Page 1 Configuration and Use Manual MMI-20029769, Rev AC March 2019 ® Micro Motion Model 5700 with Ethernet Transmitters 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-20029769 March 2019 Contents Chapter 1 Before you begin......................7 1.1 About this manual..........................7 1.2 Communication methods.........................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 2.5 Set the transmitter clock........................
Page 4 Contents Configuration and Use Manual March 2019 MMI-20029769 6.5 Configure totalizers and inventories....................88 6.6 Configure logging for totalizers and inventories................91 6.7 Configure Process Variable Fault Action ..................92 Chapter 7 Configure device options and preferences..............95 7.1 Configure the transmitter display....................95 7.2 Configure the transmitter's response to alerts................
Page 5 Configuration and Use Manual Contents MMI-20029769 March 2019 14.5 Validate the meter........................170 14.6 Perform a (standard) D1 and D2 density calibration..............172 14.7 Adjust concentration measurement with Trim Offset ..............174 14.8 Adjust concentration measurement with Trim Slope and Trim Offset ........175 Chapter 15 Maintenance......................
Page 6 Contents Configuration and Use Manual March 2019 MMI-20029769 17.28 Check sensor-to-transmitter wiring..................242 17.29 Using sensor simulation for troubleshooting................243 17.30 Check the printing........................243 17.31 Check for two-phase flow (slug flow)..................243 17.32 Check the sensor coils......................244 Appendix A Using the transmitter display..................
Page 7: Before You Begin
For information about how to use the communication tools, see the appendices in this manual. 1.3 Related documents You can find all product documentation on the product documentation DVD shipped with the product or at www.emerson.com. See any of the following documents for more information: •...
Page 8 Before you begin Configuration and Use Manual March 2019 MMI-20029769 • Modbus Interface Tool • Sensor installation manual Micro Motion Model 5700 with Ethernet Transmitters...
Page 9: Chapter 2 Quick Start
Configuration and Use Manual Quick start MMI-20029769 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 on the network does not interfere with existing measurement and control loops.
Page 10: Commissioning Wizards
Quick start Configuration and Use Manual March 2019 MMI-20029769 Table 2-1: Status LED and device status (continued) Status LED condition Device status 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: View The Licensed Features
Configuration and Use Manual Quick start MMI-20029769 March 2019 Procedure 1. Select the time zone that you want to use. 2. If you need a custom time zone, select Special Time Zone and enter your time zone as a difference from UTC (Coordinated Universal Time).
Page 12: Characterize The Meter (If Required)
Quick start Configuration and Use Manual March 2019 MMI-20029769 The transmitter serial number is provided on the metal tag that is attached to the transmitter housing. b) Set Descriptor to any desired description of this transmitter or measurement point. c) Set Message to any desired message. d) Verify that Model Code (Base) is set to the base model code of the transmitter.
Page 13 Configuration and Use Manual Quick start MMI-20029769 March 2019 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 14 Quick start Configuration and Use Manual March 2019 MMI-20029769 2.8.2 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 15: Verify Mass Flow Measurement
Configuration and Use Manual Quick start MMI-20029769 March 2019 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 16 Quick start Configuration and Use Manual March 2019 MMI-20029769 Procedure 1. Prepare the meter: a) Allow the meter to warm up for at least 20 minutes after applying power. b) Run the process fluid through the sensor until the sensor temperature reaches the normal process operating temperature.
Page 17: Introduction To Configuration And Commissioning
Configuration and Use Manual Introduction to configuration and commissioning MMI-20029769 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 18 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20029769 3.1.2 USP security This transmitter is equipped with a Universal Service Port (USP) that works with USB type A connections, including compatible flash drives. There are multiple levels of security built into the transmitter's service port that you can configure according to your needs and security standards.
Page 19 Configuration and Use Manual Introduction to configuration and commissioning MMI-20029769 March 2019 • If the switch is in the right position, the transmitter is locked. • If the switch is in the left position, the transmitter is unlocked. Note The top switch is reserved for future use. Procedure 1.
Page 20 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20029769 The service port is enabled by default, so you can use it for transferring files or connect to it with ProLink III. If you want to completely prevent it from being used, you can disable it. Note Enabling or disabling the service port will not take effect until power has been cycled to the transmitter.
Page 21 Configuration and Use Manual Introduction to configuration and commissioning MMI-20029769 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 22: Work With Configuration Files
Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20029769 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. 3.2 Work with configuration files 3.2.1 Save a configuration file using the display You can save the current transmitter configuration in two forms: a backup file and a replication file.
Page 23 Configuration and Use Manual Introduction to configuration and commissioning MMI-20029769 March 2019 • To copy a configuration file from the transmitter's SD card to the USB drive: a) Open the wiring compartment on the transmitter and insert a USB drive into the service port. CAUTION If the transmitter is in a hazardous area, do not open the wiring compartment while the transmitter is powered up.
Page 24 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20029769 f) Click Save. The configuration file is saved to the transmitter's SD card as yourname.spare or yourname.xfer . • To save the current configuration to your PC, in Model 5700 format: a) Choose Device Tools >...
Page 25 Configuration and Use Manual Introduction to configuration and commissioning MMI-20029769 March 2019 Prerequisites You must have a backup file or a replication file available for use. If you are planning to use the USB drive, the service port must be enabled. It is enabled by default. However, if you need to enable it, choose Menu >...
Page 26 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20029769 You can use a saved configuration file to change the nature of the transmitter quickly. This might be convenient if the transmitter is used for different applications or different process fluids. Note When you use ProLink III format for configuration files, you can specify configuration parameters individually or by groups.
Page 27 Configuration and Use Manual Introduction to configuration and commissioning MMI-20029769 March 2019 3.2.5 Restore the factory configuration Display Menu > Configuration > Save/Restore Configuration > Restore Config from Memory ProLink III Device Tools > Configuration Transfer > Restore Factory Configuration Web browser Service Tool >...
Page 28 Introduction to configuration and commissioning Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 29: Configure Process Measurement
Configuration and Use Manual Configure process measurement MMI-20029769 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 Web browser Configuration >...
Page 30: Configure Mass Flow Measurement
Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 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 31 Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 Label Unit description Display ProLink III Web browser Grams per minute gram/min g/min g/min Grams per hour gram/h g/hr g/hr Kilograms per second kg/s kg/sec kg/sec Kilograms per minute kg/min kg/min kg/min Kilograms per hour...
Page 32 Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 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. Set Mass Flow Label to the name you want to use for the mass flow unit. 6.
Page 33 Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 • 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 34 Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 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 35: Configure Volume Flow Measurement For Liquid Applications
Configuration and Use Manual Configure process measurement MMI-20029769 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 36 Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 Volume Flow Measurement Unit specifies the unit of measurement that will be displayed for the volume flow rate. The unit used for the volume total and volume inventory is based on this unit. Prerequisites Before you configure Volume Flow Measurement Unit, be sure that Volume Flow Type is set to Liquid.
Page 37 Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 Label Unit description Display ProLink III Web browser Barrels per second bbl/s barrels/sec barrels/sec Barrels per minute bbl/min barrels/min barrels/min Barrels per hour bbl/h barrels/hr barrels/hr Barrels per day bbl/d barrels/day barrels/day Beer barrels per second...
Page 38 Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 Defining a special measurement unit for volume flow You want to measure volume flow in pints per second (pints/sec). 1. Set Base Volume Unit to Gallons (gal). 2. Set Base Time Unit to Seconds (sec). 3.
Page 39: Configure Gas Standard Volume (Gsv) Flow Measurement
Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 • 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 40 Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 For these applications, set Volume Flow Type to Liquid. Procedure Set Volume Flow Type to Gas. 4.4.2 Configure Standard Gas Density Menu > Configuration > Process Measurement > Flow Variables > Volume Flow Settings > Standard Gas Display Density ProLink III...
Page 41 Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 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. Different communications tools may use different labels for the units.
Page 42 Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 Procedure 1. Specify Base Gas Standard Volume Unit. Base Gas Standard Volume Unit is the existing gas standard volume unit that the special unit will be based on. 2. Specify Base Time Unit. Base Time Unit is the existing time unit that the special unit will be based on.
Page 43 Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 Gas Standard Volume Flow Cutoff specifies the lowest gas standard volume flow rate that will reported as measured. All gas standard volume flow rates below this cutoff will be reported as 0. Procedure Set Gas Standard Volume Flow Cutoff to the value you want to use.
Page 44: Configure Density Measurement
Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 • If the gas standard volume flow rate drops below 10 SLPM, both outputs will report zero flow, and 0 will be used in all internal processing. 4.5 Configure density measurement The density measurement parameters control how density is measured and reported.
Page 45 Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 Label Unit description Display ProLink III Web browser Short ton per cubic yard STon/yd3 sT/yd3 ST/yd3 Non-standard calculation. This value represents line density divided by the density of water at 60 °F (15.6 °C). 4.5.2 Configure Density Damping Menu >...
Page 46: Configure Temperature Measurement
Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 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 47 Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 ProLink III Device Tools > Configuration > Process Measurement > Temperature > Temperature Unit Web browser Configuration > Process Measurement > Temperature > 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 48: Configure Pressure Measurement Unit
Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 • 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 49: Configure Velocity Measurement Unit
Configuration and Use Manual Configure process measurement MMI-20029769 March 2019 • 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. In most applications, set Pressure Measurement Unit to match the pressure measurement unit used by the remote device.
Page 50 Configure process measurement Configuration and Use Manual March 2019 MMI-20029769 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. Unit description Label Display ProLink III Web browser Feet per minute...
Page 51: Configure Process Measurement Applications
Configuration and Use Manual Configure process measurement applications MMI-20029769 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 52 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 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 53 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 If you are using an external temperature device, it must use the temperature unit that is configured in the transmitter. Procedure 1. Choose the method to be used to supply temperature data, and perform the required setup. Method Description Setup...
Page 54 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 5.1.2 Set up the API referral application using ProLink III This section guides you through the tasks required to set up and implement the API referral application. Enable the API referral application using ProLink III The API referral application must be enabled before you can perform any setup.
Page 55 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 API table group Process fluids D tables Lubricating oils E tables NGL (Natural Gas Liquids) and LPG (Liquid Petroleum Gas) b) Set Referred Density Measurement Unit to the measurement units that you want to use for referred density.
Page 56 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 Procedure 1. Choose Device Tools > Configuration > Process Measurement > API Referral. 2. Choose the method to be used to supply temperature data, and perform the required setup. Option Description Setup...
Page 57 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 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 58: Set Up Concentration Measurement
Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 Referred density The measured density after CTL or CTPL has been applied. API volume flow The measured volume flow rate after CTL or CTPL has been applied. Also called temperature-corrected volume flow.
Page 59 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 The transmitter requires all matrices to be in .matrix format. You can use ProLink III to load matrices in other formats: • .edf (used by ProLink II) • .xml (used by ProLink III) The transmitter can store matrices in two locations: •...
Page 60 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 • Concentration (Specific Gravity) • Mass Concentration (Specific Gravity) • Volume Concentration (Specific Gravity) If you are using one of these derived variables, two additional parameters can be configured: •...
Page 61 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 The concentration measurement application and the advanced phase measurement application cannot be enabled simultaneously. 6. Enable concentration measurement. a) Choose Menu > Configuration > Process Measurement > Concentration Measurement. b) Set Enabled/Disabled to Enabled.
Page 62 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 Important If you change the setting of Derived Variable, all existing concentration matrices will be deleted from the six slots, but not from the transmitter's SD card. Verify the setting of Derived Variable before continuing.
Page 63 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 Procedure 1. Choose Menu > Configuration > Process Measurement > Concentration Measurement and ensure that the setting of Derived Variable matches the derived variable used by your matrix. If it does not, change it as required and click Apply.
Page 64 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 Postrequisites Choose Menu > Service Tools > Service Data > View Process Variables and verify the value for External Temperature. Need help? If the value is not correct: • Ensure that the external device and the meter are using the same measurement unit.
Page 65 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 Extrapolation alerts in action If Extrapolation Limit is set to 5%, High Limit (Temp) is enabled, and the active matrix is built for a temperature range of 40 °F (4.4 °C) to 80 °F (26.7 °C), a high-temperature extrapolation alert will be posted if line temperature goes above 82 °F (27.8 °C).
Page 66 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 • .xml (ProLink III) • .matrix (4200) If you are loading an .xml file, you must know the following information for your matrix: • The derived variable that the matrix is designed to calculate •...
Page 67 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 Important If you change the setting of Derived Variable, all existing concentration matrices will be deleted from the six slots. Verify the setting of Derived Variable before continuing. 5. Load one or more matrices. a) In Step 2, set Matrix Being Configured to the location (slot) to which the matrix will be loaded.
Page 68 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 The transmitter automatically calculates the density of water at the specified temperature. The new value will be displayed the next time that transmitter memory is read. You can enter a different value if you prefer.
Page 69 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 — Verify that the host has access to the required data. Modify matrix names and labels using ProLink III For convenience, you can change the name of a concentration matrix and the label used for its measurement unit.
Page 70 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 Select the active concentration matrix using ProLink III You must select the concentration matrix to be used for measurement. Although the transmitter can store up to six concentration matrices, only one matrix can be used for measurement at any one time. Procedure 1.
Page 71 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 a) Set Reference Temperature to the temperature to which line density will be corrected for use in the specific gravity calculation. b) Set Reference Temperature of Water (Specific Gravity) to the water temperature that will be used in the specific gravity calculation.
Page 72 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 • Ensure that the external device and the meter are using the same measurement unit. • For digital communications, verify that the host has access to the required data. Modify matrix names and labels using the a web browser For convenience, you can change the name of a concentration matrix and the label used for its measurement unit.
Page 73: Configure The Batching Application
Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 Extrapolation alerts in action If Extrapolation Alarm Limit is set to 5%, High Extrapolation Limit (Temperature) is enabled, and the active matrix is built for a temperature range of 40 °F (4.4 °C) to 80 °F (26.7 °C), a high-temperature extrapolation alert will be posted if line temperature goes above 82 °F (27.8 °C).
Page 74 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 Example The current measurement unit for mass flow rate is g/sec. The batch will be configured and measured in g (grams). 3. Set Max Target to the largest batch that will be allowed. •...
Page 75 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 Configure global batching parameters using ProLink III The global batching parameters apply to all batch presets and all batches. Procedure 1. Choose Device Tools > Configuration > Batcher. 2. Set Flow Source to the process variable that will be used to configure and measure the batch. Option Description Mass Flow Rate...
Page 76 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 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 Primary, and End Warning are each configured as a percent of target.
Page 77 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 7. Optional: For two-stage batching, set % Target or Quantity for the following parameters: Two-stage batching is a batch that is run on a gas and liquid mixture flowing through a pipeline. % Target The values for Open Primary, Open Secondary, Close Primary, and End Warning are each configured as a percent of target.
Page 78 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 Option Description 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. Preset 1 is always enabled and cannot be disabled. 7.
Page 79 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 c) Set Power Source to External. 3. Configure the selected channel for valve control. a) Choose Menu > Configuration > Inputs/Outputs. b) Select the discrete output to be used for valve control. c) Choose I/O Settings.
Page 80 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 e) Set Fault Action so that the valve will be closed if a fault occurs. The appropriate setting is either Upscale or Downscale. The setting to use for your installation depends on your valve type, your wiring, and your setting for Polarity.
Page 81 Configuration and Use Manual Configure process measurement applications MMI-20029769 March 2019 b) Set Compensation Mode to AOC. c) Perform AOC calibration. Configure AOC using ProLink III AOC (Automatic Overshoot Compensation) adjusts the timing of the valve close command to minimize overshoot.
Page 82 Configure process measurement applications Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 83: Configure Advanced Options For Process Measurement
Configuration and Use Manual Configure advanced options for process measurement MMI-20029769 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 Configuration >...
Page 84 Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20029769 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 85: Configure Flow Rate Switch
Configuration and Use Manual Configure advanced options for process measurement MMI-20029769 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 86: Configure Events
Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20029769 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 87 Configuration and Use Manual Configure advanced options for process measurement MMI-20029769 March 2019 specified process variable moves above (HI) or below (LO) a user-defined setpoint, or in range (IN) or out of range (OUT) with respect to two user-defined setpoints. Event status can be queried via digital communications, and a discrete output can be configured to report event status.
Page 88: Configure Totalizers And Inventories
Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20029769 Action Label Display PLIII Totalizers Start/stop all totalizers and Start/stop all totalizers Start or Stop All Totalizers Start/Stop All Totals inventories Reset totalizer X Reset Total X Totalizer X Reset Total X Reset all totalizers and...
Page 89 Configuration and Use Manual Configure advanced options for process measurement MMI-20029769 March 2019 Procedure 1. Select the totalizer or inventory that you want to configure. 2. Set Totalizer Source or Inventory Source to the process variable that the totalizer or inventory will track.
Page 90 Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20029769 Important Actual flow direction interacts with Sensor Flow Direction Arrow to determine the flow direction that the transmitter uses in processing. See the following table. Table 6-1: Interaction between actual flow direction and Sensor Flow Direction Arrow Actual flow direction Setting of Sensor Flow Direction Flow direction sent to outputs...
Page 91: Configure Logging For Totalizers And Inventories
Configuration and Use Manual Configure advanced options for process measurement MMI-20029769 March 2019 1. Set up three totalizers, one for each tank. 2. Name the totalizers Tank 1 , Tank 2 , and Tank 3 . 3. Configure each totalizer as required for the corresponding process fluid. 4.
Page 92: Configure Process Variable Fault Action
Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20029769 4. Select up to four totalizers or inventories to be logged. 6.7 Configure Process Variable Fault Action Display Menu > Configuration > Alert Setup > Output Fault Actions Device Tools >...
Page 93 Configuration and Use Manual Configure advanced options for process measurement MMI-20029769 March 2019 Label Description Display ProLink III Web browser Zero Zero Zero • Flow rate variables go to the value that represents a flow rate of 0 (zero). • Density is reported as •...
Page 94 Configure advanced options for process measurement Configuration and Use Manual March 2019 MMI-20029769 If you want the mA Output to continue to report process data during fault conditions, you must set both mA Output Fault Action and Process Variable Fault Action to None. Interaction between Process Variable Fault Action and Frequency Output Fault Action If Frequency Output Fault Action is set to None, the Frequency Output signal depends on the setting of Process Variable Fault Action.
Page 95: Configure Device Options And Preferences
Configuration and Use Manual Configure device options and preferences MMI-20029769 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 96 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20029769 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 97 Configuration and Use Manual Configure device options and preferences MMI-20029769 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 98 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20029769 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 99 Configuration and Use Manual Configure device options and preferences MMI-20029769 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 100 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20029769 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 101: Configure The Transmitter's Response To Alerts
Configuration and Use Manual Configure device options and preferences MMI-20029769 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 102 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20029769 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 103 Configuration and Use Manual Configure device options and preferences MMI-20029769 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 104 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20029769 Table 7-2: Configuration Error conditions Name Ignorable [020] Calibration Factors Missing [021] Incorrect Sensor Type [030] Incorrect Board Type Core Processor Update Failed Password Not Set Time Not Entered Batcher Not Configured [120] Curve Fit Failure (Concentration) Bad IP network settings...
Page 105 Configuration and Use Manual Configure device options and preferences MMI-20029769 March 2019 Table 7-5: Drive Over-Range conditions Name Ignorable [102] Drive Overrange Electronics Failed Default severity: Failure Severity configurable: No Fault Timeout applicable: No Table 7-6: Electronics Failed conditions Name Ignorable [002] RAM Error (Core Processor) [018] EEPROM Error (Transmitter)
Page 106 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20029769 Severity configurable: Yes Fault Timeout applicable: No Table 7-9: Function Check Failed or SMV Aborted conditions Name Ignorable [010] Calibration Failed [034] Smart Meter Verification Failed [035] Smart Meter Verification Aborted Function Check in Progress Default severity: Function Check Severity configurable: No...
Page 107 Configuration and Use Manual Configure device options and preferences MMI-20029769 March 2019 Process Aberration Default severity: Out of Speculation Severity configurable: Yes Fault Timeout applicable: Yes Table 7-13: Process Aberration conditions Name Ignorable [105] Two-Phase Flow [116] Temperature Overrange (API referral) [117] Density Overrange (API referral) [121] Extrapolation Alert (Concentration) [123] Pressure Overrange (API referral)
Page 108 Configure device options and preferences Configuration and Use Manual March 2019 MMI-20029769 Table 7-16: Sensor Failed conditions Name Ignorable [003] Sensor Failed [016] Sensor Temperature (RTD) Failure [017] Sensor Case Temperature (RTD) Failure Sensor-Transmitter Communication Error Default severity: Failure Severity configurable: No Fault Timeout applicable: Yes Table 7-17: Sensor-Transmitter Communication Error conditions Name...
Page 109: Integrate The Meter With The Control System
Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 8 Integrate the meter with the control system 8.1 Channel configuration Menu > Configuration > Inputs/Outputs > Channel x Display Device Tools > Configuration > I/O > Channels > Channel x ProLink III Configuration >...
Page 110: Configure An Ma Output
Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Option Description Internal (Active) The channel is powered by the transmitter. External (Passive) The channel is powered by an external power source. Postrequisites Perform or verify the corresponding output or input configuration. When the configuration of a channel is changed, the channel's behavior will be controlled by the configuration that is stored for the selected input or output type, and the stored configuration may not be appropriate for your process.
Page 111 Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 Related information Configure Lower Range Value (LRV) and Upper Range Value (URV) for the mA Output Options for mA Output Source The transmitter provides a basic set of options for mA Output Source, plus several application-specific options.
Page 112 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Process variable Label Display ProLink III Web browser Baume Baume Baume Baume (CM) Batching % of batch delivered % of Fill % of Fill Delivered % of Fill Delivered 8.4.2 Configure Lower Range Value (LRV) and Upper Range Value (URV) for the mA Output Menu >...
Page 113 Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 Note The transmitter always stores LRV and URV for the current process variable and the previous process variable. If mA Output Source is set to Mass Flow Rate and you set LRV and URV for this configuration, then you change mA Output Source to Volume Flow Rate and set LRV and URV, then change mA Output Source back to Mass Flow Rate, the corresponding LRV and URV are restored automatically.
Page 114 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Effect of mA Output Direction on an mA Output mA Output Direction affects how the transmitter reports flow values via an mA Output. An mA Output is affected by mA Output Direction only if mA Output Source is set to a flow variable.
Page 115 Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 Figure 8-2: 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 116 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 • Under conditions of forward flow, for flow rates between 0 and +100 g/sec, the mA Output varies between 12 mA and 20 mA in proportion to (the absolute value of) the flow rate. •...
Page 117 Configuration and Use Manual Integrate the meter with the control system MMI-20029769 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 118 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Device Tools > Configuration > I/O > Outputs > mA Output x > Fault Action ProLink III Web browser Configuration > Inputs/Outputs > Channel C > mA Output > Fault Action mA Output Fault Action controls the behavior of the mA Output if the transmitter detects a fault condition.
Page 119: Configure A Frequency Output
Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 8.5 Configure a Frequency Output Use a Frequency Output to report current values of process variables. The frequency varies between 0 Hz and 14500 Hz in proportion to the current value of the assigned process variable. 8.5.1 Configure Frequency Output Source Display Menu >...
Page 120 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Process variable Label Display PLIII Web browser API referral Temperature-corrected Referred Volume Flow Volume Flow Rate at Referred Volume Flow Rate (standard) volume flow rate Reference Temperature Concentration measurement Standard volume flow rate Standard Vol Flow...
Page 121 Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 Rate Factor The maximum flow rate that you want the Frequency Output to report. RateFactor FrequencyFactor × N Frequency Factor A value calculated as follows: where: Factor to convert selected time base to seconds N Number of pulses per flow unit, as configured in the receiving device...
Page 122 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Table 8-2: Interaction between actual flow direction and Sensor Flow Direction Arrow (continued) Actual flow direction Setting of Sensor Flow Direction Flow direction sent to outputs and Arrow totalizers Reverse (opposite from Flow arrow on...
Page 123: Configure A Discrete Output
Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 • Default: Downscale Important If you set Frequency Output Fault Action to None, the Frequency Output will be controlled by the setting of Process Variable Fault Action. In most cases, if you set Frequency Output Fault Action to None, you should also set Process Variable Fault Action to None.
Page 124 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Related information Configure Flow Rate Switch Options for Discrete Output Source Option Label State Discrete Output voltage Display Prolink III Web browser Enhanced Event Basic Event x Enhanced Event Enhanced Event •...
Page 125 Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 Option Label State Discrete Output voltage Display Prolink III Web browser Events configured using the enhanced event model. Events configured using the basic event model. The ProLink III v4.0 option is “Meter Verification Failure” for the Discrete Output Source field. This does match the table entry.
Page 126 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Device Tools > Configuration > I/O > Outputs > Discrete Output > Fault Action ProLink III Web browser Configuration > Inputs/Outputs > Channel C > Discrete Outputs > Fault Action Discrete Output Fault Action controls the behavior of a Discrete Output if the transmitter detects a fault condition.
Page 127: Configure A Discrete Input
Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 Fault indication with a Discrete Output To indicate faults via a Discrete Output, set Discrete Output Source to Fault. Then, if a fault occurs, the Discrete Output is always ON and the setting of Discrete Output Fault Action is ignored. 8.7 Configure a Discrete Input Use a Discrete Input to initiate one or more transmitter actions from a remote input device.
Page 128 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Action Label Display ProLink III Web browser Concentration measurement Increment CM matrix Increment Matrix Increment ED Curve Increment Curve Meter verification Start meter verification test Start SMV Start Meter Verification Start Smart Meter Verification...
Page 129 Configuration and Use Manual Integrate the meter with the control system MMI-20029769 March 2019 Polarity Discrete Input Voltage Status of Discrete power supply Input at transmitter Voltage applied across terminals is <0.8 VDC Active Low Internal Voltage across terminals is 0 VDC Voltage across terminals is high External Voltage applied across terminals is...
Page 130 Integrate the meter with the control system Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 131: Set The Ethernet Protocol
Configuration and Use Manual Set the Ethernet protocol MMI-20029769 March 2019 9 Set the Ethernet protocol The primary protocol is configured as either EtherNet/IP, Modbus TCP, or Profinet at the factory per your transmitter's specifications.You can use the display, ProLink III, or the web server to change the factory primary protocol if necessary.
Page 132 Set the Ethernet protocol Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 133: Configure, Setup, And Use A Printer For Tickets
Configuration and Use Manual Configure, setup, and use a printer for tickets MMI-20029769 March 2019 10 Configure, setup, and use a printer for tickets 10.1 TM-T88VI printer limitations You can pair up to six Model 5700 Ethernet transmitters per one Epson TM-T88VI. With any additional connection attempts beyond six, the printer will reject the connection and trigger a functional check alert (printer offline) on the transmitter.
Page 134 Configure, setup, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20029769 • IP address: 192.168.192.x, where x is something other than 0, 1, or 168 • Subnet mask: 255.255.255.0 e) Select OK. 5. Change the printer firmware options. a) Open your web browser and type http://192.168.192.168 (default printer IP).
Page 135 Configuration and Use Manual Configure, setup, and use a printer for tickets MMI-20029769 March 2019 Web browser Configuration > Printer and Tickets 8. Perform a test print to verify the settings are correct. Menu > Operations > Printer > Print Ticket > Print Test Page Display ProLink III Device Tools >...
Page 136: Reset The Interface Settings
Configure, setup, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20029769 b) Set the IP address to 192.168.192.x , where x is something other than 0, 1, or 168. 6. Configure the subnet mask. a) Navigate to one of the following screens: From the display From ProLink III Go to Menu >...
Page 137 Configuration and Use Manual Configure, setup, and use a printer for tickets MMI-20029769 March 2019 Software or license Where to look version ProLink III 4.2 or later From ProLink III, Help From the display: Menu > About > Versions > Transmitter Software Transmitter software 2.0 •...
Page 138: Configure A Discrete Input Or Discrete Event
Configure, setup, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20029769 Table 10-3: Header Lines 1 — 4 Heading parameters Description Text Enter the text for this line of the header. Enter up to 22 characters. Leave blank for no text. Number of Line Feeds Configure the space between the current line and the following line by 1, 2, or 3 lines.
Page 139 Configuration and Use Manual Configure, setup, and use a printer for tickets MMI-20029769 March 2019 • You can print tickets manually as needed, using either the display or a Discrete Input. Table 10-5: Ticket types for special applications Special applications Available tickets Standard Batch...
Page 140 Configure, setup, and use a printer for tickets Configuration and Use Manual March 2019 MMI-20029769 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 141: Complete The Configuration
Configuration and Use Manual Complete the configuration MMI-20029769 March 2019 11 Complete the configuration 11.1 Test or tune the system using sensor simulation Display Menu > Service Tools > Sensor Simulation > Simulate Sensor ProLink III Device Tools > Diagnostics > Testing > Sensor Simulation Web browser Service Tools >...
Page 142: Save The Transmitter Configuration To A Backup File
Complete the configuration Configuration and Use Manual March 2019 MMI-20029769 Option Required values Fixed Fixed Value Sawtooth Period Minimum Maximum Sine Period Minimum Maximum 5. Observe the system response to the simulated values and make any appropriate changes to the transmitter configuration or to the system.
Page 143: Mmi-20029769 March
Configuration and Use Manual Complete the configuration MMI-20029769 March 2019 When enabled, Write-Protection prevents changes to the transmitter configuration. You can perform all other functions, and you can view the transmitter configuration parameters. Note The write protection setting via software methods (such as ProLink III) is only available on transmitters without a display.
Page 144 Complete the configuration Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 145: Chapter 12 Transmitter Operation
Configuration and Use Manual Transmitter operation MMI-20029769 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 146: View And Acknowledge Status Alerts
Transmitter operation Configuration and Use Manual March 2019 MMI-20029769 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 147: Read Totalizer And Inventory Values
Configuration and Use Manual Transmitter operation MMI-20029769 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 148: Start, Stop, And Reset Totalizers And Inventories
Transmitter operation Configuration and Use Manual March 2019 MMI-20029769 Totalizers keep track of the total amount of mass or volume measured by the transmitter since the last totalizer reset. Inventories keep track of the total amount of mass or volume measured by the transmitter since the last inventory reset.
Page 149 Configuration and Use Manual Transmitter operation MMI-20029769 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 150 Transmitter operation Configuration and Use Manual March 2019 MMI-20029769 12.4.3 Start, stop, and reset totalizers using a web browser 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 151: Operation Using The Batcher
Configuration and Use Manual Operation using the batcher MMI-20029769 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 152 Operation using the batcher Configuration and Use Manual March 2019 MMI-20029769 • Using a web browser: Choose Operations > Batcher > Run Batcher and observe the values displayed in Current Total and Batch Time. 5. Optional: Pause the batch at any time. •...
Page 153: Perform Aoc Calibration
Configuration and Use Manual Operation using the batcher MMI-20029769 March 2019 When the Inhibit Totalizer input is active, the Batch Total will not increment. A timeout alarm will occur if the Batch Total is inhibited beyond the max batch time. The batch inventory for the current preset will not increment while Inhibit Totalizer is active.
Page 154 Operation using the batcher Configuration and Use Manual March 2019 MMI-20029769 b) Set AOC Window to the number of batches that the rolling AOC coefficient will be based on. c) Set AOC Cal Status to On. Important If you are using rolling calibration, and fluid characteristics change or the transmitter configuration changes, the transmitter will automatically adjust to the new conditions after a few batches.
Page 155 Configuration and Use Manual Operation using the batcher MMI-20029769 March 2019 AOC calibration is stopped, and the current coefficient is saved. Important If you are using a saved value, repeat AOC calibration: — Whenever the fluid characteristics change, especially viscosity —...
Page 156 Operation using the batcher Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 157: Chapter 14 Measurement Support
Configuration and Use Manual Measurement support MMI-20029769 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 158 Measurement support Configuration and Use Manual March 2019 MMI-20029769 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 159 Configuration and Use Manual Measurement support MMI-20029769 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 160 Measurement support Configuration and Use Manual March 2019 MMI-20029769 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 either the display or the web browser to view test results, the 20 most recent results are available.
Page 161 Configuration and Use Manual Measurement support MMI-20029769 March 2019 Understanding SMV results When the SMV test is completed, the result is reported as Pass, Fail, or Abort. (Some tools report the Fail result as Advisory instead.) Pass Smart Meter Verification does a statistical check between the factory baseline value, field reference point, and the current Smart Meter Verification result.
Page 162 Measurement support Configuration and Use Manual March 2019 MMI-20029769 14.1.3 Set up SMV automatic execution You can set up and run a single test at a user-defined future time. You can also set up and run tests automatically on a regular schedule. Automatic execution of SMV is managed from the transmitter.
Page 163: 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 164: Zero The Meter
Measurement support Configuration and Use Manual March 2019 MMI-20029769 14.2.1 Configure PWL Display Not available ProLink III Device Tools > Configuration > Process Measurement > Piecewise Linearization for Gas (PWL) Web browser Configuration > Process Measurement > Piecewise Linearization for Gas 14.3 Zero the meter Display Menu >...
Page 165 Configuration and Use Manual Measurement support MMI-20029769 March 2019 Zero Time controls the amount of time the transmitter takes to determine its zero-flow reference point. The default Zero Time is 20 seconds. For most applications, the default Zero Time is appropriate.
Page 166: 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 167 Configuration and Use Manual Measurement support MMI-20029769 March 2019 2. Set Units to the pressure unit used by the external pressure device. 3. Enter Flow Factor for your sensor. The flow factor is the percent change in the flow rate per PSI. When entering the value, reverse the sign.
Page 168 Measurement support Configuration and Use Manual March 2019 MMI-20029769 3. Set Pressure Unit to the unit used by the external pressure device. 4. Enter the Density Factor and Flow Factor for your sensor. a) Set Process Fluid to Liquid Volume or Gas Standard Volume, as appropriate. b) Compare the values shown in Recommended Density Factor and Recommended Flow Factor to the values from the product data sheet.
Page 169 Configuration and Use Manual Measurement support MMI-20029769 March 2019 14.4.3 Set up pressure compensation using a web browser Procedure 1. Choose Configuration > Process Measurement > Pressure. 2. Set Pressure Compensation Status to Enabled. 3. Set Pressure Unit to the unit used by the external pressure device. 4.
Page 170: Validate The Meter
Measurement support Configuration and Use Manual March 2019 MMI-20029769 • For digital communications: — Verify that the host has access to the required data. 14.5 Validate the meter Display Menu > Configuration > Process Measurement > Flow Variables > Mass Flow Settings > Meter Factor Menu >...
Page 171 Configuration and Use Manual Measurement support MMI-20029769 March 2019 a) Use the flowmeter to take a sample measurement. b) Measure the same sample using the reference device. NewMeterFactor = ConfiguredMeterFactor × ReferenceMeasurement c) Calculate the meter factor using the following formula: FlowmeterMeasurement 2.
Page 172: Perform A (Standard) D1 And D2 Density Calibration
Measurement support Configuration and Use Manual March 2019 MMI-20029769 3. Ensure that the calculated meter factor does not fall outside 0.98 and 1.02. If the meter factor is outside these limits, contact customer service. 4. Configure the meter factor for volume flow in the transmitter. 14.6 Perform a (standard) D1 and D2 density calibration Density calibration establishes the relationship between the density of the calibration fluids and the signal produced at the sensor.
Page 173 Configuration and Use Manual Measurement support MMI-20029769 March 2019 6. Fill the sensor with the D2 fluid and allow the sensor to achieve thermal equilibrium. 7. Perform the D2 calibration. a) Choose D2 (Water). b) Enter the density of your D2 fluid. c) Choose Start Calibration.
Page 174: Adjust Concentration Measurement With Trim Offset
Measurement support Configuration and Use Manual March 2019 MMI-20029769 14.6.3 Perform a D1 and D2 density calibration using a web browser Procedure 1. Read the Prerequisites in Perform a (standard) D1 and D2 density calibration if you have not already done so.
Page 175: Adjust Concentration Measurement With Trim Slope And Trim Offset
Configuration and Use Manual Measurement support MMI-20029769 March 2019 • If the two values are not acceptably close, repeat this procedure. Calculating the trim offset Laboratory value 64.21 °Brix Meter value 64.93 °Brix 64.21 − 64.93 = −0.72 Concentration offset: −0.72 14.8 Adjust concentration measurement with Trim Slope and Trim Offset Trim Slope and Trim Offset adjust the meter's concentration measurement to match a reference value.
Page 176 Measurement support Configuration and Use Manual March 2019 MMI-20029769 4. Solve for A (slope). 5. Solve for B (offset), using the calculated slope and one set of values. 6. Enter the results as the trim slope and the trim offset. Using ProLink III: Choose Device Tools >...
Page 177: Chapter 15 Maintenance
Configuration and Use Manual Maintenance MMI-20029769 March 2019 15 Maintenance 15.1 Install a new transmitter license Display Menu > Service Tools > License Manager ProLink III Device Tools > Configuration > Feature License Web browser Service Tools > License Manager Whenever you purchase additional features or request a trial license, you must install a new transmitter license.
Page 178: Upgrade The Transmitter Firmware
Maintenance Configuration and Use Manual March 2019 MMI-20029769 • To install a license using a web browser: a) Open the license file. b) Choose Service Tools > License Manager. c) Copy the license from the file to the approprate License Key field. The features supported by the new license are displayed.
Page 179: 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 180: Battery Replacement
Maintenance Configuration and Use Manual March 2019 MMI-20029769 Postrequisites Check the transmitter clock. During the reboot, the transmitter clock is powered by the battery, therefore the transmitter clock and all timestamps should be accurate. If the transmitter clock is not correct, the battery may need replacement.
Page 181: Log Files, History Files, And Service Files
Configuration and Use Manual Log files, history files, and service files MMI-20029769 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 182 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20029769 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 183 Configuration and Use Manual Log files, history files, and service files MMI-20029769 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 184 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20029769 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 185 Configuration and Use Manual Log files, history files, and service files MMI-20029769 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 186 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20029769 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 187: Generate Service Files
Configuration and Use Manual Log files, history files, and service files MMI-20029769 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 188 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20029769 Service file Description File name Alert History All occurrences of alerts and conditions, independent AlertLog.txt of alert severity. Historian: 30 Days Values of selected process and diagnostic variables for Concatenated from the last 30 days, recorded at 1-second intervals.
Page 189 Configuration and Use Manual Log files, history files, and service files MMI-20029769 March 2019 — 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 190 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20029769 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 191 Configuration and Use Manual Log files, history files, and service files MMI-20029769 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 192 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20029769 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 193 Configuration and Use Manual Log files, history files, and service files MMI-20029769 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 194 Log files, history files, and service files Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 195: Chapter 17 Troubleshooting
Configuration and Use Manual Troubleshooting MMI-20029769 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 196: Batch Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 17.3.2 Inaccurate referred density reading Cause • Inaccurate density measurement • Inaccurate temperature measurement • Incorrect reference conditions • Incorrect API table selection Recommended actions 1. Verify the line density value. 2. Verify the line temperature value. 3.
Page 197 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Recommended actions 1. Verify the wiring between the Discrete Output and the valve. The ON signal must open the valve. Perform a loop test. 2. Change the setting of Discrete Output Polarity. 17.4.3 Valve does not operate Cause •...
Page 198: Concentration Measurement Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 3. Ensure that line pressure is stable. 4. Ensure that bowl level is approximately constant. 5. Ensure that the pump is not causing unstable flow. 17.5 Concentration measurement problems 17.5.1 Significantly incorrect CM after loading matrix Cause The wrong temperature or density unit was configured when the matrix was loaded.
Page 199 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 • Line pressure too low • The flow rate is too high for the installation • Pipe diameter too small • Contaminants or suspended solids in the process gas • Contaminants or suspended solids in the process fluid •...
Page 200 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 5. Check for two-phase flow. 6. If two sensors with similar frequency are too near each other, separate them. 7. Purge the sensor tubes. 8. Perform Smart Meter Verification. 17.6.3 Unusually high density reading Cause •...
Page 201: Discrete Input Problems
Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 17.7 Discrete Input problems 17.7.1 No Discrete Input Cause • Wiring problem • Problem with external device • Channel not configured for desired output or input Recommended actions 1. Verify that the external device is operating correctly. 2.
Page 202: Flow Measurement Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 3. Verify that the channel is wired and configured as a Discrete Output. 4. Contact customer service. 17.8.2 Loop test failed Cause • Output not powered • Power supply problem • Wiring problem •...
Page 203 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Recommended actions 1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter. 2. If the reading is not excessively high, review the live zero. You may need to restore the factory zero. 3.
Page 204 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 17.9.4 Erratic non-zero flow rate when flow is steady Cause • Two-phase flow • Damping value too low • Plugged or coated sensor tube • Wiring problem • Problem with receiving device Recommended actions 1.
Page 205: Frequency Output Problems
Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Recommended actions 1. Check the wiring between the sensor and the transmitter. 2. Verify that the measurement units are configured correctly for your application. 3. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter.
Page 206: Milliamp Output Problems
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 6. Check the direction parameters. 7. Verify the receiving device, and the wiring between the transmitter and the receiving device. 8. Verify that the channel is wired and configured as a Frequency Output. 9.
Page 207 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 • Circuit failure Recommended actions 1. If applicable, check the output wiring to verify that the output is powered. 2. Check the power supply and power supply wiring. 3. Verify the output wiring. 4.
Page 208 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 2. Verify the receiving device, and the wiring between the transmitter and the receiving device. 3. Check the settings of Upper Range Value and Lower Range Value. 4. Check the Fault Action settings. 5.
Page 209: Status Alerts, Causes, And Recommendations
Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 • Incorrect measurement unit configured for process variable • Incorrect process variable configured • LRV and URV are not set correctly • mA Output Direction not set correctly Recommended actions 1. Check the mA Output trim. 2.
Page 210 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 Cause There is an internal memory problem with the core processor. This alert will not clear until you reboot or power cycle the transmitter. Recommended actions 1. Ensure that all wiring compartment covers are installed correctly. 2.
Page 211 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Cause The measured flow is outside the sensor's flow limits. 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 212 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 c) Check the wiring between the sensor and the transmitter. 17.12.6 [010] Calibration Failed Alert Function Check Failed or Smart Meter Verification Aborted Cause The calibration failed. Recommended actions 1. Ensure that your calibration procedure meets the documented requirements. 2.
Page 213 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Cause The values computed for the resistance of the meter and case RTDs are outside limits. Recommended actions 1. Check the wiring between the sensor and the transmitter. a) Refer to the installation manual and ensure that the wiring has been performed according to instructions.
Page 214 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 17.12.10 [019] RAM Error (Transmitter) Alert Electronics Failed Cause There is a ROM checksum mismatch in the transmitter or the RAM address location cannot be written in the transmitter. This alert will not clear until you reboot or power cycle the transmitter. Recommended actions 1.
Page 215 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 17.12.12 [021] Incorrect Sensor Type Alert Configuration Error Cause Transmitter verification of sensor circuits and characterization has produced a discrepancy. The transmitter cannot operate the sensor. Recommended actions 1. Verify the setting of the Sensor Type parameter. 2.
Page 216 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 Cause There is a checksum mismatch in the core processor's program section. This alert applies to the standard core processor only. Recommended actions 1. Ensure that all wiring compartment covers are installed correctly. 2.
Page 217 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Cause The transmitter is not secured. Recommended actions Secure the transmitter. 17.12.17 [028] Core Process Write Failure Alert Sensor-Transmitter Communication Error Cause A write to the core processor failed. Recommended actions 1. Reboot or power-cycle the transmitter to see if the alert clears. 2.
Page 218 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 2. Measure the voltage at the core processor terminals and ensure that it is receiving a minimum of 11.5 volts at all times. If it is not, verify the power wiring to the transmitter. 3.
Page 219 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 2. Check the SMV abort code and take appropriate steps. 3. Contact customer service. 17.12.23 [102] Drive Overrange Alert Drive Over-Range Cause The drive power (current/ voltage) is at its maximum. Recommended actions 1.
Page 220 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 Cause A calibration is running. Recommended actions Allow the test to complete. 17.12.26 [105] Two-Phase Flow Alert Process Aberration Cause The line density is outside the user-defined two-phase flow limits. Recommended actions 1.
Page 221 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 17.12.29 [116] Temperature Overrange (API referral) Alert Process Aberration Cause The line temperature is outside the range of the API table. Recommended actions 1. Ensure that process temperature is within the range of the API table. 2.
Page 222 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 2. Contact customer service. 17.12.33 [121] Extrapolation Alert (Concentration) Alert Process Aberration Cause The line density or line temperature is outside the range of the concentration matrix plus the configured extrapolation limit. Recommended actions 1.
Page 223 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Recommended actions Disable sensor simulation. 17.12.37 [138] TBR Active Alert Process Aberration Cause Drive gain is above the configured threshold and transient bubble remediation is active. Recommended actions Check for air entrainment, tube fouling, flashing, or tube damage. 17.12.38 Bad IP network settings Alert Configuration Error...
Page 224 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 17.12.40 Batch Time Out Alert Process Aberration Cause The batch exceeded Maximum Batch Time, and ended before the target was reached. Recommended actions Verify the configuration of the batcher application and related parameters. 17.12.41 Clock Failure Alert Data Loss Possible...
Page 225 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Recommended actions 1. If this is an accurate indication of process conditions, no action is required. The alert will clear when the process returns to normal. 2. Review event configuration if you believe the event was triggered erroneously. 17.12.44 Event X Active Alert Event Active...
Page 226 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 17.12.47 Moderate Two Phase Flow Alert Process Aberration Cause The transmitter has detected moderate two-phase flow. Recommended actions Check your process conditions against the values reported by the device. 17.12.48 No Permanent License Alert Data Loss Possible Cause...
Page 227 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 17.12.50 Password Not Set Alert Configuration Error Cause Display security has been enabled but the display password has not been changed from the default value. Recommended actions Configure a password or disable display security. 17.12.51 SD Card Failure Alert Data Loss Possible...
Page 228: Perform A Core Processor Resistance Test
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 17.12.54 Time Not Entered Alert Configuration Error Cause The system time has not been entered. The system time is required for diagnostic logs. Recommended actions Set the system time. 17.12.55 Transmitter Software Update Failed Cause The transmitter software update failed.
Page 229 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Procedure 1. Power down the transmitter. 2. Remove the cover of the junction box on the transmitter to access the core processor terminals. Figure 17-1: Removing the cover of the junction box 3.
Page 230: Check The Cutoffs
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 Terminal pair Terminal pair (core Function Expected resistance (transmitter) processor) White – green 3–4 RS-485/A and RS-485/B 29 kΩ to 33 kΩ Black – white 2–3 VDC– and RS-485/A 29 kΩ to 33 kΩ Black –...
Page 231: Check For Internal Electrical Problems
Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Excessive (saturated) drive gain Table 17-3: Possible causes and recommended actions for excessive (saturated) drive gain Possible cause Recommended actions Bent sensor tube Check the pickoff voltages (see Check the pickoff voltage). If either of them are close to zero (but neither is zero), the sensor tubes may be bent.
Page 232: Check Frequency Output Fault Action
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 Possible cause Recommended action Faulty cable Replace the cable. Improper wire termination Verify wire terminations inside the sensor junction box. See Micro Motion 9-Wire Flowmeter Cable Preparation and Installation Guide. 17.18 Check Frequency Output Fault Action The Frequency Output Fault Action controls the behavior of the Frequency Output if the transmitter encounters an internal fault condition.
Page 233: Perform Loop Tests
Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 17.21 Perform loop tests A loop test is a way to verify that the transmitter and the remote device are communicating properly. A loop test also helps you know whether you need to trim mA Outputs. Prerequisites •...
Page 234 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 Follow appropriate procedures to ensure that loop testing will not interfere with existing measurement and control loops. Procedure 1. Choose Menu > Service Tools > Output Simulation and select the Frequency Output. 2.
Page 235 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Procedure 1. Set the remote input device to ON. 2. Choose Menu > Service Tools > Service Data > View I/O Levels and read the state of the Discrete Input. 3. Set the remote input device to OFF. 4.
Page 236 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 17.21.6 Perform a Frequency Output loop test using ProLink III Prerequisites Before performing a Frequency Output loop test, configure Channel C as a Frequency Output. Follow appropriate procedures to ensure that loop testing will not interfere with existing measurement and control loops.
Page 237 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 2. Choose Device Tools > Diagnostics > Testing > Discrete Input Test. 3. Verify the signal at the transmitter. 4. Set the remote input device to OFF. 5. Verify the signal at the transmitter. Postrequisites •...
Page 238 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 Procedure 1. Choose Service Tools > Simulation > Frequency Output Test. 2. Enter the Frequency Output value in Fix to. 3. Select Fix FO. 4. Read the frequency signal at the receiving device and compare it to the transmitter output. 5.
Page 239: Check Lower Range Value And Upper Range Value
Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 17.22 Check Lower Range Value and Upper Range Value Procedure 1. Record your current process conditions. 2. Check the configuration of the LRV and URV. 17.23 Check mA Output Fault Action The mA Output Fault Action controls the behavior of the mA Output if the transmitter encounters an internal fault condition.
Page 240: Check The Pickoff Voltage
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 17.24.2 Trim mA Output using ProLink III 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 241: Check Power Supply Wiring
Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 Table 17-5: Possible causes and recommended actions for low pickoff voltage (continued) Possible cause Recommended actions Sensor tubes are not vibrating • Check for plugging or deposition. • Ensure that the vibrating element is free to vibrate (no mechanical binding).
Page 242: Check For Radio Frequency Interference (Rfi)
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 7. Test the voltage at the terminals. If there is no power, contact customer service. 17.27 Check for radio frequency interference (RFI) The transmitter's Frequency Output or Discrete Output can be affected by radio frequency interference (RFI). Possible sources of RFI include a source of radio emissions, or a large transformer, pump, or motor that can generate a strong electromagnetic field.
Page 243: Using Sensor Simulation For Troubleshooting
Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 17.29 Using sensor simulation for troubleshooting When sensor simulation is enabled, the transmitter reports user-specified values for basic process variables. This allows you to reproduce various process conditions or to test the system. You can use sensor simulation to help distinguish between legitimate process noise and externally caused variation.
Page 244: Check The Sensor Coils
Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 You can reduce the occurrence of two-phase flow alerts by setting Two-Phase Flow Low Limit to a lower value, Two-Phase Flow High Limit to a higher value, or Two-Phase Flow Timeout to a higher value.
Page 245 Configuration and Use Manual Troubleshooting MMI-20029769 March 2019 c) Testing one terminal at a time, place a DMM lead on the terminal and the other lead on the sensor case. With the DMM set to its highest range, there should be infinite resistance on each lead. If there is any resistance at all, there is a short to case.
Page 246 Troubleshooting Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 247: Appendix A Using The Transmitter Display
Configuration and Use Manual Using the transmitter display MMI-20029769 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 two status LEDs, a multi-line LCD panel, two security switches, and four optical switches.
Page 248 Using the transmitter display Configuration and Use Manual March 2019 MMI-20029769 Table A-1: Status LED and device status (continued) Status LED condition Device status One or more alerts are active with Alert Severity = Out of Specification, Solid yellow Maintenance Required, or Function Check. One or more alerts are active with Alert Severity = Failure.
Page 249: Access And Use The Display Menus
Configuration and Use Manual Using the transmitter display MMI-20029769 March 2019 A.2 Access and use the display menus The display menus allow you to perform most configuration, administration, and maintenance tasks. The four optical switches, ⇦⇧⇩⇨, are used to navigate the menus, make selections, and enter data. To activate an optical switch, hold your thumb or finger over it to block the light.
Page 250 Using the transmitter display Configuration and Use Manual March 2019 MMI-20029769 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 251 Configuration and Use Manual Using the transmitter display MMI-20029769 March 2019 Activate ⇧ and ⇩ to scroll through the values that are valid for that position. • • Repeat until all characters are set. Activate and hold ⇨ to save the value. •...
Page 252 Using the transmitter display Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 253: Appendix B Using Prolink Iii With The Transmitter
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 254: Connect With Prolink Iii
Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20029769 Important The user is responsible for responding to messages and notes and complying with all safety messages. B.2 Connect with ProLink III A connection from ProLink III to your transmitter allows you to read process data, configure the transmitter, and perform maintenance and troubleshooting tasks.
Page 255 Configuration and Use Manual Using ProLink III with the transmitter MMI-20029769 March 2019 Table B-1: Transmitter and PC network settings Connection type Transmitter network settings PC network adapter IPv4 settings Direct connection: Ethernet cable • Auto Obtain IP (DHCP): Disabled •...
Page 256 Using ProLink III with the transmitter Configuration and Use Manual March 2019 MMI-20029769 Procedure 1. Start ProLink III. 2. Choose Connect to Physical Device. 3. Select a Protocol and related settings: • For Ethernet connection: — Select Modbus TCP Type in the IP Address of the transmitter —...
Page 257: Appendix C Using A Web Browser To Configure The Transmitter
Configuration and Use Manual Using a Web browser to configure the transmitter MMI-20029769 March 2019 C Using a Web browser to configure the transmitter C.1 Recommended web browsers Browser Version Microsoft Internet Explorer 8 or newer Mozilla Firefox 3.0 or newer Google Chrome 4.1 or newer C.2 Configuring transmitter and PC Ethernet settings...
Page 258: Log In With A Web Browser Using A Secure Connection
Using a Web browser to configure the transmitter Configuration and Use Manual March 2019 MMI-20029769 Table C-1: Transmitter and PC network settings Connection type Transmitter network settings PC network adapter IPv4 settings Direct connection: Ethernet cable • Auto Obtain IP (DHCP): Disabled •...
Page 259 Configuration and Use Manual Using a Web browser to configure the transmitter MMI-20029769 March 2019 Prerequisites To log in to the transmitter with a web browser: • The PC and transmitter must have been properly configured for their connection type. •...
Page 260: Log In With A Web Browser Using An Unsecure Connection
Using a Web browser to configure the transmitter Configuration and Use Manual March 2019 MMI-20029769 Figure C-1: Transmitter home page C.4 Log in with a web browser using an unsecure connection Prerequisites To log in to the transmitter with a web browser: •...
Page 261 Configuration and Use Manual Using a Web browser to configure the transmitter MMI-20029769 March 2019 Table C-3: Login credentials Username Default password Description Admin admin Complete access: • Can perform operator functions, such as meter verification, zero verification, starting/stopping batches, starting/stopping totals, and resetting totals •...
Page 262: Change Ethernet Login Passwords
Using a Web browser to configure the transmitter Configuration and Use Manual March 2019 MMI-20029769 Figure C-2: Transmitter home page C.5 Change Ethernet login passwords ProLink III Configuration > Communications > Webserver Settings Web browser Configuration > Security The Ethernet login passwords prevent unauthorized access to the transmitter. Immediately change the Admin and Operator passwords from the default password, and keep them confidential.
Page 263: Import The Ssl Certificate Into Microsoft ® Windows
Configuration and Use Manual Using a Web browser to configure the transmitter MMI-20029769 March 2019 • At least one special character (! " # $ % ' ( ) * + , - · & / : ; = > < ? ®...
Page 264: Import From A Certificate Authority
Using a Web browser to configure the transmitter Configuration and Use Manual March 2019 MMI-20029769 C.8 Import from a Certificate Authority You have the option to import a certificate and a private key pair obtained from a Certificate Authority (CA). The transmitter accepts certificates and keys that match the following requirements: •...
Page 265: Appendix D Concentration Measurement Matrices, Derived Variables, And Process Variables
Configuration and Use Manual Concentration measurement matrices, derived variables, and process variables MMI-20029769 March 2019 D Concentration measurement matrices, derived variables, and process variables D.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 266: Derived Variables And Calculated Process Variables
Concentration measurement matrices, derived variables, and process variables Configuration and Use Manual March 2019 MMI-20029769 D.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 267 Configuration and Use Manual Concentration measurement matrices, derived variables, and process variables MMI-20029769 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 268 Concentration measurement matrices, derived variables, and process variables Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 269: Appendix E Environmental Compliance
Configuration and Use Manual Environmental compliance MMI-20029769 March 2019 E Environmental compliance E.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 270 Environmental compliance Configuration and Use Manual March 2019 MMI-20029769 Micro Motion Model 5700 with Ethernet Transmitters...
Page 271: Appendix F Example Tickets
Configuration and Use Manual Example tickets MMI-20029769 March 2019 F Example tickets This appendix provides examples of different types of tickets. F.1 Print examples Original tickets Figure F-1: Sample test page Figure F-2: Batch ticket with Weights and Measures not licensed Configuration and Use Manual...
Page 272 Example tickets Configuration and Use Manual March 2019 MMI-20029769 F.1.1 Batch (NTEP) tickets Original tickets Figure F-3: Data secured Figure F-4: Data unsecured Micro Motion Model 5700 with Ethernet Transmitters...
Page 273: Appendix G Software History (Namur Recommendation Ne53)
Configuration and Use Manual Software history (NAMUR recommendation NE53) MMI-20029769 March 2019 G Software history (NAMUR recommendation NE53) This appendix documents the change history of transmitter software for the Model 5700 Ethernet transmitters. Document numbers refer to the English versions. Other languages have different part numbers but matching revision letters.
Page 274 Software history (NAMUR recommendation NE53) Configuration and Use Manual March 2019 MMI-20029769 • Corrected the local display cutoff digits in the IP, subnet, and gateway addressed in the Menu > Configuration > Ethernet settings menu. • Corrected the strings in the ASCII logs so they display meaningful results across all languages. •...
Page 275 ProLink III v4.0 contains support for the applicable additional features noted below. If you have ProLink III v3.0 installed, go to the ProLink Product page by accessing www.emersonprocess.com/micromotion/ softwaredownloads. From the Emerson main web page, select Documents & Drawings > Software Downloads & Drivers to access an update. •...
Page 276 Software history (NAMUR recommendation NE53) Configuration and Use Manual March 2019 MMI-20029769 March 2019, version 2.0 Document 20029769 Rev. AC Feature additions: • Secure Web Server (SSL/TSL) is available. • Manual Mode for APM is available with purchase of license. •...
Page 277 Configuration and Use Manual Software history (NAMUR recommendation NE53) MMI-20029769 March 2019 • Added configuration parameters to allow a user to add password security for resetting totals or starting/ stopping totals via the context menus. • Allow batching without having a Discrete Output assigned to a valve. •...
Page 278 © 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 Set the Ethernet Protocol

Chapter 10 Configure, Setup, 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

Appendix A Using the Transmitter Display

Appendix B Using Prolink III with the Transmitter

Appendix C Using a Web Browser to Configure the Transmitter

Appendix D Concentration Measurement Matrices, Derived Variables, and Process Variables

Appendix E Environmental Compliance

Appendix F Example Tickets

Appendix G Software History (NAMUR Recommendation NE53)

Quick Links

Troubleshooting

Related Manuals for Emerson Micro Motion 5700

Summary of Contents for Emerson Micro Motion 5700

Table of Contents