The product with part number EA2ECN1 (ENGINEERING ASSISTANT SOFTWARE PACKAGE- 3098) is from company Rosemount and distributed with basic unit price 3654,11 EUR. Minimal order quantity is 1 pc. Rosemount 3095 MultiVariable Catalog 2006 - 2007 2 The Leader in MultiVariable Mass Flow Measurement. Rosemount delivers a tradition of excellence and technology leadership, featuring the state-of-the-art Rosemount 3095 MultiVariable Mass Flow transmitter.
. Reference Manual -4716, Rev JA May 2008 ™ Rosemount 3095 MultiVariable Mass Flow ® ™ Transmitter with HART or F OUNDATION Fieldbus Protocol www.rosemount.com. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Table of Contents SECTION 1 Using This Manual.1-1 Service Support. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 SECTION 3 Safety Messages. 3-1 Engineering Assistant Software. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 SECTION 5 Safety Messages. 5-1 EA Communication Troubleshooting.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 APPENDIX B Approved Manufacturing Locations.B-1 European Directive Information. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Rosemount 3095 MultiVariable Mass Flow Transmitter 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. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Section 1 Introduction Using This Manual. Page 1-1 Service Support. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 SERVICE SUPPORT To expedite the return process outside the United States, contact the nearest Rosemount representative. Within the United States, call the Rosemount National 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. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Section 2 Installation Safety Messages. Page 2-1 Installation Flowchart. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 INSTALLATION FLOWCHART FIELD START INSTALLATION Unpack the Review Installation 3095 BENCH CONFIGURE Considerations Connect Bench Mount Review the Power Supply Transmitter 3095 Manual Review Rosemount drawing Connect a Personal.
Review the packing list to verify that all equipment was received. Inspect the equipment and report any shipping damage to the carrier. See “Exploded View of the Rosemount 3095” on page A-9 to verify parts SET THE SWITCHES Write Protect and Failure After the transmitter has been configured, the configuration data can be protected by moving the write protect jumper. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 If the transmitter is installed, secure the loop and remove power. Remove the housing cover opposite the field terminal side.
Locate the jumper on the electronics board (see Figure 2-1), then move the jumper to the desired setting. Rosemount 3095 MultiVariable May 2008 Mechanical The Rosemount 3095 may be panel-mounted, wall-mounted, or attached to a two-inch pipe with an optional mounting bracket. Figure 2-2 illustrates 3095 mounting configurations, “Dimensional Drawings” on page A-9 shows the transmitter dimensions, and Figure 2-3 illustrates example installations. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 In steam or other elevated temperature services, it is important that temperatures at the coplanar process flanges not exceed 185 °F (85 °C).
Example Installations. STEAM Flow SERVICE. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 The best location for the transmitter in relation to the process pipe depends on the process. Consider the following guidelines in determining transmitter location and placement of impulse piping:. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Housing Rotation The electronics housing may be rotated to improve field access to the two compartments.
To rotate the housing less than 90 degrees, release the housing rotation set screw and turn the housing not more than 90 degrees from the orientation shown in Figure 2-3 on page 2-6. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Failure to install proper flange adapter O-rings can cause process leaks, which can result in death or serious injury. There are two styles of Rosemount flange adapters, each requiring a unique O-ring, as shown below.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Mounting Figure 2-4 illustrates a typical 3095 installation site. Major components of the 3095 System and the 3095 Multivariable Transmitter are identified in these figures. Typical 3095 Installation Site. Stainless Steel Head Markings (SST) Hazardous Locations The Rosemount 3095 has an explosion-proof housing and circuitry suitable for intrinsically safe and non-incendive operation. Individual transmitters are clearly marked with a tag indicating the certifications they carry.
See Appendix A: Specifications and Reference Data for specific approval categories. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Electrical (HART) The signal terminals are located in a compartment of the electronics housing separate from the transmitter electronics.
Power Supply The dc power supply should provide power with less than 2% ripple. The total resistance load is the sum of the resistance of the signal leads and the load resistance of the controller, indicator, and related pieces. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 NOTE Do not apply high voltage (e.g. Ac line voltage) to the transmitter terminals. Abnormally high voltage can damage the unit. Grounding Signal wiring of the fieldbus segment cannot be grounded.
Grounding out one of the signal wires will shut down the entire fieldbus segment. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 2-7. F OUNDATION Fieldbus Transmitter Terminal Block Power Terminals NOTE Do not ground out the live signal wiring to the housing when working on a segment. Grounding the communication wires may result in temporary loss of communication with all devices on the segment. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Optional Transient The transient terminal block can be ordered as an installed option (Option Code T1 in the transmitter model number) or as a spare part to retrofit existing Protection Terminal 3095 transmitters in the field. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Table 2-2. Bolt Installation Torque Values.
Bolt Material Initial Torque Value Final Torque Value Carbon Steel (CS) 300 in-lb (34 n-m) 650 in-lb (73 n-m) Stainless Steel (SST) 150 in-lb (17 n-m). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Install RTD Assembly (Optional) Install the Series 68 or Series 78 RTD Assembly. (optional) NOTE To meet ISSep/CENELEC Flameproof certification, only European Flameproof Cable Assemblies (Process Temperature Input Codes A, B, or C) may be used for RTD cable installation. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008.
Installing a Shielded 3095 RTD Cable (intended for use in a conduit) a. Fully engage the black cable connector to the 3095 RTD Connector (see Figure 2-9). Tighten the cable adapter until metal contacts metal (see Figure 2-9).
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Check for Leaks Check all process penetrations for leaks. Power and Signal Wiring Make field wiring connections (see Figure 2-6 or Figure 2-12). These connections provide both power and signal wiring. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 2-12. HART Wiring Connections. 1100 R 250 User-Provided Power Supply (see step 7.b) Signal loop may be grounded at any point or left ungrounded (see step 7.a).
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Section 3 HART Commissioning Safety Messages. Page 3-1 Engineering Assistant Software. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 ENGINEERING The 3095 Engineering Assistant (EA) Software is a PC-based software package. The EA Software lets you configure the 3095 Multivariable Mass ASSISTANT SOFTWARE Flow Transmitter and 3095 Multivariable Mass Flowmeters. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Installing the HART Modem After the EA Software has been installed, the HART modem device driver must be installed and configured. The HART modem Installation Wizard automatically appears when the 3095 EA Software is launched. If the wizard does not automatically launch, you can configure the modem by accessing the AMS Network Configuration screen.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Specify a name for the HART Modem. The default is “HART Modem 1.” Click “Next.” Specify whether AMS will act as a primary or secondary HART master for configuration (See Figure 3-2). If performing a bench configuration, it is recommended to choose “Hand held device as a. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Connecting to a Personal Computer Figure 3-3 shows how to connect a computer to a 3095. Connecting a PC to the 3095 1100 R 250 User-Provided. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 a.
For AMS Snap-On users: 1. Click on the Windows “Start” button. Click on “All Programs.” 3.
Click on the “AMS” folder. Click on the “AMS System” icon. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 3-5. Device Connection View Basic Navigation The 3095 Engineering Assistant lets you navigate through the software in a variety of ways. When first logging onto the system, the default screen is the Device Connection View (Figure 3-5).
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Tool Bar Another fast way to navigate through the 3095 Engineering Assistance Software is by using the toolbar (see Figure 3-6). Toolbar Icons Procedures In both Snap-On and Stand-Alone versions of the 3095 Engineering Assistant Software, most of the device parameters can be accessed by right-clicking on the transmitter icon (See Figure 3-7 below). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 3-7. Transmitter Links. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Process Variables The “Process Variables” link displays the current reading of the process variables measured by the 3095. In the “Process Variables” window, variables are automatically updated every 2-3 seconds.
All values on the screen are read-only. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Status The “Status” link displays a list of the transmitter errors, alarms, and failures. If a status flag is triggered, it is highlighted in red. Right-click on the transmitter icon. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Right-click on the transmitter icon. Highlight “Diagnostics and Tests” from the pop-up menu.
Select “Loop Test” from the submenu. Read the warning message and click “Next.” Select the analog output level for the transmitter and click “Next.” If “Other”.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 3-11. Sensor Trim Menu In addition to the 3095 EA software, the following equipment is required for a sensor trim procedure:. 3095 transmitter. Dead-weight tester. Power supply and load resistor. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Sensor Trim Procedure Right-click on the transmitter icon. Select “Process Variables” to view measured variables and determine if a sensor trim is needed (see Figure 3-8).
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Right-click on the transmitter icon. Select “Calibrate/Sensor Trim”. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 c. To restore the selected process variable to its factory default calibration, select “Factory Trim Recall” and click “Next.” 1.
Read the warning message and click “Next.” 2. Select “Yes” to implement the default calibration, and click “Next.”. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Changing the Atmospheric Pressure Value: The Gauge Sensor on the 3095 takes measurements with respect to the atmospheric pressure.
To change the assumed atmospheric pressure value: Right-click on the transmitter icon. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 D/A Trim The D/A Trim allows the user to adjust the digital-to-analog converter at the end points of the transmitter output scale to compensate for a discrepancy with a reference milliamp meter.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Scaled D/A Trim For the Scaled D/A Trim, the user can adjust the transmitter digital-to-analog converter on an alternate unit of measure, such as voltage (example: using a voltmeter across a 500 ohm resistor produces a low point of 2 volts a high point of 10V). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Process Variable Assignments The “Assignments” (or Process Variable Assignments) link lets you assign specific variables to individual 4-20mA loops for use with the Rosemount 333 HART Tri-Loop. Table 3-1 illustrates the default variables assigned to each control loop.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 RTD Configuration The RTD Config link specifies the process temperature (PT) mode. It allows you to enable or disable PT input or to specify automatic backup mode. When in Normal Mode, the transmitter uses the external RTD for PT measurement. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 DP Low Flow Cutoff The DP Low Flow Cutoff screen allows the minimum differential pressure (DP) limit for the 3095 to calculate flow to be set. At a DP value less than the low flow cutoff, the flow value will equal zero.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Rename To change the name that appears next to the transmitter icon on the 3095 Engineering Assistant software: Right-click on the transmitter icon. Click “Rename” from the pop-up menu.
Type a new name for the transmitter, and press “Enter” on the keyboard. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 3-18. Compare Configurations 3-23. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Configuration Properties The Configuration Properties screen contains device parameters that are grouped into tabs located at the top of the window.
To access the Configuration Properties window: Right-click on the transmitter icon. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Device Tab The device tab provides more in-depth information about the 3095 transmitter. Only the Date, Descriptor, and Message fields can be edited. All other fields on the Device tab are read only:.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 HART Tab The HART tab is used to set some of the communications parameters that are used by HART protocol. Tag: same parameter as found on the “Basic Setup” tab. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 3-21. HART Tab DP Sensor Tab The DP Sensor screen provides read only information about the DP sensor module (see Figure 3-22). Flange Type: From the drop-down menu, select the flange type used in the primary assembly. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Flow Tab The Flow Tab allows for the configuration of flow damping and units of measure (see Figure 3-23).
Flow USL and Flow LSL: This is a value calculated by the transmitter. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 LCD Configuration Tab The following parameters can be displayed on the LCD (if LCD is ordered and installed on transmitter). See Figure 3-24. Differential Pressure.
Static Pressure (Absolute Pressure). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 3-25. Flow Total Process Input Tab On the Process Input tab, the units of measure and damping can be configured for each of the measured variables (DP, AP/GP, and Temp). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Analog Output Tab.
Upper Range Value (URV) and Lower Range Value (LRV): Sets the range represented by the 4 to 20mA output. These functions are also selectable on the “Basic Setup” tab. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Spec Units Tab The Special Units tab configures flow measurement and flow total to be displayed in units considered nonstandard in the 3095M transmitter. NOTE After completing a special unit configuration, reset the 4-20mA range (LRV and URV). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Set up Tri-loop Start AMS. Configuration Right-click the on-line 3095 and select Configuration Properties. Select the HART tab.
Select Burst Mode Off. Select Burst option to processvars/crnt. This is HART command 3. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 3-29. 3095 Engineering Assistant Menu Structure. Basic Navigation File Menu “New” starts with a fresh configuration file.
This should be selected before import and opening a file. “Open” lets you open a previously saved configuration file. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Transmitter Menu Use “Send Configuration” to fully implement the flow configuration to the transmitter. When finished with the flow configuration wizard, the transmitter does not use the new configuration until the “Send Configuration” link is used.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Flow Configuration Wizard The flow configuration wizard screens are used to define compensated flow parameters and to create flow configuration files for sending to a transmitter. The flow configuration wizard can be launched by clicking on the “Configure Flow”. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Process Fluid Selection The first screen of the flow configuration wizard lets you select the process fluid used in your application. Available fluids include:. Natural Gas (AGA & ISO).
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Table 3-2. Detail Characterization Method Engineering Assistant Variable Gross Method Detail Method Pressure 0–1200 psia 0–20,000 psia Temperature 32 to 130 °F –200 to 400 °F Specific Gravity 0.554–0.87. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Gas & Liquid Flow Select either Database Gas, Database Fluid, Custom Gas, or Custom Fluid from the “Fluid Designation Category” Header. If using a database gas or fluid, select the fluid used from the “Fluid Type”. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Composition Mole% (Natural Gas Only) The next screen will take you to either the gas composition table or the gross characterization screens, depending on what you selected in the previous screen. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Gross Characterization Method 1 (AGA) & Physical Property: SGRG-88 (ISO) Gross Method 1 uses the density of natural gas, its heating value, and the quantity of non-hydrocarbon components to calculate the gas compressibility factor per AGA8. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Primary Element Selection The Primary Element Selection Screen lets you configure the primary element used with the 3095.
The following steps apply to all fluid types (gas, fluid, natural gas, steam). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Table 3-4. Primary Element Options Annubar Orifice Plate ® Annubar Diamond II (Discontinued 1999) 1195 Integral Orifice ® Annubar Diamond II+ / Mass ProBar 1195 Mass ProPlate ® Calibrated Annubar. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Operating & Reference Conditions After supplying information about the primary element, the next screen prompts you to enter values for environmental and operating conditions. This screen applies to all process fluids.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Density, Viscosity, and Compressibility Configuration The next screen displays the calculated density and viscosity values based on entries made in previous screens in the flow configuration wizard. If a change is made to either a density or viscosity value, the 3095 EA software considers the fluid to be “Custom Fluid.”. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Saving the Flow Configuration Once the flow configuration wizard is complete, you will be prompted to save the new flow configuration. You can save it on the computer’s hard disk, the 3095’s flash memory, or both.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Off-line Configuration In off-line mode, the 3095 Engineering Assistant does not communicate directly with the transmitter. Instead, the configuration file is saved to the computer and loaded onto the transmitter at a later time when in on-line mode. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 3-38. Off-Line Configuration 3-48. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Section 4 Fieldbus OUNDATION Configuration Overview.page 4-1 Safety Messages.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 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. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Install the NI-FBUS Communications Manager Driver Software from the National Instruments CD. Insert the NI-FBUS Communications Manager Driver CD. Windows should detect the presence of a CD and start the installation program. Fieldbus.org web site. Go to Fieldbus.org.
Click the End User Resources button. Click Registered Products. Choose Emerson Process Management from the Manufacturer drop-down menu. Choose Flow from the Category drop-down menu. Click Search. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Establish Communications with the 3095 F Fieldbus OUNDATION Transmitter using 3095 EA for F Fieldbus OUNDATION Connect the 9-pin communications cable into the PCMCIA card port located in the computer. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Create and Send a Mass Flow Configuration using 3095 EA for FOUNDATION Fieldbus A mass flow configuration file can be created in either OFFLINE or ONLINE mode.
Select the device tag name requiring a new or updated mass flow configuration file. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 4-3.
EA Wizard View EA Wizard Upon completing a mass flow configuration using the EA Wizard, the file can be saved to disk. The file must be saved for review or to edit the mass flow configuration file in the future.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Figure 4-4. Download Mass Flow Configuration File Selected Device Send Mass Flow (Highlighted) Configuration File to Status Confirms Mass Selected Device Flow Configuration File Installations.
Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Verify the Flow Configuration To view the flow configuration parameters: Open the Mass Flow Block. The following parameters, shown in Table 4-1, contain the flow configuration information that can be viewed in the Mass Flow Block. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 GENERAL INFORMATION Device Description Before configuring the device, ensure the host has the appropriate Device Description file revision for this device. The device descriptor can be found on www.rosemount.com.
The initial release of the 3095 with FOUNDATION Fieldbus protocol is device revision 1. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Types of Modes For the procedures described in this manual, it will be helpful to understand the following modes: AUTO The functions performed by the block will execute. If the block has any outputs, these will continue to update. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Capabilities Virtual Communication Relationship (VCRs) There are a total of 20 VCRs. One is permanent and 18 are fully configurable by the host system.
Twenty five link objects are available. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Mass Flow Transducer Block (1200) Contains configuration and diagnostic information to perform fully compensated mass flow calculations.
Contains the mass flow process variable (PV). Mass flow is calculated using process differential pressure and pressure. When fault state is set, then output function bocks will perform their FSTATE actions. The Rosemount 3095 supports fault state action. The fault state option bit must be set in the features bit to use this feature. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 The FEATURESEL parameter enables the user to select a hardware or software write lock or no write lock capability.
To enable the hardware security function, enable the HWSEL bit in the FEATURESEL parameter. When this bit has been enabled the WRITELOCK parameter becomes read only and will reflect the state of the hardware switch. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 ™ PlantWeb Alerts The Resource Block will act as a coordinator for PlantWeb alerts. There will be three alarm parameters (FAILEDALARM, MAINTALARM, and ADVISEALARM) which will contain information regarding some of the device errors which are detected by the transmitter software. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 MAINTALARMS A maintenance alarm indicates the device or some part of the device needs maintenance soon.
If the condition is ignored, the device will eventually fail. There are five parameters associated with MAINTALARMS, they are described below. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Advisory Alarms An advisory alarm indicates informative conditions that do not have a direct impact on the device's primary functions There are five parameters associated with ADVISEALARMS, they are described below. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Recommended Actions RECOMMENDEDACTION The RECOMMENDEDACTION parameter displays a text string that will give for PlantWeb Alerts a recommended course of action to take based on which type and which specific event of the PlantWeb alerts are active. The Mass Flow OUNDATION Transducer Block can also use a fixed temperature input to calculate mass flow.
LCD TRANSDUCER The LCD display connects directly to the Rosemount 3095 electronics fieldbus output board. The display indicates output and BLOCK OUNDATION abbreviated diagnostic messages. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 BLKTAG# Enter the Block Tag of the function block that contains the parameter to be displayed. The default function block tags from the factory are: TRANSDUCER CHAR 2400 AI 1400. F fieldbus BLOCK OUNDATION segment. The Rosemount 3095 provides process variable measurement for static pressure (absolute or gage), differential pressure, process temperature and sensor temperature.
Fully compensated Mass Flow is available as a calculated process variable. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 XDSCALE and OUTSCALE The XDSCALE and OUTSCALE each include four parameters: 0%, 100%, engineering units, and precision (decimal point). Set these based on the LTYPE: LTYPE is Direct When the desired output is the measured variable, set the XDSCALE to represent the operating range of the process. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Filtering The filtering feature changes the response time of the device to smooth variations in output readings caused by rapid changes in input. Adjust the filter time constant (in seconds) using the PVFTIME parameter.
Set the filter time constant to zero to disable the filter feature. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Process Alarms Process Alarm detection is based on the OUT value.
Configure the alarm limits of the following standard alarms:. High (HILIM). High high (HIHILIM). Low (LOLIM). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 OPERATION Each F fieldbus host or configuration tool has different ways of OUNDATION displaying and performing operations.
Some hosts will use Device Descriptions (DD) and DD Methods to complete device configuration and will display data consistently across platforms. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Sensor Calibration, Zero In order to zero the transmitter, run the Zero Trim Method.
If your system does not support methods, manually configure the Transducer Block parameters Trim Method: listed below. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Simulate If the SIMULATE switch is in the OFF position, move it to the ON position. If the SIMULATE jumper is already in the ON position, you must move it to off and place it back in the ON position. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Section 5 Troubleshooting Safety Messages.
Page 5-1 EA Communication Troubleshooting. Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 EA COMMUNICATION TROUBLESHOOTING Alarm Abbreviations Table 5-1 shows standard alarm abbreviations used in Appendix C: Critical Alarms for Previous Software Revisions.
Alarm Abbreviations Abbreviation Definition Lower Operating Limits (customer specified using the EA). Reference Manual -4716, Rev JA Rosemount 3095 MultiVariable May 2008 Overrange Conditions Overrange conditions typically indicate an error that the sensor or flow measurements have reached an overrange condition where substitute values are being used.
Table 5-3 identifies actions to the analog output and digital output during these conditions. (4) Default and minimum low-flow cutoff value = 0.02 inH (5) Saturate low if direct acting (URVLRV), Saturate high if reverse acting (URV.
Read -4803.pdf text version Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Rosemount 3051S MultiVariableTM Transmitter Rosemount 3051SF Series Flowmeter MultiVariable Transmitter Start Step 1: Mount the Transmitter Step 2: Consider Housing Rotation Step 3: Set Switches Step 4: Connect Wiring and Power Up Step 5: Flow Configuration Step 6: Verify Device Configuration Step 7: Trim the Transmitter Product Certifications End ¢-4801J¤ www.rosemount.com Quick Installation Guide Rosemount 3051SMV Rosemount Inc. 8200 Market Boulevard Chanhassen, MN USA 55317 T (US) (800) 999-9307 T (Intnl) (952) 906-8888 F (952) 949-7001 -4803, Rev BA April 2011 © 2011 Rosemount Inc. All rights reserved. All marks property of owner. Rosemount and the Rosemount logotype are registered trademarks of Rosemount Inc.
Emerson Process Management GmbH & Co. OHG Argelsrieder Feld 3 82234 Wessling Germany T 49 (8153) 9390, F49 (8153) 939172 Emerson Process Management Asia Pacific Private Limited 1 Pandan Crescent Singapore 128461 T (65) 6777 8211 F (65) 6777 09 0743 Beijing Rosemount Far East Instrument Co., Limited No.
6 North Street, Hepingli, Dong Cheng District Beijing 100013, China T (86) (10) 6428 2233 F (86) (10) 6422 8586 IMPORTANT NOTICE This installation guide provides basic guidelines for the Rosemount 3051S MultiVariable transmitter (reference manual document number -4803). It also provides the basic 3051S MultiVariable transmitter configuration guidelines for the 3051SFA (reference manual document number -4809), 3051SFC (reference manual document number -4810), and 3051SFP (reference manual document number -4686). It does not provide instructions for diagnostics, maintenance, service, or troubleshooting. Refer to the 3051S MultiVariable transmitter reference manual for more instruction. All documents are available electronically at www.emersonprocess.com/rosemount.
WARNING Explosions could result in death or serious injury: Installation of this transmitter in an explosive environment must be in accordance with the appropriate local, national, and international standards, codes, and practices. Please review the approvals section of the 3051S MultiVariable transmitter reference manual (-4803) for any restrictions associated with a safe installation.
Before connecting a Field communicator in an explosive atmosphere, ensure the instruments in the loop are installed in accordance with intrinsically safe or non-incendive field wiring practices. In an Explosion-proof/Flameproof installation, do not remove the transmitter covers when power is applied to the unit. Process leaks may cause harm or result in death.
Install and tighten process connectors before applying pressure. Electrical shock can result in death or serious injury. Avoid contact with the leads and terminals. High voltage that may be present on leads can cause electrical shock. 2 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV STEP 1: MOUNT THE TRANSMITTER Liquid Flow Applications 1. Place taps to the side of the line. Mount beside or below the taps.
Mount the transmitter so that the drain/vent valves are oriented upward. Gas Flow Applications 1. Place taps in the top or side of the line. Mount beside or above the taps.
Steam Flow Applications 1. Place taps to the side of the line. Mount beside or below the taps.
Fill impulse lines with water. 3 Quick Installation Guide Rosemount 3051SMV Mounting Brackets CoplanarTM Flange Panel Mount -4803, Rev BA April 2011 Pipe Mount Traditional Flange Panel Mount Pipe Mount 4 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Bolting Considerations If the transmitter installation requires assembly of a process flange, manifold, or flange adaptors, follow these assembly guidelines to ensure a tight seal for optimal performance characteristics of the transmitter. Only use bolts supplied with the transmitter or sold by Emerson Process Management as spare parts.
Figure 1 illustrates common transmitter assemblies with the bolt length required for proper transmitter assembly. Common Transmitter Assemblies A. Transmitter with Coplanar Flange C. Transmitter with Traditional Flange and Optional Flange Adapters D. Transmitter with Coplanar Flange and Optional Manifold and Flange Adapters 4 x 2.25-in. (57 mm) 4 x 1.75-in. Transmitter with Coplanar Flange and Optional Flange Adapters 4 x 1.75-in.
(44 mm) 4 x 1.50-in. (38 mm) 4 x 1.75-in. (44 mm) 4 x 2.88-in.
(73 mm) 5 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 Bolts are typically carbon steel or stainless steel. Confirm the material by viewing the markings on the head of the bolt and referencing Figure 3.
If bolt material is not shown in Figure 3, contact the local Emerson Process Management representative for more information. Use the following bolt installation procedure: 1. Carbon steel bolts do not require lubrication and the stainless steel bolts are coated with a lubricant to ease installation. However, no additional lubricant should be applied when installing either type of bolt. Finger-tighten the bolts. Torque the bolts to the initial torque value using a crossing pattern. See Figure 3 for initial torque value.
Torque the bolts to the final torque value using the same crossing pattern. See Figure 3 for final torque value.
Verify that the flange bolts are protruding through the module isolator plate before applying pressure. Module Isolator Plate Bolt Module Isolator Plate Figure 3. Torque Values for the Flange and Flange Adapter Bolts Bolt Material Head Markings Initial Torque Final Torque Carbon Steel (CS) Stainless Steel (SST) B7M 300 in.-lbs. 316 B8M 316 SW 316 300 in.-lbs.
316 R STM 316 6 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV O-rings with Flange Adaptors WARNING 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 that is designed for its specific flange adapter, as shown below. Rosemount 3051S / 3051 / 2051 / 3095 Flange Adapter O-ring PTFE Based Elastomer Rosemount 1151 Flange Adapter O-ring PTFE Elastomer Whenever the flange or adapters are removed, visually inspect the o-rings.
Replace them if there are any signs of damage, such as nicks or cuts. If the o-rings are replaced, re-torque the flange bolts and alignment screws after installation to compensate for seating of the o-rings. 7 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 STEP 2: CONSIDER HOUSING ROTATION To improve field access to wiring or to better view the optional LCD display: 1.
Loosen the housing rotation set screw. Turn the housing up to 180° left or right of its original (as shipped) position.
Retighten the housing rotation set screw. NOTE Do not rotate the housing more than 180° without first performing a disassembly procedure (see Section 4 of the 3051S MultiVariable transmitter reference manual (-4803) for more information). Over-rotation may sever the electrical connection between the sensor module and the feature board electronics. Transmitter Housing Set Screw Feature Board Housing Rotation Set Screw (3/32-in.) 8 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV STEP 3: SET SWITCHES The transmitter's default configuration sets the alarm condition to high (HI) and the security to off.
If the transmitter is installed, secure the loop and remove power. Remove the housing cover opposite the field terminals side. Do not remove the housing cover in explosive environments.
Slide the security and alarm switches into the preferred position by using a small screwdriver. Reinstall the housing cover so that metal contacts metal to meet explosion-proof requirements. Transmitter Switch Configuration Security Alarm 9 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 STEP 4: CONNECT WIRING AND POWER UP NOTE Do not connect the power across the test terminals. Power could damage the test diode in the test connection. Twisted pairs yield best results.
Use 24 AWG to 14 AWG wire and do not exceed 5,000 feet (1500 meters). Use the following steps to wire the transmitter: 1. Remove the cover on the field terminals side of the housing.
Connect the positive lead to the 'PWR/COMM +' terminal, and the negative lead to the 'PWR/COMM ' terminal. If the optional process temperature input is not installed, plug and seal the unused conduit connection. If the optional process temperature input is being utilized, see 'Install Optional Process Temperature Input (Pt 100 RTD Sensor)' on page 13 for more information. IMPORTANT NOTICE When the enclosed pipe plug is utilized in the conduit opening, it must be installed with a minimum engagement of five threads in order to comply with explosion-proof requirements. Refer to the 3051S MultiVariable transmitter reference manual (document number -4803) for more information. If applicable, install wiring with a drip loop.
Arrange the drip loop so the bottom is lower than the conduit connections and the transmitter housing. Reinstall the housing cover and tighten so that metal contacts metal to meet explosion-proof requirements. 10 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Figure 6 shows the wiring connections necessary to power a 3051S MultiVariable transmitter and enable communications with a hand-held Field Communicator. Transmitter Wiring 3051SMV without Optional Process Temperature Connection Power Supply 3051SMV with Optional Process Temperature Connection Power Supply RL 250 RL 250 NOTE Installation of the transient protection terminal block does not provide transient protection unless the 3051S MultiVariable transmitter housing is properly grounded. Conduit Electrical Connector Wiring (Option GE or GM) For 3051S MultiVariable transmitters with conduit electrical connectors GE or GM, refer to the cordset manufacturer's installation instructions for wiring details. For FM Intrinsically Safe, Division 2 hazardous locations, install in accordance with Rosemount drawing to maintain outdoor rating (NEMA 4X and IP66.) See Appendix B of the 3051S MultiVariable transmitter reference manual (-4803).
11 Quick Installation Guide Rosemount 3051SMV Power Supply -4803, Rev BA April 2011 The dc power supply should provide power with less than two percent ripple. The total resistance load is the sum of the resistance of the signal leads and the load resistance of the controller, indicator, intrinsic safety barriers, and related components. Load Limitation 3051S MultiVariable Transmitter Maximum Loop Resistance = 43.5 x (Power Supply Voltage 12.0) 1322 Load (Ohms) 1000 500 0 12.0 20 30 Voltage (Vdc) 42.4 Operating Region HART communication requires a minimum loop resistance of 250.
12 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Install Optional Process Temperature Input (Pt 100 RTD Sensor) NOTE To meet ATEX/IECEx Flameproof certification, only ATEX/IECEx Flameproof Cables (Temperature Input Code C30, C32, C33, or C34) may be used. Mount the Pt 100 RTD Sensor in the appropriate location. NOTE Use shielded four-wire cable for the process temperature connection. Connect the RTD cable to the 3051S MultiVariable transmitter by inserting the cable wires through the unused housing conduit and connect to the four screws on the transmitter terminal block. An appropriate cable gland should be used to seal the conduit opening around the cable. Connect the RTD cable shield wire to the ground lug in the housing.
3051S MultiVariable Transmitter RTD Wiring Connection Ground Lug RTD Cable Assembly Wires Red White Pt 100 RTD Sensor 13 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 STEP 5: FLOW CONFIGURATION Engineering Assistant 6.1 or Later The 3051SMV Engineering Assistant 6.1 or later is PC-based software that performs configuration, maintenance, diagnostic functions, and serves as the primary communication interface to the 3051S MultiVariable transmitter with the Fully Compensated Mass and Energy Flow Feature Board. The 3051SMV Engineering Assistant software is required to complete the flow configuration. Installation and Initial Setup The following are the minimum system requirements to install the 3051SMV Engineering Assistant software: Pentium-grade Processor: 500 MHz or faster Operating System: Windows 2000(32-bit), Windows XP Professional (32-bit), or Windows 7 (32-bit) 256 MB RAM 100 MB free hard disk space RS232 serial port or USB port (for use with HART modem) CD-ROM 14 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Installing 3051SMV Engineering Assistant 6.1 or Later 1. Uninstall any existing versions of Engineering Assistant 6 currently installed on the PC. Insert the new Engineering Assistant disk into the CD-ROM. Windows should detect the presence of a CD and start the installation program. Follow the on-screen prompts to finish the installation.
If Windows does not detect the CD, use Windows Explorer or My Computer to view the contents of the CD-ROM, and then double click the SETUP.EXE program. A series of screens (Installation Wizard) will appear and assist in the installation process. Follow the on-screen prompts. It is recommended to use the default installation settings.
NOTE Engineering Assistant versions 6.1 or later require the use of Microsoft®.NET Framework version 2.0 or later. If.NET version 2.0 is not currently installed, the software will be automatically installed during the Engineering Assistant installation. Microsoft.NET version 2.0 requires an additional 200 MB of disk space. 15 Quick Installation Guide Rosemount 3051SMV Connecting to a Personal Computer -4803, Rev BA April 2011 Figure 9 shows how to connect a computer to a 3051S MultiVariable transmitter. Connecting a PC to the 3051S MultiVariable Transmitter 3051SMV without Optional Process Temperature Connection 3051SMV with Optional Process Temperature Connection Power Supply RL 250 RL 250 Power Supply Modem Modem 1.
Remove the cover from the field terminals side of the housing. Power the device as outlined in 'Step 4: Connect Wiring and Power Up.' Connect the HART modem cable to the PC. On the side of the transmitter marked 'Field Terminals,' connect the modem mini-grabbers to the two terminals marked 'PWR/COMM.'
Launch the 3051SMV Engineering Assistant software. For more information on launching software, see 'Launching Engineering Assistant 6.1 or Later' on page 20. Once the configuration is complete, replace cover and tighten until metal contacts metal to meet explosion-proof requirements. 16 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Flow Configuration The 3051SMV Engineering Assistant is designed to guide the user through the setup of the flow configuration for a 3051S MultiVariable transmitter.
![Rosemount engineering assistant Rosemount engineering assistant](http://aosoonyb.com/uploads/160628/1-16062Q131001K.jpg)
The flow configuration screens allow the user to specify the fluid, operating conditions, and information about the primary element, including inside pipe diameter. This information will be used by the 3051SMV Engineering Assistant software to create flow configuration parameters that will be sent to the transmitter or saved for future use. Online and Offline Modes The Engineering Assistant software can be used in two modes: Online and Offline. In Online mode, the user can receive the configuration from the transmitter, edit the configuration, send the changed configuration to the transmitter, or save the configuration to a file.
In Offline mode, the user can create a new flow configuration and save the configuration to a file or open and modify an existing file. The following pages provide instructions on creating a new flow configuration in Offline Mode. For more information on other functionality, see the 3051S MultiVariable transmitter reference manual (-4803). 17 Quick Installation Guide Rosemount 3051SMV Basic Navigation Overview -4803, Rev BA April 2011 Figure 10. Engineering Assistant Basic Navigation Overview The Engineering Assistant software can be navigated in a variety of ways. The numbers below correspond to the numbers shown in Figure 10. The navigation tabs contain the flow configuration information.
In Offline mode, each tab will not become active until the required fields on the previous tab are completed. In Online mode, these tabs will be functional at all times.
18 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV 2. The Reset button will return each field within all of the flow configuration tabs (Fluid Selection, Fluid Properties, and Primary Element Selection) to the values initially displayed at the start of the configuration. In Online Mode, the values will return to the initial values received from the device before the start of the configuration. If editing a previously saved flow configuration, the values will return to those that were last saved. If starting a new flow configuration, all entered values will be erased. The Back button is used to step backward through the flow configuration tabs. The Next button is used to step forward through the flow configuration tabs.
In Offline mode, the Next button will not become active until all required fields on the current page are completed. The Help button can be clicked at any time to get a detailed explanation of the information that is required on the current configuration tab. Any configuration information that needs to be entered or reviewed will appear in this portion of the screen. These menus navigate to the Configure Flow, Basic Setup, Device, Variables, Calibration, and Save/Send Configuration tabs. These buttons navigate to Config/Setup, Device Diagnostics or Process Variables sections.
19 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 Launching Engineering Assistant 6.1 or Later Flow configuration for the 3051S MultiVariable transmitter is achieved by launching the Engineering Assistant software from the START Menu. Select the Start menu All Programs Engineering Assistant. Engineering Assistant will open to the screen shown in Figure 11. Click the Offline button located in the lower right hand corner of the screen shown in Figure 11. Engineering Assistant Device Connection screen 20 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Preferences The Preferences tab, shown in Figure 12, allows the user to select the preferred engineering units to display and specify flow configuration information. Select the preferred engineering units. If Custom Units are selected, configure the Individual Parameters.
Check the box if unit preferences should be retained for future Engineering Assistant sessions. Preferences Tab 21 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 Fluid Selection for Database Liquid/Gas The Fluid Selection tab shown in Figure 13 allows the user to choose the process fluid. Fluid Selection Tab NOTE The following example will show a flow configuration for the Database Gas Air used with a 405C Conditioning Orifice Plate as the primary element. The procedure to set up any other fluid with any other primary element will be similar to this example. Natural gases, custom liquids, and custom gases require additional steps during the configuration. See Section 3 of the 3051S MultiVariable transmitter reference manual (-4803) for more information.
Engineering Assistant may open to the Preferences tab. Using the tabs at the top of the screen, navigate to the Fluid Selection tab. Expand the Gas category (click on the + icon). 22 Quick Installation Guide -4803, Rev BA April 2011 3. Rosemount 3051SMV Expand the Database Gas category.
Select Air from the list of database fluids. Enter the Nominal Operating Pressure, press the Enter or Tab key. Enter the Nominal Operating Temperature, press the Enter or Tab key.
Engineering Assistant will automatically fill in suggested operating ranges, as shown in Figure 13. These values may be edited as needed by the user. Verify that the Reference / Atmospheric Conditions are correct for the application. These values may be edited as needed. NOTE Reference pressure and temperature values are used by Engineering Assistant to convert the flow rate from mass units to mass units expressed as standard or normal volumetric units. Click Next to proceed to the Fluid Properties tab. 23 Quick Installation Guide Rosemount 3051SMV Fluid Properties NOTE -4803, Rev BA April 2011 The Fluid Properties tab is an optional step and is not required to complete a flow configuration.
The Fluid Properties tab for the database gas air is shown in Figure 14. The user may verify that the properties of the chosen fluid are acceptable. To check density, compressibility, and viscosity of the selected fluid at other pressure and temperature values, enter a Pressure and Temperature and click Calculate. NOTE Changing the pressure and temperature values on the Fluid Properties tab does not affect the fluid configuration.
Fluid Properties Tab 24 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Primary Element Selection The Primary Element Selection tab shown in Figure 15 allows the user to choose the primary element. Primary Element Selection Tab Continuing with the example configuration: 1. Expand the Conditioning Orifice Plate category. Select 405C/3051SFC. Enter the Measured Meter Tube Diameter (pipe ID) at a Reference Temperature.
If the meter tube diameter cannot be measured, select a Nominal Pipe Size and Pipe Schedule to input an estimated value for the meter tube diameter (English units only). 25 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 4. If necessary, edit the Meter Tube Material.
Enter the Line Size and select the Beta of the Conditioning Orifice Plate. The required primary element sizing parameters will be different depending on what primary element was selected. If necessary, select a Primary Element Material from the drop-down menu. Click Next to advance to the Save / Send Configuration tab. NOTE To be in compliance with appropriate national or international standards, beta ratios and differential producer diameters should be within the limits as listed in the applicable standards.
The Engineering Assistant software will alert the user if a primary element value exceeds these limits, but will allow the user to proceed with the flow configuration. 26 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV Save / Send Configuration The Save / Send Configuration tab shown in Figure 16 allows the user to verify, save, and send the configuration information to the 3051S MultiVariable transmitter with the Fully Compensated Mass and Energy Flow Feature Board. Review the information under the Flow Configuration heading and Device Configuration heading. NOTE For more information on device configuration, see 'Step 6: Verify Device Configuration.' Save / Send Configuration Tab 27 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 2. Click on the icon above each window to edit the configuration information in these windows.
When all information is correct, move to step 3. NOTE The user will be notified if the configuration has been modified since it was last sent to the transmitter. A warning message will be shown to the right of the Send Flow Data and/or Send Transmitter Data check boxes. To send the configuration, click the Send To button. NOTE The Send Flow Data and Send Transmitter Data check boxes can be used to select what configuration data is sent to the transmitter. If either check box is unselected, the corresponding data will not be sent. The Engineering Assistant Device Connection screen will appear, see Figure 17.
Engineering Assistant Device Connection Screen 28 Quick Installation Guide -4803, Rev BA April 2011 Rosemount 3051SMV 5. Click the Search button located in the lower right hand corner of the screen.
Engineering Assistant will begin to search for connected devices. When the search is completed, choose the device to communicate with and click Send Configuration.
Once the configuration is finished being sent to the device, the user will be notified by a pop-up dialog box. NOTE After the configuration is sent to the device, saving the configuration file is recommended. For more information on saving a configuration file, see the 3051S MultiVariable transmitter reference manual (-4803). If finished with the configuration process, the user may close Engineering Assistant.
29 Quick Installation Guide Rosemount 3051SMV -4803, Rev BA April 2011 STEP 6: VERIFY DEVICE CONFIGURATION Use 3051SMV Engineering Assistant or any HART-compliant master to communicate with and verify configuration of the 3051S MultiVariable transmitter. Table 1 shows the 375 Field Communicator fast keys for the Fully Compensated Mass and Energy Flow. Table 2 shows the fast keys for the Direct Process Variable Output. NOTE Device configuration procedures are given for 3051SMV Engineering Assistant 6.1 or later and AMS Device Manager 9.0 or later in the 3051S MultiVariable transmitter reference manual (-4803). A check ( ) indicates the basic configuration parameters. At a minimum, these parameters should be verified as part of the configuration and startup procedure.