housing. The power module with the wireless unit contains a primary lithium-thionyl chloride battery. Each power module contains approximately 5.0 grams of lithium. Under normal conditions, the power module materials are self-contained and are not reactive as long as the batteries and the pack integrity are maintained. Care should be taken to prevent thermal, electrical or mechanical damage. Contacts should be protected to prevent premature discharge. Required bench top configuration Bench top configuration requires a Field Communicator, AMS Device Manager, or any WirelessHART Communicator. Connect the Field Communicator leads to the terminals labeled COMM on the Power Module. See Figure 2-1 on page 5. Bench top configuration consists of testing the transmitter and verifying transmitter configuration data. Rosemount 3051 Wireless Transmitters must be configured before installation. Configuring the transmitter on the bench before installation using a Field Communicator, AMS Device Manager, or any WirelessHART Communicator ensures that all network settings are working correctly. When using a Field Communicator, any configuration changes made must be sent to the transmitter by using the Send key (F2). AMS Device Manager configuration changes are implemented when the Apply button is selected. AMS Device Manager AMS Device Manager is capable of connecting to devices either directly, using a HART modem, or wirelessly via the Smart Wireless Gateway. When configuring the device, double click the device icon or right click and select Configure. 4 Configuration Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 2.3.1 Connection diagrams Bench hook-up Connect the bench equipment as shown in Figure 2-1 on page 5, and turn on the Field Communicator by pressing the ON/OFF key or log into AMS Device Manager. The Field Communicator or AMS Device Manager will search for a HART-compatible device and indicate when the connection is made. If the Field Communicator or AMS Device Manager fail to connect, it indicates that no device was found. If this occurs, refer to Section 6: Troubleshooting. Field hook-up Figure 2-1 on page 5 illustrates the wiring for a field hook-up with a Field Communicator or AMS Device Manager. The Field Communicator or AMS Device Manager may be connected at COMM on the transmitter power module. Figure 2-1. Field Communicator Connection For HART Communication, a Rosemount 3051 WirelessHART DD is required. 2.4 2.4.1 Basic setup Set device tag Fast Keys 2, 1, 1, 1 The tag is used to identify the device. You can use an 832 character tag. 1. From the Homescreen, select 2: Configure 2. Select 1: Guided Setup 3. Select 1: Basic Setup 4. Select 1: Tagging 5 Configuration Configuration May 2017 2.4.2 Join device to network Fast Keys 2, 1, 3 Reference Manual 00809-0100-4100, Rev BA 2.4.3 2.4.4 In order to communicate with the Smart Wireless Gateway, and ultimately the host system, the transmitter must be configured to communicate over the wireless network. This step is the wireless equivalent of connecting wires from a transmitter to the host system. 1. From the Homescreen, select 2: Configure. 2. Select 1: Guided Setup. 3. Select 3: Join Device to Network. Using a Field Communicator or AMS Device Manager, enter the Network ID and Join Key so that they match the Network ID and Join Key of the Smart Wireless Gateway and other devices in the network. If the Network ID and Join Key are not identical to those set in the Gateway, the transmitter will not communicate with the network. The Network ID and Join Key may be obtained from the Smart Wireless Gateway on the Setup>Network>Settingspage on the web server. Configure update rate Fast Keys 2, 1, 4 The update rate is the frequency at which a new measurement is taken and transmitted over the wireless network. This by default is one minute. This may be changed at commissioning, or at any time via AMS Device Manager. The update rate is user selectable from one second to 60 minutes. 1. From the Homescreen, select 2: Configure. 2. Select 1: Guided Setup. 3. Select 4: Configure Update Rate. Set process variable units Fast Keys 2, 2, 2, 4 The PV Unit command sets the process variable units to allow you to monitor your process using the appropriate units of measure. To select a unit of measure for the PV:

1. From the Homescreen, select 2: Configure. 2. Select 2: Manual Setup. 3. Select 2: Pressure. 4. Select 1: Unit to select from the following engineering units:

inH2O at 4 C inH2O at 60 F inH2O at 68 F ftH2O at 4 C ftH2O at 60 F ftH2O at 68 F mmH2O at 4 C mmH2O at 68 F cmH2O at 4 C mH2O at 4 C inHg at 0 C mmHg at 0 C cmHg at 0 C mHg at 0 C mmHg Psi Atm Torr Pascals hectoPascals Kilopascals Mpa Bar Mbar g/cm2 kg/cm2 kg/m2 6 Configuration Configuration Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 2.4.5 2.5 2.5.1 Remove power module After the sensor and network have been configured, remove the power module and replace the housing cover. The power module should be inserted only when the device is ready to be commissioned. Use caution when handling the power module. The Power Module may be damaged if dropped from heights in excess of 6.10 m (20 ft). Configure for pressure Re-mapping device variables The re-mapping function allows the transmitter primary, secondary, tertiary, and quaternary variables

(PV, SV, TV, and QV) to be configured in one of two configurations. the user may select either the option of classic mapping or scaled variable mapping, see Table 2-1 for what is mapped to each variable. All variables can be remapped with a Field Communicator or AMS Device Manager. Table 2-1. Variable Mapping Variable Classic mapping Scaled variable mapping PV SV TV QV Pressure Sensor temperature Electronics temperature Supply voltage Scaled variable Pressure Sensor temperature Supply voltage Note The variable assigned to the primary variable drives the output. this value can be selected as pressure or scaled variable. Re-mapping using a Field Communicator From the HOMEscreen, enter the Fast Key sequence. Fast Keys 2, 1, 1, 4 Re-mapping using AMS Device Manager Right click on the device and select Configure. 1. Select Manual Setup and click on the HARTtab. 2. Assign primary, secondary, tertiary and quaternary variables under VariableMapping. 3. Select Send. 4. Carefully read the warning and select Yes if it is safe to apply the changes. 7 Configuration May 2017 2.5.2 Set range points Reference Manual 00809-0100-4100, Rev BA 2.5.3 From the HOMEscreen, enter the Fast Key sequence. Fast Keys 2, 1, 1, 5 The range values command sets the lower and upper range values used for the percent of range measurement. Note Transmitters are shipped from Rosemount Inc. fully calibrated per request or by the factory default of full scale (span = upper range limit). 1. From the Homescreen, select 2: Configure 2. Select 1: Guided Setup 3. Select 1: Basic Setup 4. Select 5: Range Values Set transmitter percent of range (transfer function) The Rosemount 3051 Wireless Transmitter has two transfer functions for pressure applications: Linear and Square Root. As shown in Figure 2-2 on page 9, activating the square root options the transmitter analog output proportional to flow. However, for DP Flow and DP Level applications it is recommended to use scaled variable. Refer to Diagnostics and service on page 17 for setup instructions. From 0 to 0.6 percent of the ranged pressure input, the slope of the curve is unity (y = x). This allows accurate calibration near zero. Greater slopes would cause large changes in output (for small changes at input). From 0.6 percent to 0.8 percent, curve slope equals 42 (y = 42x) to achieve continuous transition from linear to square root at the transition point. Setting transmitter output with a Field Communicator From the HOMEscreen, enter the Fast Key sequence. Fast Keys 2, 2, 2, 6 8 Configuration Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 Setting transmitter output with AMS Device Manager Right click on the device and select Configure. 1. Select Manual Setup and select output type from TransferFunctionand select Send. 2. Carefully read the warning and select Yes if it is safe to apply the changes. Figure 2-2. Square Root Output Transition Point Full scale flow (%) Sq.rootcurve Transition point Slope=42 Slope=1 Sq. root curve Transition point Linear section 2.6 2.6.1 Configure for level and flow Configuring scaled variable The scaled variable configuration allows the user to create a relationship/conversion between the pressure units and user-defined/custom units. There are two use cases for scaled variable. The first use case is to allow custom units to be displayed on the transmitter's LCD display. The second use case is to allow custom units to drive the transmitter's PV output. If the user desires custom units to drive the PV output, Scaled Variable must be re-mapped as the primary variable. Refer to Re-mapping device variables on page 11. The Scaled Variable configuration defines the following items:

Scaled variable units - custom units to be displayed. Scaled data options - defines the transfer function for the application. Linear Square root Scaled variable value position 1 - custom unit equivalent to the lower known value point. Pressure value position 1 - lower known value point with consideration of linear offset. Pressure value position 2 - upper known value point. Scaled variable value position 2 - custom unit equivalent to the upper known value point. Linear offset - the value required to zero out pressures affecting the desired pressure reading. Configuration 9 Configuration May 2017 Reference Manual 00809-0100-4100, Rev BA Low flow cutoff - point at which output is driven to zero to prevent problems caused by process noise. It is highly recommended to use the low flow cutoff function in order to have a stable output and avoid problems due to process noise at a low flow or no flow condition. A low flow cutoff value that is practical for the flow element in the application should be entered. Configuring Scaled Variable using a Field Communicator From the HOMEscreen, enter the Fast Key sequence. Device Dashboard Fast Keys 2, 1, 7, 1 1. Follow the screen prompts to configure Scaled Variable. a. When configuring for level, select Linear under SelectScaleddataoptions. b. When configuring for flow, select Square Root under SelectScaleddataoptions. Configuring Scaled Variable using AMS Device Manager 1. Right click on the device and, select Configure. 2. Select the Scaled Variable tab and select the Scaled Variable button. 3. Follow screen prompts to configure Scaled Variable a. When configuring for level applications, select Linear under SelectScaleddataoptions. b. When configuring for flow applications, select Square Root under SelectScaleddataoptions. DP Level Example Figure 2-3. Example Tank 230-in. 200-in. 0.94 sg H L 12-in. 10 Configuration Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 A differential transmitter is used in a level application. Once installed on an empty tank and taps vented, the process variable reading is 209.4 inH2O. The process variable reading is the head pressure created by fill fluid in the capillary. Based on Table 2-2 on page 11, the scaled variable configuration would be as follows:

Table 2-2. Scaled Variable Configuration for Tank Application Scaled Variable units Scaled data options Pressure value position 1 Scaled Variable position 1 Pressure value position 2 Scaled Variable position 2 inch linear 0 inH2O 12-in. 188 inH2O 212-in. 209.4 inH2O Linear offset DP Flow example A differential pressure transmitter is used in conjunction with an orifice plate in a flow application where the differential pressure at full scale flow is 125 inH2O. In this particular application, the flow rate at full scale flow is 20,000 gallons of water per hour. It is highly recommended to use the low flow cutoff function in order to have a stable output and avoid problems due to process noise at a low flow or no flow condition. A low flow cutoff value that is practical for the flow element in the application should be entered. In this particular example, the low flow cutoff value is 1000 gallons of water per hour. Based on this information, the scaled variable configuration would be as follows:

Table 2-3. Scaled Variable Configuration for Flow Application Scaled variable units:

Scaled data options:

Pressure value position 2:

Scaled variable position 2:

Low flow cutoff:

gal/h square root 125 inH2O 20,000 gal/h 1000 gal/h 2.6.2 Note Pressure value position 1 and Scaled Variable position 1 are always set to zero for a flow application. No configuration of these values is required. Re-mapping device variables The re-mapping function allows the transmitter primary, secondary, tertiary, and quaternary variables

(PV, SV, TV, and QV) to be configured in one of two configurations. The user may select either the option of classic mapping or scaled variable mapping, see Table 2-4 for what is mapped to each variable. All variables can be remapped with a Field Communicator or AMS Device Manager. Configuration 11 Configuration May 2017 Reference Manual 00809-0100-4100, Rev BA Table 2-4. Variable Mapping Variable Classic mapping Scaled variable mapping PV SV TV QV Pressure Sensor temperature Electronics temperature Supply voltage Scaled variable Pressure Sensor temperature Supply voltage Note The variable assigned to the primary variable drives the output. This value can be selected as pressure or scaled variable. Re-mapping using a Field Communicator From the HOMEscreen, enter the Fast Key sequence 2, 1, 1, 4 Devise Dashboard Fast Keys Re-mapping using AMS Device Manager 1. Right click on the device and select Configure. 2. Select Manual Setup and select on the HARTtab. 3. Assign primary, secondary, tertiary and quaternary variables under VariableMapping. 4. Select Send. 5. Carefully read the warning and select Yes if it is safe to apply the changes. Set range points From the HOMEscreen, enter the Fast Key sequence 2.6.3 Devise Dashboard Fast Keys 2, 1, 1, 5 The Range Values command sets the lower and upper range values used for the percent of range measurement. Note Transmitters are shipped from Emerson fully calibrated per request or by the factory default of full scale

(span = upper range limit). 1. From the Homescreen, select 2: Configure 2. Select 1: Guided Setup 3. Select 1: Basic Setup 4. Select 5: Range Values 12 Configuration Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 2.7 Review configuration data The following is a list of factory default configurations that can be viewed by using the Field Communicator or AMS Device Manager. Follow the steps below to review the transmitter configuration information. Note Information and procedures in this section that make use of Field Communicator Fast Key sequences and AMS Device Manager assume that the transmitter and communication equipment are connected, powered, and operating correctly. 2.7.1 Review pressure information Devise Dashboard Fast Keys 2, 2, 2 To view pressure information:

1. From the Homescreen, select 2: Configure. 2. Select 2: Manual Setup. 3. Select 2: Pressure. 4. Select from the corresponding number to view each field:

1 2 3 4 5 6 Set range points Set range points manually Sensor limits Units Damping Transfer function 2.7.2 Review device information Devise Dashboard Fast Keys 2, 2, 8 To view device information:

1. From the Homescreen, select 2: Configure. 2. Select 2: Manual Setup. 3. Select 8: Device Information. 4. Select from the corresponding number to view each field:

1 2 3 4 5 Identification Model Numbers Flange Information Remote seal Information Serial number Configuration 13 Configuration May 2017 Reference Manual 00809-0100-4100, Rev BA 2.7.3 Review radio information Devise Dashboard Fast Keys 1, 9, 3 To view radio information:

1. From the Homescreen, select 1: Overview. 2. Select 9: Device Information. 3. Select 3: Radio. 4. Select from the corresponding number to view each field 1 2 3 4 5 6 7 Manufacturer Device type Device revision Software revision Hardware revision Transmit power level Minimum update rate 2.7.4 Review operating parameters Devise Dashboard Fast Keys 3, 2 The pressure output value in both engineering units and percent of range will reflect the applied pressure even when the applied pressure is outside of the configured range as long as the applied pressure is between the upper and lower range limit of the transmitter. For example, if a Range 2 3051T

(LRL = 0 psi, URL = 150 psi) is ranged from 0 to 100 psi, an applied pressure of 150 psi will return a percent of range output of 150% and an engineering output of 150 psi. To view the OperatingParametersmenu:

1. From the Homescreen, select 3: Service Tools. 2. Select 2: Variables. The Operating Parameters menu displays the following information pertaining to the device:

1. Process Pressure Percent of range Last update time Last update time Enter Fast Update Mode 2. Device Sensor temperature Supply voltage 14 Configuration Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 2.8 Configuring the LCD display The LCD display configuration command allows customization of the LCD display to suit application requirements. The LCD display will alternate between the selected items. Pressure units

% of range Scaled variable Sensor temperature Supply voltage In the following instructions, the LCD display can also be configured to display configuration information during the device startup. Select Review Parameters at Startupto enable or disable this functionality. Configuring LCD display with a Field Communicator From the HOMEscreen, enter the Fast Key sequence 2, 2, 4 Device Dashboard Fast Keys Configuring LCD display with AMS Device Manager Right click on the device and select Configure. 1. Click Manual Setup, select the Displaytab. 2. Select desired display options and select Send. 2.9 2.9.1 Detailed transmitter setup Configure process alerts Devise Dashboard Fast Keys 2, 1, 6 Process alerts allow the transmitter to indicate when the configured data point is exceeded. Process alerts can be set for pressure, temperature, or both. An alert will be displayed on a Field Communicator, AMS Device Manager status screen or in the error section of the LCD display. The alert will reset once the value returns within range. Note HI alert value must be higher than the LO alert value. Both alert values must be within the pressure or temperature sensor limits. Example 1: Rising Alert t n e m e r u s a e M f o s t i n U Alert OFF Alert ON Alert OFF Deadband Time Alert Set Point Assigned Value Configuration 15 Configuration May 2017 Example 2: Falling Alert Reference Manual 00809-0100-4100, Rev BA t n e m e r u s a e M f o s t i n U Alert OFF Alert ON Alert OFF Assigned Value Deadband Time Alert Set Point 2.9.2 2.9.3 To configure the process alerts, perform the following procedure:

1. From the Homescreen, select 2: Configure. 2. Select 1: Guided Setup. 3. Select 6: Configure Process Alerts and follow the on-screen instructions to complete configure of process alarms. Damping The damping command introduces a delay in processing which increases the response time of the transmitter; smoothing variations in output readings caused by rapid input changes. In the Rosemount 3051 Wireless, damping only takes effect when the device is placed in high power refresh mode and during calibration. In normal power mode, the effective damping is zero. Note that when the device is in high power refresh mode, battery power will be depleted rapidly. Determine the appropriate damp setting based on the necessary response time, signal stability, and other requirements of the loop dynamics of your system. The damping value of your device is user selectable from zero to 60 seconds. Damping with a Field Communicator From the HOMEscreen, enter the Fast Key sequence. Device Dashboard Fast Keys 2, 2, 2, 5 Enter desired damping value and select Apply. Damping with AMS Device Manager 1. Right click on the device and select Configure. 2. Select Manual Setup. 3. Within the PressureSetupbox, enter desired damping value and click Send. 4. Carefully read the warning and select Yes if it is safe to apply the changes. Write protect The Rosemount 3051 Wireless has a software write protect security feature. Enabling write protect with a Field Communicator From the HOMEscreen, enter the Fast Key sequence. Device Dashboard Fast Keys 2, 2, 6, 3 Select Write Protect to enable. 16 Configuration Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 Enabling write protect with AMS Device Manager 1. Right click on device and select Configure. 2. Select Manual Setup. 3. Select the tab labeled Device Information. 4. Select Write Protect to enable this feature. 2.10 2.10.1 Diagnostics and service Diagnostics and service functions listed below are primarily for use after field installation. The Transmitter Test feature is designed to verify the transmitter is operating properly, and can be performed either on the bench or in the field. Master reset The master reset function will reset the device electronics. To perform a master reset:

Performing master reset using a Field Communicator From the HOMEscreen, enter the Fast Key sequence. Device Dashboard Fast Keys 3, 5, 1, 2, 1 Performing master reset using AMS Device Manager 1. From the Homescreen, select 3: Service Tools. 2. Select 5: Maintenance 3. Select 1: Calibration 4. Select 2: Factory Calibration 5. Select 1: Restore to restore to factory presets. Join status Viewing join status using a Field Communicator From the HOMEscreen, enter the Fast Key sequence. Device Dashboard Fast Keys 3, 4, 1 2.10.2 Configuration 17 Configuration May 2017 Reference Manual 00809-0100-4100, Rev BA Viewing join status using AMS Device Manager To view the join status of the device, perform the following procedure:

1. From the Homescreen, select 3: Service Tools. 2. Select 4: Communications. 3. Select 1: Join Status. Wireless devices join the secure network through a four step process:

Step 1. Network Found Step 2. Network Security Clearance Granted Step 3. Network Bandwidth Allocated Step 4. Network Join Complete 2.10.3 Number of available neighbors Viewing number of available neighbors using a Field Communicator From the HOMEscreen, enter the Fast Key sequence. Device Dashboard Fast Keys 3, 4, 3 Viewing number of available neighbors using AMS Device Manager In a self-organizing network, the more neighbors a device has, the more robust the network will be. To view the number of available neighbors for the wireless device, perform the following procedure:

1. From the Homescreen, select 3: Service Tools. 2. Select 4: Routine Maintenance. 3. Select 3: Number of Available Neighbors. 2.11 2.11.1 Advanced functions for HART Protocol Saving, recalling, and cloning configuration data Device Dashboard Fast Keys left arrow, 1, 2 Use the cloning feature of the Field Communicator or the AMS User Configuration feature to configure several Rosemount 3051 Wireless similarly. Cloning involves configuring a transmitter, saving the configuration data, then sending a copy of the data to a separate transmitter. Several possible procedures exist when saving, recalling, and cloning configuration data. For complete instructions refer to the Field Communicator Reference Manual or AMS Books Online. One common method is as follows:

18 Configuration Reference Manual 00809-0100-4100, Rev BA Configuration May 2017 Field Communicator 1. Completely configure the first transmitter. 2. Save the configuration data:

a. Select F2 Save from the Field Communicator Home/Onlinescreen. b. Ensure the location to which the data will be saved is set to Module. If it is not, select 1: Location to set the save location to module. c. Select 2: Name, to name the configuration data. The default is the transmitter tag number. d. Ensure the data type is set to standard. If the data type is NOT standard, select 3: Data Type to set the data type to standard. e. Select F2 Save. 3. Connect and power the receiving transmitter and Field Communicator. 4. Select the back arrow from the HOME/ONLINEscreen. The Field Communicator menu appears. 5. Select 1: Offline, 2: Saved Configuration, 1: Module Contents to reach the MODULECONTENTS menu. 6. Use the DOWN ARROW to scroll through the list of configurations in the memory module, and use the RIGHT ARROW to select and retrieve the required configuration. 7. Select 1: Edit. 8. Select 1: Mark All. 9. Select F2 Save. 10. Use the down arrow to scroll through the list of configurations in the memory module, and use the right arrow to select the configuration again. 11. Select 3: Send to download the configuration to the transmitter. 12. Select OK after the control loop is set to manual. 13. After the configuration has been sent, select OK. When finished, the Field Communicator informs you of the status. Repeat steps 3 through 13 to configure another transmitter. Note The transmitter receiving cloned data must have the same software version (or later) as the original transmitter. AMS Device Manager creating a reusable copy To create a reusable copy of a configuration perform the following procedure:

1. Completely configure the first transmitter. 2. Select View then User Configuration View from the Menubar (or click the toolbar button). 3. 4. 5. The template is copied into the UserConfigurationswindow, with the tag name highlighted; rename In the UserConfigurationwindow, right click and select New from the context menu. In the Newwindow, select a device from the list of templates shown, and select OK. it as appropriate and press Enter. Configuration 19 Configuration May 2017 Reference Manual 00809-0100-4100, Rev BA Note A device icon can also be copied by dragging and dropping a device template or any other device icon from AMS Explorer or Device Connection View into the User Configurations window. The CompareConfigurationswindow appears, showing the Current values of the copied device on one side and mostly blank fields on the other (User Configuration) side. 6. Transfer values from the current configuration to the user configuration as appropriate or enter values by typing them into the available fields. 7. Select Apply to apply the values, or select OK to apply the values and close the window. AMS Device Manager applying a user configuration Any amount of user configurations can be created for the application. They can also be saved, and applied to connected devices or to devices in the Device List or Plant Database. To apply a user configuration perform the following procedure:

1. Select the desired user configuration in the UserConfigurationswindow. 2. Drag the icon onto a like device in AMS Explorer or Device Connection View. The Compare Configurationswindow opens, showing the parameters of the target device on one side and the parameters of the user configuration on the other. 3. Transfer parameters from the user configuration to the target device as desired, Select OK to apply the configuration and close the window. 20 Configuration Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Section 3 Installation 3.1 3.2 Overview . page 21 Safety messages . page 21 Installation considerations . page 22 Installation procedures . page 25 Installing the LCD display . page 36 Rosemount 304, 305, and 306 Integral Manifolds . page 37 Overview The information in this section covers installation considerations. A Rosemount 3051 with WirelessHART Protocol. A Quick Start Guide is shipped with every transmitter to describe basic installation and startup procedures. Dimensional drawings for each Rosemount 3051 Wireless variation and mounting configuration are included in Appendix A: Specifications and Reference Data. Note For transmitter disassembly refer to Removing from service on page 76. Safety messages Procedures and instructions in this section may require special precautions to ensure the safety of the personnel performing the operation. Information that raises potential safety issues is indicated with a warning symbol (

by this symbol.

). Refer to the following safety messages before performing an operation preceded Failure to follow these installation guidelines could result in death or serious injury. Make sure only qualified personnel perform the installation. Explosions could result in death or serious injury. Installation of this transmitter in an explosive environment must be in accordance with the appropriate local, national, and international standards, codes, and practices. Review the approvals section of this manual for any restrictions associated with a safe installation. Before connecting a Field Communicator in an explosive atmosphere, make sure the instruments are installed in accordance with intrinsically safe or non-incendive field wiring practices. Verify the operating atmosphere of the transmitter is consistent with the appropriate hazardous locations certifications. Process leaks could result in death or serious injury. Install and tighten process connectors before applying pressure. Installation 21 Installation May 2017 3.3 3.3.1 Reference Manual 00809-0100-4100, Rev BA Electrical shock could cause death or serious injury. Avoid contact with the leads and terminals. High voltage that may be present on leads can cause electrical shock. This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. This device must be installed to ensure a minimum antenna separation distance of 20 cm (8-in.) from all persons. Electrical shock can result in death or serious injury. Avoid contact with the leads and terminals. Process leaks could result in death or serious injury. Install and tighten all four flange bolts before applying pressure. Do not attempt to loosen or remove flange bolts while the transmitter is in service. Replacement equipment or spare parts not approved by Emerson for use as spare parts could reduce the pressure retaining capabilities of the transmitter and may render the instrument dangerous. Use only bolts supplied or sold by Emerson as spare parts. Improper assembly of manifolds to traditional flange can damage sensor module. For safe assembly of manifold to traditional flange, bolts must break back plane of flange web (i.e., bolt hole) but must not contact sensor module housing. The power module with the wireless unit contains a primary lithium-thionyl chloride battery. Each power module contains approximately 5.0 grams of lithium. Under normal conditions, the power module materials are self-contained and are not reactive as long as the batteries and the pack integrity are maintained. Care should be taken to prevent thermal, electrical or mechanical damage. Contacts should be protected to prevent premature discharge. Installation considerations Measurement performance depends upon proper installation of the transmitter and impulse piping. Mount the transmitter close to the process and use a minimum of piping to achieve best performance. Also, consider the need for easy access, personnel safety, practical field calibration, and a suitable transmitter environment. Install the transmitter to minimize vibration, shock, and temperature fluctuation. Wireless considerations Power up sequence The power module should not be installed on any wireless device until the Smart Wireless Gateway is installed and functioning properly. This transmitter uses the green power module (order model number 701PGNKF). Wireless devices should also be powered up in order of proximity from the Gateway, beginning with the closest. This will result in a simpler and faster network installation. Enable Active Advertising on the Gateway to ensure new devices join the network faster. For more information, see the Smart Wireless Gateway Reference Manual. 22 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Internal antenna position The internal antenna is designed for multiple mounting orientations. The transmitter should be mounted according to measurement best practices for your pressure measurement application. The antenna should be approximately 3 ft. (1 m) from any large structure or building to allow clear communication to other devices. Field Communicator connections In order for the Field Communicator to interface with the Rosemount 3051 Wireless, the power module must be connected. Refer to Figure 3-1 for a diagram on how to connect the Field Communicator. Figure 3-1. Field Communicator Connections 3.3.2 Mechanical considerations Steam service For steam service or for applications with process temperatures greater than the limits of the transmitter, do not blow down impulse piping through the transmitter. Flush lines with the blocking valves closed and refill lines with water before resuming measurement. Refer to Figure 3-11 on page 32 for correct mounting orientation. Side mounted When the transmitter is mounted on its side, position the coplanar flange to ensure proper venting or draining. Mount the flange as shown in Figure 3-11 on page 32, keeping drain/vent connections on the bottom for gas service and on the top for liquid service. Environmental considerations Best practice is to mount the transmitter in an environment that has minimal ambient temperature change. The transmitter electronics temperature operating limits are 40 to 185 F (40 to 85 C). Refer to Appendix A: Specifications and Reference Data that lists the sensing element operating limits. Mount the transmitter so that it is not susceptible to vibration and mechanical shock and does not have external contact with corrosive materials. 23 3.3.3 Installation Installation May 2017 Reference Manual 00809-0100-4100, Rev BA Figure 3-2. Installation Flowchart START HERE Configuration No Field install Yes

(Section 2) Set units Set range points Set Network ID and Join Key Verify Review transmitter configuration

(page 12) Apply pressure Within specifications?

Yes No Refer to Operation and Maintenance Mount transmitter

(page 26) Install power module

(page 35) connection

(page 33) Confirm transmitter configuration

(page 12) Trim transmitter for mounting effects

(page 58) Done 3.3.4 Draft range considerations For the Rosemount 3051CD0 Draft Range Pressure Transmitter, it is best to mount the transmitter with the isolators parallel to the ground. See Figure 3-3 on page 25 for a draft range installation example on a Rosemount 304 Manifold. Installing the transmitter in this way reduces oil head effect. Tilting of the transmitter may cause a zero shift in the transmitter output, but can be eliminated by performing a trim procedure. 24 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Figure 3-3. Draft Range Installation A A. Isolators Reducing process noise Rosemount 3051CD0 Draft Transmitters are sensitive to small pressure changes. Increasing the damping will decrease output noise, but will further reduce response time. In gage applications, it is important to minimize pressure fluctuations to the low side isolator. Output damping The damping command introduces a delay in processing which increases the response time of the transmitter; smoothing variations in output readings caused by rapid input changes. In the Rosemount 3051 Wireless, damping only takes effect when the device is placed in high power refresh mode and during calibration. In normal power mode, the effective damping is zero. Note that when the device is in high power refresh mode, battery power will be depleted rapidly. Determine the appropriate damp setting based on the necessary response time, signal stability, and other requirements of the loop dynamics of your system. The damping value of your device is user selectable from zero to 60 seconds. Reference side filtering In gage applications it is important to minimize fluctuations in atmospheric pressure to which the low side isolator is exposed. One method of reducing fluctuations in atmospheric pressure is to attach a length of tubing to the reference side of the transmitter to act as a pressure buffer. Installation procedures Mounting the transmitter For dimensional drawing information refer to Appendix A: Specifications and Reference Data on page 79. Process flange orientation Mount the process flanges with sufficient clearance for process connections. For safety reasons, place the drain/vent valves so the process fluid is directed away from possible human contact when the vents are used. In addition, consider the need for a testing or calibration input. 3.4 3.4.1 Installation 25 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA Note Most transmitters are calibrated in the horizontal position. Mounting the transmitter in any other position will shift the zero point to the equivalent amount of liquid head pressure caused by the varied mounting position. To reset zero point, refer to Sensor trim on page 59. Housing rotation The electronics housing can be rotated up to 180 degrees in either direction to improve field access, or to better view the optional LCD display. To rotate the housing, perform the following procedure:

1. Loosen the housing rotation set screw using a 5/64-in. hex wrench. 2. Turn the housing left or right up to 180 from its original position. Note Over rotating will damage the transmitter. 3. Retighten the housing rotation set screw. Figure 3-4. Housing Rotation A A. Housing rotation set screw (5/64-in.) Terminal side of electronics housing Mount the transmitter so the power module side is accessible. Clearance of 3.5-in. (89 mm) is required for cover and power module removal. Circuit side of electronics housing Provide 1.75-in. (45 mm) of clearance for units without an LCD display. Three inches of clearance is required for cover removal if a meter is installed. Environmental seal for housing Thread sealing (PTFE) tape or paste on male threads of conduit is required to provide a water/dust tight conduit seal and meets requirements of NEMA Type 4X, IP66, and IP68. Consult factory if other Ingress Protection ratings are required. For M20 threads, install conduit plugs to full thread engagement or until mechanical resistance is met. Always ensure a proper seal by installing the electronics housing cover(s) so that polymer contacts polymer (i.e. no O-ring visible). Use Rosemount O-rings. 26 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Mounting brackets Rosemount 3051 Transmitters may be panel-mounted or pipe-mounted via an optional mounting bracket. Refer to Table 3-1 for the complete offering and see Figure 3-5 on page 27 for dimensional and mounting configuration information. Table 3-1. Rosemount 3051 Mounting Brackets Process connections Mounting Materials Option code In-line Coplanar Traditional Pipe mount Panel mount Flat panel mount CS bracket SST bracket B4 B1 B2 B3 B7 B8 B9 BA BC X N/A N/A N/A N/A N/A N/A N/A N/A X N/A N/A N/A N/A N/A N/A N/A N/A N/A X X X X X X X X X X N/A N/A X N/A N/A X N/A X N/A X N/A N/A X N/A N/A N/A X N/A N/A X N/A N/A X N/A X N/A X X X X X X N/A N/A X N/A N/A N/A N/A N/A N/A X X CS bolts N/A X X X N/A N/A N/A N/A N/A SST bolts X N/A N/A N/A X X X X X Figure 3-5. Mounting Bracket Option Code B4 A 2.8 (71) B 3.4 (85) A. 5/16 x11/2 bolts for panel mounting (not supplied) B. 3/8-16 x 11/4 bolts for mounting to transmitter Dimensions are in inches (millimeters). Installation 27 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA Figure 3-6. Mounting Bracket Option Codes B1, B7, and BA 3.75 (95) 1.63 (41) 4.09 (104) 2.73 (69) 4.97 (126) 2.81

(71) Figure 3-7. Panel Mounting Bracket Option Codes B2 and B8 3.75 (95) 1.63 (41) 4.09

(104) A 1.405

(35,7) 1.40

(36) 2.81

(71) 4.5

(114) 1.405

(35,7) A. Mounting holes 0.375 diameter (10) Dimensions are in inches (millimeters). Figure 3-8. Flat Mounting Bracket Option Codes B3 and BC 2.125

(54) 1.625

(41) 8.00

(203) 2.81

(71) Dimensions are in inches (millimeters). 28 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Flange bolts The Rosemount 3051 Wireless can be shipped with a coplanar flange or a traditional flange installed with four 1.75-in. flange bolts. Mounting bolts and bolting configurations for the coplanar and traditional flanges can be found in Figure 3-9 on page 30. Stainless steel bolts supplied by Emerson are coated with a lubricant to ease installation. Carbon steel bolts do not require lubrication. No additional lubricant should be applied when installing either type of bolt. Bolts supplied by Emerson are identified by their head markings:

B7M Carbon Steel (CS) head markings 316 B8M 660 CL A F593_(1) Stainless Steel (SST) head markings KM Alloy K-500 head marking 1. The last digit in the F593_ head marking may be any letter between A and M. Bolt installation Only use bolts supplied with the Rosemount 3051 or sold by Emerson as spare parts. When installing the transmitter to one of the optional mounting brackets, torque the bolts to 125 in-lb. (0.9 N-m). Use the following bolt installation procedure:

1. Finger-tighten the bolts. 2. Torque the bolts to the initial torque value using a crossing pattern. 3. Torque the bolts to the final torque value using the same crossing pattern. Torque values for the flange and manifold adapter bolts are as follows:

Table 3-2. Bolt Installation Torque Values Bolt material Initial torque value Final torque value CS-ASTM-A445 Standard 316 SSTOption L4 ASTM-A-193-B7MOption L5 Alloy K-500Option L6 ASTM-A-453-660Option L7 ASTM-A-193-B8MOption L8 300 in-lb (34 N-m) 150 in-lb (17 N-m) 300 in-lb (34 N-m) 300 in-lb (34 N-m) 150 in-lb (17 N-m) 150 in-lb (17 N-m) 650 in-lb (73 N-m) 300 in-lb (34 N-m) 650 in-lb (73 N-m) 650 in-lb (73 N-m) 300 in-lb (34 N-m) 300 in-lb (34 N-m) Installation 29 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA Figure 3-9. Traditional Flange Bolt Configurations Differential transmitter Gage/absolute transmitter A A B A 1.75 (44) 4 1.50 (38) 4 1.75 (44) 4 1.50 (38) 2 A. Drain/vent B. Vented fitting Dimensions are in inches (millimeters). 30 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Figure 3-10. Mounting Bolts And Bolt Configurations For Coplanar Flange Transmitter with flange bolts Transmitter with flange adapters and flange/adapter bolts 1.75 (44) 4 2.88 (73) 4 Dimensions are in inches (millimeters). Description Differential pressure Flange bolts Flange/adapter bolts Gage/absolute pressure (1) Flange bolts Qty Size in. (mm) 4 4 4 1.75 (44) 2.88 (73) 1.75 (44) Flange/adapter bolts 1. Rosemount 3051T transmitters are direct mount and do not require bolts for process connection. 2.88 (73) 2 3.4.2 Impulse piping Mounting requirements Refer to Figure 3-11 on page 32 for examples of the following mounting configurations:

Liquid flow measurement Place taps to the side of the line to prevent sediment deposits on the process isolators. Mount the transmitter beside or below the taps so gases vent into the process line. Mount drain/vent valve upward to allow gases to vent. Installation 31 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA Gas flow measurement Place taps in the top or side of the line. Mount the transmitter beside or above the taps so to drain liquid into the process line. Steam flow measurement Place taps to the side of the line. Mount the transmitter below the taps to ensure impulse piping will remain filled with condensate. Fill impulse lines with water to prevent steam from contacting the transmitter directly and to ensure accurate measurement start-up. Note For steam or other elevated temperature services, it is important that temperatures at the Coplanar process flanges must not exceed 250 F (121 C) for transmitters with silicone fill, or 185 F (85 C) for inert fill. For vacuum service, these temperature limits are reduced to 220 F (104 C) for silicone fill and 160 F (71 C) for inert fill. Figure 3-11. Installation Examples Liquid service Gas service Steam service A A A A. Drain/vent valves 32 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Best practices The piping between the process and the transmitter must accurately transfer the pressure to obtain accurate measurements. There are five possible sources of error: leaks, friction loss (particularly if purging is used), trapped gas in a liquid line, liquid in a gas line, and density variations between the legs. The best location for the transmitter in relation to the process pipe depends on the process itself. Use the following guidelines to determine transmitter location and placement of impulse piping:

Keep impulse piping as short as possible. For liquid service, slope the impulse piping at least 1 inch per foot (8 cm per m) upward from the transmitter toward the process connection. For gas service, slope the impulse piping at least 1 inch per foot (8 cm per m) downward from the transmitter toward the process connection. Avoid high points in liquid lines and low points in gas lines. Make sure both impulse legs are the same temperature. Use impulse piping large enough to avoid friction effects and blockage. Vent all gas from liquid piping legs. When using a sealing fluid, fill both piping legs to the same level. When purging, make the purge connection close to the process taps and purge through equal lengths of the same size pipe. Avoid purging through the transmitter. Keep corrosive or hot (above 250 F [121 C]) process material out of direct contact with the sensor module and flanges. Prevent sediment deposits in the impulse piping. Keep the liquid head balanced on both legs of the impulse piping. Avoid conditions that might allow process fluid to freeze within the process flange. Process connections Coplanar or traditional process connection Install and tighten all four flange bolts before applying pressure to avoid leakage. When properly installed, the flange bolts will protrude through the top of the sensor module housing. Do not attempt to loosen or remove the flange bolts while the transmitter is in service. Flange adapters Rosemount 3051DP and GP process connections on the transmitter flanges are 1/418 NPT. Flange adapters are available with standard 1/214 NPT Class 2 connections. The flange adapters allow users to disconnect from the process by removing the flange adapter bolts. Use plant-approved lubricant or sealant when making the process connections. Refer to Dimensional drawings on page 88 for the distance between pressure connections. This distance may be varied 1/4-in. (6.4 mm) by rotating one or both of the flange adapters. 3.5.3 Installation 33 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA To install adapters to a coplanar flange, perform the following procedure:

1. Remove the flange bolts. 2. Leaving the flange in place, move the adapters into position with the O-ring installed. 3. Clamp the adapters and the coplanar flange to the transmitter module using the longer of the bolts supplied. 4. Tighten the bolts. Refer to Flange bolts on page 29 for torque specifications. Failure to install proper flange adapter O-rings may cause process leaks, which can result in death or serious injury. The two flange adapters are distinguished by unique O-ring grooves. Only use the O-ring designed for its specific flange adapter, as shown below:

Rosemount 3051S/3051/2051 A B C D A. Flange adapter B. O-ring C. PTFE-based elastomer Note PTFE O-rings should be replaced if the flange adapter is removed. Whenever you remove flanges or adapters, visually inspect the PTFE O-rings. Replace them if there are any signs of damage, such as nicks or cuts. If you replace the O-rings, re-torque the flange bolts after installation to compensate for cold flow. Refer to the process sensor body reassembly procedure in Section 6 on page 73. Inline process connection Inline gage transmitter orientation 3.5.4 Interfering or blocking the atmospheric reference port will cause the transmitter to output erroneous pressure values. The low side pressure port on the inline gage transmitter is located in the neck of the transmitter, behind the housing. The vent path is 360 degrees around the transmitter between the housing and sensor (See Figure 3-12). Keep the vent path free of any obstruction, such as paint, dust, and lubrication by mounting the transmitter so that the process can drain away. 34 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Figure 3-12. Inline gage low side pressure port A A. Low side pressure port (atmospheric reference) Do not apply torque directly to the sensor module. Rotation between the sensor module and the process connection can damage the electronics. To avoid damage, apply torque only to the hex-shaped process connection. 3.5.5 Power module installation Figure 3-13. Power Module A A. Power module (5/64-in. hex wrench required) Installation 35 Installation May 2017 3.5.6 Reference Manual 00809-0100-4100, Rev BA To make connections, perform the following procedure:

1. Remove the housing cover on the power module compartment side. The power module supplies all power to the transmitter. 2. Connect Power Module 701PGNKF. 3. Replace the power module cover and tighten to safety specification (polymer to polymer). Installing the LCD display Transmitters ordered with the LCD display will be shipped with the display installed. Note Only use Rosemount Wireless LCD Part Number: 00753-9004-0002 An LCD display from a wired device will not function in a wireless device. In addition to housing rotation, the optional LCD display can be rotated in 90-degree increments by squeezing the two tabs, pulling out, rotating and snapping back into place. If LCD display pins are inadvertently removed from the interface board, carefully re-insert the pins before snapping the LCD display back into place. Use the following procedure and Figure 3-14 to install the LCD display:

1. Remove the back cover and Power Module. 2. Remove the transmitter cover opposite the field terminal side. Do not remove the instrument covers in explosive environments when the circuit is live. 3. Engage the four-pin connector into the LCD display and snap into place. Note the following LCD display temperature limits:

Operating: 40 to 175 F (40 to 80 C) Storage: 40 to 185 F (40 to 85 C) Figure 3-14. Optional LCD Display 36 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 3.6 Rosemount 304, 305, and 306 Integral Manifolds The Rosemount 305 Integral Manifold mounts directly to the transmitter and is available in two designs:

Traditional and Coplanar. The traditional Rosemount 305 Integral Manifold can be mounted to most primary elements with mounting adapters in the market today. The Rosemount 306 Integral Manifold is used with Rosemount 3051T In-line transmitters to provide block-and-bleed valve capabilities of up to 10000 psi (690 bar). The Rosemount 304 comes in two basic styles: traditional (flange x flange and flange x pipe) and wafer. The 304 traditional manifold comes in 2-, 3-, and 5-valve configurations. The Rosemount 304 wafer manifold comes in 3- and 5-valve configurations. Figure 3-15. Integral Manifold Designs Rosemount 3051C and 304 Conventional Rosemount 3051C and 305 Integral Coplanar Rosemount 3051C and 305 Integral Traditional Rosemount 3051T and 306 In-Line 3.6.1 Rosemount 305 Integral Manifold installation procedure To install a Rosemount 305 Integral Manifold to a Rosemount 3051 Wireless Transmitter:

1. Inspect the PTFE sensor module O-rings. If the O-rings are undamaged, reusing them is recommended. If the O-rings are damaged (if they have nicks or cuts, for example), replace them with new O-rings. Important If replacing the O-rings, take care not to scratch or deface the O-ring grooves or the surface of the isolating diaphragm while you remove the damaged O-rings. Installation 37 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA 2. Install the integral manifold on the sensor module. Use the four 2.25-in. manifold bolts for alignment. Finger tighten the bolts, then tighten the bolts incrementally in a cross pattern as seen in Figure 3-16 on page 38 to final torque value. See Flange bolts on page 29 for complete bolt installation information and torque values. When fully tightened, the bolts should extend through the top of the module housing. Figure 3-16. Bolt Tightening Pattern 3.6.2 3. If the PTFE sensor module O-rings have been replaced, the flange bolts should be re-tightened after installation to compensate for cold flow of the O-rings. 4. If applicable, install flange adapters on the process end of the manifold using the 1.75-in. flange bolts supplied with the transmitter. Note Always perform a zero trim on the transmitter/manifold assembly after installation to eliminate mounting effects. See Sensor trim on page 59. Rosemount 306 Integral Manifold installation procedure The Rosemount 306 Manifold is for use only with a Rosemount 3051T Wireless In-line transmitter. Assemble the Rosemount 306 Manifold to the Rosemount 3051T Wireless In-line transmitter with a thread sealant. 1. Place transmitter into holding fixture. 2. Apply appropriate thread paste or tape to threaded instrument end of the manifold. 3. Count total threads on the manifold before starting assembly. 4. Start turning the manifold by hand into the process connection on the transmitter. Note If using thread tape, be sure the thread tape does not strip when the manifold assembly is started. 5. Wrench tighten manifold into process connection. Note Minimum toque value is 425 in-lb. 38 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 6. Count how many threads are still showing. Note Minimum engagement is three revolutions. 7. Subtract the number of threads showing (after tightening) from the total threads to calculate the revolutions engaged. Further tighten until a minimum of three rotations is achieved. 8. For block and bleed manifold, verify the bleed screw is installed and tightened. For two-valve manifold, verify the vent plug is installed and tightened. 9. Leak-check assembly to maximum pressure range of transmitter. Rosemount 304 Conventional Manifold installation procedure To install a Rosemount 304 Conventional Manifold to a Rosemount 3051 Wireless Transmitter:

1. Align the Conventional Manifold with the transmitter flange. Use the four manifold bolts for alignment. 2. Finger tighten the bolts, then tighten the bolts incrementally in a cross pattern to final torque value. See Flange bolts on page 29 for complete bolt installation information and torque values. When fully tightened, the bolts should extend through the top of the sensor module housing. 3. If applicable, install flange adapters on the process end of the manifold using the 1.75-in. flange bolts supplied with the transmitter. Manifold operation 3.6.3 3.6.4 Improper installation or operation of manifolds may result in process leaks, which may cause death or serious injury. Always perform a zero trim on the transmitter/manifold assembly after installation to eliminate any shift due to mounting effects. See Sensor trim on page 59. Coplanar transmitters 3-valve and 5-valve manifolds Performing zero trim at static line pressure In normal operation the two isolate (block) valves between the process ports and transmitter will be open and the equalize valve will be closed. H L Vent Drain/

e valv Isolate

(open) Dra in/Vent valve Equalize

(closed) Process Isolate

(open) Installation 39 Installation May 2017 1. 2. To zero trim the transmitter, close the isolate valve on the low side (downstream) side of the transmitter. Open the equalize valve to equalize the pressure on both sides of the transmitter. The manifold is now in the proper configuration for performing a zero trim on the transmitter. 3. After performing a zero trim on the transmitter, close the equalize valve. 4. Finally, to return the transmitter to service, open the low side isolate valve. Reference Manual 00809-0100-4100, Rev BA L L L n/Vent Drai v alve Isolate

(closed) Drain/Vent valve Isolate

(closed) n/Vent Drai v alve Isolate

(closed) Equalize

(closed) Process Equalize

(open) Process Equalize

(closed) Process H L Dra in/Vent valve Isolate

(open) Equalize

(closed) Process H H Drain/

Vent e valv Isolate

(open) Drain/Vent valve Isolate

(open) H Drain/

Vent e valv Isolate

(open) Drain/

Vent e valv Isolate

(open) 40 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 5-valve natural gas manifold Performing zero trim at static line pressure 5-valve natural gas configurations shown:

In normal operation, the two isolate (block) valves between the process ports and transmitter will be open, and the equalize valves will be closed. Vent valves may be opened or closed. L

(Plugged) H

(Plugged) Equalize

(closed) Equalize

(closed) Isolate

(open) Isolate

(open) 1. To zero trim the transmitter, first close the isolate valve on the low pressure (downstream) side of the transmitter and the vent valve.

(Plugged) Process Drain vent

(closed) Process H L

(Plugged) 2. Open the equalize valve on the high pressure

(upstream) side of the transmitter. 3. Open the equalize valve on the low pressure

(downstream) side of the transmitter. The manifold is now in the proper configuration for performing a zero trim on the transmitter. Equalize

(closed) Equalize

(closed) Isolate

(open) Isolate

(closed) Process Drain vent

(closed) Process H L

(Plugg ed)

(Pl ugged) Equalize Equalize

(open) (closed) Isolate

(open) Isolate

(closed)

(Plugg ed) Process Drain vent

(closed) H Process L Equalize Equalize

(open)

(open)

(Pl ugged) Isolate

(open) Isolate

(closed) Process Drain vent

(closed) Process Installation 41 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA 4. After performing a zero trim on the transmitter, close the equalize valve on the low pressure (downstream) side of the transmitter. H L 5. Close the equalize valve on the high pressure

(upstream) side. 6. Finally, to return the transmitter to service, open the low side isolate valve and vent valve. The vent valve can remain open or closed during operation.

(Plugg ed)

(Pl ugged) Equalize Equalize

(open) (closed) Isolate

(open) Isolate

(closed) Process Process Drain vent

(closed) H L

(Plugged) Isolate

(open) Equalize

(closed) Equalize

(closed)

(Plugged) Isolate

(closed) Process Drain vent

(closed) Process H

(Plugged) L

(Plugged) Equalize

(closed) Equalize

(closed) Isolate

(open) Isolate

(open) Process Drain vent

(closed) Process In-line transmitters 2-valve and block and bleed style manifolds Isolating the transmitter In normal operation the isolate (block) valve between the process port and transmitter will be open and the test/vent valve will be closed. On a block and bleed style manifold, a single block valve provides transmitter isolation and a bleed screw provides drain/vent capabilities. Transmitter Vent

(closed) Isolate Process

(open) 42 Installation Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 1. To isolate the transmitter, close the isolate valve. Transmitter valve or bleed screw. Note A 1/4-in. male NPT pipe plug may be installed in the test/vent port and will need to be removed with a wrench in order to vent the manifold properly. Always use caution when venting directly to atmosphere. 3. After venting to atmosphere, perform any required calibration and then close the test/vent valve or replace the bleed screw. 4. Open the Isolate (block) valve to return the transmitter to service. Isolate Process

(closed) Transmitter Isolate Process

(closed) Transmitter Isolate Process

(closed) Transmitter Isolate Process

(open) Vent

(closed) Vent

(open) Vent

(closed) Vent

(closed) 43 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA Adjusting valve packing Over time, the packing material inside a Rosemount manifold may require adjustment in order to continue to provide proper pressure retention. Not all Rosemount manifolds have this adjustment capability. The Rosemount manifold model number will indicate what type of stem seal or packing material has been used. The following steps are provided as a procedure to adjust valve packing:

1. Remove all pressure from device. 2. Loosen manifold valve jam nut. 3. Tighten manifold valve packing adjuster nut 1/4 turn. 4. Tighten manifold valve jam nut. 5. Re-apply pressure and check for leaks. Above steps can be repeated, if necessary. If the above procedure does not result in proper pressure retention, the complete manifold should be replaced. Figure 3-17. Valve Components A B C D E F G A. Bonnet B. Stem C. Packing D. Ball seat E. Packing adjuster F. Jam nut G. Packing follower 44 Installation Reference Manual 00809-0100-4100, Rev BA Installation May 2017 Figure 3-18. WirelessHART Installation Flowchart START HERE Set device tag

(page 5) Join Device to Network by Setting Network ID and Join Key

(page 6) Configure Update Rate

(page 6) Set Process Variable Units

(page 6) Bench Configuration and Calibration Yes No Configure for Pressure Configure forLevel ConfigureforFlow Verify Set Pressure to PV

(page 7) Configure Scaled Variable

(page 9) Configure Scaled Variable

(page 9) Review Transmitter Configuration

(page 12) Set Range Points

(page 8) Set Scaled Variable to PV

(page 11) Set Scaled Variable to PV

(page 11) Apply Pressure Field Install Mount Transmitter

(page 26) Check Process Connection

(page 33) Install Power Module

(page 35) Confirm Transmitter Configuration

(page 12) Set Range Points

(page 8) Set Range Points

(page 8) Select Transfer Function for Percent of Range

(page 8) Installation Within Specifications?

Yes No Refer to Section 5 Trim the Transmitter

(page 58) Done 45 Installation May 2017 Reference Manual 00809-0100-4100, Rev BA 46 Installation Reference Manual 00809-0100-4100, Rev BA Commissioning May 2017 Section 4 Commissioning 4.1 4.2 Safety messages . page 47 Viewing network status . page 48 Verifying operation . page 48 Overview The information in this section covers installation considerations for the Rosemount 3051 Wireless Pressure Transmitter. A Quick Start Guide is shipped with every transmitter to describe pipe-fitting, wiring procedures and basic configuration for initial installation. Note For transmitter disassembly refer to sections Removing from service on page 76. Safety messages Instructions and procedures in this section may require special precautions to ensure the safety of the personnel performing the operations. Information that potentially raises safety issues is indicated by a warning symbol ( ). Refer to the following safety messages before performing an operation preceded by this symbol. Failure to follow these installation guidelines could result in death or serious injury. Make sure only qualified personnel perform the installation. Explosions could result in death or serious injury. Installation of this transmitter in an explosive environment must be in accordance with the appropriate local, national, and international standards, codes, and practices. Review the approvals section of this manual for any restrictions associated with a safe installation. Before connecting a Field Communicator in an explosive atmosphere, make sure the instruments are installed in accordance with intrinsically safe or non-incendive field wiring practices. Verify the operating atmosphere of the transmitter is consistent with the appropriate hazardous locations certifications. Process leaks could result in death or serious injury. Install and tighten process connectors before applying pressure. Commissioning 47 Commissioning May 2017 Reference Manual 00809-0100-4100, Rev BA Electrical shock could cause death or serious injury. Avoid contact with the leads and terminals. High voltage that may be present on leads can cause electrical shock. This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. This device must be installed to ensure a minimum antenna separation distance of 20 cm (8-in.) from all persons. 4.3 Viewing network status If the Rosemount 3051 Wireless was configured with the Network ID and Join Key and sufficient time for network polling has passed, the transmitter should be connected to the network. To verify connectivity, open the Smart Wireless Gateways integral web interface and navigate to the Explorerpage. This page will display the transmitters HART tag, PV, SV, TV, QV, and Update Rate. A green status indicator means that the device is working properly. A red indicator means that there is a problem with either the device or its communication path. For more detail on a specific device, click on the tag name. Verifying operation Operation can be verified in four locations, at the device via the Local Display, using the Field Communicator, at the Smart Wireless Gateways integrated web interface, or by using AMS Suite Wireless Configurator or AMS Device Manager. LCD display The LCD display will display the PV value at the same rate as the configured update rate. Press the Diagnostic button to display the TAG, Device ID, Network ID, Network Join Status and Device Status screens. Commissioning 4.4 48 Reference Manual 00809-0100-4100, Rev BA Commissioning May 2017 For Device Status screens, see LCD display screen messages on page 63. Table 4-1. Diagnostic Screen Sequence Tag Device ID Network ID Networkjoin status Device status A b c d e f g h i d - 1 2 3 4 5 6 7 8 n e t w k 13 0 5 I D n e t w k O K Table 4-2. Network Join Status Screens S u p l y 3. 6 0 v o l t s Searching for network Joining network N E T w K S R C H N G n e t w k N E G O T Connectedwith limited bandwidth Connected n e t w k L I M - O P n e t w k O K Field Communicator For HART Wireless transmitter communication, a Rosemount 3051 Wireless DD is required. To obtain the latest DD, visit the Emerson Easy Upgrade site at:

Emerson.com/Rosemount/Device-Install-Kits. The communication status may be verified in the wireless device using the following Fast Key sequence. Function Fast Key sequence Menu items Communications 3, 4 Join Status, Join Mode, Number of Available Neighbors, Number of Advertisements Heard, Number of Join Attempts Commissioning 49 Commissioning May 2017 Reference Manual 00809-0100-4100, Rev BA Smart Wireless Gateway Using the Gateways web interface, navigate to the Explorerpage as shown in Figure 4-1 on page 50. Locate the device in question and verify all status indicators are good (green). Figure 4-1. Smart Wireless Gateway Explorer page. AMS Device Manager When the device has joined the network, it will appear in the Device Manager as illustrated in Figure 4-2. For HART Wireless Transmitter Communication, a Rosemount 3051 Wireless DD is required. To obtain the latest DD, visit the Emerson Easy Upgrade site at:

Emerson.com/Rosemount/Device-Install-Kits. Figure 4-2. Device Manager 4.4.1 Using the Field Communicator Note In order to communicate with a Field Communicator, power the Rosemount 3051 Wireless by connecting the power module. For more information on the Power Module, refer to the Power Module Product Data Sheet. 50 Commissioning Reference Manual 00809-0100-4100, Rev BA Commissioning May 2017 Table 4-3 includes Fast Key sequences frequently used to interrogate and configure the device. Table 4-3. Rosemount 3051 Wireless Fast Key Sequence Function Fast Key sequence Menu Items Device Information 2, 2, 8 Guided Setup Manual Setup 2, 1 2, 2 Wireless 2, 2, 1 Identification, Model Numbers, Flange Information, Remote Seal Information, Serial Number Basic Setup, Join Device to Network, Configure Update Rates, Alert Setup Wireless, Sensor, HART, Security, Device Information, Power Network ID, Join Device to Network, Broadcast Information Figure 4-3. Field Communicator Connections 4.5 Configuring transmitter security There are two security methods with the Rosemount 3051 Wireless Transmitter. HART Lock Configuration Buttons Lock HART Lock The HART Lock prevents changes to the transmitter configuration from all sources; all changes requested via HART and local configuration buttons will be rejected. The HART Lock can only be set via HART Communication. The HART Lock can be enabled or disabled with a Field Communicator or AMS Device Manager. Configuring HART Lock using Field Communicator From the HOMEscreen, enter the Fast Key sequence Device Dashboard Fast Keys 2, 2, 6, 2 Commissioning 51 Commissioning May 2017 Reference Manual 00809-0100-4100, Rev BA Configuring HART Lock using AMS Device Manager 1. Right click on the device and select Configure. 2. Under ManualSetupselect the Security tab. 3. Select Lock/Unlock button under HART Lock (Software) and follow the screen prompts. Configuration button lock The configuration button lock disables all local button functionality. Changes to the transmitter configuration from the local buttons will be rejected. Local external keys can be locked via HART Communication only. Configuring configuration button lock using a Field Communicator From the HOMEscreen, enter the Fast Key sequence 2, 2, 6, 1 Device Dashboard Fast Keys Configuring configuration button lock using AMS device Manager 1. Right click on the device and select Configure. 2. Under Manual Setup select the Security tab. 3. Within the ConfigurationButtonsdropdown menu select Disabled to lock external local keys. 4. Select Send. 5. Confirm service reason and select Yes. 52 Commissioning Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 Section 5 Operation and Maintenance 5.1 5.2 Overview . page 53 Safety messages . page 53 Calibration overview . page 54 Trim the pressure signal . page 58 LCD display screen messages . page 63 Overview This section contains information on commissioning and operating Rosemount 3051 Wireless Pressure Transmitters. Field Communicator and AMS Device Manager instructions are given to perform configuration functions. For convenience, Field Communicator Fast Key sequences are labeled Fast Keys for each software function below the appropriate headings. Safety messages Instructions and procedures in this section may require special precautions to ensure the safety of the personnel performing the operations. Information that potentially raises safety issues is indicated by a warning symbol ( ). Refer to the following safety messages before performing an operation preceded by this symbol. Failure to follow these installation guidelines could result in death or serious injury. Make sure only qualified personnel perform the installation. Explosions could result in death or serious injury. Installation of this transmitter in an explosive environment must be in accordance with the appropriate local, national, and international standards, codes, and practices. Review the approvals section of this manual for any restrictions associated with a safe installation. Before connecting a Field Communicator in an explosive atmosphere, make sure the instruments are installed in accordance with intrinsically safe or non-incendive field wiring practices. Verify the operating atmosphere of the transmitter is consistent with the appropriate hazardous locations certifications. Process leaks could result in death or serious injury. Install and tighten process connectors before applying pressure. OperationandMaintenance 53 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA 5.3 Electrical shock could cause death or serious injury. Avoid contact with the leads and terminals. High voltage that may be present on leads can cause electrical shock. This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. This device must be installed to ensure a minimum antenna separation distance of 20 cm (8-in.) from all persons. Calibration overview Calibrating a Rosemount 3051 Wireless may include the following procedures:

Sensor trim: Adjusts the position of the factory sensor characterization curve to optimize performance over a specified pressure range, or to adjust for mounting effects. The Rosemount 3051 Sensor Module contains information about the sensors specific characteristics in response to pressure and temperature inputs. A smart transmitter compensates for these sensor variations. The process of generating the sensor performance profile is called factory sensor characteri-

zation. Sensor trimming requires an accurate pressure input and adds additional compensation that adjusts the position of the factory sensor characterization curve to optimize performance over a specific pressure range. Note Sensor trimming adjusts the position of the factory sensor characterization curve. It is possible to degrade performance of the transmitter if the trim is done improperly or with inaccurate equipment. Absolute pressure transmitters (Rosemount 3051CA and 3051TA) are calibrated at the factory. Trimming adjusts the position of the factory characterization curve. It is possible to degrade performance of the transmitter if any trim is done improperly or with inaccurate equipment. 54 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 5.3.1 Table 5-1. Recommended Calibration Tasks Transmitter Bench calibration tasks 1. Set output configuration parameters:

Rosemount 3051CD 3051CG 3051L 3051TG, Range 1-4 Rosemount 3051CA 3051TA 3051TG, Range 5 a. Set the range points. b. Set the output units. c. Set the output type. 2. Optional: Perform a sensor trim. (Accurate pressure source required.) 1. Set output configuration parameters:

a. Set the range points. b. Set the output units. c. Set the output type. 2. Optional: Perform a sensor trim if equipment available (accurate absolute pressure source required), otherwise perform the low trim value section of the sensor trim procedure. Field calibration tasks 1. Reconfigure parameters if necessary. 2. Zero trim the transmitter to compensate for mounting effects or static pressure effects. 1. Reconfigure parameters if necessary. 2. Perform low trim value section of the sensor trim procedure to correct for mounting position effects. Note For Rosemount 3051CA, 3051TA Range 0 and 5 devices, an accurate absolute pressure source is required. Determining necessary sensor trims Bench calibrations allow for calibrating the instrument for its desired range of operation. Straight forward connections to pressure source allow for a full calibration at the planned operating points. Exercising the transmitter over the desired pressure range allows for verification of the output value. Sensor trim on page 59 discusses how the trim operations change the calibration. It is possible to degrade the performance of the transmitter if a trim is done improperly or with inaccurate equipment. The transmitter can be set back to factory settings using the recall factory trim command in Recall factory trimsensor trim on page 60. For transmitters that are field installed, the manifolds discussed in Rosemount 304, 305, and 306 Integral Manifolds on page 37 allow the differential transmitter to be zeroed using the zero trim function. Both 3- and 5-valve manifolds are discussed. This field calibration will eliminate any pressure offsets caused by mounting effects (head effect of the oil fill) and static pressure effects of the process. Determine the necessary trims with the following steps. 1. Apply pressure. 2. Check digital pressure, if the digital pressure does not match the applied pressure, perform a digital zero trim. See Sensor trim on page 59. Trimming with configuration buttons Local configuration buttons are buttons located inside the housing of the transmitter. To access the buttons, remove the housing cover. Digital Zero Trim (DZ): Used for performing a sensor zero trim. See Sensor trim overview on page 58 for trim instructions. Figure 5-1 shows the location of the digital zero button. OperationandMaintenance 55 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA Figure 5-1. Digital zero button location A A. Digital zero button 5.3.2 Determining calibration frequency Calibration frequency can vary greatly depending on the application, performance requirements, and process conditions. Use the following procedure to determine calibration frequency that meets the needs of your application. 1. Determine the performance required for your application. 2. Determine the operating conditions. 3. Calculate the Total Probable Error (TPE). 4. Calculate the stability per month. 5. Calculate the calibration frequency. Sample calculation for Rosemount 3051

(0.04% accuracy and 5-year stability) Step 1: Determine the performance required for your application. Required Performance:

0.20% of span Step 2: Determine the operating conditions. Transmitter:

Calibrated Span:

Ambient Temperature Change:

3051CD, Range 2 [URL=250 inH2O(623 mbar)]

150 inH2O (374 mbar) 50 F (28 C) Line Pressure:

500 psig (34,5 bar) 56 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 Step 3: Calculate total probable error (TPE)(1). TPE =

ReferenceAccuracy 2

+ TemperatureEffect 2

+ StaticPressureEffect 2 = 0.105% of span Where:

Reference Accuracy =

Ambient Temperature Effect = 0.0125-----URL-+ 0.0625% per 50 F = 0.0833% of span 0.04% of span Span Static Pressure Effect =

Span 0.1% reading per 1000 psi (69 bar) = 0.05% of span at maximum span Step 4: Calculate the stability per month. Stability = -0.125 URL- % of span for 5 years = 0.0021% of URL for one month

Span Step 5: Calculate calibration frequency. Cal. Freq.

Req. Performance TPE

------------------------------------------------------------- = -------------------------------------------- = 45 months Stability per Month 0.0021%

0.2% 0.105%

5.3.3 Compensating for span line pressure effects (range 4 and 5) Rosemount 3051 Range 4 and 5 Pressure Transmitters require a special calibration procedure when used in differential pressure applications. The purpose of this procedure is to optimize transmitter performance by reducing the effect of static line pressure in these applications. The Rosemount 3051 Differential Pressure Transmitters (ranges 0 through 3) do not require this procedure because optimization occurs at the sensor. The systematic span shift caused by the application of static line pressure is -0.95% of reading per 1000psi (69 bar) for Range 4 transmitters, and -1% of reading per 1000psi (69 bar) for Range 5 transmitters. Using the following procedure, the span effect can be corrected to 0.2% of reading per 1000 psi (69 bar) for line pressures from 0 to 3626 psi (0 to 250 bar). Use the following example to compute correct input values. Example A range 4 differential pressure HART transmitter (Rosemount 3051CD4...) will be used in an application with a static line pressure of 1200 psi (83 bar). The transmitter output is ranged with the lower range value at 500 inH2O (1, 2 bar) and the upper range value at 1500 inH2O (3, 7 bar). To correct for systematic error caused by high static line pressure, first use the following formulas to determine the corrected values for the high trim value. High trim value:

HT = (URV - (S/100 x P/1000 x LRV) Where:

HT =

URV =

S =

P =

Corrected high trim value Upper range value Span shift per specification (as a percent of reading) Static line pressure in psi 1. Zero static pressure effect removed by zero trimming at line pressure. OperationandMaintenance 57 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA 5.4 5.4.1 In this example:

URV =

S =

P =

LT =

LT =

1500 inH2O (3.74 bar) 0.95%

1200 psi 1500 (0.95%/100 x 1200 psi/1000 psi v 1500 inH2O) 1517.1 inH2O Complete the upper sensor trim procedure as described in Sensor trim on page 59. In the example above, at step 4, apply the nominal pressure value of 1500 inH2O. However, enter the calculated correct upper sensor trim value of 1517.1 inH2O with a Field Communicator. Note The range values for the upper and lower range points should be at the nominal URV and LRV. In the example above, the values are 1500 inH2O and 500 inH2O respectively. Confirm the values on the HOME screen of the Field Communicator. Modify, if needed, by following the steps in Set range points on page 8. Trim the pressure signal Sensor trim overview A sensor trim corrects the pressure offset and pressure range to match a pressure standard. The upper sensor trim corrects the pressure range and the lower sensor trim (zero trim) corrects the pressure offset. An accurate pressure standard is required for full calibration. A zero trim can be performed if the process is vented, or the high and low side pressure are equal (for differential pressure transmitters). Zero trim is a single-point offset adjustment. It is useful for compensating for mounting position effects and is most effective when performed with the transmitter installed in its final mounting position. Since this correction maintains the slope of the characterization curve, it should not be used in place of a sensor trim over the full sensor range. When performing a zero trim, ensure the equalizing valve is open and all wet legs are filled to the correct levels. Line pressure should be applied to the transmitter during a zero trim to eliminate line pressure errors. Refer to Manifold operation on page 39. Note Do not perform a zero trim on Rosemount 3051 Wireless Absolute Pressure Transmitters. Zero trim is zero based, and absolute pressure transmitters reference absolute zero. To correct mounting position effects on a Rosemount 3051 Wireless, perform a low trim within the sensor trim function. The low trim function provides an offset correction similar to the zero trim function, but it does not require zero-based input. Sensor trim is a 2-point sensor calibration where two end-point pressures are applied, and all output is linearized between them. Always adjust the low trim value first to establish the correct offset. Adjustment of the high trim value provides a slope correction to the characterization curve based on the low trim value. The trim values allow you to optimize performance over your specified measuring range at the calibration temperature. 58 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 During a trim operation, the Rosemount 3051 Wireless is placed in high power refresh mode, which provides frequent pressure measurement updates and allows the configured damping to take effect. This behavior allows for more accurate calibration of the device. When the device is in high power refresh mode, the battery power supply will be depleted more rapidly. Figure 5-2. Sensor Trim Example A B A B A. Before trim B. After trim 5.4.2 Sensor trim When performing a sensor trim, both the upper and lower limits can be trimmed. If both upper and lower trims are to be performed, the lower trim must be done prior to the upper trim. Note Use a pressure input source that is at least four times more accurate than the transmitter, and allow the input pressure to stabilize for ten seconds before entering any values. Performing a sensor trim with a Field Communicator From the Homescreen, enter the Fast Key sequence and follow the steps within the Field Communicator to complete the sensor trim. Device Dashboard Fast Keys 3, 5, 1, 1 To calibrate the transmitter using the sensor trim function:

1. Assemble and power the entire calibration system including the Rosemount 3051, Field Communicator/AMS Device Manager, power supply, pressure input source, and readout device. 2. From the Homescreen, select 3: Service Tools. 3. Select 5: Maintenance 4. Select 1: Calibration. 5. Select 1: Sensor Trim 6. Select 2: Lower Sensor Trim. The lower sensor trim value should be the sensor trim point that is closest to zero. OperationandMaintenance 59 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA Note Select pressure points so that lower and upper values are equal to or outside the expected process operation range. 7. Follow the on-screen instructions to complete the adjustment of the lower value. 8. Repeat the procedure for the upper value. Select 1: Upper Sensor Trim and follow the on-screen instructions to complete the adjustment of the upper value. Performing a sensor trim with AMS Device Manager 1. Right click on the device and, under the Methoddrop down menu, move cursor over Calibrate and, under SensorTrim, select Lower Sensor Trim. 2. Follow the screen prompts to perform a Sensor Trim using AMS Device Manager. 3. If desired right click on the device and under the Methoddrop down menu, move cursor over Calibrateand under SensorTrimand select Upper Sensor Trim Performing a Digital Zero Trim (option DZ) A Digital Zero Trim (option DZ) provides the same function as a zero/lower sensor trim, but can be completed in hazardous areas at any given time by simply pushing the zero trim button when the transmitter is at zero pressure. If the transmitter is not close enough to zero when the button is pushed, the command may fail due to excess correction. If ordered, a Digital Zero Trim can be performed by utilizing configuration buttons located inside the housing of the transmitter, see Figure 5-1 on page 56 for DZ button location. 1. Remove the electronics housing cover. 2. Press and hold the Digital zero button for at least two seconds then release to perform a Digital Zero Trim 5.4.3 Recall factory trimsensor trim The Recall Factory TrimSensor Trim command allows the restoration of the as-shipped factory settings of the Sensor Trim. This command can be useful for recovering from an inadvertent zero trim of an absolute pressure unit or inaccurate pressure source. Recalling factory trim with Field Communicator From the HOMEscreen, enter the Fast Key sequence and follow the steps within the Field Communicator to complete the Sensor Trim. 3, 5, 1, 2 Device Dashboard Fast Keys Recalling factory trim with AMS Device Manager Right click on the device and, under the Methoddrop down menu, move cursor over Calibrate and select Restore Factory Calibration. 1. Click Next after setting the control loop to manual. 2. Select Sensor Trim under Trimtorecalland select Next. 3. Follow the screen prompts to recall sensor trim. 60 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 5.4.4 5.4.5 Line pressure effect (range 2 and 3) The following specifications show the static pressure effect for the Rosemount 3051 Range 2 and 3 Pressure Transmitters used in differential pressure applications where line pressure exceeds 2000 psi

(138 bar). Zero effect 0.1% of the upper range limit plus an additional 0.1% of upper range limit error for each 1000 psi (69 bar) of line pressure above 2000 psi (138 bar). Example: Line pressure is 3000 psi (207 bar) for ultra performance transmitter. Zero effect error calculation:

{0.05 + 0.1x [3 kpsi - 2 kpsi]} = 0.15% of the upper range limit Span effect Refer to Line pressure effect (range 2 and 3) on page 61. Compensating for line pressure (range 4 and 5) The Rosemount 3051 Wireless Range 4 and 5 Transmitters require a special calibration procedure when used in differential pressure applications. The purpose of this procedure is to optimize transmitter performance by reducing the effect of static line pressure in these applications. The Rosemount 3051 Wireless Differential Transmitters (Ranges 1, 2, and 3) do not require this procedure because optimization occurs in the sensor. Applying high static pressure to the Rosemount 3051 Wireless Range 4 and 5 Transmitters causes a systematic shift in the output. This shift is linear with static pressure; correct it by performing the Sensor trim procedure on page 59. The following specifications show the static pressure effect for the Rosemount 3051 Wireless Range 4 and 5 Transmitters used in differential pressure applications:

Zero effect 0.1% of the upper range limit per 1000 psi (69 bar) for line pressures from 0 to 2000 psi

(0 to 138 bar) For line pressures above 2000 psi (138 bar), the zero effect error is 0.2% of the upper range limit plus an additional 0.2% of upper range limit error for each 1000 psi (69 bar) of line pressure above 2000 psi

(138 bar). Example: Line pressure is 3000 psi (3 kpsi). Zero effect error calculation:

{0.2 + 0.2 x [3 kpsi - 2 kpsi]} = 0.4% of the upper range limit Span effect Correctable to 0.2% of reading per 1000 psi (69 bar) for line pressures from 0 to 3626 psi (0 to 250 bar) The systematic span shift caused by the application of static line pressure is 1.00% of reading per 1000 psi (69 bar) for Range 4 transmitters, and 1.25% of reading per 1000 psi (69 bar) for Range 5 transmitters. Use the following example to compute corrected input values. OperationandMaintenance 61 Operation and Maintenance May 2017 Example Reference Manual 00809-0100-4100, Rev BA A transmitter with model number 3051_CD4 will be used in a differential pressure application where the static line pressure is 1200 psi (83 bar). The transmitter output is ranged with 4 mA at 500 inH2O

(1,2 bar) and 20 mA at 1500 inH2O (3,7 bar). To correct for systematic error caused by high static line pressure, first use the following formulas to determine corrected values for the low trim and high trim. LT = LRV + S x (LRV) x P Where:

LT =

LRV =

S =

P =

Corrected low trim value Lower range value

(Span shift per specification) Static line pressure HT = URV + S x (URV) x P Where:

In this example. HT =

URV =

S =

P =

URV =

LRV =

P =

S =

Corrected high trim value Upper range value

(Span shift per specification) Static line pressure 1500 inH2O (3.74 bar) 500 inH2O (1.25 bar) 1200 psi (82.74 bar) 0.01/1000 To calculate the low trim (LT) value:

LT =

LT =

500 + (0.01/1000)(500)(1200) 506 inH2O (1.26 bar) To calculate the high trim (HT) value:

HT =

HT =

1500 + (0.01/1000)(1500)(1200) 1518 inH2O (3.78 bar) Complete a Rosemount 3051 Wireless sensor trim and enter the corrected values for low trim (LT) and high trim (HT), refer to Sensor trim on page 59. Enter the corrected input values for low trim and high trim through the Field Communicator keypad after you apply the nominal value of pressure as the transmitter input. Note After sensor trimming Rosemount 3051 Wireless Range 4 and 5 Transmitters for high differential pressure applications, verify the lower and upper operating points are at nominal values using the Field Communicator. 62 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 5.5 5.5.1 LCD display screen messages Startup screen sequence The following screens will display when the power module is first connected to the Rosemount 3051 Wireless. X X X X X X X X X x x x x x x x x x 3 0 5 1 W I r e l s A b c d e f g h P R E S S 5 8. 0 P S I All Segments On: Used to visually determine if there are any bad segments on the LCD display. Device Identification: Used to determine Device Type. Device Information - Tag: User entered tag which is eight characters long - will not display if all characters are blank PV Screen - process pressure value OperationandMaintenance 63 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA S N S R 2 5. 0 0 d e g c D E V 2 5. 2 5 d e g c S u p l y 3. 6 0 v o l t s P R C N T 7. 2 1 R A N G E a l e r t p r e s n t SV Screen - sensor temperature value TV Screen - device temperature value QV Screen - voltage reading at the power supply terminals Percent Range Screen - percent range reading Alert Screen - at least one alert is present - this screen will not display if no alerts are present 64 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 5.5.2 Diagnostic button screen sequence The following five screens will display when the device is operating properly and the Diagnostic Button has been pressed. OperationandMaintenance A b c d e f g h i d - 1 2 3 4 5 6 7 8 n e t w k 13 0 5 I D n e t w k O K S u p l y 3. 6 0 v o l t s Device Information - Tag: User entered tag which is eight characters long - will not display if all characters are blank Device Identification: Used to determine Device ID Diagnostic Button Screen 3: Assuming the device has the correct join key, this ID tells the user what network the device can connect with Diagnostic Button Screen 4: The device has joined a network and has been fully configured and has multiple parents Diagnostic Button Screen 5: Voltage reading at the power supply terminals 65 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA 5.5.3 Network diagnostic status screens These screens display the network status of the device. Only one will be shown during the startup sequence or diagnostic sequence. n e t w k u n k n w n n e t w k I N I T n e t w k i d l e n e t w k D I S C N T Diagnostic Button Screen 4.1: The device is attempting to start the radio Diagnostic Button Screen 4.2: The device has just restarted Diagnostic Button Screen 4.3: The device is starting to join the process Diagnostic Button Screen 4.4: The device is in a disconnected state and requires a Force Join command to join the network 66 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 N E T w K S R C H N G n e t w k N E G O T n e t w k c o n e c t n e t w k L I M - O P n e t w k O K Diagnostic Button Screen 4.5: The device is searching for the Network Diagnostic Button Screen 4.6: The device is attempting to join a network Diagnostic Button Screen 4.7: The device is connected to the Network, but is in a Quarantined state Diagnostic Button Screen 4.8: The device is joined and operational, but is running with limited bandwidth for sending periodic data Diagnostic Button Screen 4.9: The device has joined a network and has been fully configured and has multiple parents OperationandMaintenance 67 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA 5.5.4 Device Diagnostic screens The following screens will show the device diagnostics depending on the state of the device. D E V f A i l u r P R E S S 5 8. 0 P S I S N S R 2 5. 0 0 d e g c D E V 2 5. 2 5 d e g c S u p l y 3. 6 0 v o l t s Device Information - Status: There is a critical error which may prevent the device from operating correctly. Check additional status screens for more information. PV Screen - process pressure value SV Screen - sensor temperature value TV Screen - device temperature value QV Screen - voltage reading at the power supply terminals 68 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 P R C N T 7. 2 1 R A N G E a l e r t p r e s n t A b c d e f g h i d - 1 2 3 4 5 6 7 8 s u p l y f a i l u r Percent Range Screen - percent range reading Alert Screen - at least one alert is present - this screen will not display if no alerts are present Diagnostic Button Screen 1 - Tag: User entered tag which is eight characters long - will not display if all characters are blank Diagnostic Button Screen 2: The devices identifier that is used to make up the HART long address - the Smart Wireless Gateway may use this to help identify devices if no unique user tag is available Diagnostic Button Screen 7.1: The terminal voltage has dropped below level of operating limit. Replace the power module (part number: 701PGNKF) OperationandMaintenance 69 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA s u p l y l o w r a d i o f a i l u r c o n f g f a i l u r c o n f g w a r n s n s r f a i l u r Diagnostic Button Screen 7.2: The terminal voltage is below the recommended operating range - the Power Module should be replaced Diagnostic Button Screen 8: The device may not be able to communicate with the radio or the radio has an internal error. In this state the device may still be operational and publishing HART data Diagnostic Button Screen 9.1: Configuration of the transmitter is invalid such that critical operation of the device may be affected - check the extended configuration status to identify which configuration item(s) need to be corrected Diagnostic Button Screen 9.2: Configuration of the transmitter is invalid such that non-critical operation of the device may be affected - check the extended configuration status to identify which configuration item(s) need to be corrected Diagnostic Button Screen 10.1: A sensor attached to the transmitter has failed, and valid readings from that sensor are no longer possible - check the sensor and sensor wiring connections - check additional status for more detailed information of the failure source 70 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Operation and Maintenance May 2017 s n s r w a r n Diagnostic Button Screen 10.2: A sensor attached to the transmitter is degraded, readings from that sensor may not be within accuracy specifications - check the process, and sensor wiring connections - check additional status for more detailed information of the warning source Note Use the Rosemount Wireless LCD part number: 00753-9004-0002. OperationandMaintenance 71 Operation and Maintenance May 2017 Reference Manual 00809-0100-4100, Rev BA 72 OperationandMaintenance Reference Manual 00809-0100-4100, Rev BA Troubleshooting May 2017 Section 6 Troubleshooting 6.1 6.2 Overview . page 73 Safety messages . page 73 Removing from service . page 76 Overview Table 6-1, Table 6-2, and Table 6-3 provide summarized maintenance and troubleshooting suggestions for the most common operating problems for the transmitter and the wireless network connection. Safety messages Procedures and instructions in this section may require special precautions to ensure the safety of the personnel performing the operations. Information that raises potential safety issues is indicated by a warning symbol ( ). Refer to the following safety messages before performing an operation preceded by this symbol. Failure to follow these installation guidelines could result in death or serious injury. Make sure only qualified personnel perform the installation. Explosions could result in death or serious injury. Installation of this transmitter in an explosive environment must be in accordance with the appropriate local, national, and international standards, codes, and practices. Review the approvals section of this manual for any restrictions associated with a safe installation. Before connecting a Field Communicator in an explosive atmosphere, make sure the instruments are installed in accordance with intrinsically safe or non-incendive field wiring practices. Verify the operating atmosphere of the transmitter is consistent with the appropriate hazardous locations certifications. Install and tighten process connectors before applying pressure. Process leaks could result in death or serious injury. Electrical shock could cause death or serious injury. Avoid contact with the leads and terminals. High voltage that may be present on leads can cause electrical shock. This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. This device must be installed to ensure a minimum antenna separation distance of 20 cm (8-in.) from all persons. Troubleshooting 73 Troubleshooting May 2017 Reference Manual 00809-0100-4100, Rev BA Table 6-1. Device Status Information Device status Description Electronics Failure Radio Failure Supply Voltage Failure Electronics Warning Pressure has Exceeded Limits Electronics Temperature has Exceeded Limits Supply Voltage Low Database Memory Warning Configuration Error An electronics error that could impact the device measurement reading has occurred. The wireless radio has detected a failure or stopped communicating. The supply voltage is too low for the device to function properly. The device has detected an electronics error that does not currently impact the device measurement reading. The sensor has exceeded the maximum measurement range. The electronics temperature has exceeded the transmitter's maximum range. The supply voltage is low and may soon affect broadcast updates. The device has failed to write to the database memory. Any data written during this time may have been lost. The device has detected a configuration error based on a change to the device. Recommended action 1. Reset the device 2. Reconfirm all configuration items in the device 3. If the condition persists, replace the electronics 1. Reset the device 2. If the condition persists, replace the electronics 1. Replace the power module 1. Reset the device 2. Reconfirm all configuration items in the device 3. If the condition persists, replace the electronics 1. Check process for possible saturation condition 2. Verify the appropriate sensor was chosen for the application 3. Reconfirm sensor configuration 4. Reset the device 5. Replace the sensor 1. Verify environmental temperature is within the transmitters range 2. Remote mount the transmitter away from process and environmental conditions 3. Reset the device 4. If the condition persists, replace the electronics 1. Replace the power module 1. Reset the device 2. Reconfirm all configuration items in the device 3. If logging dynamic data not needed, this advisory can be safely ignored If the condition persists, replace the electronics 1. Click on details for more information 2. Correct the parameter that has a configuration error 3. Reset the device 4. If the condition persists, replace the electronics 74 Troubleshooting Reference Manual 00809-0100-4100, Rev BA Troubleshooting May 2017 Table 6-1. Device Status Information Device status Description HI HI Alarm HI Alarm LO Alarm LO LO Alarm Button Stuck Simulation Active The primary variable has surpassed the user defined limit. The primary variable has surpassed the user defined limit. The primary variable has surpassed the user defined limit. The primary variable has surpassed the user defined limit. A buttons on the Electronics Board is detected as stuck in the active position. The device is in simulation mode and may not be reporting actual information. Recommended action 1. Verify the process variable is within user specified limits 2. Reconfirm the user defined alarm limit 3. If not needed, disable this alert 1. Verify the process variable is within user specified limits 2. Reconfirm the user defined alarm limit 3. If not needed, disable this alert 1. Verify the process variable is within user specified limits 2. Reconfirm the user defined alarm limit 3. If not needed, disable this alert 1. Verify the process variable is within user specified limits 2. Reconfirm the user defined alarm limit 3. If not needed, disable this alert 1. Check the buttons for obstructions 2. Reset the device 3. If the condition persists, replace the electronics 1. Verify simulation is no longer required 2. Disable Simulation mode in Service Tools 3. Reset the device Table 6-2. Troubleshooting Symptom Transmitter will not respond to changes in applied pressure Digital Pressure Variable reading is low or high Digital Pressure Variable reading is erratic LCD display is not functioning Recommended actions Check test equipment Check impulse piping or manifold for blockage Verify applied pressure is within sensor limits Check test equipment (verify accuracy) Check impulse piping for blockage or low fill in wet leg Verify transmitter is calibrated properly Verify pressure calculations for application Check application for faulty equipment in pressure line Verify transmitter is not reacting directly to equipment turning on/off Reseat the LCD according to Installing the LCD display on page 36 Verify the LCD display is a wireless LCD Meter. An LCD from a wired device will not function in a wireless device. Rosemount part number: 00753-9004-0002 Verify the LCD display mode is not disabled. Troubleshooting 75 Troubleshooting May 2017 Table 6-3. Wireless Network Troubleshooting Reference Manual 00809-0100-4100, Rev BA Symptom Device not joining the network Short battery life Limited Bandwidth Error Recommended actions Verify network ID and join key Wait longer (30 min.) Enable High Speed Operation (Active Advertising) on Smart Wireless Gateway Check Power Module Verify device is within range of at least one other device Verify network is in active network advertise Power Cycle device to try again Verify device is configured to join. Send the Force Join command to the device See troubleshooting section of Smart Wireless Gateway for more information Check that Power Always On mode is off Verify device is not installed in extreme temperatures Verify device is not a network pinch point Check for excessive network rejoins due to poor connectivity Reduce the Update Rate on transmitter Increase communication paths by adding more wireless points Check that device has been online for at least an hour Check that device is not routing through a limited routing node Create a new network with an additional Smart Wireless Gateway 6.3 Removing from service Follow these steps:

1. Follow all plant safety rules and procedures. 2. 3. Remove the transmitter from the process connection. Isolate and vent the process from the transmitter before removing the transmitter from service. a. The Rosemount 3051C Wireless Transmitter is attached to the process connection by four bolts and two cap screws. Remove the bolts and screws and separate the transmitter from the process connection. Leave the process connection in place and ready for re-installation. Reference Figure 3-6 on page 28 for coplanar flange. b. The Rosemount 3051T Wireless Transmitter is attached to the process by a single hex nut process connection. Loosen the hex nut to separate the transmitter from the process. Do not wrench on neck of transmitter. See warning in Inline process connection on page 34. 4. Do not scratch, puncture, or depress the isolating diaphragms. 5. Clean isolating diaphragms with a soft rag and a mild cleaning solution, and rinse with clear water. 6. Whenever you remove the process flange or flange adapters, visually inspect the PTFE O-rings. Replace the O-rings if they show any signs of damage, such as nicks or cuts. Undamaged O-rings may be reused. 76 Troubleshooting Reference Manual 00809-0100-4100, Rev BA Troubleshooting May 2017 6.4 Service support Within the United States, call the Emerson Instrument and Valve Response Center using the 1-800-654-RSMT (7768) toll-free number. This center, available 24 hours a day, will assist you with any needed information or materials. The center will ask for product model and serial numbers, and will provide a Return Material Authorization (RMA) number. The center will also ask for the process material to which the product was last exposed. For inquiries outside of the United States, contact the nearest Emerson representative for RMA instructions. To expedite the return process outside of the United States, contact the nearest Emerson representative. Individuals who handle products exposed to a hazardous substance can avoid injury if they are informed of and understand the hazard. The product being returned will require a copy of the required Material Safety Data Sheet (MSDS) for each substance must be included with the returned goods. Emerson Instrument and Valve Response Center representatives will explain the additional information and procedures necessary to return goods exposed to hazardous substances. Troubleshooting 77 Troubleshooting May 2017 Reference Manual 00809-0100-4100, Rev BA 78 Troubleshooting Reference Manual 00809-0100-4100, Rev BA Specifications and Reference Data May 2017 Appendix A Specifications and Reference Data Performance specifications . page 79 Functional specifications . page 82 Physical specifications . page 85 Dimensional drawings . page 88 Ordering information . page 90 A.1 Performance specifications For zero-based spans, reference conditions, silicone oil fill, glass-filled PTFE O-rings, SST materials, coplanar flange

(Rosemount 3051C Pressure Transmitter) or 1/2 in.14 NPT

(Rosemount 3051T) process connections, digital trim values set to equal range points. A.1.1 Conformance to specification

(3[Sigma]) Technology leadership, advanced manufacturing techniques and statistical process control ensure specification conformance to 3or better. A.1.2 Digital output For wireless devices, use calibrated range in place of span. A.1.3 Reference accuracy Models Rosemount 3051 WirelessHART Rosemount 3051C Ranges 24

+ 0.04% of span For spans less than 10:1 accuracy = 0.015 + 0.005URL% of Span

Span Range 1 + 0.10% of span For spans less than 15:1 accuracy = 0.025 + 0.005-URL% of Span

Span Range 0 (CD) + 0.10% of span For spans less than 2:1 accuracy = + 0.05% of URL Ranges 5 0.065% of span For spans less than 10:1, accuracy =

0.015 + 0.005-URL % of Span

Span SpecificationsandReferenceData Rosemount 3051CA Ranges 14 Rosemount 3051T Ranges 14

+ 0.04% of span For spans less than 10:1 accuracy = 0.0075URL% of Span

Span

+ 0.04% of span For spans less than 10:1 accuracy = 0.0075URL% of Span

Span Range 5 + 0.075% of span For Spans less than 10:1 accuracy = 0.0075URL % of Span

Span Rosemount 3051L Ranges 24 Rosemount 3051L Range 1

+ 0.075% of span For spans less than 10:1 accuracy = 0.025 + 0.005URL % of Span

Span 0.10% of span For spans less than 10:1, accuracy =

0.025 + 0.005-URL % of Span

Span 79 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 A.1.4 Flow performance - flow reference accuracy Rosemount 3051CFA Annubar Flowmeter (for Rosemount 3051 and enhanced 3051) Ranges 2-3 N/A 1.60% of flow rate at 8:1 flow turndown Rosemount 3051CFC Compact Orifice Flowmeter Conditioning option C Ranges 2-3

=0.4

=0.65 1.75% of flow rate at 8:1 flow turndown 1.95% of flow rate at 8:1 flow turndown Rosemount 3051CFC Compact Orifice Flowmeter Orifice type option P(1) Ranges 2-3

=0.4

=0.65 2.00% of flow rate at 8:1 flow turndown 2.00% of flow rate at 8:1 flow turndown Rosemount 3051CFP Integral Orifice Flowmeter Ranges 2-3

<0.1 0.1< <0.2 0.2< <0.6 0.6< <0.8 3.00% of flow rate at 8:1 flow turndown 1.95% of flow rate at 8:1 flow turndown 1.75% of flow rate at 8:1 flow turndown 2.15% of flow rate at 8:1 flow turndown 1. For smaller line sizes, see Rosemount Compact Orifice. A.1.5 Total performance Total performance is based on combined errors of reference accuracy, ambient temperature effect, and static pressure effect. For 50 F (28 C) temperature changes, up to 1000 psi (6.9 MPa) line pressure (CD only), from 1:1 to 5:1 rangedown. Total performance Models Rosemount 3051C Ranges 25 Rosemount 3051T Ranges 14 0.12% of span 0.12% of span A.1.6 Long term stability Models Long term stability Rosemount 3051C Ranges 2-5 0.125% of URL for 5 years 50 F (28 C) temperature changes, and up to 1000 psi (6,9 MPa) line pressure. Rosemount 3051CD, 3051CG Low/Draft Range Ranges 01 Rosemount 3051CA Low Range Range 1 0.2% of URL for 1 year 0.125% of URL for 5 years 50 F (28 C) temperature changes, and up to 1000 psi (6.9 MPa) line pressure. Rosemount 3051T Ranges 15 0.125% of URL for 5 years 50 F (28 C) temperature changes, and up to 1000 psi (6,9 MPa) line pressure. 80 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA A.1.7 Line pressure effect per 1000 psi (6.9 MPa) A.1.9 Mounting position effects Models Mounting position effects Rosemount 3051C Rosemount 3051L Rosemount 3051CA, 3051T Zero shifts up to 1.25 inH2O (3,11 mbar), which can be calibrated out. No span effect. With liquid level diaphragm in vertical plane, zero shift of up to 1 inH2O (2,49 mbar). With diaphragm in horizontal plane, zero shift of up to 5 inH2O

(12,43 mbar) plus extension length on extended units. All zero shifts can be calibrated out. No span effect. Zero shifts up to 2.5 inH2O (6,22 mbar), which can be calibrated out. No span effect. A.1.10 Vibration effect Less than 0.1% of URL when tested per the requirements of IEC60770-1: 1999 field or pipeline with high vibration level

(1060 Hz 0.21mm displacement peak amplitude/602000 Hz 3g). A.1.11 Electromagnetic compatibility (EMC) Meets all industrial environment requirements of EN61326. Maximum deviation < 1% Span during EMC disturbance. For line pressures above 2000 psi (13,7 MPa) and ranges 45, see Rosemount 3051 HART Reference Manual, Rosemount 3051 FOUNDATION Fieldbus Reference Manual, and Rosemount 3051 PROFIBUS PA Reference Manual. Models Rosemount 3051CD, 3051CF Line pressure effect (for Rosemount 3051 and enhanced 3051) Zero error Ranges 23 0.05% of URL/1000 psi (68.9 bar) for line pressures from 0 to 2000 psi (0 to 13.7 MPa) Range 1 0.25% of URL/1000 psi (68.9 bar) Range 0 0.125% of URL/100 psi (6.89 bar) Span error Ranges 23 0.1% of reading/1000 psi (68.9 bar) Range 1 0.4% of reading/1000 psi (68.9 bar) Range 0 0.15% of reading/100 psi (6.89 bar) A.1.8 Ambient Temperature Effect per 50 F (28 C) Models Ambient temperature effect Rosemount 3051C Ranges 25

(0.0125% URL + 0.0625% span) from 1:1 to 5:1

(0.025% URL + 0.125% span) from 5:1 to 150:1 Range 1 (0.1% URL + 0.25% span) from 1:1 to 30:1 Range 0 (0.25% URL + 0.05% span) from 1:1 to 30:1 Rosemount 3051CA Ranges 14 Rosemount 3051T Range 24

(0.025% URL + 0.125% span) from 1:1 to 30:1

(0.035% URL + 0.125% span) from 30:1 to 150:1

(0.025% URL + 0.125% span) from 1:1 to 30:1

(0.035% URL + 0.125% span) from 30:1 to 150:1 Range 1 (0.025% URL + 0.125% span) from 1:1 to 10:1

(0.05% URL + 0.125% span) from 10:1 to 150:1 Range 5 (0.1% URL + 0.15% span) Rosemount 3051L See Instrument Toolkit software. SpecificationsandReferenceData 81 e g n a R 0(1) 1(2) 2 3 4 Reference Manual 00809-0100-4100, Rev BA A.2 Functional specifications A.2.1 Service Liquid, gas, and vapor applications A.2.2 Range and sensor limits Specifications and ReferenceData May 2017 Table A-1. Rosemount 3051CD, 3051CG, 3051CF, and 3051L Range and Sensor Limits Lower (LRL) Minimum span Upper

(URL) Rosemount 3051CD Differential 3051CF Flowmeters 0.1 inH2O

(0,25 mbar) 0.5 inH2O

(1,2 mbar) 1.7 inH2O

(4,2 mbar) 6.7 inH2O

(16,7 mbar) 2.0 psi

(137,7 mbar) 3.0 inH2O

(7,47 mbar) 25 inH2O

(62,3 mbar) 250 inH2O

(0,62 bar) 1000 inH2O

(2,49 bar) 300 psi

(20,6 bar) 3.0 inH2O

(7,47 mbar) 25 inH2O

(62,1 mbar) 250 inH2O

(0,62 bar) 1000 inH2O

(2,49 bar) 300 psi

(20,6 bar) 5(3) 13.3 psi

(917,0 bar) 2000 psi

(137,9 bar) 1. Range 0 only available with Rosemount 3051CD. 2. Range 1 only available with Rosemount 3051CD, 3051CG, or 3051CF. 3. Range 5 not available with Rosemount 3051L Differential and Rosemount 3051L Gage. 2000 psi

(137,9 bar) Rosemount 3051CG Gage Rosemount 3051L Differential Rosemount 3051L Gage N/A 25 inH2O

(62,1 mbar) 250 inH2O

(0,62 bar) 0.5 psia

(34,5 mbar abs) 0.5 psia

(34,5 mbar abs) 0.5 psia

(34,5 mbar abs) N/A N/A 250 inH2O

(-0,62 bar) 1000 inH2O

(2,49 bar) 300 psi

(20,6 bar) N/A N/A 250 inH2O

(0,62 bar) 0.5 psia

(34,5 mbar abs) 0.5 psia

(34,5 mbar abs) N/A N/A Table A-2. Rosemount 3051CA and 3051T Range and Sensor Limits Rosemount 3051CA Range 1 2 3 4 Minimum Span 0.3 psia

(20,7 mbar) 1 psia

(68,9 mbar) 5.3 psia

(367,7 mbar) 26.7 psia

(1,84 bar) Range and sensor limits Range Upper

(URL) 30 psia

(2,07 bar) 150 psia

(10,3 bar) 800 psia

(55,2 bar) 4000 psia

(275,8 bar) Lower

(LRL) 0 psia

(0 bar) 0 psia

(0 bar) 0 psia

(0 bar) 0 psia

(0 bar) 1 2 3 4 5 Minimum Span 0.3 psi

(20,6 mbar) 1 psi

(0,068 bar) 5.3 psi

(0,36 bar) 26.6 psi

(1,83 bar) 2000 psi

(137,9 bar) Rosemount 3051T Range and sensor limits Upper

(URL) 30 psi

(2,07 bar) 150 psi

(10,3 bar) 800 psi

(55,2 bar) 4000 psi

(275,8 bar) 10000 psi

(689,4 bar) Lower

(LRL) 0 psia

(0 bar) 0 psia

(0 bar) 0 psia

(0 bar) 0 psia

(0 bar) 0 psia

(0 bar) Lower(1)

(LRL)

(Gage) 14.7 psig

(1,01 bar) 14.7 psig

(1,01 bar) 14.7 psig

(1,01 bar) 14.7 psig

(1,01 bar) 14.7 psig

(1,01 bar) 1. Assumes atmospheric pressure of 14.7 psig. 82 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA A.2.3 Zero and span adjustment requirements A.3.8 Overpressure limits Zero and span values can be set anywhere within the range limits stated in Table A-1. Span must be greater than or equal to the minimum span stated in Table A-1. A.3 Wireless self-organizing networks A.3.1 Output IEC 62591 (WirelessHART) 2.4 GHz DSSS A.3.2 Wireless radio (internal antenna, WP option) Frequency: 2.4 - 2.4835 GHz Channels: 15 Modulation: IEEE 802.15.4 compliant DSSS Transmission: maximum of 10 dBm EIRP A.3.3 Local display The optional 3-line, 7-digit LCD display can show user-selectable information such as primary variable in engineering units, scaled variable, percent of range, sensor module temperature, and electronics temperature. The display updates based on the wireless update rate. A.3.4 Digital zero trim Digital zero trim (option DZ) is an offset adjustment to compensate for mounting position effects, up to 5% of URL. A.3.5 Update rate User selectable, one second to 60 minutes. A.3.6 Wireless sensor module for in-line transmitters The Rosemount 3051 Wireless requires the engineered polymer housing to be selected. The standard sensor module will come with aluminum material. If stainless steel is required, the option WSM must be selected. A.3.7 Power module Field replaceable, keyed connection eliminates the risk of incorrect installation. Intrinsically Safe Lithium-thionyl chloride Power Module (green power module, model number 701PGNKF) with PBT/PC enclosure. 10-year life at one minute update rate.(1) Rosemount 3051CD/CG/CF Range 0: 750 psi (51.7 bar) Range 1: 2000 psig (137.9 bar) Ranges 25: 3626 psig (250 bar) 4500 psig (310.3 bar) for option code P9 Rosemount 3051CA 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) Rosemount 3051TG/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) Rosemount 3051L T For Rosemount 3051L or level flange option codes FA, FB, FC, FD, FP, and FQ, limit is 0 psia to the flange rating or sensor rating, whichever is lower. Table A-3. Rosemount 3051L and Level Flange Rating Limits Standard Type CS rating SST rating ANSI/ASME ANSI/ASME ANSI/ASME Class 150 Class 300 Class 600 285 psig 740 psig 275 psig 720 psig 1480 psig 1440 psig At 100 F (38 C), the rating decreases with increasing temperature, per ANSI/ASME B16.5. DIN DIN DIN PN 1040 PN 10/16 PN 25/40 40 bar 16 bar 40 bar 40 bar 16 bar 40 bar At 248 F (120 C), the rating decreases with increasing temperature, per DIN 2401. 1. Reference conditions are 70 F (21 C), and routing data for three additional network devices. NOTE: Continuous exposure to ambient temperature limits of -40 F or 185 F (-40 C or 85 C) may reduce specified life by less than 20 percent. SpecificationsandReferenceData 83 Reference Manual 00809-0100-4100, Rev BA A.3.9 Static pressure limit Rosemount 3051CD only Operates within specifications between static line pressures of 0.5 psia and 3626 psig [4500 psig

(310. 3 bar) for option code P9]. Range 0: 0.5 psia and 750 psig (3.4 bar and 51.7 bar) Range 1: 0.5 psia and 2000 psig (3.4 bar and 137. 9 bar) A.3.10 Burst pressure limits 40 to 185 F (40 to 85 C) With LCD display(1): 40 to 175 F (40 to 80 C) Rosemount 3051C, 3051CF coplanar or traditional process flange 10000 psig (69 MPa). 3051T In-line Ranges 14: 11000 psi (75,8 MPa) Range 5: 26000 psig (179 MPa) A.3.11 Temperature limits Ambient Storage 40 to 185 F (40 to 85 C) With LCD display: 40 to 185 F (40 to 85 C) Process temperature limits At atmospheric pressures and above. See Table A-4. Specifications and ReferenceData May 2017 Table A-4. Rosemount 3051 Process Temperature Limits Rosemount 3051CD, 3051CG, 3051CF, 3051CA(1)(2) Silicone fill sensor with coplanar flange 40 to 250 F (40 to 121 C) with Traditional flange(3) 40 to 300 F (40 to 149 C) with level flange 40 to 300 F (40 to 149 C) with Rosemount 305 Integral Manifold(3) 40 to 300 F (40 to 149 C) Rosemount 3051T In-Line (process fill fluid)(1)(4) Silicone fill sensor 40 to 250 F (40 to 121 C) Rosemount 3051L Low-Side temperature limits(1)(2) Silicone fill sensor 40 to 250 F (40 to 121 C) Rosemount 3051L High-Side temperature limits

(process fill fluid) Syltherm XLT 100 to 300 F (73 to 149 C) Dow Corning Silicone 704(5) 32 to 400 F (0 to 205 C) D. C. Silicone 200 40 to 400 F (40 to 205 C) Inert 50 to 320 F (45 to 160 C) Glycerin and water 5 to 200 F (18 to 93 C) Neobee M-20 5 to 400 F (18 to 205 C) Propylene Glycol and water 1. Process temperatures above 185 F (85 C) require derating the ambient 5 to 203 F (18 to 93 C) limits by a 1.5:1 ratio. 2. 220 F (104 C) limit in vacuum service; 130 F (54 C) for pressures below 0.5 psia. 100 C) 0.5 psia. 3. Rosemount 3051CD0 process temperature limits are -40 to 212 F (-40 to 4. 220 F (104 C) limit in vacuum service; 130 F (54 C) for pressures below 5. Upper limit of 600 F (315 C) is available with Rosemount 1199 Seal Assemblies mounted away from the transmitter with the use of capillaries and up to 500 F (260 C) with direct mount extension. A.3.12 Humidity limits 0100 percent relative humidity A.3.13 Volumetric displacement Less than 0.005 in3 (0,08 cm3) 1. Wireless LCD display may not be readable and LCD display updates will be slower at temperature below -4 F (-20 C) 84 SpecificationsandReferenceData Specifications and Reference Data May 2017 A.3.14 Damping The damping command introduces a delay in processing which increases the response time of the transmitter; smoothing variations in output readings caused by rapid input changes. In the Rosemount 3051 Wireless, damping only takes effect when the device is placed in high power refresh mode and during calibration. In normal power mode, the effective damping is 0. Note that when the device is in high power refresh mode, battery power will be depleted rapidly. A.4 Physical specifications A.4.1 Electrical connections HART interface connections fixed to the power module. A.4.2 Process connections Rosemount 3051C 1/418 NPT on 21/8-in. centers 1/214 NPT on 2-in. (50.8 mm), 21/8-in. (54.0 mm), or 21/4-in. (57.2 mm) centers Rosemount 3051T 1/214 NPT female, G1/2 A DIN 16288 male (available in SST for range 14 transmitters only) Rosemount 3051L High 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: 1/418 NPT on flange, 1/214 NPT on process adapter Rosemount 3051CF For Rosemount 3051CFA, 3051CFC, and 3051CFP, see Rosemount DP Flowmeters and Primary Elements Product Data Sheet. Reference Manual 00809-0100-4100, Rev BA A.4.3 Process-wetted parts Process Isolating Diaphragms Isolating diaphragm material 316L SST Alloy C-276 Drain/vent valves D C 1 5 0 3 G C 1 5 0 3 T 1 5 0 3 A C 1 5 0 3 316 SST, Alloy C-276, or Alloy 400 material (Alloy 400 is not available with 3051L). Process flanges and adapters Plated carbon steel, SST cast CF-8M (cast version of 316 SST, material per ASTM-A743), C-Type cast alloy CW12MW, or cast alloy M30C Wetted O-rings Glass-filled PTFE or Graphite-filled PTFE A.4.4 Rosemount 3051L process wetted parts Flanged process connection (transmitter high side) Process diaphragms, including process gasket surface 316L SST, Alloy C-276, or Tantalum Extension CF-3M (Cast 316L SST, material per ASTM A743), or CW-12MW

(Cast C-276, material ASTM A494); fits schedule 40 and 80 pipe Mounting flange Zinc-cobalt plated CS or 316 SST Reference process connection (transmitter low side) Isolating diaphragms 316L SST or Alloy C-276 Reference flange and adapter CF-8M (Cast version of 316 SST, material per ASTM-A743) A.4.5 Non-wetted parts Electronics housing Housing material code P: PBT/PC Enclosures meet NEMA Type 4X, IP66, and IP67 when properly installed. SpecificationsandReferenceData 85 Specifications and ReferenceData May 2017 Reference Manual 00809-0100-4100, Rev BA Sensor module housing Coplanar: CF-3M (Cast version of 316L SST, material per ASTM-A743) Inline: Aluminum module painted with polyurethane or CF-3M

(Cast version of 316L SST, material per ASTM-A743) Bolts ASTM A449, Type 1 (zinc-cobalt plated carbon steel) ASTM F593G, Condition CW1 (Austenitic 316 SST) ASTM A193, Grade B7M (zinc plated alloy steel) Alloy K-500 Sensor module fill fluid Silicone Process fill fluid (Rosemount 3051L only) Syltherm XLT, D.C. Silicone 704, D.C. Silicone 200, inert, glycerin and water, Neobee M-20, propylene glycol and water. Cover O-rings Silicone Power module Field replaceable, keyed connection eliminates the risk of incorrect installation, Intrinsically Safe Lithium-thionyl chloride Power Module (green power module, model number 701PGNKF) with PBT enclosure A.4.6 Shipping weights for Rosemount 3051 Wireless Table A-5. Transmitter Weights without Options Complete transmitter(1) Weight In lb (kg) Rosemount 3051C with engineered polymer housing Rosemount 3051T with engineered polymer housing 3.90 (1.8) 1.9 (0.86) Rosemount 3051L with engineered polymer housing 1. Transmitter weights include the sensor module and housing only. Table A-6 on page 87 86 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-6. Rosemount 3051L Weights without Options Flange Flush lb. (kg) 2-in. Ext. lb (kg) 2-in., 150 3-in., 150 4-in., 150 2-in., 300 3-in., 300 4-in., 300 2-in., 600 3-in., 600 DN 50/PN 40 DN 80/PN 40 DN 100/PN 10/16 DN 100/PN 40 6.1 (2,8) 12.3 (5,6) 17.8 (8,1) 7.9 (3,6) 16.2 (7,3) 27 (12,2) 9.4 (4,3) 18.7 (8,5) 7.9 (3,6) 12.6 (5,7) 7.8 (3,5) 9.2 (4,2) Table A-7. Transmitter Option Weights Code Option N/A 13.0 (5,9) 17.5 (7,9) N/A 16.9 (7,7) 26.9 (12,2) N/A 19.4 (8,8) N/A 13.3 (6,0) 8.5 (3,9) 9.9 (4,5) Add lb. (kg) 0.1 (0.04) 4-in. Ext. lb (kg) 6-in. Ext. lb (kg) N/A 14.2 (6,4) 18.7 (8,4) N/A 18.1 (8,2) 28.1 (12,7) N/A 20.6 (9,3) N/A 14.5 (6,6) 9.7 (4,4) 11.1 (5,0) N/A 15.5 (7,0) 20.0 (9,1) N/AN/A 19.4 (8,8) 29.4 (13,3) N/A 21.9 (9,9) N/A 15.8 (7,2) 11.0 (5,0) 12.4 (5,6) M5 B4 LCD display SST mounting bracket for coplanar flange 1.0 (0.5) B1, B2, B3 Mounting bracket for traditional flange B7, B8, B9 Mounting bracket for traditional flange BA, BC SST bracket for traditional flange H2 H3 H4 H7 FC FD FA FB FP FQ Traditional flange Traditional flange Traditional flange Traditional flange Level flange3 in., 150 Level flange3 in., 300 Level flange2 in., 150 Level flange2 in., 300 DIN level flange, SST, DN 50, PN 40 DIN level flange, SST, DN 80, PN 40 WSM SST sensor module Coplanar flange Power module (701PGNKF) 2.3 (1.0) 2.3 (1.0) 2.3 (1.0) 2.4 (1.1) 2.7 (1.2) 2.6 (1.2) 2.5 (1.1) 10.8 (4.9) 14.3 (6.5) 10.7 (4.8) 14.0 (6.3) 8.3 (3.8) 13.7 (6.2) 1.0 (0.45) 1.91 (0.87) 0.4 (0.18) SpecificationsandReferenceData 87 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 A.5 Dimensional drawings Dimensions are in inches (millimeters). Process adapters (option D2) and Rosemount 305 Integral Manifolds must be ordered with the transmitter. Figure A-1. Rosemount 3051 Wireless Housing with In-Line and Coplanar Platform A B A. U-bolt bracket B. 1/2 NPT female or G1/2 A DIN16288 male process connection Dimensions are in inches (millimeters). 88 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-8. Rosemount 3051L Dimensional Specifications Except where indicated, dimensions are in inches (millimeters). Pipe size Flange thickness A Bolt circle diameter B Class Outside diameter C No. of bolts Bolt hole diameter Extension diameter(1) D O.D. gasket surface E ASME B16.5 (ANSI) 150 ASME B16.5 (ANSI) 300 ASME B16.5 (ANSI) 600 DIN 2501 PN 1040 DIN 2501 PN 25/40 2 (51) 3 (76) 0.69 (18) 4.75 (121) 6.0 (152) 0.88 (22) 6.0 (152) 7.5 (191) 4 (102) 0.88 (22) 7.5 (191) 9.0 (229) 2 (51) 3 (76) 0.82 (21) 5.0 (127) 6.5 (165) 1.06 (27) 6.62 (168) 8.25 (210) 4 (102) 1.19 (30) 7.88 (200) 10.0 (254) 2 (51) 3 (76) DN 50 DN 80 DN 100 DN 100 1.00 (25) 5.0 (127) 6.5 (165) 1.25 (32) 6.62 (168) 8.25 (210) 20 mm 24 mm 24 mm 20 mm 125 mm 160 mm 190 mm 180 mm 165 mm 200 mm 235 mm 220 mm 4 4 8 8 8 8 8 8 4 8 8 8 0.75 (19) 0.75 (19) 0.75 (19) 0.75 (19) 0.88 (22) 0.88 (22) 0.75 (19) 0.88 (22) 18 mm 18 mm 22 mm 18 mm NA 2.58 (66) 3.5 (89) NA 2.58 (66) 3.5 (89) NA 2.58 (66) NA 65 mm 89 mm 89 mm 3.6 (92) 5.0 (127) 6.2 (158) 3.6 (92) 5.0 (127) 6.2 (158) 3.6 (92) 5.0 (127) 4.0 (102) 5.4 (138) 6.2 (158) 6.2 (158) DIN 2501 PN 10/16 1. Tolerances are 0.040 (1.02), 0.020 (0.51). Class Pipe size Process side F ASME B16.5 (ANSI) 150 ASME B16.5 (ANSI) 300 ASME B16.5 (ANSI) 600 DIN 2501 PN 1040 DIN 2501 PN 25/40 DIN 2501 PN 10/16 2 (51) 3 (76) 4 (102) 2 (51) 3 (76) 4 (102) 2 (51) 3 (76) DN 50 DN 80 DN 100 DN 100 2.12 (54) 3.6 (91) 3.6 (91) 2.12 (54) 3.6 (91) 3.6 (91) 2.12 (54) 3.6 (91) 2.4 (61) 3.6 (91) 3.6 (91) 3.6 (91) Lower housing G 1/4 NPT 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 0.97 (25) 1/2 NPT 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) 1.31 (33) H 6.66 (169) 6.66 (169) 6.66 (169) 6.66 (169) 6.66 (169) 6.66 (169) 8.66 (219) 8.66 (219) 6.66 (169) 6.66 (169) 6.66 (169) 6.66 (169) SpecificationsandReferenceData 89 Reference Manual 00809-0100-4100, Rev BA A.5.1 Ordering information Specifications and ReferenceData May 2017 Table A-9. Rosemount 3051C Coplanar Pressure Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Model 3051C Transmitter type Coplanar Pressure Transmitter Measurement type D G A(1) Differential Gage Absolute Pressure range Rosemount 3051CD Rosemount 3051CG Rosemount 3051CA 1 2 3 4 5 0(2) 25 to 25 inH2O

(62.2 to 62.2 mbar) 250 to 250 inH2O

(623 to 623 mbar) 1000 to 1000 inH2O

(2.5 to 2.5 bar) 300 to 300 psi

(20.7 to 20.7 bar) 2000 to 2000 psi

(137.9 to137.9 bar) 3 to 3 inH2O

(7.5 to 7.5 mbar) Transmitter output X Wireless Materials of construction 25 to 25 inH2O

(62,1 to 62.2 mbar) 250 to 250 inH2O

(621 to 623 mbar) 393 to 1000 inH2O

(0.98 to 2.5 bar) 14.2 to 300 psi

(0.98 to 20.7 bar) 14.2 to 2000 psi

(0.98 to 137.9 bar) N/A 0 to 30 psia

(0 to 2.1 bar) 0 to 150 psia

(0 to 10.3 bar) 0 to 800 psia

(0 to 55.2 bar) 0 to 4000 psia

(0 to 275.8 bar) N/A N/A 2 3(3) 4 5 7(3) 8(3) 0 Process flange type Flange material Drain/vent Coplanar Coplanar Coplanar Coplanar Coplanar Coplanar SST SST Cast Alloy C-276 Alloy C-276 Cast Alloy 400 Alloy 400/K-500 Plated CS SST Plated CS SST Alloy C-276 Alloy C-276 Alternate process connection Isolating diaphragm(3) 316L SST Alloy C-276 2 3 90 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-9. Rosemount 3051C Coplanar Pressure Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. O-ring A B Glass-filled PTFE Graphite-filled PTFE Sensor fill fluid 1 Silicone Housing material P Engineered polymer Conduit entry size No conduit entries Wireless options (Requires Wireless output code X and Engineered Polymer housing code P) Wireless transmit rate, operating frequency and protocol WA3 User configurable transmit rate, 2.4GHz WirelessHART Antenna and SmartPower WP5 Internal antenna, compatible with green power module (I.S. power module sold separately) Options (Include with selected model number) Alternate Flange(4) H2 H3(3) H4 H7(3) HJ FA FB FC FD FP FQ HK(5) HL Traditional flange, 316 SST, SST drain/vent Traditional flange, cast Alloy C, Alloy C-276 drain/vent Traditional flange, cast Alloy 400, Alloy 400/K-500 drain/vent Traditional flange, 316 SST, Alloy C-276 drain/vent DIN compliant traditional flange, SST, 1/16 in. adapter/manifold bolting Level flange, SST, 2 in., ANSI Class 150, vertical mount Level flange, SST, 2 in., ANSI Class 300, vertical mount Level flange, SST, 3 in., ANSI Class 150, vertical mount Level flange, SST, 3 in., ANSI Class 300, vertical mount DIN level flange, SST, DN 50, PN 40, vertical mount DIN level flange, SST, DN 80, PN 40, vertical mount DIN compliant traditional flange, SST, 10 mm adapter/manifold bolting DIN compliant traditional flange, SST, 12mm adapter/manifold bolting (not available on Rosemount 3051CD0) Manifold assembly(5)(6) S5 S6 Assemble to Rosemount 305 Integral Manifold Assemble to Rosemount 304 Manifold or Connection System SpecificationsandReferenceData 91 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-9. Rosemount 3051C Coplanar Pressure Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Integral mount primary element(5)(6) S3 S4(7) Assemble to Rosemount 405 Compact Orifice Plate Assemble to Rosemount Annubar or Rosemount 1195 Integral Orifice Seal assemblies(6) S1(8) S2(9) S7 S8 S9 S0 Assemble to one Rosemount 1199 Seal Assemble to two Rosemount 1199 Seals One seal, all-welded system (capillary connection type) Two seals, all-welded system (capillary connection type) Two seals, all-welded system (one direct mount and one capillary connection type) One seal, all-welded system (direct mount connection type) Mounting bracket(10) B1 B2 B3 B4 B7 B8 B9 BA BC Traditional flange bracket for 2-in. pipe mounting, CS bolts Traditional flange bracket for panel mounting, CS bolts Traditional flange flat bracket for 2-in. pipe mounting, CS bolts Coplanar flange bracket for 2-in. pipe or panel mounting, all SST B1 bracket with series 300 SST bolts B2 bracket with series 300 SST bolts B3 bracket with series 300 SST bolts SST B1 bracket with series 300 SST bolts SST B3 bracket with series 300 SST bolts Product certifications I1 I2 I3 I4 I5 I6 I7 ATEX Intrinsic Safety INMETRO Intrinsic Safety China Intrinsic Safety TIIS Intrinsic Safety FM Intrinsically Safe, Division 2 CSA Intrinsic Safety IECEx Intrinsic Safety Drinking water approval(11) DW NSF drinking water approval Bolting material Austenitic 316 SST Bolts ASTM A 193, Grade B7M Bolts Alloy K-500 Bolts L4 L5 L6 92 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-9. Rosemount 3051C Coplanar Pressure Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Display and interface options M5 LCD display Calibration certificate Q4 QG QP Calibration Certificate Calibration Certificate and GOST Verification Certificate Calibration certification and tamper evident seal Material traceability certification Q8 Material Traceability Certification per EN 10204 3.1.B Configuration buttons DZ Digital zero trim Software configuration C1 Custom software configuration (Completed Rosemount 3051 Wireless Configuration Data Sheet required with order) Gage pressure calibration C3 Gage calibration (Model 3051CA4 only) Pressure testing P1 Hydrostatic testing with certificate Cleaning process area P2 P3 Cleaning for special service Cleaning for <1 PPM chlorine/fluorine Pressure calibration P4 Calibrate at line pressure (Specify Q48 on order for corresponding certificate) High accuracy(12) P8 0.04% Accuracy to 5:1 turndown (Range 2-4) Flange adapters(13) DF 1/2 -14 NPT flange adapter(s) Vent/drain valves D7 Coplanar flange without drain/vent ports RC1/4 RC1/2 process connection(14) D9 RC 1/4 Flange with RC 1/2 flange adapter - SST Max static line pressure P9 4500 psig (310 bar) static pressure limit (Rosemount 3051CD Ranges 25 only) SpecificationsandReferenceData 93 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-9. Rosemount 3051C Coplanar Pressure Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Surface finish Q16 Surface finish certification for sanitary remote seals Toolkit total system performance reports QZ Remote seal system performance calculation report Typical Model Number: 3051CD 2 X 2 2 A 1 P WA3 WP5 B4 M5 1. Wireless output (code X) available in absolute measurement type (Code A) with only range 1-4, 316L SST isolating diaphragm material (code 2), silicone fill fluid (code 1), and housing code (code P). code A, and bolting option L4. 2. Wireless output (code X) available in draft range 0 with only silicone fill fluid code 1, process flange code 0 (alternate flange H2), isolating diaphragm code 2, O-ring 3. Materials of Construction comply with recommendations per NACE MR0175/ISO 15156 for sour oil field production environments. Environmental limits apply to certain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103 for sour refining environments. 4. Requires 0 code in materials of construction for alternate process connection. 5. Not valid with optional code P9 for 4500 psi static pressure. 6. Assemble-to items are specified separately and require a completed model number. 7. Process flange limited to coplanar (codes 2, 3, 5, 7, 8) or Traditional (H2, H3, H7). 8. Not valid with optional code D9 for RC1/2 adapters. 9. Not valid for optional codes DF and D9 for adapters. 10. Panel mounting bolts are not supplied. 11. Not available with Alloy C-276 isolator (3 code), tantalum isolator (5 code), all Cast Alloy C-276 flanges, all plated CS flanges, all DIN flanges, all Level flanges, assemble-to manifolds (S5 and S6 codes), assemble-to seals (S1 and S2 codes), assemble-to primary elements (S3 and S4 codes), surface finish certification (Q16 code), and remote seal system report (QZ code). 12. Only available with Standard 3051. See specification section for more information. 13. Not valid with Alternate Process Connection options S3, S4, S5, and S6. 14. Not available with alternate process connection; DIN Flanges and level flanges. 94 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-10. Rosemount 3051T In-Line Pressure Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Model Transmitter type 3051T In-Line Pressure Transmitter Pressure type G A(1) Gage Absolute Pressure range 1 2 3 4 5 Rosemount 3051TG(2) 14.7 to 30 psi (-1.0 to 2.1 bar) 14.7 to 150 psi (-1.0 to 10.3 bar) 14.7 to 800 psi (-1.0 to 55 bar) 14.7 to 4000 psi (-1.0 to 276 bar) 14.7 to 10000 psi (-1.0 to 689 bar) Transmitter output X Wireless Process connection style Rosemount 3051TA 0 to 30 psia (0 to 2.1 bar) 0 to 150 psia (0 to 10.3 bar) 0 to 800 psia (0 to 55 bar) 0 to 4000 psia (0 to 276 bar) 0 to 10000 psia (0 to 689 bar) 2B 2C(3) 1/214 NPT female G1/2 A DIN 16288 male (Available in SST for range 14 only) Isolating diaphragm(4) 2 3 316L SST Alloy C-276 Sensor fill fluid 1 Silicone Housing Material Process connection wetted parts material 316l SST alloy c-276 Conduit entry size Engineered polymer P Wireless options (Requires wireless output code X and Engineered Polymer housing code P) Wireless transmit rate, operating frequency and protocol No conduit entries WA3 User configurable transmit rate, 2.4GHz WirelessHART Antenna and SmartPower WP5 Internal antenna, compatible with green power module (i.s. power module sold separately) SpecificationsandReferenceData 95 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-10. Rosemount 3051T In-Line Pressure Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Options (Include with selected model number) Integral assembly(5) S5 Assemble to Rosemount 306 Integral Manifold Diaphragm seal assemblies(5) S1 Assemble to one Rosemount 1199 seal Mounting bracket(6) B4 Bracket for 2-in. pipe or panel mounting, All SST Product certifications I1 I2 I3 I4 I5 I6 I7 ATEX Intrinsic Safety INMETRO Intrinsic Safety China Intrinsic Safety TIIS Intrinsic Safety FM Intrinsically Safe, Division 2 CSA Intrinsic Safety IECEx Intrinsic Safety Drinking water approval(7) DW NSF drinking water approval Calibration certification Q4 QG QP Calibration Certificate Calibration Certificate and GOST Verification Certificate Calibration Certification and tamper evident seal Material traceability certification Q8 Material Traceability Certification per EN 10204 3.1.B Configuration buttons DZ Digital zero trim Display and interface options M5 LCD display Wireless sensor module WSM Wireless SST sensor module Software configuration(6) C1 96 Custom software configuration (Completed Rosemount 3051 Wireless Configuration Data Sheet required with order) SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-10. Rosemount 3051T In-Line Pressure Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Pressure testing P1 Hydrostatic Testing with Certificate Cleaning process area(8) P2 P3 Cleaning for special service Cleaning for <1 PPM chlorine/fluorine High accuracy(9) P8 0.04% accuracy to 5:1 turndown (range 24) Surface finish Q16 Surface finish certification for sanitary remote seals Toolkit total system performance reports QZ Remote seal system performance calculation report Typical Model Number:

1. Wireless output (code X) available in absolute measurement type (Code A) with only range 15, with 1/2 14-NPT process connection (code 2B) and housing (code P). 2. 3051TG lower range limit varies with atmospheric pressure. 3. Wireless output (code X) only available in G 1/2 A DIN 16288 Male process connection (code 2C) with range 14, 316L SST isolating diaphragm (code 2), silicone fill fluid 3051T G 5 X 2B 2 1 P WA3 WP5 B4 M5

(code 1), and housing code (code P). 4. Materials of Construction comply with recommendations per NACE MR0175/ISO 15156 for sour oil field production environments. Environmental limits apply to certain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103 for sour refining environments. 5. Assemble-to items are specified separately and require a completed model number. 6. Panel mounting bolts are not supplied. 7. Not available with Alloy C-276 isolator (3 code), tantalum isolator (5 code), all Cast Alloy C-276 flanges, all plated CS flanges, all DIN flanges, all Level flanges, assemble-to manifolds (S5 and S6 codes), assemble-to seals (S1 and S2 codes), assemble-to primary elements (S3 and S4 codes), surface finish certification (Q16 code), and remote seal system report (QZ code). 8. Not valid with alternate process connection S5. 9. Only available with Standard 3051. See specification section for more information. SpecificationsandReferenceData 97 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-11. Rosemount 3051CFA Annubar Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Model Product description 3051CFA Annubar Flowmeter Measurement type D Differential Pressure Fluid type L G S Line size Liquid Gas Steam 020 025 030 035 040 050 060 070 080 100 120 140 160 180 200 240 300 360 420 480 600 720 780 840 900 960 98 2-in. (50 mm) 21/2-in. (63.5 mm) 3-in. (80 mm) 31/2-in. (89 mm) 4-in. (100 mm) 5-in. (125 mm) 6-in. (150 mm) 7-in. (175 mm) 8-in. (200 mm) 10-in. (250 mm) 12-in. (300 mm) 14-in. (350 mm) 16-in. (400 mm) 18-in. (450 mm) 20-in. (500 mm) 24-in. (600 mm) 30-in. (750 mm) 36-in. (900 mm) 42-in. (1066 mm) 48-in. (1210 mm) 60-in. (1520 mm) 72-in. (1820 mm) 78-in (1950 mm) 84-in. (2100 mm) 90-in. (2250 mm) 96-in (2400 mm) SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-11. Rosemount 3051CFA Annubar Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Pipe I.D. range C D A B E Z Range C from the Pipe I.D. table Range D from the Pipe I.D. table Range A from the Pipe I.D. table Range B from the Pipe I.D. table Range E from the Pipe I.D. table Non-standard Pipe I.D. range or line sizes greater than 12-in. Pipe material/mounting assembly material C S 0 G N J Carbon steel (A105) 316 stainless steel No mounting (customer supplied) Chrome-Moly Grade F-11 Chrome-Moly Grade F-22 Chrome-Moly Grade F-91 Piping orientation H D U Horizontal piping Vertical piping with downwards flow Vertical piping with upwards flow Annubar type P F L G M Pak-Lok Flanged with opposite side support Flange-Lok Gear-Drive Flo-Tap Manual Flo-Tap Sensor material S H 316 stainless steel Alloy C-276 Sensor size 1 2 3 Sensor size 1 line sizes 2-in. (50 mm) to 8-in. (200 mm) Sensor size 2 line sizes 6-in. (150 mm) to 96-in. (2400 mm) Sensor size 3 line sizes greater than 12-in. (300 mm) SpecificationsandReferenceData 99 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-11. Rosemount 3051CFA Annubar Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Mounting type T1 A1 A3 A6 D1 D3 D6 A9(1) AF(1) AT(1) R1 R3 R6 R9(1) RF(1) RT(1) Compression or threaded connection Class 150 RF ANSI Class 300RF ANSI Class 600 RF ANSI DN PN16 Flange DN PN40 Flange DN PN100 Flange Class 900 RF ANSI Class 1500 RF ANSI Class 2500 RF ANSI Class 150 RTJ flange Class 300 RTJ flange Class 600 RTJ flange Class 900 RTJ flange Class 1500 RTJ flange Class 2500 RTJ flange Opposite side support or packing gland 0 C D J K L N R No opposite side support or packing gland (required for Pak-Lok and Flange-Lok models) Opposite side support required for flanged models NPT threaded opposite support assembly extended tip Welded opposite support assembly extended tip Packing gland required for flo-tap models Packing gland material Stainless steel packing gland/cage nipple Stainless steel packing gland/cage nipple Stainless steel packing gland/cage nipple Stainless steel packing gland/cage nipple Alloy C-276 packing gland/cage nipple Rod material Carbon steel Stainless steel Carbon steel Stainless steel Stainless steel Packing material PTFE PTFE Graphite Graphite Graphite Isolation valve for Flo-Tap models Not applicable or customer supplied Gate valve, carbon steel Gate valve, stainless steel Ball valve, carbon steel Ball valve, stainless steel 0 1 2 5 6 100 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-11. Rosemount 3051CFA Annubar Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Temperature measurement T 0 R Integral RTD not available with Flanged model greater than Class 600 No temperature sensor Remote thermowell and RTD Transmitter connection platform 3 5 7 6 8 Direct-mount, Integral 3-valve manifold not available with flanged model greater than Class 600 Direct -mount, 5-valve manifold not available with flanged model greater than Class 600 Remote-mount NPT Connections (1/2-in. NPT) Direct-mount, high temperature 5-valve manifold not available with flanged model greater than Class 600 Remote-mount SW Connections (1/2-in.) Differential pressure range 1 2 3 0 to 25 in H2O (0 to 62,3 mbar) 0 to 250 in H2O (0 to 623 mbar) 0 to 1000 in H2O (0 to 2,5 bar) Transmitter output X Wireless Transmitter housing material P Engineered polymer Transmitter performance class Conduit entry size No conduit entries 1 1.6% flow rate accuracy, 8:1 flow turndown, 5-yr. stability Wireless options (Requires wireless output code X and Engineered Polymer housing code P) Wireless transmit rate, operating frequency and protocol WA3 User configurable transmit rate, 2.4GHz WirelessHART Antenna and SmartPower WP5 Options (Include with selected model number) Internal antenna, compatible with green power module (i.s. power module sold separately) Pressure testing(2) P1 PX Hydrostatic Testing with Certificate Extended Hydrostatic Testing Special cleaning P2 PA Cleaning for special services Cleaning per ASTM G93 Level D (Section 11.4) SpecificationsandReferenceData 101 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-11. Rosemount 3051CFA Annubar Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Material testing V1 Dye penetrant exam Material examination V2 Radiographic examination Flow calibration W1 Flow calibration (Average K) Special inspection QC1 QC7 Visual and Dimensional Inspection with Certificate Inspection and Performance Certificate Surface finish RL RH Surface finish for Low Pipe Reynolds # in Gas & Steam Surface finish for High Pipe Reynolds # in Liquid Material traceability certification(3) Q8 Material Traceability Certification per EN 10474:2004 3.1 Code conformance(4) J2 J3 ANSI/ASME B31.1 ANSI/ASME B31.3 Materials conformance(5) J5 NACE MR-0175/ISO 15156 Country certification J6 J1 European Pressure Directive (PED) Canadian Registration Installed in flanged pipe spool section H3 H4 H5 Class 150 flanged connection with rosemount standard length and schedule Class 300 flanged connection with rosemount standard length and schedule Class 600 flanged connection with rosemount standard length and schedule Instrument connections for remote mount options Needle valves, stainless steel OS and Y gate valve, stainless steel Needle valves, carbon steel Needle valves, Alloy C-276 OS and Y gate valve, carbon steel OS and Y gate valve, Alloy C-276 G2 G6 G1 G3 G5 G7 102 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-11. Rosemount 3051CFA Annubar Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Special shipment Y1 Mounting hardware shipped separately Special dimensions VM VT VS Variable mounting Variable tip Variable length spool section Product Certifications I1 I2 I3 I4 I5 I6 I7 ATEX Intrinsic Safety INMETRO Intrinsic Safety China Intrinsic Safety TIIS Intrinsic Safety FM Intrinsically Safe, Division 2 CSA Intrinsic Safety IECEx Intrinsic Safety Sensor fill fluid and o-ring options L2 Graphite-Filled (PTFE) O-ring Display and interface options M5 LCD display Transmitter calibration certification Q4 Calibration Certificate for Transmitter Manifold for remote mount option F2 F6 F1 F3 F5 F7 3-valve manifold, stainless steel 5-valve manifold, stainless steel 3-valve manifold, carbon steel 3-valve manifold, Alloy C-276 5-valve manifold, carbon steel 5-valve manifold, Alloy C-276 Configuration buttons DZ Digital zero trim Typical Model Number: 3051CFA D L 060 D C H P S 2 T1 0 0 0 3 2 X P 1 WA3 WP5 M5 1. Available in remote mount applications only. 2. Applies to assembled flowmeter only, mounting not tested. 3. 4. Not available with transmitter connection platform 6. 5. Materials of Construction comply with metallurgical requirements within NACE MR0175/ISO for sour oil field production environments. Environmental limits apply to Instrument connections for remote mount options and isolation valves for Flo-tap models are not included in the Material Traceability Certification. certain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103 for sour refining environments. SpecificationsandReferenceData 103 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-12. Rosemount 3051CFC Compact Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Model Product description 3051CFC Compact Flowmeter Measurement type D Differential pressure Primary element technology C P Conditioning orifice plate Orifice plate Material type S 316 SST Line size 005(1) 010(1) 015(1) 020 030 040 060 080 100 120 1/2-in. (15 mm) 1-in. (25 mm) 11/2-in. (40 mm) 2-in. (50 mm) 3-in. (80 mm) 4-in. (100 mm) 6-in. (150 mm) 8-in. (200 mm) 10-in. (250 mm) 12-in. (300 mm) Primary element style N Square edged Primary element Type 040 065(2) 0.40 beta ratio 0.65 beta ratio Temperature measurement 0 R No temperature sensor Remote thermowell and RTD Transmitter connection platform Direct-mount, Integral 3-valve manifold Remote-mount, 1/4-in. NPT connections 3 7 104 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-12. Rosemount 3051CFC Compact Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Differential pressure range 1 2 3 0 to 25 in H2O (0 to 62,3 mbar) 0 to 250 in H2O (0 to 623 mbar) 0 to 1000 in H2O (0 to 2,5 bar) Transmitter output X Wireless Transmitter housing material P Engineered polymer Transmitter performance class Conduit entry size No conduit entries 1 Up to 1.75% flow rate accuracy, 8:1 flow turndown, 5-year stability Wireless options (requires wireless output code X and Engineered Polymer housing code P) Wireless transmit rate, operating frequency and protocol WA3 User configurable transmit rate, 2.4GHz WirelessHART Antenna and SmartPower WP5 Internal antenna, compatible with green power module (i.s. power module sold separately) Options (Include with selected model number) Installation accessories AB AC AD DG DH DJ JB JR JS ANSI alignment ring (Class 150) (only required for 10-in. [250 mm] and 12-in. [300 mm] line sizes) ANSI alignment ring (Class 300) (only required for 10-in. [250 mm] and 12-in. [300 mm] line sizes) ANSI alignment ring (Class 600) (only required for 10-in. [250 mm] and 12-in. [300 mm] line sizes) DIN alignment ring (PN16) DIN alignment ring (PN40) DIN alignment ring (PN100) JIS alignment ring (10K) JIS alignment ringing (20K) JIS alignment ringing (40K) Remote adapters FE Flange adapters 316 SST (1/2-in NPT) High temperature application HT Graphite valve packing (Tmax = 850 F) SpecificationsandReferenceData 105 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-12. Rosemount 3051CFC Compact Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Flow calibration(3) WC WD Flow calibration certification (3 point) Discharge coefficient verification (full 10 point) Pressure testing P1 Hydrostatic Testing with Certificate Special cleaning P2 PA Cleaning for Special Services Cleaning per ASTM G93 Level D (Section 11.4) Special inspection QC1 QC7 Visual and Dimensional Inspection with Certificate Inspection and Performance Certificate Transmitter calibration certification Q4 Calibration Certificate for Transmitter Material traceability certification Q8 Material Traceability Certification per EN 10204:2004 3.1 Code conformance J2 J3 J4 ANSI/ASME B31.1 ANSI/ASME B31.3 ANSI/ASME B31.8 Materials Conformance(4) J5 NACE MR-0175/ISO 15156 Country Certification J1 Canadian Registration Product Certifications I1 I2 I3 I4 I5 I6 I7 ATEX Intrinsic Safety INMETRO Intrinsic Safety China Intrinsic Safety TIIS Intrinsic Safety FM Intrinsically Safe, Division 2 CSA Intrinsic Safety IECEx Intrinsic Safety Sensor fill fluid and O-ring options Graphite-Filled (PTFE) O-ring L2 106 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-12. Rosemount 3051CFC Compact Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Display and interface options M5 LCD display Manifold for remote mount option F2 F6 DZ 3-valve manifold, stainless steel 5-valve manifold, stainless steel Digital zero trim Typical Model Number: 3051CFC D C S 060 N 065 0 3 2 X P 1 WA3 WP5 WC M5 DZ 1. Not available for Primary Element Technology C. 2. For 2-in. (50 mm) line sizes the Primary Element Type is 0.6 for Primary Element Technology Code C. 3. Not available with Primary Element Technology P. 4. Materials of Construction comply with metallurgical requirements within NACE MR0175/ISO for sour oil field production environments. Environmental limits apply to certain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103 for sour refining environments. SpecificationsandReferenceData 107 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-13. Rosemount 3051CFP Integral Orifice Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Model Product description 3051CFP Integral Orifice Flowmeter Measurement type D Differential pressure Body material S 316 SST Line size 005 010 015 1/2-in. (15 mm) 1-in. (25 mm) 11/2-in. (40 mm) Process connection T1 S1(1) P1 P2 D1 D2 D3 W1 W3 W6 A1 A3 A6 R1 R3 R6 NPT female body (not available with remote thermowell and RTD) Socket weld body (not available with remote thermowell and RTD) Pipe ends: NPT Threaded Pipe ends: Beveled Pipe ends: Flanged, DIN PN16, slip-on Pipe ends: Flanged, DIN PN40, slip-on Pipe ends: Flanged, DIN PN100, slip-on Pipe ends: Flanged, RF, ANSI Class 150, weld-neck Pipe ends: Flanged, RF, ANSI Class 300, weld-neck Pipe ends: Flanged, RF, ANSI Class 600, weld-neck Pipe ends: Flanged, RF, ANSI Class 150, slip-on Pipe ends: Flanged, RF, ANSI Class 300, slip-on Pipe ends: Flanged, RF, ANSI Class 600, slip-on Pipe ends: Flanged, RTJ, ANSI Class 150, slip-on Pipe ends: Flanged, RTJ, ANSI Class 300, slip-on Pipe ends: Flanged, RTJ, ANSI Class 600, slip-on Orifice plate material 316 SST Alloy C-276 Alloy 400 S H M 108 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-13. Rosemount 3051CFP Integral Orifice Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Bore size option 0066 0109 0160 0196 0260 0340 0150 0250 0345 0500 0630 0800 0295 0376 0512 0748 1022 1184 0010 0014 0020 0034 0.066-in. (1.68 mm) for1/2-in. pipe 0.109-in. (2.77 mm) for 1/2-in. pipe 0.160-in. (4.06 mm) for 1/2-in. pipe 0.196-in. (4.98 mm) for 1/2-in. pipe 0.260-in. (6.60 mm) for 1/2-in. pipe 0.340-in. (8.64 mm) for 1/2-in. pipe 0.150-in. (3.81 mm) for 1-in. pipe 0.250-in. (6.35 mm) for 1-in. pipe 0.345-in. (8.76 mm) for 1-in. pipe 0.500-in. (12.70 mm) for 1-in. pipe 0.630-in. (16.00 mm) for 1-in. pipe 0.800-in. (20.32 mm) for 1-in. pipe 0.295-in. (7.49 mm) for 11/2-in. pipe 0.376-in. (9.55 mm) for 11/2-in. pipe 0.512-in. (13.00 mm) for 11/2-in. pipe 0.748-in. (19.00 mm) for 11/2-in. pipe 1.022-in. (25.96 mm) for 11/2-in. pipe 1.184-in. (30.07 mm) for 11/2-in. pipe 0.010-in. (0.25 mm) for 1/2-in. pipe 0.014-in. (0.36 mm) for 1/2-in. pipe 0.020-in. (0.51 mm) for 1/2-in. pipe 0.034-in. (0.86 mm) for 1/2-in. pipe Transmitter connection platform D3 D5 R3 R5 D4 D6 D7 R4 R6 Direct-mount, 3-valve manifold, SST Direct-mount, 5-valve manifold, SST Remote-mount, 3-valve manifold, SST Remote-mount, 5-valve manifold, SST Direct-mount, 3-valve manifold, Alloy C-276 Direct-mount, 5-valve manifold, Alloy C-276 Direct-mount, high temperature, 5-valve manifold, SST Remote-mount, 3-valve manifold, Alloy C-276 Remote-mount, 5-valve manifold, Alloy C-276 SpecificationsandReferenceData 109 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-13. Rosemount 3051CFP Integral Orifice Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Differential pressure ranges 1 2 3 0 to 25 in H2O (0 to 62,3 mbar) 0 to 250 in H2O (0 to 623 mbar) 0 to 1000 in H2O (0 to 2,5 bar) Transmitter output X Wireless Transmitter housing material P Engineered polymer Transmitter performance class Conduit entry size No conduit entries 1 up to 1.75% flow rate accuracy, 8:1 flow turndown, 5-year stability Wireless options (Requires wireless option code X and Engineered Polymer housing code P) Wireless transmit rate, operating frequency and protocol WA3 User configurable transmit rate, 2.4GHz WirelessHART Antenna and SmartPower WP5 Internal antenna, compatible with green power module (i.s. power module sold separately) Options (Include with selected model number) Transmitter body/bolt material GT High temperature (850 F/454 C) Temperature sensor(2) RT Thermowell and RTD Optional connection G1 DIN 19213 transmitter connection Pressure testing(3) P1 Hydrostatic Testing with Certificate Special cleaning P2 PA Cleaning for Special Services Cleaning per ASTM G93 Level D (Section 11.4) Material testing V1 Dye penetrant exam Material examination Radiographic examination V2 110 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-13. Rosemount 3051CFP Integral Orifice Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Flow calibration(4) WD Discharge Coefficient Verification Special inspection QC1 QC7 Visual and Dimensional Inspection with Certificate Inspection and Performance Certificate Material traceability certification Q8 Material Traceability Certification per EN 10204:2004 3.1 Code Conformance(5) J2 J3 J4 ANSI/ASME B31.1 ANSI/ASME B31.3 ANSI/ASME B31.8 Materials Conformance(6) J5 NACE MR-0175/ISO 15156 Country Certification J6 J1 European Pressure Directive (PED) Canadian Registration Transmitter Calibration Certification Q4 Calibration Certificate for Transmitter Product certifications I1 I2 I3 I4 I5 I6 I7 ATEX Intrinsic Safety INMETRO Intrinsic Safety China Intrinsic Safety TIIS Intrinsic Safety FM Intrinsically Safe, Division 2 CSA Intrinsic Safety IECEx Intrinsic Safety Sensor fill fluid and O-ring options L2 Graphite-Filled (PTFE) O-ring Display and interface options M5 LCD display SpecificationsandReferenceData 111 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-13. Rosemount 3051CFP Integral Orifice Flowmeter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Configuration buttons DZ Digital zero trim Typical Model Number: 3051CFP D S 010 W1 S 0500 D3 2 X P 1 WA3 WP5 I7 M5 DZ 1. To improve pipe perpendicularity for gasket sealing, socket diameter is smaller than standard pipe O.D. 2. Thermowell Material is the same as the body material. 3. Does not apply to Process Connection codes T1 and S1. 4. Not available for bore sizes 0010, 0014, 0020, or 0034. 5. Not available with DIN Process Connection codes D1, D2, or D3. 6. Materials of Construction comply with metallurgical requirements within NACE MR0175/ISO for sour oil field production environments. Environmental limits apply to certain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103 for sour refining environments. 112 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-14. Rosemount 3051L Level Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Model Transmitter type 3051L Level transmitter Pressure range 2 3 4 250 to 250 inH2O (0,6 to 0,6 bar) 1000 to 1000 inH2O (2,5 to 2,5 bar) 300 to 300 psi (20,7 to 20,7 bar) Transmitter output X Wireless Process connection size, material, extension length (high side) Material 316L SST Alloy C-276 Tantalum 316L SST 316L SST 316L SST 316L SST 316L SST 316L SST 316L SST 316L SST Alloy C-276 Alloy C-276 Alloy C-276 Alloy C-276 Alloy C-276 Alloy C-276 Alloy C-276 Alloy C-276 Tantalum Tantalum Code Process connection size G0(1) H0(1) J0 A0(1) A2(1) A4(1) A6(1) B0(1) B2(1) B4(1) B6(1) C0(1) C2(1) C4(1) C6(1) D0(1) D2(1) D4(1) D6(1) E0 F0 2-in./DN 50/A 2-in./DN 50 2-in./DN 50 3-in./DN 80 3-in./DN 80 3-in./DN 80 3-in./DN 80 4-in./DN 100 4-in./DN 100 4-in./DN 100 4-in./DN 100 3-in./DN 80 3-in./DN 80 3-in./DN 80 3-in./DN 80 4-in./DN 100 4-in./DN 100 4-in./DN 100 4-in./DN 100 3-in./DN 80 4-in./DN 100 SpecificationsandReferenceData 113 Extension length Flush mount only Flush mount only Flush mount only Flush mount 2-in./50 mm 4-in./100 mm 6-in./150 mm Flush mount 2-in./50 mm 4-in./100 mm 6-in./150 mm Flush mount 2-in./50 mm 4-in./100 mm 6-in./150 mm Flush mount 2-in./50 mm 4-in./100 mm 6-in./150 mm Flush mount only Flush mount only Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-14. Rosemount 3051L Level Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Mounting Flange Size, Rating, Material (High Side) Rating ANSI/ASME B16.5 Class 150 ANSI/ASME B16.5 Class 150 ANSI/ASME B16.5 Class 150 ANSI/ASME B16.5 Class 300 ANSI/ASME B16.5 Class 300 ANSI/ASME B16.5 Class 300 ANSI/ASME B16.5 Class 600 ANSI/ASME B16.5 Class 600 ANSI/ASME B16.5 Class 150 ANSI/ASME B16.5 Class 150 ANSI/ASME B16.5 Class 150 ANSI/ASME B16.5 Class 300 ANSI/ASME B16.5 Class 300 ANSI/ASME B16.5 Class 300 ANSI/ASME B16.5 Class 600 ANSI/ASME B16.5 Class 600 PN 10-40 per EN 1092-1 PN 40 per EN 1092-1 PN 40 per EN 1092-1 PN 10/16 per EN 1092-1 PN 10-40 per EN 1092-1 PN 40 per EN 1092-1 PN 40 per EN 1092-1 PN 10/16 per EN 1092-1 ANSI/ASME B16.5 Class 600 10K per JIS B2238 20K per JIS B2238 40K per JIS B2238 10K per JIS B2238 20K per JIS B2238 40K per JIS B2238 Size 2-in. 3-in. 4-in. 2-in. 3-in. 4-in. 2-in. 3-in. 2-in. 3-in. 4-in. 2-in. 3-in. 4-in. 2-in. 3-in. DN 50 DN 80 DN 100 DN 100 DN 50 DN 80 DN 100 DN 100 4 in. N/A N/A N/A N/A N/A N/A M A B N C D P E X(1) F(1) G(1) Y(1) H(1) J(1) Z(1) L(1) Q R S V K(1) T(1) U(1) W(1) 7(1) 1 2 3 4(1) 5(1) 6(1) 114 Material CS CS CS CS CS CS CS CS SST SST SST SST SST SST SST SST CS CS CS CS SST SST SST SST SST CS CS CS 316 SST 316 SST 316 SST SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-14. Rosemount 3051L Level Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Seal fill fluid (high side) Specific gravity Temperature limits [ambient temperature of 70 F (21 C)]

A C D H G N P Syltherm XLT Silicone 704 Silicone 200 Inert (Halocarbon) Glycerine and Water Neobee M-20 Propylene Glycol and Water 0.85 1.07 0.93 1.85 1.13 0.92 1.02 Low pressure side(1) 102 to 293 F (75 to 145 C) 32 to 401 F (0 to 205 C) 49 to 401 F ( 45 to 205 C) 49 to 320 F ( 45 to 160 C) 5 to 203 F (15 to 95 C) 5 to 401 F (15 to 205 C) 5 to 203 F (15 to 95 C) Configuration Flange adapter Diaphragm material Sensor fill fluid Gage Differential Differential Tuned-System Assembly with Remote Seal SST SST SST None 11 21 22 31 O-ring A Glass-filled PTFE Housing material P Engineered polymer 316L SST 316L SST Alloy C-276 316L SST Silicone Silicone Silicone Silicone

(Requires Option Code S1) Conduit entry size No conduit entries Wireless options (Requires wireless output code X and Engineered Polymer housing code P) Wireless transmit rate, operating frequency and protocol WA3 User configurable transmit rate, 2.4 GHz WirelessHART Antenna and SmartPower WP5 Internal antenna, compatible with green power module (I.S. power module sold separately) SpecificationsandReferenceData 115 Reference Manual 00809-0100-4100, Rev BA Specifications and ReferenceData May 2017 Table A-14. Rosemount 3051L Level Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Options (Include with selected model number) Seal assemblies(2) S1 Assembled to One Rosemount 1199 Seal (Requires 1199M) Product certifications I1 I2 I3 I4 I5 I6 I7 ATEX Intrinsic Safety INMETRO Intrinsic Safety China Intrinsic Safety TIIS Intrinsic Safety FM Intrinsically Safe, Division 2 CSA Intrinsic Safety IECEx Intrinsic Safety Bolting material L4 L5 L6 L8 Austenitic 316 SST bolts ASTM A 193, Grade B7M bolts Alloy K-500 bolts ASTM A 193 Class 2, Grade B8M bolts Display and interface options M5 LCD display Calibration certification Q4 QP QG Calibration Certificate Calibration Certificate and tamper evident seal Calibration Certificate and GOST Verification Certificate Material traceability certification Q8 Material Traceability Certification per EN 10204 3.1 Toolkit total system performance reports QZ Remote seal system performance calculation report Configuration buttons DZ Digital zero trim Software configuration C1 Custom software configuration (Completed Rosemount 3051 Configuration Data Sheet) 116 SpecificationsandReferenceData Specifications and Reference Data May 2017 Reference Manual 00809-0100-4100, Rev BA Table A-14. Rosemount 3051L Level Transmitter Ordering Information The starred offerings () represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time. Lower housing flushing connection options F1 F2 F3 F4 F7 F8 F9 F0 Ring material Number Size (NPT) 316 SST 316 SST Alloy C-276 Alloy C-276 316 SST 316 SST Alloy C-276 Alloy C-276 1 2 1 2 1 2 1 2 1/418 NPT 1/418 NPT 1/418 NPT 1/418 NPT 1/214 NPT 1/214 NPT 1/214 NPT 1/214 NPT Typical Model Number: 3051L 2 X A0 D 21 A P WA3 WP5 M5 DZ F1 1. Materials of Construction comply with metallurgical requirements highlighted within NACE MR0175/ISO 15156 for sour oil field production environments. Environmental limits apply to certain materials. Consult latest standard for details. Selected materials also conform to NACE MR0103 for sour refining environments. 2. Assemble-to items are specified separately and require a completed model number. SpecificationsandReferenceData 117 Reference Manual 00809-0100-4100, Rev BA A.6 Options A.6.1 Standard configuration psi (all ranges) Unless otherwise specified, transmitter is shipped as follows:

Engineering units inH2O (Range 0, 1, 2, and 3) psi (Range 4 and 5) Differential/gage Absolute/Rosemount 3051TA:

Low limit High limit Output Flange type Flange material O-ring material Drain/vent LCD display Software tag A.6.2 Custom configuration 0 (engineering units above) Upper range limit Linear Specified model codeoption Specified model codeoption Specified model codeoption Specified model codeoption Installed or none

(Blank) If Option Code C1 is ordered, the customer may have the factory pre-configure special parameters in the transmitter. Refer to the Rosemount 3051 Pressure Transmitter Configuration Data Sheet. A.6.3 Tagging (3 options available) Standard SST hardware tag is wired to the transmitter. Tag character height is 0.125-in. (3.18 mm), 56 characters maximum. Tag may be permanently stamped on transmitter nameplate upon request, 56 characters maximum. Tag may be stored in transmitter memory. Character limit is dependent on protocol. WirelessHART: 32 characters A.6.4 Optional Rosemount 304, 305, or 306 Integral Manifolds Factory assembled to 3051C and 3051T transmitters. Refer to the Rosemount Manifolds Product Data Sheet for additional information. A.6.5 Other seals Refer to Rosemount DP Level Transmitters and Diaphragm Seal System Product Data Sheet for additional information. A.6.6 Output information Output range points must be the same unit of measure. Available units of measure include:

Specifications and ReferenceData May 2017 Table A-15. Pressure Units atm mbar bar inH2O inHg g/cm2 kg/cm2 inH2O @4 C mmH2O mmHg Pa mmH2O @4 C kPa ftH20 MPa inH2O @ 60 F hPa kg/SqM ftH2O @4C mHg @ 0 C Psf A.6.7 Display and interface options psi torr cmH2O @4 C cmHg @0 C ftH2O @60 F mH2O @4 C Digital display option provides diagnostic messages for local troubleshooting and has 90 degree rotation capability for easy viewing. M5 Digital Display 3-Line, 7-Digit LCD display for wireless A.6.8 Configuration buttons The Rosemount 3051 Wireless comes with a Digital Zero trim installed with or without the LCD display. A.6.9 Bolts for flanges and adapters Options permit bolts for flanges and adapters to be obtained in various materials Standard material is plated carbon steel per ASTM A449, Type 1 L4 Austenitic 316 Stainless Steel Bolts L5 ASTM A 193, Grade B7M Bolts L6 Alloy K-500 Bolts Rosemount 3051C Coplanar Flange and Rosemount 3051T bracket option B4 Bracket for 2-in. Pipe or Panel Mounting For use with the standard Coplanar flange configuration Bracket for mounting of transmitter on 2-in. pipe or panel Stainless steel construction with stainless steel bolts Rosemount 3051C Traditional Flange bracket options B1 Bracket for 2-in. Pipe Mounting For use with the traditional flange option Bracket for mounting on 2-in. pipe Carbon steel construction with carbon steel bolts Coated with polyurethane paint 118 SpecificationsandReferenceData Specifications and Reference Data May 2017 B2 Bracket for Panel Mounting For use with the traditional flange option Bracket for mounting transmitter on wall or panel Carbon steel construction with carbon steel bolts Coated with polyurethane paint B3 Flat Bracket for 2-in. Pipe Mounting For use with the traditional flange option Bracket for vertical mounting of transmitter on 2-in. pipe Carbon steel construction with carbon steel bolts Coated with polyurethane paint B7 B1 Bracket with SST Bolts Same bracket as the B1 option with Series 300 stainless steel bolts Reference Manual 00809-0100-4100, Rev BA B8 B2 Bracket with SST Bolts Same bracket as the B2 option with Series 300 stainless steel bolts B9 B3 Bracket with SST Bolts Same bracket as the B3 option with Series 300 stainless steel bolts BA Stainless Steel B1 Bracket with SST Bolts B1 bracket in stainless steel with Series 300 stainless steel bolts BC Stainless Steel B3 Bracket with SST Bolts B3 bracket in stainless steel with Series 300 stainless steel bolts Table A-16. Shipping Weights Rosemount transmitter Add weight In lb (kg) 3051C 3051L 3051T 3.9 (1.8) Table A-17 1.9 (0.86) Table A-17. Rosemount 3051L Weights without Options Flange Flush lb. (kg) 2-in. Ext. lb (kg) 2-in., 150 3-in., 150 4-in., 150 2-in., 300 3-in., 300 4-in., 300 2-in., 600 3-in., 600 DN 50/PN 40 DN 80/PN 40 DN 100/PN 10/16 DN 100/PN 40 12.5 (5.7) 17.5 (7.9) 23.5 (10.7) 17.5 (7.9) 22.5 (10.2) 32.5 (14.7) 15.3 (6.9) 25.2 (11.4) 13.8 (6.2) 19.5 (8.8) 17.8 (8.1) 23.2 (10.5) N/A 19.5 (8.8) 26.5 (12.0) N/A 24.5 (11.1) 35.5 (16.1) N/A 27.2 (12.3) N/A 21.5 (9.7) 19.8 (9.0) 25.2 (11.5) 4-in. Ext. lb (kg) 6-in. Ext. lb (kg) N/A 20.5 (9.3) 28.5 (12.9) N/A 25.5 (11.6) 37.5 (17.0) N/A 28.2 (12.8) N/A 22.5 (10.2) 20.8 (9.5) 26.2 (11.9) N/A 21.5 (9.7) 30.5 (13.8) N/A 26.5 (12.0) 39.5 (17.9) N/A 29.2 (13.2) N/A 23.5 (10.6) 21.8 (9.9) 27.2 (12.3) SpecificationsandReferenceData 119 Reference Manual 00809-0100-4100, Rev BA A.7 Spare parts Meter kit Meter cover O-ring, Silicone, #235 Grease, O-ring LCD display assembly Connector, 4-position LCD display assembly kit LCD display assembly Connector, 4-position Meter cover assembly kit Meter cover O-ring, Silicone, #235 Grease, O-ring Standard cover assembly kit Standard cover O-ring, Silicone, #235 Grease, O-ring Main cover O-ring O-ring, Silicone, #235 Battery compartment cover assy kit Battery compartment cover assy O-ring, Silicone, #134 Grease, O-ring Lock ring screw Screw (lock ring), Qty: 1 Lock ring screw 10 screws Specifications and ReferenceData May 2017 02051-9020-0001 02051-9020-0002 02051-9020-0003 02051-9021-0001 02051-9021-0002 00708-9050-0001 02051-9022-0001 02051-9022-0002 120 SpecificationsandReferenceData Product Certifications May 2017 Reference Manual 00809-0100-4100, Rev BA Appendix B ProductCertifications Rev 1.4 European Directive Information . page 123 Telecommunication compliance . page 123 FCC and IC . page 123 Installing in North America . page 123 B.1 European Directive Information A copy of the EU Declaration of Conformity can be found at the end of the Quick Start Guide. The most recent revision of the EU Declaration of Conformity can be found at Emerson.com/Rosemount. B.2 Telecommunication compliance All wireless devices require certification to ensure that they adhere to regulations regarding the use of the RF spectrum. Nearly every country requires this type of product certification. Emerson is working with governmental agencies around the world to supply fully compliant products and remove the risk of violating country directives or laws governing wireless device usage. B.3 FCC and IC This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation IC This device contains license-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canada's license-exempt RSS(s). Operation is subject to the following two conditions:

This device may not cause interference. This device must accept any interference, including interference that may cause undesired operation of the device IC Cet appareil contient des metteurs / rcepteurs exempts de licence qui sont conformes aux RSS exempts de licence d'Innovation, Sciences et Dveloppement conomique Canada. Son fonctionnement est soumis aux deux conditions suivantes: Cet appareil ne doit pas provoquer d'interfrences. Cet appareil doit accepter toute interfrence, y compris les interfrences pouvant entraner un fonctionnement indsirable de l'appareil B.4 Ordinary Location Certification As standard, the transmitter has been examined and tested to determine that the design meets the basic electrical, mechanical, and fire protection requirements by a nationally recognized test laboratory (NRTL) as accredited by the Federal Occupational Safety and Health Administration (OSHA). B.5 Installing in North America The US National Electrical Code (NEC) and the Canadian Electrical Code (CEC) permit the use of Division marked equipment in Zones and Zone marked equipment in Divisions. The markings must be suitable for the area classification, gas, and temperature class. This information is clearly defined in the respective codes. USA I5 U.S.A. Intrinsically Safe (IS) Range 1-5 Certificate: FM 3046325 Standards: FM Class 3600 - 2011, FM Class 3610 - 2010, FM Class 3810 - 2005, ANSI/ISA 60079-0 - 2009, ANSI/ISA 60079-11 - 2009, NEMA 250 - 2003, ANSI/IEC 60529 Markings: IS CL I, DIV 1, GP A, B, C, D T4; CL 1, Zone 0 AEx ia IIC T4; T4(40 C Ta +70 C) when installed per Rosemount drawing 03031-1062; Type 4X/IP66/IP68 SpecialConditionsforSafeUse(X):

1. The Rosemount 3051 Wireless Pressure Transmitter shall only be used with the 701PGNKF Rosemount SmartPower Battery Pack. 2. The inline pressure sensor may contain more than 10%

aluminum and is considered a potential risk of ignition by impact or friction. Care must be taken into account during installation and used to prevent impact and friction. 3. The surface resistivity of the transmitter housing is greater than one gigaohm. To avoid electrostatic charge build-up, it must not be rubbed or cleaned with solvents or a dry cloth. Range 6 Certificate: CSA 2526009 Standards: FM Class 3600 - 2011, FM Class 3610 - 2010, FM Class 3810 - 2005, ANSI/ISA 60079-0 - 2009, ANSI/ISA 60079-11 - 2009, UL 61010-1 (3rd edition), UL50E (1st Edition) Markings: IS CL I, DIV 1, GP A, B, C, D T4; CL 1, Zone 0 AEx ia IIC T4; T4(-40 C Ta +70 C) when installed per Rosemount drawing 03031-1063; Type 4X/IP66/IP68 ProductCertifications 123 Reference Manual 00809-0100-4100, Rev BA B.6 Canada I6 Canada Intrinsically Safe Certificate: CSA 2526009 Standards: CAN/CSA C22.2 No. 0-M91, CAN/CSA C22.2 No.94-M91, CSA Std C22.2 No. 142-M1987, CSA Std C22.2 No. 157-92, CSA Std C22.2 No. 60529:05 Specifications and ReferenceData May 2017 120 SpecificationsandReferenceData Reference Manual 00809-0100-4100, Rev BA Markings: Intrinsically Safe for Class I, Division 1, Groups A, B, C, D, T4 when installed per Rosemount drawing 03031-1063; Type 4X/IP66/IP68 B.7 Europe I1 ATEX Intrinsic Safety Certificate: Baseefa12ATEX0228X Standards: EN 60079-0: 2012, EN 60079-11: 2012 Markings:

II 1 G Ex ia IIC T4 Ga, T4(40 C Ta +70 C) IP66/IP68 SpecialConditionsforSafeUse(X):

1. The plastic enclosure may constitute a potential electrostatic ignition risk and must not be rubbed or cleaned with a dry cloth. 2. The Model 701PGNKF Power Module may be replaced in a hazardous area. The power module has a surface resistivity greater than 1Gand must be properly installed in the wireless device enclosure. Care must be taken during transportation to and from the point of installation to prevent electrostatic charge build-up. B.8 International I7 IECEx Intrinsic Safety Certificate: IECEx BAS 12.0124X Standards: IEC 60079-0: 2011, IEC 60079-11: 2011 Markings: Ex ia IIC T4 Ga, T4(40 C Ta +70 C) IP66/IP68 SpecialConditionsforSafeUse(X):

1. The plastic enclosure may constitute a potential electrostatic ignition risk and must not be rubbed or cleaned with a dry cloth. 2. The Model 701PGNKF Power Module may be replaced in a hazardous area. The power module has a surface resistivity greater than 1Gand must be properly installed in the wireless device enclosure. Care must be taken during transportation to and from the point of installation to prevent electrostatic charge build-up. B.9 Brazil I2 INMETRO Intrinsic Safety Certificate: UL-BR 13.0534X Standards: ABNT NBR IEC 60079-0:2008 + Errata 1:2011, ABNT NBR IEC 60079-11:2009 Product Certifications May 2017 B.10 China I3 China Intrinsic Safety Certificate: GYJ13.1362X, GYJ15.1367X [Flowmeters]

Standards: GB3836.1-2010, GB3836.4-2010, GB3836.20-2010 Markings: Ex ia IIC T4 Ga, T4(40 ~ +70 C) SpecialConditionforSafeUse(X):

1. See certificate for special conditions. B.11 Japan I4 TIIS Intrinsic Safety Certificate: TC22022X (Rosemount 3051C/L), TC22023X

(Rosemount 3051T), TC22024X (Rosemount 3051CFx) Markings: Ex ia IIC T4 Ga, T4(20 ~ +60 C) SpecialConditionforSafeUse(X):

1. See certificate for special conditions. B.12 EAC - Belarus, Kazakhstan, Russia IM Technical Regulation Customs Union (EAC) Intrinsic Safety Certificate: TU RU C-US.AA87.B.00534 Markings: 0Ex ia IIC T4 Ga X; (40 C Ta +70 C) SpecialConditionforSafeUse(X):

1. See certificate for special conditions. B.13 Korea IP Korea Intrinsic Safety Certificate: 13-KB4BO-0295X Markings: Ex ia IIC T4 (40 C Ta +70 C) SpecialConditionforSafeUse(X):

1. See certificate for special conditions. Markings: Ex ia IIC T4 IP66 Ga, T4(40 C Ta +70 C) SpecialConditionforSafeUse(X):

1. See certificate for special conditions. NetworkDesignBestPractices 123 Reference Manual 00809-0100-4100, Rev BA Network Design Best Practices May 2017 Network Design Best Practices Appendix C All recommended practices should be followed to ensure highest data reliability. Deviation from these best practices may require device repeaters in the network to maintain 99% data. The following are guidelines to achieve the best possible Smart Wireless reliability Network. 1. Each wireless network field should be scoped to a single process unit. 2. Minimize the number of hops to the Gateway in order to reduce latency. A minimum of five wireless instruments should be within effective range of the Smart Wireless Gateway. 3. Each device in the network should have at minimum three devices with potential communication paths. A mesh network gets its reliability from multiple communication pathways. Ensuring each device has multiple neighbors within range will result in the most reliable network. 4. Have 25 percent of wireless instruments in the network within range of Smart Wireless Gateway. Other enhancing modifications include creating a higher percentage of devices within effective range of the gateway to 35 percent or more. This clusters more devices around the gateway and ensures fewer hops and more bandwidth available to WirelessHART devices with fast scan rates. 5. Effective range is determined by type of process unit and the density of the infrastructure that surrounds the network. C.1 Effective range Heavy obstruction: 100 ft. (30 m). Typical heavy density plant environment. Cannot drive a truck or equipment through. Medium obstruction: 250 ft. (76 m). Typical light process areas, lots of space between equipment and infrastructure. Light obstruction: 500 ft. (152 m). Typical of tank farms. Despite tanks being big obstructions themselves, lots of space between and above makes for good RF propagation. Line of sight: 750 ft. (230 m). No obstructions between WirelessHART devices and devices mounted a minimum of 6 ft. (2 m) above ground or obstructions. For examples and complete explanations, refer to the IEC62591 WirelessHART System Engineering Guide. 124 ProductCertifications Reference Manual 00809-0100-4100, Rev BA Network Design Best Practices May 2017 FieldCommunicatorMenuTreesandFastKeys 125 Reference Manual 00809-0100-4100, Rev BA Appendix D Field Communicator Menu Trees and Fast Keys May 2017 Field Communicator Menu Trees and Fast Keys Field Communicator menu tree . page 127 Field Communicator Fast Keys . page 131 D.1 Field Communicator menu tree Figure D-1. Overview Active Alert Name 1 Alert Description 2 Recommended Actions Active Alert Image Alert Image Active Alerts 1 Refresh Alerts 2. Active Alert #1 Name 3 Active Alert #1 Image 4 Active Alert #2 Name 5 Active Alert #2 Image 6 Etc. If no Active Alerts present, display text will be No Active Alerts 1 Model Number 1 2 Model Number 2 3 Model Number 3 1 Module SN 2 Software 3 Harware Identification 1 Tag 2 Long Tag 3 Model 4 Transmitter S.N. 5 Date 6 Description 7 Message 8 Device ID 9 Model Numbers Revision Numbers 1 Universal Revision 2 Field Device 3 Software 4 Hardware 5 Sensor Revisions Radio 1 Manufacturer 2 Device Type 3 Device Revision 4 Software Revision 5 Hardware Revision 6 Transmit Power Level 7 Minimum Update Rate Sensor Module Info 1 Serial Number 2 Measurement Type 3 Configuration 4 Sensor Range 5 Upper Limit 6 Lower Limit 7 Isolator material 8 Fill Fluid Flange Info 1 Process Connection 2 Connection Material 3 O-ring Material 4 Drain/Vent Material Remote Seal Info 1 Num of Remote Seals 2 RS Seal Type 3 RS Fill Fluid 4 RS Diaphragm Material Security 1 Security Switch Overview 1 Device Status 2 Comm Status 3 Pressure 4 Pressure Status 5 Update Rate 6 Calibrate 7 Join Device to Network 8 Configure Update Rate 9 Device Information Home 1 Overview 2 Configure 3 Service Tools Device Status 1 Active Alerts Comm Status 1 Join Status 2 Join Mode 3 Available Neighbors 4 Advertisements Heard 5 Join Attempts Device Information 1 Identification 2 Revisions 3 Radio 4 Sensor Module Info 5 Flange Info 6 Remote Seal Info 7 Security 126 NetworkDesignBestPractices Field Communicator Menu Trees and Fast Keys May 2017 Reference Manual 00809-0100-4100, Rev BA Figure D-2. Configure Basic Setup 1 Tagging 2 Units of Measure 3 Damping 4 Variable Mapping 5 Range Values 6 Transfer Function Configure Display 1 Periodic 2 On Demand 3 Disabled Configure Process Alerts 1 Disable Alerts 2 Pressure 3 Scaled Variable 4 Temperature Scaled Variable 1 Configure Scaled Variable 2 View Scaled Variable Pressure Alert 1 Configuration Alert 2 Alert Status 3 Alert Mode 4 HI-HI Alert Value 5 HI Alert Value 6 LO Alert Value 7 LO-LO Alert Value Scaled Variable Alert 1 Configuration Alert 2 Alert Status 3 Alert Mode 4 HI-HI Alert Value 5 HI Alert Value 6 LO Alert Value 7 LO-LO Alert Value Sensor Temperature Alert 1 Configuration Alert 2 Alert Status 3 Alert Mode 4 HI-HI Alert Value 5 HI Alert Value 6 LO Alert Value 7 LO-LO Alert Value Tagging 1 Long Tag 3 Description 4 Message 5 Date Units of Measure 1 Pressure 2 Sensor Temperature Variable Mapping 1 Primary Variable 2 Secondary Variable Note: Options for Primary and Secondary Variable are Pressure and Scaled Variable only Range Values 1 Upper Range Value 2 Lower Range Value Transfer Function 1 Linear 2 Square Root Configure Device Display 1 Pressure 2 Scaled Variable 3 Percent of Range 4 Sensor Temperature 5 Power Note: These parameters are On/Off toggles Pressure Alerts 1 Alert Mode 2 Pressure 3 HI-HI Alert Value 4 HI Alert Value 5 LO Alert Value 6 LO-LO Alert Value Note: The above sequence will be identical for all process alerts. Item 2 is conditional to Pressure, Scaled Variable, or Temperature 127 Home 1 Overview 2 Configure 3 Service Tools Configure 1 Guided Setup 2 Manual Setup 3 Alert Setup Guided Setup 1 Basic Setup 2 Zero Sensor Trim 3 Join Device to Network 4 Configure Update Rate 5 Configure Device Display 6 Configure Process Alerts 7 Scaled Variable Alert Setup 1 Pressure 2 Scaled Variable 3 Sensor Temperatures FieldCommunicatorMenuTreesandFastKeys Reference Manual 00809-0100-4100, Rev BA Figure D-3. Service Tools Home 1 Overview 2 Configure 3 Service Tools Configure 1 Guided Setup 2 Manual Setup 3 Alert Setup Manual Setup 1 Wireless 2 Pressure 3 Scaled Variable 4 Device Display 5 HART 6 Security 7 Sensor Temperature 8 Device Information 9 Power Field Communicator Menu Trees and Fast Keys May 2017 Wireless Setup 1 Network ID 2 Join Device to Network 3 Broadcast Info 4 Configure Additional Messages 5 Configure Data History Pressure Setup 1 Set Range Points 2 Set Range Points Manually 3 Sensor Limits 4 Units 5 Damping 6 Transfer Function Scaled Variable Setup 1 Scaled Variable 2 Unit of Measure 3 Transfer Function 4 Linear Options 5 Square Root Options 6 Configure Scaled Variable Device Display 1 Periodic 2 On Demand 3 Disabled HART 1 Variable Mapping 2 Polling Address 3 Measurement and Status Log Security 1 Security Switch Status 2 HART Lock Sensor Temperature 1 Sensor Temperature Device Information 1 Indentification 2 Model Numbers 3 Flange Information 4 Remote Seal Information 5 Serial Number Power 1 Power Mode 2 Power Source Broadcast Info 1 Configure Update Rate 2 Message 1 3 Message 2 Set Range Points 1 PV Value 2 PV Upper Range Value 3 PV Lower Range Value Set Range Points Manually 1 Range by Applying Pressure Sensor Limits 1 Upper 2 Lower 3 Minimum Span Device Display Setup 1 Pressure 2 Scaled Variable 3 Percent of Range 4 Sensor Temperature 5 Supply Voltage Note: These parameters are On/Off toggles Variable Mapping 1 Primary Variable 2 Second Variable HART Lock 1 Lock Status 2 Locked By 3 Lock/Unlock Sensor Temperature 1 Sensor Temperature 2 Units 3 Alert Mode 4 Max Sensor Limit 5 Min Sensor Limit Identification 1 Tag 2 Long Tag 3 Model 3 Serial Number 4 Date 5 Descriptor 6 Message Model Numbers 1 Model Number 1 2 Model Number 2 3 Model Number 3 Flange Information 1 Process Connection 2 Connection Material 3 O-ring Material 4 Drain/Vent Material Remote Seal Information 1 Number 2 Type 3 Diaphragm Material 4 Fill Fluid Serial Number 1 Transmitter Serial Number 128 FieldCommunicatorMenuTreesandFastKeys Field Communicator Menu Trees and Fast Keys May 2017 Reference Manual 00809-0100-4100, Rev BA Figure D-4. Rosemount 3051 Field Communicator Menu Tree: Manual Setup Active Alerts 1 Refresh Alerts 2 Active Alert Name #1 3 Active Alert Image #1 4 Active Alert Name #2 5 Active Alert Image #2 6 Etc. Active Alert Name 1 Alert Description 2 Recommended Actions Active Alert Image Alert Image If no Active Alerts present, display text will be No Active Alerts History 1 Refresh Alerts 2 Active Alert Name #1 3 Active Alert Image #1 4 Active Alert Name #2 5 Active Alert Image #2 6 Etc. Previous Alert Name 1 Alert Description 2 Recommended Actions Previous Alert Image Alert Image If no Active Alerts present, display text will be No Active Alerts Process Variables 1 Pressure 2 Scaled Variable 3 Percent of Range 4 Last Update Time 5 Last Update Time 6 Enter Fast Update Mode Device Variables 1 Sensor Temperature 2 Supply Voltage Data History 1 View Data History Table 2 Device Variable 3 Sample Interval Calibration 1 Sensor Trim 2 Factory Calibration 3 Pressure 4 Damping 5 Transfer Function 6 Calibration Points 7 Sensor Limits Pressure 1 Pressure 2 Status Scaled Variable 1 Scaled Variable 2 Status Sensor Temperature 1 Pressure 2 Status Supply Voltage 1 Scaled Variable 2 Status Sensor Trim 1 Upper 2 Lower 3 Zero Factory Calibration 1 Restore Calibration Points 1 Upper 2 Lower Sensor Limits 1 Upper 2 Lower 3 Minimum Span Home 1 Overview 2 Configure 3 Service Tools Service Tools 1 Alerts 2 Variables 3 Trends 4 Communications 5 Maintenance 6 Simulate Alerts 1 Active Alerts 2 History Variables 1 Process 2 Device Trends 1 Pressure 2 Sensor Temperature 3 Scaled Variable 4 Data History Communications 1 Join Status 2 Join Mode 3 Available Neighbors 4 Advertisements Heard 5 Join Attempts Maintenance 1 Calibration 2 Find Device 3 Device Reset 4 Measurement History 5 Advertise to Devices 6 Install Power Module Simulate 1 Pressure 2 Scaled Variable 3 Sensor Temperature 4 Supply Voltage FieldCommunicatorMenuTreesandFastKeys 131 Reference Manual 00809-0100-4100, Rev BA Field Communicator Menu Trees and Fast Keys May 2017 D.2 Field Communicator Fast Keys A () indicates the basic configuration parameters. At minimum these parameters should be verified as a part of configuration and startup. A (7) indicates availability only in HART revision 7 mode. Table D-1. Device Revision 9 and 10 (HART7), DD Revision 1 Fast Key sequence Fast Key Sequence Function Alarm and Saturation Levels Damping Primary Variable Range Values Tag Transfer Function Pressure Units Date Descriptor Digital to Analog Trim (420 mA Output) Digital Zero Trim Display Configuration LOI Password Protection Loop Test Lower Sensor Trim Message Pressure Trend Rerange with Keypad Scaled D/A Trim (420 mA Output) Scaled Variable Sensor Temperature Trend Switch HART Revision Upper Sensor Trim 7 7 7 Long Tag Locate Device Simulate Digital Signal 130 HART 7 2, 2, 2, 5 2, 2, 1, 1, 5 2, 2, 5, 1, 1 2, 2, 2, 1 2, 2, 7, 1, 1 2, 2, 1, 1, 6 2, 2, 1, 1, 4 2, 2, 7, 1, 5 2, 2, 7, 1, 6 3, 4, 2, 1 3, 4, 1, 3 2, 2, 4 2, 2, 6, 5 3, 5, 1 3, 4, 1, 2 HART 5 2, 2, 2, 5 2, 2, 1, 1, 5 2, 2, 5, 1, 1 2, 2, 2, 1 2, 2, 7, 1, 1 2, 2, 1, 1, 6 2, 2, 1, 1, 4 2, 2, 7, 1, 4 2, 2, 7, 1, 5 3, 4, 2, 1 3, 4, 1, 3 2, 2, 4 2, 2, 6, 4 3, 5, 1 3, 4, 1, 2 2, 2, 7, 1, 7 2, 2, 7, 1, 6 3, 3, 1 2, 2, 2, 1 3, 4, 2, 2 2, 2, 3 3, 3, 3 2, 2, 5, 2, 4 3, 4, 1, 1 2, 2, 7, 1, 2 3, 4, 5 3, 5 3, 3, 1 2, 2, 2, 1 3, 4, 2, 2 2, 2, 3 3, 3, 3 2, 2, 5, 2, 3 3, 4, 1, 1 N/A N/A N/A FieldCommunicatorMenuTreesandFastKeys Field Communicator Menu Trees and Fast Keys May 2017 Reference Manual 00809-0100-4100, Rev BA FieldCommunicatorMenuTreesandFastKeys 131 Reference Manual 00809-0100-4100, Rev BA Field Communicator Menu Trees and Fast Keys May 2017 132 FieldCommunicatorMenuTreesandFastKeys Global Headquarters Emerson Automation Solutions 6021 Innovation Blvd. Shakopee, MN 55379, USA

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+971 4 8118100

+971 4 8865465 RFQ.RMTMEA@Emerson.com Reference Manual 00809-0100-4100, Rev BA May 2017 Linkedin.com/company/Emerson-Automation-Solutions Twitter.com/Rosemount_News Facebook.com/Rosemount Youtube.com/user/RosemountMeasurement Google.com/+RosemountMeasurement Standard Terms and Conditions of Sale can be found on the Terms and Conditions of Sale page. The Emerson logo is a trademark and service mark of Emerson Electric Co. Rosemount and Rosemount logotype are trademarks of Emerson. Colpanar, Instrument Toolkit, Rosemount, and Rosemount logotype are trademarks of Emerson. HART and WirelessHART are registered trademark of FieldComm Group. SYLTHERM is a trademark of Dow Corning Corporation. D.C Silicone 700 is a registered trademark of Dow Corning Corporation. Neobee M-20 is a registered trademark of Stephan Specialty Products, LLC. National Electrical Code is a registered trademark of National Fire Protection Association, Inc. NEMA is a registered trademark and service mark of the National Electrical Manufacturers Association All other marks are the property of their respective owners. 2017 Emerson. All rights reserved.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

ACTIVE 3D ANTENNA PATTERN MEASUREMENTS Active EUT:

Serial Number:

Customer:

Attendees:

Customer Project:

Tested By:

Test Run Description:

COMMENTS Low channel (2405 MHz) 3D PATTERN DATA Frequency (MHz) Ant. Port Input Pwr. (dBm) Tot. Rad. Pwr. (dBm) Peak EIRP (dBm) Directivity (dBi) Efficiency (dB) Efficiency (%) Gain (dBi) Average Gain (dB) E-Plane 3 dB BW () Model 2051/3051 2002 Emerson Process Management None None Dustin Sparks 2405 MHz Low Ch Work Order:

Date:

Temperature:

Relative Humidity:

Bar. Pressure:

Job Site:

OTA 2018.01.04 EMPM0077 10/31/2019 22.9 C 25.6% RH 1020 mbar MN10 2405 8.00 2.87 7.23 4.36

-5.13 30.68

-0.77

-5.13 56.00 Azimuth Cut (Theta Axis = 90) Elevation Cut (Phi Axis = 0) Elevation Cut (Phi Axis = 90) Z 180 Theta 0 Z Theta

= -90 Theta 0 Z Theta

= -90 90 Y Y X Theta = 90 X, Phi = 0 Theta = 90 Y, Phi = 90 345 330 15 30 315 300 45 60 285 270 255 75 90 105 Azimuth Cut (Theta Axis = 90) Phi 0 20 15 10 5 0

-5

-10

-15

-20

-25 345 330 15 30 315 45 300 60 285 75 270 90 255 105 Total 0 20 15 10 5 0

-5

-10

-15

-20

-25 240 120 240 120 225 135 225 135 0 X POLAR PLOTS Power (dBm) 15 30 Theta 0 20 15 10 5 0

-5

-10

-15

-20

-25 45 60 75 90 105 120 135 180 Phi 0 150 165 180 210 195 150 165 Power (dBm) Theta 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 210 195 150 165 Elevation Cut (Phi Axis = 0) 180 Total 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 30 45 60 75 90 105 120 135 15 20 15 10 5 0

-5

-10

-15

-20

-25 345 330 315 300 285 270 255 240 225 210 195

-15

-30

-45

-60

-75

-90

-105

-120

-135 150 165

-180

-150

-165 150 165

-180

-150

-165 150 165

-180

-150

-165 Power (dBm) Theta 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 Elevation Cut (Phi Axis = 90) Phi 0 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135

-15

-30

-45

-60

-75

-90

-105

-120

-135 30 45 60 75 90 105 120 135 Total 0 15 20 15 10 5 0

-5

-10

-15

-20

-25

-15

-30

-45

-60

-75

-90

-105

-120

-135 150 165

-180

-150

-165 150 165

-180

-150

-165 150 165

-180

-150

-165 ACTIVE 3D ANTENNA PATTERN MEASUREMENTS Active EUT:

Serial Number:

Customer:

Attendees:

Customer Project:

Tested By:

Test Run Description:

COMMENTS Mid channel (2440 MHz) 3D PATTERN DATA Frequency (MHz) Ant. Port Input Pwr. (dBm) Tot. Rad. Pwr. (dBm) Peak EIRP (dBm) Directivity (dBi) Efficiency (dB) Efficiency (%) Gain (dBi) Average Gain (dB) E-Plane 3 dB BW () Model 2051/3051 2002 Emerson Process Management None None Dustin Sparks 2440 MHz Mid Ch Work Order:

Date:

Temperature:

Relative Humidity:

Bar. Pressure:

Job Site:

OTA 2018.01.04 EMPM0077 10/31/2019 22.9 C 25.6% RH 1020 mbar MN10 2440 8.00 4.17 8.61 4.44

-3.83 41.36 0.61

-3.83 81.00 Azimuth Cut (Theta Axis = 90) Elevation Cut (Phi Axis = 0) Elevation Cut (Phi Axis = 90) Z 180 Theta 0 Z Theta

= -90 Theta 0 Z Theta

= -90 90 Y Y X Theta = 90 X, Phi = 0 Theta = 90 Y, Phi = 90 345 330 15 30 315 300 45 60 285 270 255 75 90 105 Azimuth Cut (Theta Axis = 90) Phi 0 20 15 10 5 0

-5

-10

-15

-20

-25 345 330 15 30 315 45 300 60 285 75 270 90 255 105 Total 0 20 15 10 5 0

-5

-10

-15

-20

-25 240 120 240 120 225 135 225 135 0 X POLAR PLOTS Power (dBm) 15 30 Theta 0 20 15 10 5 0

-5

-10

-15

-20

-25 45 60 75 90 105 120 135 180 Phi 0 150 165 180 210 195 150 165 Power (dBm) Theta 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 210 195 150 165 Elevation Cut (Phi Axis = 0) 180 Total 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 30 45 60 75 90 105 120 135 15 20 15 10 5 0

-5

-10

-15

-20

-25 345 330 315 300 285 270 255 240 225 210 195

-15

-30

-45

-60

-75

-90

-105

-120

-135 150 165

-180

-150

-165 150 165

-180

-150

-165 150 165

-180

-150

-165 Power (dBm) Theta 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 Elevation Cut (Phi Axis = 90) Phi 0 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135

-15

-30

-45

-60

-75

-90

-105

-120

-135 30 45 60 75 90 105 120 135 Total 0 15 20 15 10 5 0

-5

-10

-15

-20

-25

-15

-30

-45

-60

-75

-90

-105

-120

-135 150 165

-180

-150

-165 150 165

-180

-150

-165 150 165

-180

-150

-165 ACTIVE 3D ANTENNA PATTERN MEASUREMENTS Active EUT:

Serial Number:

Customer:

Attendees:

Customer Project:

Tested By:

Test Run Description:

COMMENTS High channel (2475 MHz) 3D PATTERN DATA Frequency (MHz) Ant. Port Input Pwr. (dBm) Tot. Rad. Pwr. (dBm) Peak EIRP (dBm) Directivity (dBi) Efficiency (dB) Efficiency (%) Gain (dBi) Average Gain (dB) E-Plane 3 dB BW () Model 2051/3051 2002 Emerson Process Management None None Dustin Sparks 2475 MHz High Ch Work Order:

Date:

Temperature:

Relative Humidity:

Bar. Pressure:

Job Site:

OTA 2018.01.04 EMPM0077 10/31/2019 22.9 C 25.6% RH 1020 mbar MN10 2475 8.00 3.39 7.94 4.54

-4.61 34.61

-0.06

-4.61 74.00 Azimuth Cut (Theta Axis = 90) Elevation Cut (Phi Axis = 0) Elevation Cut (Phi Axis = 90) Z 180 Theta 0 Z Theta

= -90 Theta 0 Z Theta

= -90 90 Y Y X Theta = 90 X, Phi = 0 Theta = 90 Y, Phi = 90 345 330 15 30 315 300 45 60 285 270 255 75 90 105 Azimuth Cut (Theta Axis = 90) Phi 0 20 15 10 5 0

-5

-10

-15

-20

-25 345 330 15 30 315 45 300 60 285 75 270 90 255 105 Total 0 20 15 10 5 0

-5

-10

-15

-20

-25 240 120 240 120 225 135 225 135 0 X POLAR PLOTS Power (dBm) 15 30 Theta 0 20 15 10 5 0

-5

-10

-15

-20

-25 45 60 75 90 105 120 135 180 Phi 0 150 165 180 210 195 150 165 Power (dBm) Theta 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 210 195 150 165 Elevation Cut (Phi Axis = 0) 180 Total 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 30 45 60 75 90 105 120 135 15 20 15 10 5 0

-5

-10

-15

-20

-25 345 330 315 300 285 270 255 240 225 210 195

-15

-30

-45

-60

-75

-90

-105

-120

-135 150 165

-180

-150

-165 150 165

-180

-150

-165 150 165

-180

-150

-165 Power (dBm) Theta 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135 0

-15

-30

-45

-60

-75

-90

-105

-120

-135 Elevation Cut (Phi Axis = 90) Phi 0 15 20 15 10 5 0

-5

-10

-15

-20

-25 30 45 60 75 90 105 120 135

-15

-30

-45

-60

-75

-90

-105

-120

-135 30 45 60 75 90 105 120 135 Total 0 15 20 15 10 5 0

-5

-10

-15

-20

-25

-15

-30

-45

-60

-75

-90

-105

-120

-135 150 165

-180

-150

-165 150 165

-180

-150

-165 150 165

-180

-150

-165

 

 

Emerson Automation Solutions 6021 Innovation Blvd Shakopee, MN 55379 USA Rosemount Inc. Reviewing Engineering Certification: Part 15.247, Original Certification Applicant:

Equipment: Wireless Pressure Gauge Model #:

FCC #:

Attention:

Application Examiner Re: Cover Letter Applicant: Rosemount, Inc. FCC ID: LW2-RMCT58 To whom it may concern, Attention:

Reference:

Dear Sir/Madam:

Enclosed please find an FCC ID: LW2-RMCT58 certification application. This is an IEEE 802.15.4 type radio employing Wireless Hart Industrial Communication Technology seeking approval per CFR 47 Part 15.247. Further details and supporting documents are attached. Should you have any questions, please feel free to contact the undersigned. Sincerely, Merritt Pulkrabek Principal Approvals Engineer Rosemount Inc. Ph. +01.952.204.4193 Merritt.pulkrabek@emerson.com 2051/3051 LW2-RMCT58

 

 

 

 

 

 

Emerson Automation Solutions 6021 Innovation Blvd Shakopee, MN 55379 USA Attention:

Application Examiner Re: Request for confidentiality Applicant: Rosemount, Inc. FCC ID: LW2-RMCT58 To whom it may concern, Permanent Confidentiality Request is hereby submitted by Rosemount, Inc. to withhold permanently from public review certain portions of the application for equipment certification for the referenced FCC identifiers. This request for confidentiality is made pursuant to 47 CFR 0.457(d) and 0.459 of the FCC Rules. In particular, the following sections of the application are to be kept permanently confidential:

Schematics Detailed Block diagrams Detailed Operational/Functional Description This device is a non-consumer device inaccessible to general public and is only accessable by qualified technical personnel in the industrial control industry. Short-term Confidentiality Request is hereby submitted by Rosemount Inc. to withhold from public review for a period of 45 days from the date of the Grant of Equipment Authorization and prior to marketing, certain portions of the application for equipment certification for the referenced FCC identifiers. This request for confidentiality is made pursuant to 47 CFR 0.457(d) and 0.459 of the FCC Rules. In particular, the following sections of the application are to be kept confidential for a period of 45 days from the date of Authorization:

Test setup photos External photos Internal photos Rationale for request for confidentiality:

Rosemount Inc. has invested considerable time and materials in research and development to produce the referenced product. Disclosure of the permanently confidential portions of this application to competitors would not only give them significant competitive advantages in developing similar products, but would also disclose successful implementation of unpublished, leading edge technology developed by us. Disclosure of the short-term confidential portions of this application during the period of importation and/or distribution would reveal key aspects of proprietary technology to competitors and diminish the value of our investment in research and development. Sincerely, Merritt Pulkrabek Principal Approvals Engineer Rosemount Inc.