Page 1 Configuration and Use Manual MMI-20025166, Rev AC March 2019 ® Micro Motion Model 5700 Transmitters with Configurable Outputs Configuration and Use Manual...
Page 2 Micro Motion employees. Micro Motion will not accept your returned equipment if you fail to follow Micro Motion procedures. Return procedures and forms are available on our web support site at www.emerson.com, or by phoning the Micro Motion Customer Service department.
Page 3: Table Of Contents
Configuration and Use Manual Contents MMI-20025166 March 2019 Contents Chapter 1 Before you begin......................7 1.1 About this manual..........................7 1.2 Communications tools and protocols....................7 1.3 Related documents.......................... 7 Chapter 2 Quick start........................9 2.1 Power up the transmitter........................9 2.2 Check meter status...........................9 2.3 Commissioning wizards........................10 2.4 Make a startup connection to the transmitter.................10...
Page 4: Table Of Contents
Contents Configuration and Use Manual March 2019 MMI-20025166 6.4 Configure events.......................... 108 6.5 Configure totalizers and inventories..................... 110 6.6 Configure logging for totalizers and inventories................113 6.7 Configure Process Variable Fault Action ..................114 Chapter 7 Configure device options and preferences..............119 7.1 Configure the transmitter display....................
Page 5: Table Of Contents
Configuration and Use Manual Contents MMI-20025166 March 2019 14.1 Use Smart Meter Verification (SMV)................... 199 14.2 Use PVR, TBR, and TMR.......................206 14.3 Zero the meter........................... 207 14.4 Set up pressure compensation....................209 14.5 Validate the meter........................216 14.6 Perform a (standard) D1 and D2 density calibration..............218 14.7 Adjust concentration measurement with Trim Offset ..............
Page 6: Table Of Contents
Contents Configuration and Use Manual March 2019 MMI-20025166 17.22 Check Frequency Output Mode ....................288 17.23 Check HART burst mode......................288 17.24 Check HART communications....................288 17.25 Locate a device using the HART 7 Squawk feature..............290 17.26 Check grounding........................291 17.27 Perform loop tests........................291 17.28 Check Lower Range Value and Upper Range Value ..............297 17.29 Check mA Output Fault Action ....................297 17.30 Trim mA Output........................
Page 7: Chapter 1 Before You Begin
Adapter. Use of AMS or the Smart Wireless THUM Adapter is not discussed in this manual. For more information on the Smart Wireless THUM Adapter, refer to the documentation available at www.emerson.com. 1.3 Related documents You can find all product documentation on the product documentation DVD shipped with the product or at www.emerson.com.
Page 8 Before you begin Configuration and Use Manual March 2019 MMI-20025166 • Coriolis Flowmeter with Micro Motion Model 5700 Transmitters Safety Manual for Safety Instrumented Systems (SIS) • Micro Motion Oil and Gas Production Supplement • Micro Motion Model 5700 Transmitter Net Oil Calculations Multiwell Supplement •...
Page 9: Chapter 2 Quick Start
Configuration and Use Manual Quick start MMI-20025166 March 2019 2 Quick start 2.1 Power up the transmitter The transmitter must be powered up for all configuration and commissioning tasks, or for process measurement. Procedure 1. Follow appropriate procedures to ensure that a new device in the control system does not interfere with existing measurement and control loops.
Page 10: Commissioning Wizards
Quick start Configuration and Use Manual March 2019 MMI-20025166 Table 2-1: Status LED and device status (continued) Status LED condition Device status Solid red One or more alerts are active with Alert Severity = Failure. Flashing yellow (1 Hz) The Function Check in Progress alert is active. 2.3 Commissioning wizards The transmitter menu includes a Guided Setup to help you move quickly through the most common configuration parameters.
Page 11: Set The Transmitter Addresses And Tags
Configuration and Use Manual Quick start MMI-20025166 March 2019 The transmitter clock provides timestamp data for alerts, service logs, history logs, and all other timers and dates in the system. You can set the clock for your local time or for any standard time you want to use. You may find it convenient to set all of your transmitter clocks to the same time, even if the transmitters are in different time zones.
Page 12: View The Licensed Features
Quick start Configuration and Use Manual March 2019 MMI-20025166 the service port address. However, you will not be allowed to use Modbus ASCII (7-bit) for connections to the transmitter. You must use Modbus RTU (8-bit) instead. — The other Modbus parameters can be left at the default values unless you have trouble making the connection.
Page 13: Characterize The Meter (If Required)
Configuration and Use Manual Quick start MMI-20025166 March 2019 c) Set Message to any desired message. d) Verify that Model Code (Base) is set to the base model code of the transmitter. The base model code completely describes your transmitter, except for the features that can be licensed independently.
Page 14 Quick start Configuration and Use Manual March 2019 MMI-20025166 Note Unlike earlier transmitters, the 5700 derives Sensor Type from the user-specified values for FCF and K1 in combination with an internal ID. 2. Set the flow calibration factor: FCF (also called Flow Cal or Flow Calibration Factor). Be sure to include all decimal points.
Page 15 Configuration and Use Manual Quick start MMI-20025166 March 2019 2.9.2 Flow calibration parameters (FCF, FT) Two separate values are used to describe flow calibration: a 6-character FCF value and a 4-character FT value. They are provided on the sensor tag. Both values contain decimal points.
Page 16: Verify Mass Flow Measurement
Quick start Configuration and Use Manual March 2019 MMI-20025166 If your sensor does not show an FD value, contact customer service. If your sensor tag does not show a DT or TC value, enter the last 4 characters of the density calibration factor. In the sample tag shown above, the value is shown as 4.44.
Page 17 Configuration and Use Manual Quick start MMI-20025166 March 2019 Prerequisites Important Do not verify the zero or zero the meter if a high-severity alert is active. Correct the problem, then verify the zero or zero the meter. You may verify the zero or zero the meter if a low-severity alert is active. Procedure 1.
Page 18 Quick start Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 19: Chapter 3 Introduction To Configuration And Commissioning
Configuration and Use Manual Introduction to configuration and commissioning MMI-20025166 March 2019 3 Introduction to configuration and commissioning 3.1 Security and write protection The transmitter has several features that can help to protect it against intentional or unintentional access and configuration changes.
Page 20 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20025166 3.1.2 Lock or unlock the transmitter If the transmitter has a display, a mechanical switch on the display can be used to lock or unlock the transmitter. When locked, no configuration changes can be made using any configuration tool. Figure 3-1: Lock switch on transmitter display You can determine whether you need to lock or unlock the transmitter by looking at the switch.
Page 21 Configuration and Use Manual Introduction to configuration and commissioning MMI-20025166 March 2019 Figure 3-2: Removing the transmitter housing cover 3. Using a fine-pointed tool, move the switch to the desired position. 4. Replace the transmitter housing cover. 5. If necessary, power up the transmitter. 3.1.3 Enable or disable the service port Display Menu >...
Page 22 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20025166 3.1.4 Set the HART lock If you plan to use a HART connection to configure the device, you can lock out all other HART masters. If you do this, other HART masters will be able to read data from the device but will not be able to write data to the device.
Page 23 Configuration and Use Manual Introduction to configuration and commissioning MMI-20025166 March 2019 3.1.6 Configure security for the display Display Menu > Configuration > Security > Display Security ProLink III Device Tools > Configuration > Transmitter Display > Display Security Field Communicator Configure >...
Page 24: Work With Configuration Files
Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20025166 — Alert security is enabled 3. If Password Required has been set to At Write or Enter Menu, you will be prompted to enter the desired password. • Default: AAAA •...
Page 25 Configuration and Use Manual Introduction to configuration and commissioning MMI-20025166 March 2019 Procedure • To save the current configuration to the transmitter's SD card as a backup file: a) Choose Menu > Configuration > Save/Restore Config > Save Config to Memory. b) Enter the name for this configuration file.
Page 26 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20025166 Replication files Contain all parameters except the device-specific parameters, e.g., calibration factors or meter factors. They are used to replicate the transmitter configuration to other devices. The .xfer extension is used to identify replication files. You can use a saved configuration file to change the nature of the transmitter quickly.
Page 27 Configuration and Use Manual Introduction to configuration and commissioning MMI-20025166 March 2019 d) Select the configuration parameters to be included in this file. — To save a backup file, select all parameters. — To save a replication file, select all parameters except device-specific parameters. e) Click Save.
Page 28 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20025166 c) Select Backup or Replicate. d) Select the file that you want to load. e) Choose Yes or No when prompted to apply the settings. — Yes: The file is loaded to working memory and becomes active immediately. —...
Page 29 Configuration and Use Manual Introduction to configuration and commissioning MMI-20025166 March 2019 d) Set the file type. — To load a backup file, set the file type to Backup. — To load a replication file, set the file type to Transfer. e) Navigate to the file you want to load, and select it.
Page 30 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20025166 d) Perform zero validation and take any recommended actions. e) Perform loop tests and take any recommended actions, including mA Output trim. f) Use sensor simulation to verify transmitter response. 5.
Page 31: Chapter 4 Configure Process Measurement
Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 4 Configure process measurement 4.1 Configure Sensor Flow Direction Arrow Display Menu > Configuration > Process Measurement > Flow Variables > Flow Direction ProLink III Device Tools > Configuration > Process Measurement > Flow > Sensor Direction Field Communicator Configure >...
Page 32: Configure Mass Flow Measurement
Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 Option Description Against Arrow The majority of flow through the sensor is opposite to the Flow arrow on the sensor. Actual forward flow is processed as reverse flow. Micro Motion sensors are bidirectional. Measurement accuracy is not affected by actual flow direction or the setting of Sensor Flow Direction Arrow.
Page 33 Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 Label Unit description Display ProLink III Field Communicator Grams per minute gram/min g/min g/min Grams per hour gram/h g/hr Kilograms per second kg/s kg/sec kg/s Kilograms per minute kg/min kg/min kg/min Kilograms per hour kg/h...
Page 34 Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 a) x base units = y special units b) Mass Flow Conversion Factor = x ÷ y 4. Enter Mass Flow Conversion Factor. The original mass flow rate value is divided by this value. 5.
Page 35 Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 • Default: 0.64 seconds • Range: 0 seconds to 60 seconds Note If a number greater than 60 is entered, it is automatically changed to 60. • A high damping value makes the process variable appear smoother because the reported value changes slowly.
Page 36 Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 Mass Flow Cutoff specifies the lowest mass flow rate that will be reported as measured. All mass flow rates below this cutoff will be reported as 0. Procedure Set Mass Flow Cutoff to the value you want to use. •...
Page 37: Configure Volume Flow Measurement For Liquid Applications
Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 • Mass Flow Cutoff: 10 g/sec Result: • If the mass flow rate drops below 15 g/sec but not below 10 g/sec: — The mA Output will report zero flow. —...
Page 38 Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 Field Communicator Configure > Manual Setup > Measurements > Flow > Volume Flow Unit Volume Flow Measurement Unit specifies the unit of measurement that will be displayed for the volume flow rate.
Page 39 Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 Label Unit description Display ProLink III Field Communicator Imperial gallons per hour Impgal/h Imp gal/hr Impgal/h Imperial gallons per day Impgal/d Imp gal/day Impgal/d Barrels per second bbl/s barrels/sec bbl/s Barrels per minute bbl/min barrels/min...
Page 40 Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 6. Set Volume Total Label to the name you want to use for the volume total and volume inventory unit. The special measurement unit is stored in the transmitter. You can configure the transmitter to use the special measurement unit at any time.
Page 41: Configure Gas Standard Volume (Gsv) Flow Measurement
Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 • mA Output Process Variable: Volume Flow Rate • Frequency Output Process Variable: Volume Flow Rate • AO Cutoff: 10 l/sec • Volume Flow Cutoff: 15 l/sec Result: If the volume flow rate drops below 15 l/sec, volume flow will be reported as 0, and 0 will be used in all internal processing.
Page 42 Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 Volume Flow Type controls whether liquid or gas standard volume flow measurement will be used. Restriction Gas standard volume measurement is incompatible with the following applications: • API referral • Concentration measurement •...
Page 43 Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 Procedure Set Gas Standard Volume Flow Measurement Unit to the unit you want to use. • Default: SCFM (Standard Cubic Feet per Minute) If the measurement unit you want to use is not available, you can define a special measurement unit. Options for Gas Standard Volume Flow Measurement Unit The transmitter provides a standard set of measurement units for Gas Standard Volume Flow Measurement Unit, plus one user-defined special measurement unit.
Page 44 Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 ProLink III Device Tools > Configuration > Process Measurement > Flow > Gas Standard Volume Flow Unit > Special Field Communicator Configure > Manual Setup > Measurements > Optional Setup > Special Units > Special Gas Standard Volume Units A special measurement unit is a user-defined unit of measure that allows you to report process data, totalizer data, and inventory data in a unit that is not available in the transmitter.
Page 45 Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 4.4.4 Configure Gas Standard Volume Flow Cutoff Display Menu > Configuration > Process Measurement > Flow Variables > Volume Flow Settings > Low Flow Cutoff ProLink III Device Tools > Configuration > Process Measurement > Flow > Gas Standard Volume Flow Cutoff Field Communicator Configure >...
Page 46: Configure Density Measurement
Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 Result: • If the gas standard volume flow rate drops below 15 SLPM but not below 10 SLPM: — The primary mA Output will report zero flow. — The Frequency Output will report the actual flow rate, and the actual flow rate will be used in all internal processing.
Page 47 Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 Label Unit description Display ProLink III Pounds per cubic foot lb/ft3 lbs/ft3 lb/Cuft Pounds per cubic inch lb/in3 lbs/in3 lb/CuIn Degrees API degAPI Short ton per cubic yard STon/yd3 sT/yd3 STon/Cuyd Non-standard calculation.
Page 48: Configure Temperature Measurement
Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 Effect of Density Damping on volume measurement Density Damping affects liquid volume measurement. Liquid volume values are calculated from the damped density value rather than the measured density value. Density Damping does not affect gas standard volume measurement.
Page 49 Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 ProLink III Device Tools > Configuration > Process Measurement > Temperature > Temperature Unit Field Communicator Configure > Manual Setup > Measurements > Temperature > Unit Temperature Measurement Unit specifies the unit that will be used for temperature measurement. Procedure Set Temperature Measurement Unit to the option you want to use.
Page 50: Configure Pressure Measurement Unit
Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 • A high damping value makes the process variable appear smoother because the reported value changes slowly. • A low damping value makes the process variable appear more erratic because the reported value changes more quickly.
Page 51: Configure Velocity Measurement Unit
Configuration and Use Manual Configure process measurement MMI-20025166 March 2019 Procedure Set Pressure Measurement Unit to the desired unit. • Default: psi 4.7.1 Options for Pressure Measurement Unit The transmitter provides a standard set of measurement units for Pressure Measurement Unit. Different communications tools may use different labels for the units.
Page 52 Configure process measurement Configuration and Use Manual March 2019 MMI-20025166 Velocity Measurement Unit controls the measurement unit used to report velocity. Procedure Set Velocity Measurement Unit to the desired unit. • Default: m/sec 4.8.1 Options for Velocity Measurement Unit The transmitter provides a standard set of measurement units for Velocity Measurement Unit. Different communications tools may use different labels.
Page 53: Chapter 5 Configure Process Measurement Applications
Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 5 Configure process measurement applications 5.1 Set up the API referral application The API referral application corrects line density to reference temperature and reference pressure according to American Petroleum Institute (API) standards. The resulting process variable is referred density. Restriction The API referral application is not compatible with the following applications: •...
Page 54 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Configure API referral using the display The API referral parameters specify the API table, measurement units, and reference values to be used in referred density calculations. Prerequisites You will need API documentation for the API table that you select. Depending on your API table, you may need to know the thermal expansion coefficient (TEC) for your process fluid.
Page 55 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Prerequisites If you plan to poll an external device, the primary mA Output (Channel A) must be wired to support HART communications. If you plan to use the mA Input for temperature data, Channel D must be available for use, and must be wired to an external temperature device.
Page 56 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Method Description Setup mA Input An external device sends a. Choose Menu > Configuration > Process Measurement > temperature data to the meter Temperature. via the mA Input. This data will b.
Page 57 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Method Description Setup a. Choose Menu > Configuration > Process Measurement > Polling The meter polls an external device for pressure data. Pressure > External Pressure. b. Set External Pressure to On. c.
Page 58 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Need help? If the value is not correct: • Ensure that the external device and the meter are using the same measurement unit. • For polling: — Verify the wiring between the meter and the external device. —...
Page 59 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Configure API referral using ProLink III The API referral parameters specify the API table, measurement units, and reference values to be used in referred density calculations. Prerequisites You will need API documentation for the API table that you select. Depending on your API table, you may need to know the thermal expansion coefficient (TEC) for your process fluid.
Page 60 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 4. If you chose a C table, enter Thermal Expansion Coefficient (TEC) for your process fluid. 5. Set Reference Temperature to the temperature to which density will be corrected in referred density calculations.
Page 61 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Option Description Setup Polling The meter polls an external a. Set Line Temperature Source to Poll for External Value. device for temperature data. b. Set Polling Slot to an available slot. This data will be available in addition to the internal RTD c.
Page 62 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Option Description Setup Polling The meter polls an external a. Set Pressure Source to Poll for External Value. device for pressure data. b. Set Polling Slot to an available slot. c.
Page 63 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 — Perform an mA Input trim. — Adjust the mA Input damping value. • For digital communications: — Verify that the host has access to the required data. — Verify that the host is writing to the correct register in memory, using the correct data type.
Page 64 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 2. Choose API Referral Setup. 3. Specify the API table that you want to use to calculate referred density. Each API table is associated with a specific set of equations. a) Set API Table Number to the number that matches the API table units that you want to use for referred density.
Page 65 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Restriction Not all combinations are supported by the API referral application. See the list of API tables in this manual. 4. If you chose a C table, enter Thermal Expansion Coefficient (TEC) for your process fluid. 5.
Page 66 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Procedure 1. Choose the method to be used to supply temperature data, and perform the required setup. Method Description Setup Internal RTD Temperature data from the on- a. Choose Configure > Manual Setup > Measurements > temperature board temperature sensor Optional Setup >...
Page 67 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Method Description Setup Digital A host writes temperature data a. Choose Configure > Manual Setup > Measurements > communications to the meter at appropriate Optional Setup > External Variables > External intervals.
Page 68 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Method Description Setup mA Input An external device sends a. Choose Configure > Manual Setup > Measurements > pressure data to the meter via Optional Setup > External Pressure/Temperature > the mA Input.
Page 69 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 — Verify that the host is writing to the correct register in memory, using the correct data type. 5.1.4 API tables supported by the API referral application The API tables listed here are supported by the API referral application. Table 5-1: API tables, process fluids, measurement units, and default reference values API tables (calculations)
Page 70 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Table 5-1: API tables, process fluids, measurement units, and default reference values (continued) API tables (calculations) Referred density Default Default Referred CTL or (API): unit and reference reference (3) (4) Process fluid density CTPL...
Page 71: Set Up Concentration Measurement
Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 5.2 Set up concentration measurement The concentration measurement application calculates concentration from line density and line temperature. 5.2.1 Preparing to set up concentration measurement The procedure for setting up concentration measurement application depends on how your device was ordered and how you want to use the application.
Page 72 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Table 5-2: Methods to load a matrix file (continued) Action Display ProLink III Field Communicator ✓ Load matrix from computer to slot ✓ ✓ ✓ Load matrix from SD card to slot Requirements for derived variables A derived variable is the process variable that a concentration matrix measures.
Page 73 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 5.2.2 Set up concentration measurement using the display This section guides you through most of the tasks related to setting up and implementing the concentration measurement application. Restriction This section does not cover building a concentration matrix. See the Micro Motion Enhanced Density Application Manual for detailed information on building a matrix.
Page 74 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 WARNING If the transmitter is in a hazardous area, do not use this method to load matrices. This method requires opening the transmitter's wiring compartment while the transmitter is powered up, and this can cause an explosion.
Page 75 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 The transmitter has six slots that are used to store concentration matrices. Any one of these can be used for measurement. The transmitter also has the capability to store multiple concentration matrices on its SD card.
Page 76 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 You can load the matrix into any empty slot, or you can overwrite an existing matrix. Postrequisites Choose Menu > Configuration > Process Measurement > Concentration Measurement > Configure Application >...
Page 77 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Method Description Setup Polling The meter polls an external a. Choose Menu > Configuration > Process Measurement > device for temperature data. Temperature. This data will be available in b.
Page 78 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Need help? If the value is not correct: • Ensure that the external device and the meter are using the same measurement unit. • For polling: — Verify the wiring between the meter and the external device. —...
Page 79 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Procedure 1. Choose Menu > Configuration > Process Measurement > Concentration Measurement > Configure Matrix. 2. Select the matrix that you want to modify. 3. Set Extrapolation Limit to the point, in percent, at which an extrapolation alert will be posted. 4.
Page 80 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Load a concentration matrix using ProLink III At least one concentration matrix must be loaded onto your transmitter. You can load up to six. Prerequisites The concentration measurement application must be enabled on your device. For each concentration matrix that you want to load, you need a file containing the matrix data.
Page 81 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Important When you load a matrix in one of these formats, if the temperature unit is not correct, concentration data will be incorrect. The temperature units must match at the time of loading. You can change the temperature unit after the matrix is loaded.
Page 82 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 3. Scroll to Step 3, then perform the following actions: a) Set Reference Temperature for Referred Density to the temperature to which line density will be corrected for use in the specific gravity calculation. b) Set Reference Temperature for Water to the water temperature that will be used in the specific gravity calculation.
Page 83 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Option Description Setup Internal Temperature data from the on- a. Set Line Temperature Source to Internal. temperature board temperature sensor b. Click Apply. (RTD) will be used for all measurements and calculations.
Page 84 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 — Verify the HART tag of the external device. • For the mA Input: — Verify the wiring between the meter and the external device. — Verify the power configuration for Channel D. If external power is required, ensure that the loop is powered.
Page 85 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 The Concentration Measurement window is displayed. It is organized into steps that allow you to perform several different setup and configuration tasks. For this task, you will not use all the steps. 2.
Page 86 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Procedure 1. Choose Overview > Device Information > Licenses > Enable/Disable Applications and ensure that Volume Flow Type is set to Liquid. 2. Choose Overview > Device Information > Licenses > Enable/Disable Applications. 3.
Page 87 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Set reference temperature values for specific gravity using the Field Communicator When Derived Variable is set to any option based on specific gravity, you must set the reference temperature for water, then verify the density of water at the configured reference temperature.
Page 88 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Method Description Setup Digital A host writes temperature data a. Choose Configure > Manual Setup > Measurements > communications to the meter at appropriate Optional Setup > External Variables. intervals.
Page 89 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Method Description Setup mA Input An external device sends a. Choose Configure > Manual Setup > Inputs/Outputs > temperature data to the meter Channel D. via the mA Input. This data will b.
Page 90 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Modify matrix names and labels using the Field Communicator For convenience, you can change the name of a concentration matrix and the label used for its measurement unit. This does not affect measurement. Procedure 1.
Page 91: Configure The Batching Application
Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 5.3 Configure the batching application 5.3.1 Configure global batching parameters Configure global batching parameters using the display The global batching parameters apply to all batch presets and all batches. Procedure 1.
Page 92 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 If Maximum Fill Time is set to 0, the control is disabled and no maximum time is applied to batches. 5. (Optional) For two-stage batching, set the following parameters: Two-stage batching is a batch that is run on a gas and liquid mixture flowing through a pipeline.
Page 93 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Option Description CM Standard Vol Flow (when licensed The batch is measured using the standard volume flow rate and enabled) at reference temperature. CM Net Volume Flow (when licensed The batch is measured using the net volume flow rate at and enabled) reference temperature.
Page 94 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Configure global batching parameters using the Field Communicator The global batching parameters apply to all batch presets and all batches. Procedure 1. Choose Configure > Manual Setup > Inputs/Outputs > Batcher. 2.
Page 95 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Two-stage batching is a batch that is run on a gas and liquid mixture flowing through a pipeline. Parameter Value Number of Stages Set to 2. Setting this parameter to 1 disables two-stage batching. Configure Presets by % Target The values for Open Primary, Open Secondary, Close...
Page 96 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 The end warning allows the transmitter to alert the operator to the end of batch. The operator can prepare for the end of the batch, e.g., by adjusting the flow rate to avoid overflow. 7.
Page 97 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Option Description Enabled (On) The preset is available for use. You can select it to run a batch. Disabled (Off) The preset is not available for use. You cannot select it to run a batch. You can always enable it at a later time.
Page 98 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Preset 1 is always enabled and cannot be disabled. 4. Set Target to the size of the batch. When the transmitter has measured the specified amount and applied the selected form of AOC, it closes the valve.
Page 99 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Procedure 1. Verify the wiring between the selected channel and the valve. 2. Configure the selected channel to operate as a Discrete Output. a) Choose Menu > Configuration > Inputs/Outputs. b) Set Channel B, Channel C, or Channel D to operate as a Discrete Output.
Page 100 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 b) Identify the Discrete Output to be used for valve control. c) Set Source to Batch Primary Valve. d) Set Polarity to match the wiring. The ON state of the Discrete Output must open the valve, and the OFF state must close the valve.
Page 101 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 4. Optional: For two-stage batching, assign one of the Discrete Outputs to the secondary valve. You can also assign one of the Discrete Outputs to a pump when the batcher is configured for single stage or two stage.
Page 102 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Configure AOC using ProLink III AOC (Automatic Overshoot Compensation) adjusts the timing of the valve close command to minimize overshoot. The valve close command is sent before the target is reached, to compensate for the time required for the valve to close completely.
Page 103 Configuration and Use Manual Configure process measurement applications MMI-20025166 March 2019 Compensation Off The transmitter sends the close command when the measured batch total reaches the configured target. Fixed The transmitter sends the close command when the measured batch total equals the Compensation target minus the value configured for Fixed Overshoot Compensation.
Page 104 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 105: Chapter 6 Configure Advanced Options For Process Measurement
Configuration and Use Manual Configure advanced options for process measurement MMI-20025166 March 2019 6 Configure advanced options for process measurement 6.1 Configure Response Time Menu > Configuration > Process Measurement > Response Time Display Device Tools > Configuration > Process Measurement > Response Time ProLink III Field Communicator Not available...
Page 106 Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20025166 The transmitter can use line density data to detect two-phase flow (gas in a liquid process or liquid in a gas process). The density limits are user-specified. When two-phase flow is detected, an alert is posted. Procedure 1.
Page 107: Configure Flow Rate Switch
Configuration and Use Manual Configure advanced options for process measurement MMI-20025166 March 2019 The signal from the mA output indicates the current state of the process: • 12 mA: Single-phase flow • 16 mA: Moderate two-phase flow • 20 mA: Severe two-phase flow 6.3 Configure Flow Rate Switch Display Menu >...
Page 108: Configure Events
Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20025166 6.4 Configure events An event occurs when the real-time value of a user-specified process variable moves past a user-defined setpoint. Events are used to provide notification of process changes or to perform specific transmitter actions if a process change occurs.
Page 109 Configuration and Use Manual Configure advanced options for process measurement MMI-20025166 March 2019 6.4.2 Configure an enhanced event Display Menu > Configuration > Alert Setup > Enhanced Events ProLink III Device Tools > Configuration > Events > Enhanced Events Field Communicator Configure >...
Page 110: Configure Totalizers And Inventories
Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20025166 • Using ProLink III: Choose Device Tools > Configuration > I/O > Inputs > Action Assignment. Then assign the desired action to the desired enhanced event. Using the Field Communicator: Choose Configure > Alert Setup > Enhanced Events. Then assign •...
Page 111 Configuration and Use Manual Configure advanced options for process measurement MMI-20025166 March 2019 The default configurations cover the most typical uses of totalizers and inventories. You may not need to change any configurations. Prerequisites Before configuring the totalizers and inventories, ensure that the process variables you plan to track are available on the transmitter.
Page 112 Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20025166 Option Flow direction Totalizer and inventory behavior Reverse Totals do not change Reverse Only Forward Totals do not change Reverse Totals increment Bidirectional Forward Totals increment Reverse Totals decrement Absolute Value Forward...
Page 113: Configure Logging For Totalizers And Inventories
Configuration and Use Manual Configure advanced options for process measurement MMI-20025166 March 2019 Checking for backflow You suspect that there is a significant amount of backflow through the sensor. To collect data, configure two totalizers as follows: • Source=Mass Flow, Direction=Forward Only Source=Mass Flow, Direction=Reverse Only •...
Page 114: Configure Process Variable Fault Action
Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20025166 Field Communicator Not available The transmitter can write the current value of four totalizers or inventories to a log, at user-specified intervals. You can generate a log file from this data for viewing and analysis. Procedure 1.
Page 115 Configuration and Use Manual Configure advanced options for process measurement MMI-20025166 March 2019 6.7.1 Options for Process Variable Fault Action Label Description Display ProLink III Field Communicator Upscale Upscale Upscale • Process variable values indicate that the value is greater than the upper sensor limit. •...
Page 116 Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20025166 6.7.2 Interaction between Process Variable Fault Action and other fault actions The setting of Process Variable Fault Action affects the operation of the mA Outputs, Frequency Outputs, and Discrete Outputs if the corresponding output fault actions are set to None.
Page 117 Configuration and Use Manual Configure advanced options for process measurement MMI-20025166 March 2019 • If Discrete Output Source is set to any other option, the setting of Process Variable Fault Action is irrelevant to the behavior of the Discrete Output during fault conditions. The Discrete Output is set to the specified fault action.
Page 118 Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 119: Chapter 7 Configure Device Options And Preferences
Configuration and Use Manual Configure device options and preferences MMI-20025166 March 2019 7 Configure device options and preferences 7.1 Configure the transmitter display You can control the language used on the display, the process variables shown on the display, and a variety of display behaviors.
Page 120: The Display
Configure device options and preferences Configuration and Use Manual March 2019 MMI-20025166 You can skip positions and you can repeat process variables. Table 7-1: Default configuration for display variables Display variable Process variable assignment Display Variable 1 Mass flow rate Display Variable 2 Mass total Display Variable 3...
Page 121 Configuration and Use Manual Configure device options and preferences MMI-20025166 March 2019 You can specify the precision (the number of decimal places) that the display uses for each display variable. You can set the precision independently for each display variable. The display precision does not affect the actual value of the variable, the value used in calculations, or the value reported via outputs or digital communications.
Page 122 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20025166 2. If you turned on Auto Scroll, set Scroll Rate as desired. • Default: 10 • Range: 1 to 30 seconds Scroll Rate may not be available until you apply Auto Scroll. 7.1.5 Configure the display backlight Display Menu >...
Page 123 Configuration and Use Manual Configure device options and preferences MMI-20025166 March 2019 Option Description At Write When an user chooses an action that leads to a configuration change, they are prompted to enter the display password. Enter Menu When the menu is selected from the process variable screen, the display password will be immediately required if Password Required is set.
Page 124 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20025166 Important Once Main Menu Available has been disabled, you cannot enable it from the local display. Use another configuration tool, such as ProLink III, to re-enable main menu access from the local display. 7.1.7 Configure totalizer and inventory control Display Menu >...
Page 125: Configure The Transmitter's Response To Alerts
Configuration and Use Manual Configure device options and preferences MMI-20025166 March 2019 Important If you enable Password Required for totalizers and inventories, but you do not change the password from the default, the transmitter will post a configuration alert. 7.2 Configure the transmitter's response to alerts 7.2.1 Configure the transmitter's response to alerts using the display For some alerts, you can change the transmitter's response to an alert by setting the alert severity.
Page 126 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20025166 a) Choose Menu > Configuration > Alert Setup > Response to Alerts b) Select the alert associated with the condition. c) Select Condition Detection. d) Select the condition and set it to Ignore. If a condition is ignored, any occurrence of this condition is not posted to the alert list and the status LED on the transmitter does not change color.
Page 127 Configuration and Use Manual Configure device options and preferences MMI-20025166 March 2019 a) Choose Menu > Configuration > Alert Setup > Response to Alerts. b) Select the alert associated with the condition and expand it. c) Select the condition and set it to Ignore. If a condition is ignored, any occurrence of this condition is not posted to the alert list and the status LED on the transmitter does not change color.
Page 128 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20025166 If an alert is ignored, any occurrence of this alert is not posted to the alert list and the status LED on the transmitter does not change color. The occurrence is posted to alert history. •...
Page 129 Configuration and Use Manual Configure device options and preferences MMI-20025166 March 2019 7.2.5 Alerts, conditions, and configuration options For more information on these alerts, see Status alerts, causes, and recommendations. Configuration Error Default severity: Failure Severity configurable: No Fault Timeout applicable: No Table 7-2: Configuration Error conditions Name Ignorable...
Page 130 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20025166 Table 7-4: Core Low Power conditions Name Ignorable [031] Low Power Drive Over Range Default severity: Maintenance Severity configurable: Yes Fault Timeout applicable: Yes Table 7-5: Drive Over-Range conditions Name Ignorable [102] Drive Overrange...
Page 131 Configuration and Use Manual Configure device options and preferences MMI-20025166 March 2019 Severity configurable: Yes Fault Timeout applicable: Yes Table 7-8: Extreme Primary Purpose Variable conditions Name Ignorable [005] Mass Flow Rate Overrange [008] Density Overrange Function Check Failed or Smart Meter Verification Aborted Default severity: Maintenance Required Severity configurable: Yes Fault Timeout applicable: No...
Page 132 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20025166 Table 7-11: Output Fixed conditions (continued) Name Ignorable [122] Discrete Output 3 Fixed Frequency Output 2 Fixed mA Output 3 Fixed Output Saturated Default severity: Out of Speculation Severity configurable: Yes Fault Timeout applicable: No Table 7-12: Output Saturated conditions...
Page 133 Configuration and Use Manual Configure device options and preferences MMI-20025166 March 2019 Security Breach Default severity: Failure Severity configurable: No Fault Timeout applicable: No Table 7-14: Security Breach conditions Name Ignorable [027] Security Breach Sensor Being Simulated Default severity: Function Check Severity configurable: No Fault Timeout applicable: No Table 7-15: Sensor Being Simulated conditions...
Page 134 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20025166 Severity configurable: No Fault Timeout applicable: No Table 7-18: Transmitter Initializing conditions Name Ignorable [009] Transmitter Initializing/Warming Up Tube Not Full Default severity: Failure Severity configurable: Yes Fault Timeout applicable: Yes Table 7-19: Tube Not Full conditions Name Ignorable...
Page 135: Chapter 8 Integrate The Meter With The Control System
Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 8 Integrate the meter with the control system 8.1 Configure the transmitter channels Menu > Configuration > Inputs/Outputs > Channel x Display Device Tools > Configuration > I/O > Channels > Channel x ProLink III Configure >...
Page 136 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 • Before changing the channel configuration, ensure that all control loops affected by the channel are under manual control. Procedure 1. Identify the channels that are activated on your device. 2.
Page 137: Configure An Ma Output
Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 configuration that is stored for the selected input or output type, and the stored configuration may not be appropriate for your process. After verifying channel and output configuration, return the control loop to automatic control. 8.2 Configure an mA Output Use an mA Output to report current values of process variables.
Page 138 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 Postrequisites If you change the configuration of mA Output Source, verify the settings of Lower Range Value and Upper Range Value. The transmitter automatically loads a set of values, and these values may not be appropriate for your application.
Page 139 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 Process variable Label Display ProLink III Concentration measurement Density at reference Referred Density Density at Reference Dens at Ref (CM) Temperature Specific gravity Specific Gravity Density (Fixed SG Units) Spec Gravity (CM) Standard volume flow rate Standard Vol Flow...
Page 140 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 • Range: Unlimited Note You can set URV below LRV. For example, you can set URV to 50 and LRV to 100 . If you do this, the mA Output will be inversely proportional to the value of mA Output Source.
Page 141 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 Procedure Set mA Output Direction as desired. Option Description Normal (default) Appropriate when your application needs to distinguish between forward flow and reverse flow. Absolute Value Appropriate when your application does not need to distinguish between forward flow and reverse flow.
Page 142 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 Figure 8-1: Effect of mA Output Direction on an mA Output: Lower Range Value = 0 mA Output Direction = Normal mA Output Direction = Absolute Value Reverse flow Forward flow Reverse flow...
Page 143 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 • mA Output Direction = Normal • Lower Range Value = 0 g/sec • Upper Range Value = 100 g/sec Result: • Under conditions of reverse flow or zero flow, the mA Output is 4 mA. •...
Page 144 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 Set mA Output Cutoff in the measurement units used for the process variable. If you change the measurement unit, mA Output Cutoff is adjusted automatically. • Default: 0 •...
Page 145 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 mA Output Damping controls the amount of damping that will be applied to the mA Output. Damping is used to smooth out small, rapid fluctuations in process measurement. The damping value specifies the time period, in seconds, over which the transmitter will spread changes in the process variable.
Page 146 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 ProLink III Device Tools > Configuration > I/O > Outputs > mA Output x > Fault Action Field Communicator Configure > Manual Setup > Inputs/Outputs > Channel x > mA Output x > mAOxFault Settings > mAOx Fault Action mA Output Fault Action controls the behavior of the mA Output if the transmitter detects a fault condition.
Page 147: Configure The Ma Input
Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 8.3 Configure the mA Input The mA Input can be used to read temperature or pressure data from an external device. The current value of the process variable is represented as a mA signal between 4 mA and 20 mA. In SIL installations, the mA Input must be used to verify the operation of mA Output 1, and cannot be used for temperature or pressure data.
Page 148 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 8.3.2 Configure Lower Range Value (LRV) and Upper Range Value (URV) for the mA Input Display Menu > Configuration > Inputs/Outputs > Channel D > I/O Settings > Lower Range Value Menu >...
Page 149: Configure A Frequency Output
Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 If mA Input Assignment is set to Loop Current, mA Input Damping is not applied. mA Input Damping is applied only if mA Input Assignment is set to Temperature or Pressure. Note Be aware that the process variable received via the mA Input may also be damped at the remote device.
Page 150 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 • Both Channel B and Channel D can be configured to act as Frequency Output 2. If you do this, the Frequency Output 2 configuration will be applied to both channels. Prerequisites •...
Page 151 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 Process variable Label Display PLIII Net volume flow rate Net Volume Flow Rate Net Volume Flow Rate Net Volume Flow Rate (CM) Energy measurement Energy flow Energy Flow Energy Flow 8.4.2 Configure Frequency Output Scaling...
Page 152 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 where: Factor to convert selected time base to seconds N Number of pulses per flow unit, as configured in the receiving device The resulting Frequency Factor must be within the range of the Frequency Output : •...
Page 153 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 Procedure Set Frequency Output Direction as desired. Option Description Positive Flow Only • Forward flow: The Frequency Output reports the flow rate according to the configured scaling method. •...
Page 154 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 Options for Frequency Output Mode Option Process condition and effect Channel behavior Independent No relationship between the two Frequency Output 1 outputs Frequency Output 2 In-Phase Signals are aligned Frequency Output 1 50% duty cycle...
Page 155: Configure The Frequency Input
Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 • For some faults only: If Fault Timeout is set to a non-zero value, the transmitter will not implement the fault action until the timeout has elapsed. Procedure 1.
Page 156 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 8.5.1 Configure Frequency Input Assignment Display Menu > Configuration > Inputs/Outputs > Channel D > I/O Settings ProLink III Device Tools > Configuration > I/O > Inputs > Frequency Input Field Communicator Configure >...
Page 157 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 2. Set additional required parameters. If you set Frequency Input Scaling Method to Frequency=Flow, set Rate Factor and Frequency • Factor. • If you set Frequency Input Scaling Method to Pulses/Unit, define the number of pulses that will represent one flow unit.
Page 158: Configure A Discrete Output
Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 • Using the display: • Using ProLink III: • Using the Field Communicator: If the values are the same, or close enough for your application, you do not need to set the K factor. If the values are too dissimilar, continue with this procedure.
Page 159 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 Options for Discrete Output Source Option Label State DO voltage Display PLIII Web browser Enhanced Basic Event x Enhanced Discrete Enhanced • Internally powered: Event 1–5 Event x Event x Event x...
Page 160 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 Option Label State DO voltage Display PLIII Web browser Batch Primary Batch Primary Batch Primary Primary Valve Batch Primary • Internally powered: Valve Valve Valve Valve 24 VDC •...
Page 161 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 ProLink III Device Tools > Configuration > I/O > Outputs > Discrete Output > Polarity Field Communicator Configure > Manual Setup > Inputs/Outputs > Channel x > Discrete Output x > DOx Polarity A Discrete Output has two states: ON (active, asserted) and OFF (inactive).
Page 162: Configure A Discrete Input
Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 Options for Discrete Output Fault Action Discrete Output behavior Label Polarity=Active High Polarity=Active Low Upscale • Fault: Discrete Output is ON (24 VDC or • Fault: Discrete Output is OFF (0 V site-specific voltage) •...
Page 163 Configuration and Use Manual Integrate the meter with the control system MMI-20025166 March 2019 • Default: None Options for Discrete Input Action Action Label Display ProLink III Field Communicator Standard Start sensor zero Start Zero Calibration Start Sensor Zero Start Sensor Zero Totalizers Start/stop all totalizers and Start/stop all totalizers...
Page 164 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20025166 Options for Discrete Input Polarity Polarity Discrete Input Voltage Status of Discrete power supply Input at transmitter Active High Internal Voltage across terminals is high Voltage across terminals is 0 VDC External Voltage applied across terminals is 3–30 VDC...
Page 165: Chapter 9 Configure Digital Communications
Configuration and Use Manual Configure digital communications MMI-20025166 March 2019 9 Configure digital communications 9.1 Configure HART communications HART communications parameters support HART communications with the transmitter on a Bell 202 physical layer (Channel A or an RS-485 physical layer (Channel E 9.1.1 Configure basic HART parameters Menu >...
Page 166 Configure digital communications Configuration and Use Manual March 2019 MMI-20025166 Output Action. This is designed to make it easier to configure the transmitter for legacy behavior. Always verify mA Output Action after setting HART Address. 9.1.2 Configure HART variables (PV, SV, TV, QV) Display Menu >...
Page 167 Configuration and Use Manual Configure digital communications MMI-20025166 March 2019 Process variable Diagnostics ✓ ✓ ✓ ✓ Velocity ✓ ✓ ✓ ✓ Drive gain ✓ ✓ ✓ Tube frequency ✓ ✓ ✓ Meter temperature ✓ ✓ ✓ Board temperature ✓ ✓...
Page 168 Configure digital communications Configuration and Use Manual March 2019 MMI-20025166 9.1.3 Configure burst communications Burst mode is a mode of communication during which the transmitter regularly broadcasts HART digital information to the network via the primary mA output. Restriction Burst communications, including trigger mode and event notification, is not available on HART/RS-485. These features are supported only on HART/Bell 202.
Page 169 Configuration and Use Manual Configure digital communications MMI-20025166 March 2019 Important If you change the HART Primary Variable (PV), the process variable assigned to mA Output 1 is automatically changed to match. Configure HART trigger mode Display Menu > Configuration > Inputs/Outputs > Channel A > HART Settings > Burst Message x > Trigger Mode ProLink III Device Tools >...
Page 170 Configure digital communications Configuration and Use Manual March 2019 MMI-20025166 Option Description • If no values change, the burst message is sent at Default Update Rate. 3. Ensure that Primary Variable or Burst Variable 1 is set to the variable that will activate the trigger. If it is not, reconfigure the burst message contents.
Page 171: Configure Modbus Communications
Configuration and Use Manual Configure digital communications MMI-20025166 March 2019 If you set Trigger Interval to 0, HART Command 119 is broadcast as soon as the alert is detected. 4. Set Retry Rate as desired. Retry Rate controls the rate at which HART Command 119 is broadcast when event notification is active.
Page 172 Configure digital communications Configuration and Use Manual March 2019 MMI-20025166 Modbus ASCII support Available Modbus addresses Enabled 1–15, 32–47, 64–79, and 96–110 2. Set Modbus Address to a unique value on the network. 3. Set Floating-Point Byte Order to match the byte order used by your Modbus host. Code Byte order 1–2 3–4...
Page 173 Configuration and Use Manual Configure digital communications MMI-20025166 March 2019 Table 9-3: Bit structure of double-precision bytes Byte Bits Definition SEEEEEEE S=Sign E=Exponent EEEEMMMM E=Exponent M=Mantissa 3–8 MMMMMMMM M=Mantissa 5. Optional: Set Additional Communications Response Delay in delay units. A delay unit is 2/3 of the time required to transmit one character, as calculated for the port currently in use and the character transmission parameters.
Page 174 Configure digital communications Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 175: Chapter 10 Configure, Wire, And Use A Printer For Tickets
Configuration and Use Manual Configure, wire, and use a printer for tickets MMI-20025166 March 2019 10 Configure, wire, and use a printer for tickets 10.1 Ticket types Tickets provide proof of what was purchased, as well as status summaries. You can configure any of the following ticket types using varying methods. Ticket configuration occurs in Channel E and requires a Channel E license.
Page 176: Wire The Printer
Configure, wire, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20025166 Table 10-2: Ticket types for special applications (continued) Special applications Available tickets Standard Batch Batch (NTEP) Transfer Batch (OIML) (OIML) Custody transfer application (OIML) Available only if Legal receipt the discrete batch...
Page 177: Configure The Printer
Configuration and Use Manual Configure, wire, and use a printer for tickets MMI-20025166 March 2019 For more information, see RS485/RS232 adapter instructions supplied by the manufacturer. 10.3 Configure the printer Prerequisites This procedure assumes that all variables and units of precision are already configured. Verify that you have the correct software versions and licenses.
Page 178 Configure, wire, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20025166 Related information Upgrade the transmitter firmware Ticket and heading parameters 10.3.1 Ticket and heading parameters Table 10-3: Batch ticket configurable parameters Ticket parameters Description Printer Type The following printer types are supported: •...
Page 179: Configure A Discrete Input Or Discrete Event
Configuration and Use Manual Configure, wire, and use a printer for tickets MMI-20025166 March 2019 Table 10-4: Transfer ticket configurable parameters (continued) Ticket parameters Description Print with Non-Zero Flow • Enabled — Tickets can be printed while the flow is occurring. —...
Page 180: Print A Standard Ticket
Configure, wire, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20025166 Related information Configure a Discrete Input 10.5 Print a standard ticket You can print standard tickets using the display, or through a Discrete Input. You can also specify that tickets will be printed automatically if a discrete event occurs.
Page 181 Configuration and Use Manual Configure, wire, and use a printer for tickets MMI-20025166 March 2019 10.6.1 Batch ticket contents Table 10-6: Batch ticket contents Ticket type Header lines Standard ticket contents Conditional ticket contents Batch 1 and 2 • Batch data and time •...
Page 182: Print A Transfer Ticket
Configure, wire, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20025166 10.7 Print a transfer ticket A transfer ticket prints a flow record. Prerequisites World Area must be set to OIML. Procedure 1. Using the display, navigate to a screen that represents a Total or Inventory value. 2.
Page 183: Mmi-20025166 March
Configuration and Use Manual Configure, wire, and use a printer for tickets MMI-20025166 March 2019 Figure 10-3: Transfer ticket example 1 Configuration and Use Manual...
Page 184 Configure, wire, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20025166 Figure 10-4: Transfer ticket example for totalizers and inventories For more examples, see Example tickets. Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 185: Chapter 11 Complete The Configuration
Configuration and Use Manual Complete the configuration MMI-20025166 March 2019 11 Complete the configuration 11.1 Test or tune the system using sensor simulation Display Menu > Startup Tasks > Commissioning Tools > Sensor Simulation ProLink III Device Tools > Diagnostics > Sensor Simulation Field Communicator Service Tools >...
Page 186 Complete the configuration Configuration and Use Manual March 2019 MMI-20025166 Option Required values Maximum 4. For temperature, set Wave Form as desired and enter the required values. Option Required values Fixed Fixed Value Sawtooth Period Minimum Maximum Sine Period Minimum Maximum 5.
Page 187: Save The Transmitter Configuration To A Backup File
Configuration and Use Manual Complete the configuration MMI-20025166 March 2019 11.2 Save the transmitter configuration to a backup file A backup file allows you to return the transmitter to a known state. 11.3 Enable or disable software write-protection Display Use a mechanical switch on the display. ProLink III Device Tools >...
Page 188 Complete the configuration Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 189: Chapter 12 Transmitter Operation
Configuration and Use Manual Transmitter operation MMI-20025166 March 2019 12 Transmitter operation 12.1 View process and diagnostic variables Process variables provide information about the state of the process fluid. Diagnostic variables provide data about device operation. You can use this data to monitor and troubleshoot your process. 12.1.1 View process and diagnostic variables using the display The display reports the name of the variable (for example, Density), the current value of the variable, and the associated unit of measure (for example, kg/m...
Page 190: View And Acknowledge Status Alerts
Transmitter operation Configuration and Use Manual March 2019 MMI-20025166 12.1.4 Effect of Sensor Flow Direction Arrow on digital communications Flow rates on the transmitter display or reported via digital communications are shown as positive or negative. The sign depends on the interaction between Sensor Flow Direction Arrow and the actual flow direction.
Page 191: Read Totalizer And Inventory Values
Configuration and Use Manual Transmitter operation MMI-20025166 March 2019 If ⓘ appears: • a) Choose Menu > (i) Alert List. b) Select an alert to view more information about the specific alert or to acknowledge it individually. c) Choose Acknowledge All Alerts to acknowledge all alerts on the list. 12.2.2 View and acknowledge alerts using ProLink III You can view a list containing all alerts that are active, or inactive but unacknowledged.
Page 192: Start, Stop, And Reset Totalizers And Inventories
Transmitter operation Configuration and Use Manual March 2019 MMI-20025166 12.4 Start, stop, and reset totalizers and inventories 12.4.1 Start, stop, and reset totalizers using the display You can start and stop each totalizer or inventory independently. You can start and stop all totalizers and inventories as a group.
Page 193 Configuration and Use Manual Transmitter operation MMI-20025166 March 2019 12.4.2 Start, stop, and reset totalizers using ProLink III You can start and stop each totalizer or inventory independently. You can start and stop all totalizers as a group. You can reset each totalizer or inventory independently. You can reset all totalizers as a group. You can reset all inventories as a group.
Page 194 Transmitter operation Configuration and Use Manual March 2019 MMI-20025166 12.4.3 Start, stop, and reset totalizers using the Field Communicator You can start and stop each totalizer or inventory independently. You can start and stop all totalizers and inventories as a group. You can reset each totalizer or inventory independently. You can reset all totalizers as a group.
Page 195: Chapter 13 Operation Using The Batcher
Configuration and Use Manual Operation using the batcher MMI-20025166 March 2019 13 Operation using the batcher 13.1 Run a batch You can run a batch using any of the presets that are enabled. You can change the target for the current batch.
Page 196 Operation using the batcher Configuration and Use Manual March 2019 MMI-20025166 5. Optional: Pause the batch at any time. Using the display: Choose Menu > Batcher > Run Batch > Batch Control and select Pause. • • Using ProLink III: Choose Device Tools > Application Control > Run Batcher and click Pause Batcher.
Page 197: Perform Aoc Calibration
Configuration and Use Manual Operation using the batcher MMI-20025166 March 2019 13.2 Perform AOC calibration AOC calibration trains the AOC algorithm to adjust for your network speed and valve closure speed. AOC calibration is required only if AOC Compensation Mode is set to AOC Algorithm. There are two options for AOC calibration: •...
Page 198 Operation using the batcher Configuration and Use Manual March 2019 MMI-20025166 b) Click Start AOC Calibration. c) Run several batches, allowing each batch to run to completion, and observe the totals. d) When batch repeatability meets requirements, click Save AOC Calibration. AOC calibration is stopped, and the current coefficient is saved.
Page 199: Chapter 14 Measurement Support
Configuration and Use Manual Measurement support MMI-20025166 March 2019 14 Measurement support 14.1 Use Smart Meter Verification (SMV) You can run an SMV test, view and interpret the results, and set up automatic execution. 14.1.1 Run an SMV test Run an SMV test to ensure that your sensor has not experienced coating, corrosion, erosion, or any other physical or mechanical damage that affects measurement accuracy.
Page 200 Measurement support Configuration and Use Manual March 2019 MMI-20025166 Option Description Fix at Fault During the test, all outputs will go to their configured fault action. The test will run for approximately 140 seconds. The test starts immediately. 4. Wait for the test to complete. At any time during the process, you can abort the test.
Page 201 Configuration and Use Manual Measurement support MMI-20025166 March 2019 Option Description Fix at Fault During the test, all outputs will go to their configured fault action. The test will run for approximately 140 seconds. 5. Click Start and wait for the test to complete. At any time during the process, you can abort the test.
Page 202 Measurement support Configuration and Use Manual March 2019 MMI-20025166 Postrequisites View the results and take any appropriate actions. 14.1.2 View SMV test results After each SMV test, the pass/fail result is displayed automatically. Detailed results are also available for licensed versions. For licensed SMV versions only, when you use the display to view test results, the 20 most recent results are available.
Page 203 Configuration and Use Manual Measurement support MMI-20025166 March 2019 a) Choose Service Tools > Maintenance > Routine Maintenance > SMV > Manual Verification. b) Choose Upload Results Data from Device. The Field Communicator stores only the most recent test result. To view earlier results, you must upload them from the device.
Page 204 Measurement support Configuration and Use Manual March 2019 MMI-20025166 Table 14-1: SMV abort codes (continued) Code Description Recommended actions Transmitter in fault and SMV View the Alerts present on the device and take any necessary cannot run actions to clear them before proceeding. No factory air verification Perform factory calibration on air.
Page 205 Configuration and Use Manual Measurement support MMI-20025166 March 2019 b) Set Specify Time Between Recurring Runs to 0 days, 0 hours, and 0 minutes. Set up SMV automatic execution using ProLink III Procedure 1. Select one of the following paths to access the SMV scheduler . Choose Device Tools >...
Page 206: Use Pvr, Tbr, And Tmr
Measurement support Configuration and Use Manual March 2019 MMI-20025166 14.2 Use PVR, TBR, and TMR For detailed information about Production Volume Reconciliation (PVR), Transient Mist Remediation (TMR), ® and Transient Bubble Remediation (TBR), see the Micro Motion Oil and Gas Production Applications manual. Restriction PVR, TBR, and TMR are available only with a transmitter that is ordered with one of these software options: •...
Page 207: Zero The Meter
Configuration and Use Manual Measurement support MMI-20025166 March 2019 14.3 Zero the meter Display Menu > Service Tools > Verification & Calibration > Meter Zero > Zero Calibration ProLink III Device Tools > Calibration > Smart Zero Verification and Calibration > Calibrate Zero Field Communicator Service Tools >...
Page 208 Measurement support Configuration and Use Manual March 2019 MMI-20025166 • If the zero procedure failed, a Calibration Failed message is displayed. Postrequisites Restore normal flow through the sensor by opening the valves. Need help? If the zero fails: • Ensure that there is no flow through the sensor, then retry. •...
Page 209: Set Up Pressure Compensation
Not all sensors or applications require pressure compensation. The pressure effect for a specific sensor model can be found in the product data sheet located at www.emerson.com. If you are uncertain about implementing pressure compensation, contact customer service.
Page 210 Measurement support Configuration and Use Manual March 2019 MMI-20025166 14.4.1 Set up pressure compensation using the display Procedure 1. Choose Menu > Configuration > Process Measurement > Pressure. 2. Set Units to the pressure unit used by the external pressure device. 3.
Page 211 Configuration and Use Manual Measurement support MMI-20025166 March 2019 Method Description Setup mA Input An external device sends a. Choose Menu > Configuration > Process Measurement > pressure data to the meter via Pressure Compensation > External Pressure. the mA Input. b.
Page 212 Measurement support Configuration and Use Manual March 2019 MMI-20025166 14.4.2 Set up pressure compensation using ProLink III Procedure 1. Choose Device Tools > Configuration > Process Measurement > Pressure Compensation. 2. Set Pressure Compensation Status to Enabled. 3. Set Pressure Unit to the unit used by the external pressure device. 4.
Page 213 Configuration and Use Manual Measurement support MMI-20025166 March 2019 Option Description Setup Polling The meter polls an external a. Set Pressure Source to Poll for External Value. device for pressure data. b. Set Polling Slot to an available slot. c. Set Polling Control to Poll as Primary or Poll as Secondary. Option Description Poll as Primary...
Page 214 Measurement support Configuration and Use Manual March 2019 MMI-20025166 • For digital communications: — Verify that the host has access to the required data. — Verify that the host is writing to the correct register in memory, using the correct data type. 14.4.3 Configure pressure compensation using the Field Communicator Procedure...
Page 215 Configuration and Use Manual Measurement support MMI-20025166 March 2019 Method Description Setup a. Choose Configure > Manual Setup > Measurements > Polling The meter polls an external device for pressure data. Optional Setup > External Pressure/Temperature > Pressure. b. Set Pressure Compensation to Enable. c.
Page 216: Validate The Meter
Measurement support Configuration and Use Manual March 2019 MMI-20025166 Method Description Setup Digital A host writes pressure data to a. Choose Configure > Manual Setup > Measurements > communications the meter at appropriate Optional Setup > External Pressure/Temperature > intervals. Pressure.
Page 217 Configuration and Use Manual Measurement support MMI-20025166 March 2019 Obtain a reference device (external measurement device) for the appropriate process variable. Important For good results, the reference device must be highly accurate. Procedure 1. Determine the meter factor as follows: a) Use the flowmeter to take a sample measurement.
Page 218: Perform A (Standard) D1 And D2 Density Calibration
Measurement support Configuration and Use Manual March 2019 MMI-20025166 MeterFactor Volume = MeterFactor Density The following equation is mathematically equivalent to the first equation. You may use whichever MeterFactor ConfiguredMeterFactor Density Flowmeter version you prefer. Volume = Density × Density ReferenceDevice 3.
Page 219 Configuration and Use Manual Measurement support MMI-20025166 March 2019 3. Fill the sensor with the D1 fluid and allow the sensor to achieve thermal equilibrium. 4. Choose Menu > Service Tools > Verification and Calibration > Density Calibration. 5. Perform the D1 calibration. a) Choose D1 (Air).
Page 220 Measurement support Configuration and Use Manual March 2019 MMI-20025166 Postrequisites If you disabled LD Optimization before the calibration procedure, re-enable it. 14.6.3 Perform a D1 and D2 density calibration using the Field Communicator Procedure 1. Read the Prerequisites in Perform a (standard) D1 and D2 density calibration if you have not already done so.
Page 221: Adjust Concentration Measurement With Trim Offset
Configuration and Use Manual Measurement support MMI-20025166 March 2019 Postrequisites If you disabled LD Optimization before the calibration procedure, re-enable it. 14.7 Adjust concentration measurement with Trim Offset Trim Offset adjusts the meter's concentration measurement to match a reference value. You can adjust concentration measurement by applying the trim offset only, or by applying both the trim offset and the trim slope.
Page 222: Adjust Concentration Measurement With Trim Slope And Trim Offset
Measurement support Configuration and Use Manual March 2019 MMI-20025166 You must be able to take a sample of your process fluid and obtain a laboratory concentration value at line density and line temperature. Procedure 1. Take a concentration reading from the meter, and record line density and line temperature. 2.
Page 223 Configuration and Use Manual Measurement support MMI-20025166 March 2019 For each sample, you must be able to obtain a laboratory concentration value at line density and line temperature. Procedure 1. Collect data for Comparison 1. a) Take a concentration reading from the meter and record line density and line temperature. b) Take a sample of the process fluid at the current concentration.
Page 224: Energy Flow
Measurement support Configuration and Use Manual March 2019 MMI-20025166 50 = A × 49.98 + B 16 = A × 15.99 + B 50.00 − 16.00 = 34.00 Solve for A: 49.98 − 15.99 = 39.99 34 = A × 33.99 A = 1.00029 50.00 = 1.00029 ×...
Page 225: Piecewise Linearization (Pwl) For Calibrating Gas Meters
PWL does not apply when measuring liquid flow. When better accuracy is required over the published gas measurement specifications, an Emerson-approved independent gas laboratory can calibrate gas up to 10 PWL adjustment points.
Page 226 Measurement support Configuration and Use Manual March 2019 MMI-20025166 Field Communicator Not available Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 227: Chapter 15 Maintenance
Configuration and Use Manual Maintenance MMI-20025166 March 2019 15 Maintenance 15.1 Install a new transmitter license Display Menu > Service Tools > License Manager ProLink III Device Tools > Configuration > Feature License Field Communicator Overview > Device Information > Licenses Whenever you purchase additional features or request a trial license, you must install a new transmitter license.
Page 228: Upgrade The Transmitter Firmware
Maintenance Configuration and Use Manual March 2019 MMI-20025166 The features supported by the new license are displayed. If you installed a temporary license, the transmitter will revert to its original feature set when the license period has expired. To purchase a feature for permanent use, contact customer support. Postrequisites If you installed a permanent license, update the options model code to match the new license.
Page 229: Reboot The Transmitter
CAUTION If the transmitter is in a hazardous area, do not open the wiring compartment. Contact customer support. Prerequisites You must have the firmware upgrade files provided by Emerson. Procedure 1. Choose Device Tools > Transmitter Software Update. 2. Navigate to the folder containing the firmware upgrade files.
Page 230: Battery Replacement
Maintenance Configuration and Use Manual March 2019 MMI-20025166 15.4 Battery replacement The transmitter contains a battery that is used to power the clock when the transmitter is not powered up. Users cannot service or replace the battery. If the battery requires replacement, contact customer support. If the battery is non-functional and the transmitter is powered down, then powered up, the clock will restart from the time of the power-down.
Page 231: Chapter 16 Log Files, History Files, And Service Files
Configuration and Use Manual Log files, history files, and service files MMI-20025166 March 2019 16 Log files, history files, and service files 16.1 Generate history files Display Menu > USB Options > Transmitter --> USB Drive > Download Historical Files ProLink III Device Tools >...
Page 232 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20025166 Option Description 5 Min Average Data The minimum and maximum values of the 1-second raw data over the last 5 minutes, plus the average and the standard deviation, recorded at 5-minute intervals.
Page 233 Configuration and Use Manual Log files, history files, and service files MMI-20025166 March 2019 • Volume flow rate (l/sec) or GSV flow rate • Density (g/cm³) • Line temperature (°C) • External temperature (if available) • Pressure (if available) • If concentration measurement is enabled: —...
Page 234 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20025166 DST ON:Mountain GMT-7.0 SM:T075 kg/s Max kg/s Min kg/s Avg kg/s Std … SN:000000000 8/25/2018 9:58 0.0082359 0.00091223 9.76E-05 … 8/25/2018 10:03 0.001018 0.00084441 0.00091756 1.61E-05 …...
Page 235 Configuration and Use Manual Log files, history files, and service files MMI-20025166 March 2019 SMV log Device UID: 577937183 Device Tag: SUPPLY Time Zone: GMT -7.00 Date Time LPO Stiff RPO Stiff LPO Mass RPO Mass Damping Drv mA … 8/13/2018 19:27 0.285876 0.289738...
Page 236 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20025166 Totalizer history and configuration files If you restore the factory configuration or upload a configuration file, totalizer history is not affected. Totalizer log ================================================================================ Device UID: 22729F1F Device Tag: SUPPLY Name Value...
Page 237: Generate Service Files
Configuration and Use Manual Log files, history files, and service files MMI-20025166 March 2019 Configure contract totals into the totalizer history log The transmitter can be configured to store contract totals to the totalizer history log. This allows you to access totals from earlier contract periods.
Page 238 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20025166 Service file Description File name Configuration Audit All changes to configuration, including changes made ConfgAuditLog.txt by procedures such as zero calibration or density calibration. Alert History All occurrences of alerts and conditions, independent AlertLog.txt of alert severity.
Page 239 Configuration and Use Manual Log files, history files, and service files MMI-20025166 March 2019 — Toggling=More than 2 transitions in the last 60 seconds • Timestamp — Format: Military time — Time and time zone: Transmitter clock — Not displayed if Action=Toggling Alert history and power-cycles If the transmitter is rebooted or power-cycled, the 20 most recent records in alert history are retained in the transmitter's working memory.
Page 240 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20025166 Alert history log ================================================================================ Device UID: 22729F1F Device Tag: SUPPLY Name Action Time Zone: GMT-7.00 ================================================================================ [100] MAO1 Saturated Toggling [110] FO1 Saturated Toggling [105] Two-Phase Flow Inactive 15/SEP/2018 16:33:30 [105]...
Page 241 Configuration and Use Manual Log files, history files, and service files MMI-20025166 March 2019 • Timestamp — Format: Military time — Time and time zone: Transmitter clock • Host or protocol from which the change was made Configuration audit history and power-cycles If the transmitter is power-cycled or rebooted, the event is logged in the configuration audit history.
Page 242 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20025166 SNS_K2 1606.9 7354 09/SEP/2018 Other 11:35:12 SNS_DensityTem 5.66 4.44 09/SEP/2018 Other 11:35:12 … Note The configuration audit log displays only in English. 16.2.3 Assert history and log The transmitter automatically saves information about all asserts.
Page 243 Configuration and Use Manual Log files, history files, and service files MMI-20025166 March 2019 Security log and configuration files If you attempt to restore the factory configuration or upload a configuration file when write-protection is enabled, the Database Write Failures counter is increased. Security log file TAG:SUPPLY UID:22729F1F...
Page 244 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 245: Chapter 17 Troubleshooting
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17 Troubleshooting 17.1 Status LED and device status The status LED (MOD STATUS) on the transmitter display provides a quick indication of device status by changing color and flashing. If the transmitter was ordered without a display, the LEDs on the outputs board inside the transmitter provide the same information.
Page 246: Batch Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 5. Ensure that reference temperature and reference pressure, if applicable, are configured correctly. 6. Ensure that the selected API table is appropriate for the process fluid. 17.3 Batch problems 17.3.1 Batch will not start Cause •...
Page 247: Concentration Measurement Problems
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 3. Ensure that the valve and channel are powered. 17.3.4 Batch totals are inaccurate Cause • Batch target is incorrect • AOC is inaccurate • Flow measurement needs adjustment Recommended actions 1. Verify that the correct batch preset is active. 2.
Page 248: Density Measurement Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 17.4.2 Inaccurate CM reading Cause • Inaccurate density measurement • Inaccurate temperature measurement • Incorrect reference conditions • Incorrect matrix data • Inappropriate trim values Recommended actions 1. Verify the line density value. 2.
Page 249: Inaccurate Density Reading
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 5. Ensure that line pressure or sample pressure meets installation requirements. 6. Increase back pressure to minimize bubble formation. 7. Minimize vibration in the pipeline. 8. Increase the pipe diameter. 9. Install a flow control method (bypass, flow chamber, expander, etc.). 10.
Page 250: Discrete Input Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 • In low-frequency meters, tube fouling Recommended actions 1. Ensure that all of the calibration parameters have been entered correctly. See the sensor tag or the calibration sheet for your meter. 2. Purge the sensor tubes. 3.
Page 251: Discrete Output Problems
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.6.2 No Discrete Input Cause • Wiring problem • Incorrect configuration Recommended actions 1. Verify the wiring between the transmitter and the external device. 2. Check the setting of Discrete Input Polarity. 17.7 Discrete Output problems 17.7.1 No Discrete Output Cause...
Page 252: Flow Measurement Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 17.7.3 Discrete Output readings reversed Cause • Wiring problem • Configuration does not match wiring Recommended actions 1. Verify the output wiring. 2. Ensure that Discrete Output Polarity is set correctly. 17.8 Flow measurement problems 17.8.1 Flow rate reported as zero when flow is present Cause The process condition is below cutoff.
Page 253 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 • Incorrect sensor orientation • Wiring problem • Vibration in pipeline at rate close to sensor tube frequency • Damping value too low • Mounting stress on sensor Recommended actions 1. Verify that the sensor orientation is appropriate for your application. See the installation manual for your sensor.
Page 254 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 6. For sensors with a junction box, check for moisture in the junction box. 7. Purge the sensor tubes. 8. Check for open or leaking valves or seals. 9. Check for sources of vibration. 10.
Page 255: Frequency Input Problems
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.9 Frequency Input problems 17.9.1 No Frequency Input Cause • Wiring problem • Problem with external device • Channel not configured for desired output or input • Channel not licensed Recommended actions 1.
Page 256 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 • Fault condition if Fault Action is set to Internal Zero or Downscale • Two-phase flow • Flow in reverse direction from configured flow direction parameter • Frequency Output Direction not set correctly •...
Page 257: Ma Input Problems
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.10.3 Erratic FO Cause There is Radio Frequency Interference (RFI) from the environment. Recommended actions Check for radio frequency interference. 17.10.4 FO goes in and out of fault conditions Cause There is a problem with the interaction between the Output Saturated alert and the fault action configured for the output.
Page 258: Milliamp Output Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Recommended actions 1. Verify the process variable assigned to the mA input. 2. Ensure that the transmitter and the external device are using the same measurement unit for the process variable. 3. Check the Lower Range Value and Upper Range Value configured for the mA input. 17.11.3 mA input value slightly inaccurate Cause External device not calibrated to match transmitter...
Page 259 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 • Power supply problem • Wiring problem • Circuit failure • Channel not configured for desired output or input • Incorrect internal/external power configuration Recommended actions 1. Check the power supply and power supply wiring. 2.
Page 260 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 • Zero calibration failure • mA Output Direction not set correctly Recommended actions 1. Verify the output variable assignments. 2. View and resolve any existing alert conditions. 3. Check the direction parameters. 4.
Page 261: Status Alerts, Causes, And Recommendations
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 4. Check the direction parameters. 5. Check the settings of Upper Range Value and Lower Range Value. 17.12.7 mAO correct at lower current, but incorrect at higher current Cause The mA loop resistance may be set too high. Recommended actions Verify that the mA Output load resistance is below the maximum supported load.
Page 262 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 b) Verify that the drain wires are landed outside the core processor housing. c) If the drain wires are landed inside the core processor housing, cover them by the foil shield for their full length until they land under the ground screw.
Page 263 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.13.4 [008] Density Overrange Alert Extreme Primary Purpose Variable Cause The measured density is above 10 g/cm Recommended actions 1. Check your process conditions against the values reported by the device. 2. Verify that the transmitter is configured correctly for the connected sensor. 3.
Page 264 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Recommended actions 1. Ensure that your calibration procedure meets the documented requirements. 2. Reboot or power-cycle the transmitter. 3. Retry the procedure. 17.13.7 [016] Sensor Temperature (RTD) Failure Alert Sensor Failed Cause The value computed for the resistance of the line RTD is outside limits.
Page 265 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 d) Check the continuity of all wires from the transmitter to the sensor. 2. Check your process conditions against the values reported by the device. 3. Contact customer service. 17.13.9 [018] EEPROM Error (Transmitter) Alert Electronics Failed Cause...
Page 266 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 3. Check the drain wires. a) Verify that the drain wires from the 4-wire cable are properly landed. b) Verify that the drain wires are landed outside the core processor housing. c) If the drain wires are landed inside the core processor housing, cover them by the foil shield for their full length until they land under the ground screw.
Page 267 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.13.13 [022] Configuration Database Corrupt Alert Electronics Failed Cause There is a NVM checksum mismatch in the core processor's configuration memory. This alert applies to the standard core processor only. Recommended actions 1.
Page 268 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 4. Ensure that all meter components are grounded properly. 5. Evaluate the environment for sources of high electromagnetic interference (EMI) and relocate the transmitter or wiring as necessary. 6. Reboot or power-cycle the transmitter to see if the alert clears. 7.
Page 269 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Cause The firmware or configuration loaded in the transmitter is incompatible with the board type. Recommended actions 1. Ensure that the correct board is installed. 2. If this alarm occurred in conjunction with an effort to load a configuration into the transmitter, confirm that the transmitter is of the same model as the one the configuration came from.
Page 270 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 17.13.20 [034] Smart Meter Verification Failed Alert Function Check Failed or Smart Meter Verification Aborted Cause The current SMV value is statistically different than the factory baseline value. Recommended actions Minimize process instability and repeat the test. 17.13.21 [035] Smart Meter Verification Aborted Alert Function Check Failed or Smart Meter Verification Aborted...
Page 271 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Cause One of the following conditions have occurred: • The HART address is set to a non-zero value • A loop test is running The output is configured to send a constant value (mA Output Action or Loop Current Mode) •...
Page 272 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 • If it is not, correct the problem and reboot or power-cycle the transmitter. • If it is, replace the transmitter because the transmitter has an internal power issue. 17.13.26 [104] Calibration in Progress Alert Function Check in Progress Cause...
Page 273 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.13.29 [111] Frequency Output 1 Fixed Alert Output Fixed Cause The output is configured to send a constant value. A loop test may be in progress. Recommended actions Check to see if a loop test is in process (the output is fixed). 17.13.30 [113] mA Output 2 Saturated Alert Output Saturated...
Page 274 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Cause The connection to an external measurement device has failed. No external data is available. Recommended actions 1. Verify that the external device is operating correctly. 2. Verify the wiring between the transmitter and the external device. 17.13.33 [116] Temperature Overrange (API referral) Alert Process Aberration...
Page 275 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.13.36 [119] Discrete Output 2 Fixed Alert Output Fixed Cause The output is set to a constant state. A loop test may be in progress. Recommended actions Check to see if a loop test is in process (the output is fixed). 17.13.37 [120] Curve Fit Failure (Concentration) Alert Configuration Error...
Page 276 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Recommended actions Check to see if a loop test is in process (the output is fixed). 17.13.40 [123] Pressure Overrange (API referral) Alert Process Aberration Cause The line pressure is outside the range of the API table. Recommended actions 1.
Page 277 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Recommended actions Check for air entrainment, tube fouling, flashing, or tube damage. 17.13.44 Batcher Not Configured Alert Configuration Error Cause One or more of the following has occurred: • The batcher application is disabled •...
Page 278 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Cause The core processor software update failed. Recommended actions 1. Resolve any active alerts. 2. Check the connection between the transmitter and the core processor. 3. Reboot or power-cycle the transmitter, then retry the procedure. 4.
Page 279 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 2. Check your process conditions against the values reported by the device. 3. Adjust the Frequency Input using a K factor. 4. Ensure that the external device is operating correctly. 5. Verify the wiring between the transmitter and the external device. 17.13.51 Frequency Output 2 Fixed Alert Output Fixed...
Page 280 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 17.13.54 mA Output 3 Fixed Alert Output Fixed Cause The output is configured to send a constant value. A loop test may be in progress. Recommended actions 1. Check to see if a loop test is in process (the output is fixed). 2.
Page 281 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Cause A permanent license has not been installed in the transmitter firmware. Recommended actions 1. If you have a permanent license, install it. 2. If you do not have a permanent license, contact customer service. 17.13.58 Paper Out Cause A functional check alert is commonly triggered due to the following conditions:...
Page 282 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Cause The transmitter's SD card has failed. Recommended actions 1. Make sure that the SD card is firmly seated in the socket. 2. Contact customer service. 17.13.61 SD Card Full Alert Data Loss Possible Cause The transmitter's SD card is 90% full.
Page 283: Perform A Core Processor Resistance Test
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Recommended actions 1. Reboot or power-cycle the transmitter. 2. Retry the procedure. 3. Contact customer service. 17.13.65 Verification of mA Output 1 Failed Alert Electronics Failed Cause The reading of the mA Input does not match the reading of mA Output 1. Recommended actions If the alert persists, replace the transmitter.
Page 284 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Figure 17-1: Removing the cover of the junction box 3. Disconnect the 4-wire cable between the transmitter and the sensor. 4. Identify the core processor terminals inside the transmitter junction box. Figure 17-2: Core processor terminals inside the transmitter junction box 5.
Page 285: Check Batch Total Against Scale Reading
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Terminal pair Terminal pair (core Function Expected resistance (transmitter) processor) Black – white 2–3 VDC– and RS-485/A 29 kΩ to 33 kΩ Black – green 2–4 VDC– and RS-485/B 16 kΩ to 18 kΩ 6.
Page 286: Check The Cutoffs
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 6. If the problem is not resolved, contact customer support. 17.16 Check the cutoffs If the transmitter cutoffs are configured incorrectly, the transmitter may report zero flow when flow is present, or very small amounts of flow under no-flow conditions. There are separate cutoff parameters for mass flow rate, volume flow rate, gas standard volume flow rate (if applicable), and density.
Page 287: Check For Internal Electrical Problems
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Table 17-2: Possible causes and recommended actions for excessive (saturated) drive gain (continued) Possible cause Recommended actions Over-pressurized tubes Contact customer support. Plugged sensor tube Check the pickoff voltages (see Check the pickoff voltage).
Page 288: Check The Scaling Of The Frequency Output
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 • For the relevant status alerts, change the setting of Alert Severity. • Configure the transmitter to ignore the relevant status alerts. Restriction Some status alerts and conditions are not configurable. 3. If there are no active fault conditions, continue troubleshooting. 17.21 Check the scaling of the Frequency Output If the process variable assigned to the Frequency Output goes to a value that would set the Frequency Output to a signal below 0 Hz or above 12500 Hz, the meter will post an Output Saturated alert for the affected...
Page 289 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 • A Field Communicator • A voltmeter • Optional: The HART Application Guide, available at www.hartcomm.org Procedure 1. Verify the HART address. The default HART address is 0. This is the recommended value unless the device is in a multidrop network.
Page 290: Locate A Device Using The Hart 7 Squawk Feature
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Figure 17-3: Wiring and power to test terminals A. Voltmeter B. 250–600 Ω resistance C. External power supply D. External power supply, if required E. Transmitter with end-cap removed c) Using a voltmeter, check the voltage drop across the resistor. For a 250 Ω...
Page 291: Check Grounding
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.26 Check grounding A sensor and the transmitter must be grounded. If the core processor is installed as part of the transmitter or the sensor, it is grounded automatically. If the core processor is installed separately, it must be grounded separately.
Page 292 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 g) Start the simulation. h) Read the mA current at the receiving device and compare it to the transmitter output. The readings do not need to match exactly. If the values are slightly different, you can correct the discrepancy by trimming the output.
Page 293 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 d) Choose Menu > Service Tools > Service Data > View I/O Levels and read the state of the discrete input. e) Return the remote input device to normal operation. 5. Test the mA Input. a) Set the remote input device to generate a known fixed current.
Page 294 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 g) Click Fix mA. h) Read the mA current at the receiving device and compare it to the transmitter output. The readings do not need to match exactly. If the values are slightly different, you can correct the discrepancy by trimming the output.
Page 295 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 6. Test the Frequency Input. a) Set the remote input device to generate a known fixed current. b) Choose Device Tools > Diagnostics > Testing > Read Frequency Input. c) Return the remote input device to normal operation. Postrequisites •...
Page 296 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 h) Choose End. 2. Test the Frequency Output(s). a) Choose Service Tools > Simulate > Simulate Outputs and select the frequency output to test. • Channel B = Frequency Output 2 • Channel C = Frequency Output 1 •...
Page 297: Check Lower Range Value And Upper Range Value
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 • Channel D = Discrete Input 2 e) Return the remote input device to normal operation. Postrequisites • If the mA Output readings are within 20 microamps of the expected values, you can correct this discrepancy by trimming the output.
Page 298: Trim Ma Output
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 17.30 Trim mA Output Trimming an mA Output calibrates the transmitter's mA Output to the receiving device. If the current trim value is inaccurate, the transmitter will under-compensate or over-compensate the output. Related information Trim an mA Output using the display Trim mA Output using ProLink III...
Page 299: Check The Pickoff Voltage
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 17.30.3 Trim mA outputs using the Field Communicator Trimming the mA Output establishes a common measurement range between the transmitter and the device that receives the mA Output. Prerequisites Ensure that the mA Output is wired to the receiving device that will be used in production. Procedure 1.
Page 300: Check Power Supply Wiring
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 17.32 Check power supply wiring If the power supply wiring is damaged or improperly connected, the transmitter may not receive enough power to operate properly. Prerequisites • You will need the installation manual for your transmitter. •...
Page 301: Check Sensor-To-Transmitter Wiring
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Procedure • Use shielded cable between the output and the receiving device. — Terminate the shielding at the receiving device. If this is impossible, terminate the shielding at the cable gland or conduit fitting. —...
Page 302 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 2. Unplug the terminal blocks from the terminal board on the core processor. 3. Using a digital multimeter (DMM), check the pickoff coils by placing the DMM leads on the unplugged terminal blocks for each terminal pair. See Table 17-5 for a list of the coils.
Page 303: Using Sensor Simulation For Troubleshooting
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 h) Test the yellow terminal against all other terminals except the orange and violet ones. i) Test the violet terminal against all other terminals except the yellow and orange ones. There should be infinite resistance for each pair. If there is any resistance at all, there is a short between terminals.
Page 304: Check For Two-Phase Flow (Slug Flow)
Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 17.38 Check for two-phase flow (slug flow) Two-phase flow can cause rapid changes in the drive gain. This can cause a variety of measurement issues. Procedure 1. Check for two-phase flow alerts (e.g., A105). If the transmitter is not generating two-phase flow alerts, verify that two-phase flow limits have been set.
Page 305: Velocity Measurement Problems
Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Table 17-6: Temperature measurement problems and recommended actions (continued) Problem Possible causes Recommended actions Temperature reading • Sensor temperature not yet equalized • If the error is within the temperature slightly different from specification for the sensor, there is no •...
Page 306 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Table 17-7: Velocity measurement problems and recommended actions (continued) Problem Possible causes Recommended actions Erratic non-zero • Leaking valve or seal • Verify that the sensor orientation is flow rate appropriate for your application. See the •...
Page 307 Configuration and Use Manual Troubleshooting MMI-20025166 March 2019 Table 17-7: Velocity measurement problems and recommended actions (continued) Problem Possible causes Recommended actions Inaccurate velocity • Wiring problem • Verify that the measurement units are reading configured correctly for your application. •...
Page 308 Troubleshooting Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 309: A.1 Components Of The Transmitter Display
Configuration and Use Manual Using the transmitter display MMI-20025166 March 2019 A Using the transmitter display This section explains how to use the display. Using the display, you can move through the menus, configure the application, monitor and control the application, and perform maintenance and diagnostic tasks. A.1 Components of the transmitter display The transmitter display includes a status LED, a multi-line LCD panel, two security switches, and four optical switches.
Page 310: A.2 Access And Use The Display Menus
Using the transmitter display Configuration and Use Manual March 2019 MMI-20025166 Table A-1: Status LED and device status (continued) Status LED condition Device status Solid red One or more alerts are active with Alert Severity = Failure. Flashing yellow (1 Hz) The Function Check in Progress alert is active.
Page 311 Configuration and Use Manual Using the transmitter display MMI-20025166 March 2019 Figure A-4: Optical switches Procedure 1. Observe the action bar at the bottom of the LCD panel. The action bar displays Menu⇨. 2. Place your thumb or finger over the ⇨ optical switch to activate it. The top-level menu is displayed.
Page 312 Using the transmitter display Configuration and Use Manual March 2019 MMI-20025166 Figure A-5: Navigation arrows 4. If you make a menu choice that leads to a possible configuration change, or to certain procedures such as zero calibration: If display security is not enabled, the display prompts you to activate ⇦⇧⇩⇨, in that order. This •...
Page 313 Configuration and Use Manual Using the transmitter display MMI-20025166 March 2019 6. To exit the display menu system, use either of the following methods: • Wait until the menu times out and returns to the display variables. • Exit each menu separately, working your way back to the top of the menu system. Configuration and Use Manual...
Page 314 Using the transmitter display Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 315: B.1 Basic Information About Prolink Iii
Micro Motion ProLink III User Manual. In most ProLink III installations, the manual is installed with the ProLink III program. Additionally, the ProLink III manual is available on the documentation CD or at www.emerson.com. ProLink III features and functions ProLink III offers complete transmitter configuration and operation functions. ProLink III also offers a number of additional features and functions, including: •...
Page 316: B.2 Connect With Prolink Iii
Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 ProLink III messages As you use ProLink III with a Micro Motion transmitter, you will see a number of messages and notes. This manual does not document all of these messages and notes. Important The user is responsible for responding to messages and notes and complying with all safety messages.
Page 317 Configuration and Use Manual Using ProLink III with the transmitter MMI-20025166 March 2019 B.2.2 Make a service port connection from ProLink III to the transmitter CAUTION If the transmitter is in a hazardous area, do not open the wiring compartment while the transmitter is powered up.
Page 318 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 Figure B-1: Service port inside transmitter wiring compartment 3. Start ProLink III. 4. Choose Connect to Physical Device. 5. Set parameters as shown here. Parameter Setting Protocol Service Port PC Port The number assigned to the USB port on your PC...
Page 319 Configuration and Use Manual Using ProLink III with the transmitter MMI-20025166 March 2019 B.2.3 Make a Modbus/RS-485 connection from ProLink III to the transmitter This connection type uses Modbus protocol and commands to communicate with the transmitter over an RS-485 network. You can make a Modbus/RS-485 connection to the transmitter's RS-485 terminals (Channel E) or to any point on the network.
Page 320 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 Figure B-2: Connection to RS-485 terminals A. PC B. RS-232 to RS-485 converter C. Transmitter with end-cap removed Note This figure shows a serial port connection. USB connections are also supported. 3.
Page 321 Configuration and Use Manual Using ProLink III with the transmitter MMI-20025166 March 2019 Figure B-3: Connection over network A. PC B. RS-232 to RS-485 converter C. 120-Ω, 1/2-watt resistors at both ends of the segment, if necessary D. DCS or PLC E.
Page 322 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 • For long-distance communication, or if noise from an external source interferes with the signal, install 120-Ω ½-W terminating resistors in parallel with the output at both ends of the communication segment.
Page 323 Configuration and Use Manual Using ProLink III with the transmitter MMI-20025166 March 2019 Figure B-4: Connection to transmitter terminals A. PC B. Signal converter C. Transmitter, with wiring compartment and power supply compartment opened Note This figure shows a serial port connection. USB connections are also supported. 3.
Page 324 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 Figure B-5: Connection over network A. PC B. Signal converter C. 120-Ω, 1/2-watt resistors at both ends of the segment, if necessary D. DCS or PLC E. Transmitter, with wiring compartment and power supply compartment opened Note This figure shows a serial port connection.
Page 325 Configuration and Use Manual Using ProLink III with the transmitter MMI-20025166 March 2019 Need help? If an error message appears: • Verify the HART address of the transmitter, or poll HART addresses 1–15. • When the transmitter is in a fault, you may need to add additional resistance in the loop to achieve HART communications.
Page 326 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 Important HART/Bell 202 connections require a voltage drop of 1 VDC. To achieve this, add resistance of 250–600 Ω to the connection. Figure B-6: Connection to mA output terminals A.
Page 327 Configuration and Use Manual Using ProLink III with the transmitter MMI-20025166 March 2019 Figure B-7: Externally powered mA output: maximum loop resistance 1100 1000 15.0 22.5 30.0 A. Maximum resistance (Ω) B. External supply voltage (V) Note 3. To connect to a point in the local HART loop: a) Attach the leads from the signal converter to any point in the loop, ensuring that the leads are across the resistor.
Page 328 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 Figure B-8: Connection over local loop A. PC B. RS-232 to Bell 202 converter C. Any combination of resistors R1 and R2 as necessary to meet HART communication resistance requirements D.
Page 329 Configuration and Use Manual Using ProLink III with the transmitter MMI-20025166 March 2019 Figure B-9: Externally powered mA output: maximum loop resistance 1100 1000 15.0 22.5 30.0 A. Maximum resistance (Ω) B. External supply voltage (V) Note 4. To connect over a HART multidrop network: a) Attach the leads from the signal converter to any point on the network.
Page 330 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 Figure B-10: Connection over multidrop network A. RS-232 to Bell 202 converter B. 250–600 Ω resistance C. Devices on the network D. Master device 5. Start ProLink III. 6.
Page 331 Configuration and Use Manual Using ProLink III with the transmitter MMI-20025166 March 2019 12. Click Connect. Need help? If an error message appears: • Verify the HART address of the transmitter, or poll HART addresses 1–15. • Ensure that you have specified the correct port on your PC. •...
Page 332 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 333: C.1 Basic Information About The Field Communicator
If you are unable to perform these tasks, consult the Field Communicator manual before attempting to use the Field Communicator. The Field Communicator manual is available on the documentation CD or at www.emerson.com. Device descriptions (DDs) In order for the Field Communicator to work with your device, the appropriate device description (DD) must...
Page 334: C.2 Connect With The Field Communicator
Using a Field Communicator with the transmitter Configuration and Use Manual March 2019 MMI-20025166 C.2 Connect with the Field Communicator A connection from the Field Communicator to your transmitter allows you to read process data, configure the transmitter, and perform maintenance and troubleshooting tasks. Prerequisites The following HART device description (DD) must be installed on the Field Communicator : 5700 Dev v1 DD V1 or later.
Page 335 Configuration and Use Manual Using a Field Communicator with the transmitter MMI-20025166 March 2019 Figure C-1: Field Communicator connection to transmitter terminals A. Field Communicator B. 250–600 Ω resistance C. External power supply, if required D. Transmitter with end-cap removed E.
Page 336 Using a Field Communicator with the transmitter Configuration and Use Manual March 2019 MMI-20025166 Figure C-3: Field Communicator connection to multidrop network A. Field Communicator B. Devices on the network C. External power supply, if required (may be provided by the PLC) D.
Page 337: D.1 Rules For Channel Combinations
Configuration and Use Manual Channel combinations MMI-20025166 March 2019 D Channel combinations D.1 Rules for channel combinations Use these rules to determine what channel types and channel combinations are valid on the transmitter. Table D-1: Rules for channel combinations Rule number Rule Channel A is always mA Output 1.
Page 338 Channel combinations Configuration and Use Manual March 2019 MMI-20025166 Combination Channel A Channel B Channel C Channel D Channel E Combination 13 mA Output 1 mA Output 2 Discrete Output 2 Discrete Input 2 RS-485 Combination 14 mA Output 1 mA Output 2 Discrete Output 2 mA Input RS-485...
Page 339 Configuration and Use Manual Channel combinations MMI-20025166 March 2019 Combination Channel A Channel B Channel C Channel D Channel E Combination 37 mA Output 1 Frequency Output Discrete Input 1 Frequency Input RS-485 Combination 38 mA Output 1 Discrete Output 1 mA Output 3 Frequency Output RS-485 Combination 39...
Page 340 Channel combinations Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 341: E.1 Standard Matrices For The Concentration Measurement Application
Configuration and Use Manual Concentration measurement matrices, derived variables, and process variables MMI-20025166 March 2019 E Concentration measurement matrices, derived variables, and process variables E.1 Standard matrices for the concentration measurement application The standard concentration matrices available from Micro Motion are applicable for a variety of process fluids. These matrices are included in the ProLink III installation.
Page 342: E.2 Derived Variables And Calculated Process Variables
Concentration measurement matrices, derived variables, and process variables Configuration and Use Manual March 2019 MMI-20025166 E.2 Derived variables and calculated process variables The concentration measurement application calculates a different set of process variables from each derived variable. The process variables are then available for viewing or reporting. Calculated process variables Density at Standard...
Page 343 Configuration and Use Manual Concentration measurement matrices, derived variables, and process variables MMI-20025166 March 2019 Calculated process variables Density at Standard reference volume Specific Concentra Net mass volume Derived variable Description temp flow rate gravity tion flow rate flow rate ✓...
Page 344 Concentration measurement matrices, derived variables, and process variables Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 345: F.1 Rohs And Weee
Configuration and Use Manual Environmental compliance MMI-20025166 March 2019 F Environmental compliance F.1 RoHS and WEEE In compliance with the RoHS directive (Restriction of Hazardous Substances) and the WEEE directive (Waste Electrical and Electronic Equipment), the battery in the 4200 transmitter cannot be serviced or replaced by users.
Page 346 Environmental compliance Configuration and Use Manual March 2019 MMI-20025166 Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 347: G.1 Print Examples
Configuration and Use Manual Example tickets MMI-20025166 March 2019 G Example tickets This appendix provides examples of different types of tickets. G.1 Print examples Original tickets Figure G-1: Sample test page Figure G-2: Batch ticket with Weights and Measures not licensed Configuration and Use Manual...
Page 348 Example tickets Configuration and Use Manual March 2019 MMI-20025166 G.1.1 Batch (NTEP) tickets Original tickets Figure G-3: Data secured Figure G-4: Data unsecured Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 349 Configuration and Use Manual Example tickets MMI-20025166 March 2019 G.1.2 Batch (OIML) tickets Original tickets Figure G-5: Data secured Figure G-6: Data unsecured Figure G-7: OIML Mass Transfer with Inventory, Mass approved variable Configuration and Use Manual...
Page 350 Example tickets Configuration and Use Manual March 2019 MMI-20025166 Figure G-8: OIML Mass Transfer, Mass approved variable Micro Motion Model 5700 Transmitters with Configurable Outputs...
Page 351 Configuration and Use Manual Software history (NAMUR recommendation NE53) MMI-20025166 March 2019 H Software history (NAMUR recommendation NE53) This appendix documents the change history of the Model 5700 transmitter software with configurable outputs. Document numbers refer to the English versions. Other languages have different part numbers but matching revision letters.
Page 352 Software history (NAMUR recommendation NE53) Configuration and Use Manual March 2019 MMI-20025166 • Enhanced the Thermal Expansion Coefficient in the Petroleum Measurement software application to allow values down to 0.000023 per deg F • Enhanced the slope/offset equation in the Concentration Measurement software application to allow the offset to correct for negative concentration •...
Page 353 Configuration and Use Manual Software history (NAMUR recommendation NE53) MMI-20025166 March 2019 • Support added for turning the local display either on or off from the local display • Corrected the velocity calculation to use actual density rather than standard gas density when the transmitter is in Gas Standard Volume mode •...
Page 354 Software history (NAMUR recommendation NE53) Configuration and Use Manual March 2019 MMI-20025166 In this product, Gas Density Correction is enabled for all sensors Order ETO 27577 if you would like to disable Gas Density Correction. — Added Unremediated Mass Flow and Unremediated Volume flow, which can be assigned to the Frequency Outputs —...
Page 355 Configuration and Use Manual Software history (NAMUR recommendation NE53) MMI-20025166 March 2019 — Gross Flow at Line — Backflow at Line — Gross Flow at Ref — Average Oil Flow at Line — Average Watercut at Line — Average Gross Flow at Line —...
Page 356 © 2019 Micro Motion, Inc. All rights reserved. The Emerson logo is a trademark and service mark of Emerson Electric Co. Micro Motion, ELITE, ProLink, MVD and MVD Direct Connect marks are marks of one of the Emerson Automation Solutions family of companies. All other marks are property of their respective owners.

Emerson Micro Motion 5700 Configuration And Use Manual

Chapter 1 Before You Begin

Chapter 2 Quick Start

Chapter 3 Introduction to Configuration and Commissioning

Chapter 4 Configure Process Measurement

Chapter 5 Configure Process Measurement Applications

Chapter 6 Configure Advanced Options for Process Measurement

Chapter 7 Configure Device Options and Preferences

Chapter 8 Integrate the Meter with the Control System

Chapter 9 Configure Digital Communications

Chapter 10 Configure, Wire, and Use a Printer for Tickets

Chapter 11 Complete the Configuration

Chapter 12 Transmitter Operation

Chapter 13 Operation Using the Batcher

Chapter 14 Measurement Support

Chapter 15 Maintenance

Chapter 16 Log Files, History Files, and Service Files

Chapter 17 Troubleshooting

Quick Links

Troubleshooting

Related Manuals for Emerson Micro Motion 5700

Summary of Contents for Emerson Micro Motion 5700

Table of Contents