Page 1 Configuration and Use Manual MMI-20029769, Rev AB January 2018 ® 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
Contents Contents Part I Getting started Chapter 1 Before you begin ......................3 About this manual ......................... 3 Communication methods ......................3 Additional documentation and resources ..................4 Chapter 2 Quick start ........................5 Power up the transmitter .......................5 Check meter status ........................6 Commissioning wizards .........................6 Make a startup connection to the transmitter ................6 Set the transmitter clock .......................
Page 4 Contents 4.3.1 Configure Volume Flow Type for liquid applications ............36 4.3.2 Configure Volume Flow Measurement Unit for liquid applications ........ 37 4.3.3 Configure Volume Flow Cutoff ..................40 Configure Gas Standard Volume (GSV) flow measurement ............41 4.4.1 Configure Volume Flow Type for gas applications ............42 4.4.2 Configure Standard Gas Density ...................42 4.4.3...
Page 5 Contents 7.1.4 Turn on and turn off automatic scrolling through the display variables ....... 102 7.1.5 Configure the display backlight ...................103 7.1.6 Configure totalizer and inventory control from the display ......... 103 7.1.7 Configure security for the display ................104 Configure the transmitter's response to alerts ................105 7.2.1 Configure the transmitter's response to alerts using the display ........105 7.2.2...
Page 6 Contents 10.2.2 View and acknowledge alerts using ProLink III ............150 10.2.3 View alerts using a web browser ................. 150 10.3 Read totalizer and inventory values ................... 151 10.4 Start, stop, and reset totalizers and inventories ................. 151 10.4.1 Start, stop, and reset totalizers using the display ............151 10.4.2 Start, stop, and reset totalizers using ProLink III ............152 10.4.3...
Page 7 Contents Chapter 15 Troubleshooting ......................203 15.1 Status LED and device status ..................... 204 15.2 Network status LED ........................204 15.3 Status alerts, causes, and recommendations ................205 15.4 Flow measurement problems ....................218 15.5 Density measurement problems ....................220 15.6 Temperature measurement problems ..................221 15.7...
Page 8 Contents Appendix A Using the transmitter display ..................249 Components of the transmitter display ..................249 Access and use the display menus ..................... 251 Appendix B Using ProLink III with the transmitter ................255 Basic information about ProLink III .................... 255 Connect with ProLink III ......................256 B.2.1 ProLink III Connection types ..................256 B.2.2...
Page 9: Part I Getting Started
Getting started Part I Getting started Chapters covered in this part: • Before you begin • Quick start Configuration and Use Manual...
Page 10 Getting started Micro Motion Model 5700 with Ethernet Transmitters...
Page 11: Before You Begin
Before you begin Before you begin Topics covered in this chapter: • About this manual • Communication methods • Additional documentation and resources About this manual This manual helps you configure, commission, use, maintain, and troubleshoot Micro Motion Model 5700 transmitters with Ethernet. Important This manual assumes that the following conditions apply: •...
Page 12: Additional Documentation And Resources
Micro Motion Ethernet PROFINET Siemens Integration Guide Hazardous area installa- See the approval documentation shipped with the transmitter, or down- tion load the appropriate documentation at www.emerson.com. All documentation resources are available at www.emerson.com or on the user documentation DVD.
Page 13: Chapter 2 Quick Start
Quick start Quick start Topics covered in this chapter: • Power up the transmitter • Check meter status • Commissioning wizards • Make a startup connection to the transmitter • Set the transmitter clock • View the licensed features • Set informational parameters •...
Page 14: Check Meter Status
Quick start Check meter status Check the meter for any error conditions that require user action or that affect measurement accuracy. Wait approximately 10 seconds for the power-up sequence to complete. Immediately after power-up, the transmitter runs through diagnostic routines and checks for error conditions.
Page 15: Set The Transmitter Clock
Quick start Identify the connection type to use, and follow the instructions for that connection type in the appropriate appendix. Communications tool Connection type to use Instructions ProLink III Service port Appendix B Web browser Ethernet Appendix C Set the transmitter clock Display Menu >...
Page 16: View The Licensed Features
Quick start View the licensed features Display Menu > About > Licenses > Licensed Features ProLink III Device Tools > Device Information > Licensed Features Web browser Configuration > Device Information > Licensed Features Overview The transmitter license controls the features (applications) that are enabled on the transmitter.
Page 17: Characterize The Meter (If Required)
Quick start The base model code completely describes your transmitter, except for the features that can be licensed independently. The base model code is set at the factory. e. Set Model Code (Options) to the options model code of the transmitter. The options model code describes the independent features that have been licensed for this transmitter.
Page 18 Quick start • Straight Tube (T-Series sensors) • Curved Tube (all sensors except T-Series) Note Unlike earlier transmitters, the Model 5700 transmitter derives Sensor Type from the user- specified values for FCF and K1 in combination with an internal ID. Set the flow calibration factor: FCF (also called Flow Cal or Flow Calibration Factor).
Page 19: Sample Sensor Tags
Quick start 2.8.1 Sample sensor tags Figure 2-1: Tag on older curved-tube sensors (all sensors except T-Series) Figure 2-2: Tag on newer curved-tube sensors (all sensors except T-Series) 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.
Page 20: Density Calibration Parameters (D1, D2, K1, K2, Fd, Dt, Tc)
Quick start If your sensor tag shows the FCF and the FT values separately and you need to enter a single value, concatenate the two values to form the single parameter value, retaining both decimal points. Example: Concatenating FCF and FT FCF = x.xxxx FT = y.yy Flow calibration parameter: x.xxxxy.yy 2.8.3 Density calibration parameters (D1, D2, K1, K2, FD, DT,...
Page 21: Verify Mass Flow Measurement
Quick start 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. Verify mass flow measurement Check to see that the mass flow rate reported by the transmitter is accurate.
Page 22 Quick start Prerequisites Important Do not verify the zero or zero the meter if a high-severity alert is active. Correct the problem, then verify the zero or zero the meter. You may verify the zero or zero the meter if a low-severity alert is active.
Page 23: Part Ii Configuration And Commissioning
Configuration and commissioning Part II Configuration and commissioning Chapters covered in this part: • Introduction to configuration and commissioning • Configure process measurement • Configure process measurement applications • Configure advanced options for process measurement Configure device options and preferences •...
Page 24 Configuration and commissioning Micro Motion Model 5700 with Ethernet Transmitters...
Page 25: Introduction To Configuration And Commissioning
Introduction to configuration and commissioning Introduction to configuration and commissioning Topics covered in this chapter: • Security and write protection • Work with configuration files Security and write protection The transmitter has several features that can help to protect it against intentional or unintentional access and configuration changes.
Page 26 Introduction to configuration and commissioning Figure 3-1: Lock switch on transmitter display (unlocked) You can determine whether you need to lock or unlock the transmitter by looking at the switch. • If the switch is in the right position, the transmitter is locked. •...
Page 27: Enable Or Disable The Service Port
Introduction to configuration and commissioning Figure 3-2: Removing the transmitter housing cover Using a fine-pointed tool, move the switch to the desired position. Replace the transmitter housing cover. If necessary, power up the transmitter. 3.1.2 Enable or disable the service port Display Menu >...
Page 28: Enable Or Disable Software Write-Protection
Introduction to configuration and commissioning 3.1.3 Enable or disable software write-protection Display Not available ProLink III Device Tools > Configuration > Write-Protection Web browser Configuration > Security > Write Protection Overview When enabled, the software setting Write-Protection prevents changes to the transmitter configuration.
Page 29: Work With Configuration Files
Introduction to configuration and commissioning If you enabled configuration security, enable or disable alert security as desired. Option Description If an alert is active, the alert symbol ⓘ is shown in the upper right corner of the Enabled display but the alert banner is not displayed. If the operator attempts to enter the alert menu, they are prompted to enter the display password.
Page 30 Introduction to configuration and commissioning Replication Contain all parameters except the device-specific parameters, e.g., files calibration factors or meter factors. They are used to replicate the transmitter configuration to other devices. The .xfer extension is used to identify replication files. You can use a saved configuration file to change the nature of the transmitter quickly.
Page 31: Save A Configuration File Using Prolink Iii
Introduction to configuration and commissioning CAUTION! If the transmitter is in a hazardous area, do not open the wiring compartment while the transmitter is powered up. Opening the wiring compartment while the transmitter is powered up could cause an explosion. Save or load configuration files using a method that does not require opening the wiring compartment.
Page 32: Load A Configuration File Using The Display
Introduction to configuration and commissioning 6. 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: 1. Choose Device Tools > Configuration Transfer > Save Configuration. 2.
Page 33: Load A Configuration File Using Prolink Iii
Introduction to configuration and commissioning 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 > Configuration > Security and set Service Port to On.
Page 34 Introduction to configuration and commissioning Replication Contain all parameters except the device-specific parameters, e.g., files calibration factors or meter factors. They are used to replicate the transmitter configuration to other devices. The .xfer extension is used to identify replication files. You can use a saved configuration file to change the nature of the transmitter quickly.
Page 35: Restore The Factory Configuration
Introduction to configuration and commissioning 4. Click Load. 5. Set the file type to Configuration file. 6. Navigate to the file you want to load, and select it. 7. Click Start Load. The parameters are written to working memory, and the new settings become effectively immediately.
Page 36 Introduction to configuration and commissioning e. Perform loop tests and take any recommended actions, including mA output trim. f. Use sensor simulation to verify transmitter response. At the replicated transmitter, make any other configuration changes. Follow your standard procedures to ensure that the replicated transmitter is performing as desired.
Page 37: Configure Process Measurement
Configure process measurement Configure process measurement Topics covered in this chapter: • Configure Sensor Flow Direction Arrow • Configure mass flow measurement • Configure volume flow measurement for liquid applications • Configure Gas Standard Volume (GSV) flow measurement • Configure density measurement •...
Page 38 Configure process measurement Figure 4-1: Flow arrow on sensor Flow arrow Actual flow direction Procedure Set Sensor Flow Direction Arrow as appropriate. Option Description With Arrow The majority of flow through the sensor matches the Flow arrow on the sensor. Ac- tual forward flow is processed as forward flow.
Page 39: Configure Mass Flow Measurement
Configure process measurement Configure mass flow measurement The mass flow measurement parameters control how mass flow is measured and reported. The mass total and mass inventory are derived from the mass flow data. • Configure Mass Flow Measurement Unit (Section 4.2.1) •...
Page 40 Configure process measurement Table 4-1: Options for Mass Flow Measurement Unit (continued) Label Unit description Display ProLink III Web browser Kilograms per hour kg/h kg/hr kg/hr kg/d kg/day kg/day Kilograms per day MetTon/min mTon/min mTon/min Metric tons per minute Metric tons per hour MetTon/h mTon/hr mTon/hr...
Page 41: Configure Flow Damping
Configure process measurement Enter Mass Flow Conversion Factor. The original mass flow rate value is divided by this value. Set Mass Flow Label to the name you want to use for the mass flow unit. Set Mass Total Label to the name you want to use for the mass total and mass inventory unit.
Page 42: Configure Mass Flow Cutoff
Configure process measurement • Default: 0.64 seconds • Range: 0 seconds to 60 seconds Note If a number greater than 60 is entered, it is automatically changed to 60. Tips • A high damping value makes the process variable appear smoother because the reported value changes slowly.
Page 43 Configure process measurement Overview 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 44: Configure Volume Flow Measurement For Liquid Applications
Configure process measurement • mA Output Process Variable: Mass Flow Rate • Frequency Output Process Variable: Mass Flow Rate • mA Output Cutoff: 15 g/sec • 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 45: Configure Volume Flow Measurement Unit For Liquid Applications
Configure process measurement Restriction If you are using the API referral application, you must set Volume Flow Type to Liquid. Gas standard volume measurement is incompatible with the API referral application. Restriction If you are using the concentration measurement application, you must set Volume Flow Type to Liquid.
Page 46 Configure process measurement Options for Volume Flow Measurement Unit for liquid applications The transmitter provides a standard set of measurement units for Volume Flow Measurement Unit, plus one user-defined measurement unit. Different communications tools may use different labels for the units. Table 4-2: Options for Volume Flow Measurement Unit for liquid applications Label...
Page 47 Configure process measurement Table 4-2: Options for Volume Flow Measurement Unit for liquid applications (continued) Label Unit description Display ProLink III Web browser Special unit SPECIAL Special Special (1) Unit based on oil barrels (42 U.S. gallons). (2) Unit based on U.S. beer barrels (31 U.S. gallons). Define a special measurement unit for volume flow Display Menu >...
Page 48: Configure Volume Flow Cutoff
Configure process measurement Calculate the conversion factor: a. 1 gal/sec = 8 pints/sec b. Volume Flow Conversion Factor = 1 ÷ 8 = 0.1250 Set Volume Flow Conversion Factor to 0.1250. Set Volume Flow Label to pints/sec. Set Volume Total Label to pints. 4.3.3 Configure Volume Flow Cutoff Display...
Page 49: Configure Gas Standard Volume (Gsv) Flow Measurement
Configure process measurement • 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. Example: Cutoff interaction with mAO Cutoff higher than Volume Flow Cutoff Configuration: •...
Page 50: Configure Volume Flow Type For Gas Applications
Configure process measurement 4.4.1 Configure Volume Flow Type for gas applications Display Menu > Configuration > Process Measurement > Flow Variables > Volume Flow Settings > Flow Type > Gas ProLink III Device Tools > Configuration > Process Measurement > Flow > Volume Flow Type > Gas Standard Volume Web browser Configuration >...
Page 51: Configure Gas Standard Volume Flow Measurement Unit
Configure process measurement Procedure Set Standard Gas Density to the density of your gas at reference temperature and reference pressure. You can use any reference temperature and reference pressure that you choose. It is not necessary to configure these values in the transmitter. ProLink III provides a guided method that you can use to calculate the standard density of your gas, if you do not know it.
Page 52 Configure process measurement Table 4-3: Options for Gas Standard Volume Measurement Unit Label Unit description Display ProLink III Web browser Normal cubic meters per second NCMS Nm3/sec Nm3/sec NCMM Nm3/min Nm3/min Normal cubic meters per minute NCMH Nm3/hr Nm3/hr Normal cubic meters per hour Normal cubic meters per day NCMD Nm3/day...
Page 53: Configure Gas Standard Volume Flow Cutoff
Configure process measurement Base Gas Standard Volume Unit is the existing gas standard volume unit that the special unit will be based on. Specify Base Time Unit. Base Time Unit is the existing time unit that the special unit will be based on. Calculate Gas Standard Volume Flow Conversion Factor as follows: a.
Page 54 Configure process measurement Overview 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 55: Configure Density Measurement
Configure process measurement Result: • If the gas standard volume flow rate drops below 15 SLPM but not below 10 SLPM: The primary mA output will report zero flow. The frequency output will report the actual flow rate, and the actual flow rate will be used in all internal processing.
Page 56: Configure Density Damping
Configure process measurement Table 4-4: Options for Density Measurement Unit Label Unit description Display ProLink III Web browser Specific gravity g/cm3 g/cm3 g/cm3 Grams per cubic centimeter Grams per liter Grams per milliliter g/mL g/ml g/ml kg/L kg/l kg/l Kilograms per liter kg/m3 kg/m3 kg/m3...
Page 57: Configure Density Cutoff
Configure process measurement • A low damping value makes the process variable appear more erratic because the reported value changes more quickly. • The combination of a high damping value and rapid, large changes in density can result in increased measurement error. •...
Page 58: Configure Temperature Measurement
Configure process measurement Effect of Density Cutoff on volume measurement Density Cutoff affects liquid volume measurement. If the density value goes below Density Cutoff, the volume flow rate is reported as 0. Density Cutoff does not affect gas standard volume measurement. Gas standard volume values are always calculated from the value configured for Standard Gas Density or polled value if configured for polled base density.
Page 59: Configure Temperature Damping
Configure process measurement Table 4-5: Options for Temperature Measurement Unit (continued) Label Unit description Display ProLink III Web browser Kelvin °K °K °K 4.6.2 Configure Temperature Damping Display Menu > Configuration > Process Measurement > Temperature > Damping ProLink III Device Tools >...
Page 60: Configure Pressure Measurement Unit
Configure process measurement Effect of Temperature Damping on process measurement Temperature Damping affects all processes and algorithms that use temperature data from the internal sensor RTD. Temperature compensation Temperature compensation adjusts process measurement to compensate for the effect of temperature on the sensor tubes. API referral Temperature Damping affects API referral process variables only if the transmitter is configured to use temperature data from the sensor.
Page 61: Options For Pressure Measurement Unit
Configure process measurement 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 62: Options For Velocity Measurement Unit
Configure process measurement Procedure Set Velocity Measurement Unit to the desired unit. • Default: m/sec 4.8.1 Options for Velocity Measurement Unit The transmitter provides a standard set of measurement units for Velocity Measurement Unit. Different communications tools may use different labels. Table 4-7: Options for Velocity Measurement Unit Label...
Page 63: Configure Process Measurement Applications
Configure process measurement applications Configure process measurement applications Topics covered in this chapter: • Set up the API referral application • Set up concentration measurement 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.
Page 64 Configure process measurement applications Choose Flow Variables > Volume Flow Settings and ensure that Flow Type is set to Liquid. Return to the Process Measurement menu. If the concentration measurement application is displayed in the list, choose Concentration Measurement and ensure that Enabled/Disabled is set to Disabled. The concentration measurement application and the API referral application cannot be enabled simultaneously.
Page 65: The Display
Configure process measurement applications If required, set Reference Temperature to the temperature to which density will be corrected in referred density calculations. The default reference temperature is determined by the selected API table. If required, set Reference Pressure to the pressure to which density will be corrected in referred density calculations.
Page 66: Set Up The Api Referral Application Using Prolink Iii
Configure process measurement applications Method Description Setup Digital communica- A host writes temperature data a. Choose Menu > Configuration > Process Measurement > tions to the meter at appropriate in- Temperature . tervals. This data will be availa- b. Set External Temperature to On. ble in addition to the internal c.
Page 67 Configure process measurement applications Procedure Choose Device Tools > Configuration > Process Measurement > Flow and ensure that Volume Flow Type is set to Liquid Volume. Choose Device Tools > Configuration > Transmitter Options. If the concentration measurement application is enabled, disable it and click Apply. The concentration measurement application and the API referral application cannot be enabled simultaneously.
Page 68 Configure process measurement applications c. Click Apply. These parameters uniquely identify the API table to be used to calculate referred density. The selected API table is displayed, and the meter automatically changes the density unit, temperature unit, pressure unit, and reference pressure to match the API table.
Page 69: Api Tables Supported By The Api Referral Application
Configure process measurement applications If you are using an external temperature device, it must use the temperature unit that is configured in the transmitter. Procedure Choose Device Tools > Configuration > Process Measurement > API Referral. Choose the method to be used to supply temperature data, and perform the required setup.
Page 70 Configure process measurement applications Table 5-1: API tables, process fluids, measurement units, and default reference values (continued) API tables (calcula- tions) Default ref- Referred Referred density erence Default ref- densi- CTL or (API): unit and tempera- erence (3) (4) Process fluid CTPL range ture...
Page 71: Process Variables From The Api Referral Application
Configure process measurement applications 5.1.4 Process variables from the API referral application The API referral application calculates several different process variables according to API standards. CTPL Correction factor based on line temperature and line pressure. CTPL is applied when the API referral application is configured for an A, B, C, or D table.
Page 72 Configure process measurement applications Requirements for concentration measurement To use the concentration measurement application, the following conditions must be met: • The concentration measurement application must be enabled. • The API Referral application must be disabled. • The advanced phase measurement application must be disabled. •...
Page 73 Configure process measurement applications Requirements for derived variables A derived variable is the process variable that a concentration matrix measures. All other process variables are calculated from the derived variable. There are eight possible derived variables. Each matrix is designed for one specific derived variable. The transmitter can store up to six matrices in six slots, and additional matrices on the transmitter's SD card.
Page 74: Set Up Concentration Measurement Using The Display
Configure process measurement applications 5.2.2 Set up concentration measurement using the display This section guides you through most of the tasks related to setting up and implementing the concentration measurement application. Restriction This section does not cover building a concentration matrix. See Micro Motion Enhanced Density Application: Theory, Configuration, and Use for detailed information on building a matrix.
Page 75 Configure process measurement applications b. Set Enabled/Disabled to Enabled. Load a concentration matrix from a USB drive using the display At least one concentration matrix must be loaded into one of the six slots on your transmitter. You can load up to six matrices into slots. You can also copy matrices to the transmitter's SD card, and load them into slots at a later time.
Page 76 Configure process measurement applications Procedure Choose Menu > Configuration > Process Measurement > Concentration Measurement > Configure Application 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 77 Configure process measurement applications Load a concentration matrix from the SD card using the display If you have a concentration matrix on the transmitter's SD card, you can load it into one of the six slots on your transmitter. You cannot use the matrix for measurement until it has been loaded into a slot.
Page 78 Configure process measurement applications Procedure Choose the method to be used to supply temperature data, and perform the required setup. Method Description Setup Internal tempera- Temperature data from the on- a. Choose Menu > Configuration > Process Measurement > ture board temperature sensor Temperature .
Page 79: Set Up Concentration Measurement Using Prolink Iii
Configure process measurement applications Modify extrapolation alerts for concentration measurement using the display You can enable and disable extrapolation alerts, and set extrapolation alert limits. These parameters control the behavior of the concentration measurement application but do not affect measurement directly. Each concentration matrix is built for a specific density range and a specific temperature range.
Page 80 Configure process measurement applications • Set reference temperature values for specific gravity using ProLink III • Set up temperature data for concentration measurement using ProLink III • Modify matrix names and labels using ProLink III • Modify extrapolation alerts for concentration measurement using ProLink III •...
Page 81 Configure process measurement applications The file must be in one of the formats that ProLink III supports. This includes: • .xml (ProLink III) • .matrix (Model 5700) If you are loading an .xml file, you must know the following information for your matrix: •...
Page 82 Configure process measurement applications 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. 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 83 Configure process measurement applications c. Set Water Density at Reference Temperature to the density of water at the specified reference temperature. 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.
Page 84 Configure process measurement applications Postrequisites If you are using external temperature data, verify the external temperature value displayed in the Inputs group on the ProLink III main window. Need help? If the value is not correct: • Ensure that the external device and the meter are using the same measurement unit. •...
Page 85: Set Up Concentration Measurement Using A Web Browser
Configure process measurement applications Procedure Choose Device Tools > Configuration > Process Measurement > Concentration Measurement. The Concentration Measurement window is displayed. It is organized into steps that allow you to perform several different setup and configuration tasks. For this task, you will not use all the steps.
Page 86 Configure process measurement applications Enable the concentration measurement application using a web browser The concentration measurement application must be enabled before you can perform any setup. If the concentration measurement application was enabled at the factory, you do not need to enable it now. Prerequisites The concentration measurement application must be licensed on your transmitter.
Page 87 Configure process measurement applications c. Set Water Density at Reference Temperature to the density of water at the specified reference temperature. 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.
Page 88 Configure process measurement applications • 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 89 Configure process measurement applications Set Extrapolation Alarm Limit to the point, in percent, at which an extrapolation alert will be posted. Enable or disable the high and low limit alerts for temperature and density, as desired, and click Apply. Example: 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 to 80 °F, a high-temperature extrapolation alert will be posted if line temperature goes above 82 °F.
Page 90 Configure process measurement applications Micro Motion Model 5700 with Ethernet Transmitters...
Page 91: Configure Advanced Options For Process Measurement
Configure advanced options for process measurement Configure advanced options for process measurement Topics covered in this chapter: • Configure Response Time • Detect and report two‐phase flow • Configure Flow Rate Switch • Configure events • Configure totalizers and inventories •...
Page 92: Detect And Report Two-Phase Flow
Configure advanced options for process measurement Option Description Service Do not select unless directed by Micro Motion personnel. Detect and report two-phase flow Two-phase flow (gas in a liquid process or liquid in a gas process) can cause a variety of process control issues.
Page 93: Detect Two-Phase Flow Using Sensor Diagnostics
Configure advanced options for process measurement To reduce the occurrence of two-phase flow alerts that are not significant to your process, set Two-Phase Flow High Limit slightly above your expected highest process density. You must enter Two-Phase Flow High Limit in g/cm³, even if you configured another unit for density measurement.
Page 94: Configure Flow Rate Switch
Configure advanced options for process measurement Configure Flow Rate Switch Display Menu > Configuration > Alert Setup > Enhanced Events > Flow Rate Switch ProLink III Device Tools > Configuration > I/O > Outputs > Discrete Output > Source > Flow Switch Indication Web browser Configuration >...
Page 95: Configure Events
Configure advanced options for process measurement Related information Configure the discrete output 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 96: Configure An Enhanced Event
Configure advanced options for process measurement Related information Configure Discrete Output Source 6.4.2 Configure an enhanced event Display Menu > Configuration > Alert Setup > Enhanced Events ProLink III Device Tools > Configuration > Events > Enhanced Events Web browser Configuration >...
Page 97 Configure advanced options for process measurement • For IN and OUT events, set Setpoint A and Setpoint B. (Optional) Configure a discrete output to switch states in response to the event status. (Optional) Specify the action or actions that the transmitter will perform when the event occurs.
Page 98: Configure Totalizers And Inventories
Configure advanced options for process measurement Table 6-1: Options for Discrete Input Action and Enhanced Event Action (continued) Label Action Display ProLink III Web browser Increment batch preset Increment Preset Increment Batch Preset Increment Preset (1) The ProLink III v4.0 field label is “Start Smart Meter Verification” for both Discrete Input Action and Enhanced Event Action. This field label does not match the table entry.
Page 99 Configure advanced options for process measurement Option Description Gas standard vol- The totalizer or inventory will track Gas Standard Volume Flow Rate and ume flow calculate total volume since the last reset. Temperature-cor- The totalizer or inventory will track Temperature-Corrected Volume rected volume Flow Rate and calculate total volume since the last reset.
Page 100 Configure advanced options for process measurement Table 6-2: Interaction between actual flow direction and Sensor Flow Direction Arrow Setting of Sensor Flow Di- Flow direction sent to out- Actual flow direction rection Arrow puts and totalizers Forward (same direction as With Arrow Forward Flow arrow on sensor)
Page 101: Default Settings For Totalizers And Inventories
Configure advanced options for process measurement Set up three totalizers, one for each tank. Name the totalizers Tank 1, Tank 2, and Tank 3. Configure each totalizer as required for the corresponding process fluid. Stop and reset all three totalizers to ensure that the beginning values are 0. When loading from a tank, start the corresponding totalizer, and stop it when the load is finished.
Page 102: Configure Process Variable Fault Action
Configure advanced options for process measurement Overview The transmitter can write the current value of four totalizers or inventories to a log, at user-specified intervals. You can generate a log file from this data for viewing and analysis. Procedure Specify the date on which totalizer logging will begin. You must specify a future date.
Page 103: Options For Process Variable Fault Action
Configure advanced options for process measurement • If you want the frequency output to continue reporting process data during fault conditions, you must set both Process Variable Fault Action and Frequency Output Fault Action to None. If Frequency Output Fault Action is set to None and Process Variable Fault Action is set to any other option, the frequency output will produce the signal associated with the selection.
Page 104: Interaction Between Process Variable Fault Action And Other Fault Actions
Configure advanced options for process measurement 6.7.2 Interaction between Process Variable Fault Action and other fault actions The setting of Process Variable Fault Action affects the operation of the mA outputs, frequency outputs, and discrete outputs if the corresponding output fault actions are set to None.
Page 105 Configure advanced options for process measurement • If it is set to None, and Discrete Output Source is set to Flow Rate Switch, the discrete output will use the value determined by the current setting of Process Variable Fault Action to determine if a flow rate switch has occurred. •...
Page 106 Configure advanced options for process measurement Micro Motion Model 5700 with Ethernet Transmitters...
Page 107: Configure Device Options And Preferences
Configure device options and preferences Configure device options and preferences Topics covered in this chapter: • Configure the transmitter display • Configure the transmitter's response to alerts 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 108: Configure The Process Variables Shown On The Display
Configure device options and preferences 7.1.2 Configure the process variables shown on the display Display Menu > Configuration > Display Settings > Display Variables ProLink III Device Tools > Configuration > Transmitter Display > Display Variables Web browser Configuration > Transmitter Display > Display Variables Overview You can control the process variables shown on the display and the order in which they appear.
Page 109: Configure The Number Of Decimal Places (Precision) Shown On The Display
Configure device options and preferences Table 7-1: Default configuration for display variables (continued) Display variable Process variable assignment Display Variable 10 None Display Variable 11 None Display Variable 12 None Display Variable 13 None Display Variable 14 None Display Variable 15 None Related information Configure a two‐line display screen...
Page 110: Turn On And Turn Off Automatic Scrolling Through The Display Variables
Configure device options and preferences 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. Procedure Select a process variable or a diagnostic variable. You can configure the precision for all variables, whether or not they are assigned as display variables.
Page 111: Configure The Display Backlight
Configure device options and preferences • Default: Off 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 112: Configure Security For The Display
Configure device options and preferences This parameter does not affect the operator's ability to start, stop, or reset totalizers or inventories using another tool. Procedure Enable or disable Reset Totalizers, as desired. Enable or disable Start/Stop Totalizers, as desired. 7.1.7 Configure security for the display Display Menu >...
Page 113: Configure The Transmitter's Response To Alerts
Configure device options and preferences • If you did not enable configuration security, alert security is disabled and cannot be enabled. • If both configuration security and alert security are enabled, and you disable configuration security, alert security is disabled automatically. Set the display password to the desired value.
Page 114: Configure The Transmitter's Response To Alerts Using Prolink Iii
Configure device options and preferences Option Description Failure The event is serious enough to require fault actions by the transmitter. The event may be either device-related or process-related. Operator ac- tion is strongly recommended. Function Check Configuration change or device testing. No fault actions are performed. The operator may need to complete a procedure.
Page 115 Configure device options and preferences Important The transmitter reports all the process and device conditions that were reported by previous transmitters. However, the transmitter does not report them as individual alerts. Instead, the transmitter reports them as conditions associated with alerts. Procedure •...
Page 116: Configure Fault Timeout
Configure device options and preferences 7.2.3 Configure Fault Timeout Display Menu > Configuration > Alert Setup > Output Fault Actions > Fault Timeout (sec) ProLink III Device Tools > Configuration > Fault Processing > Fault Timeout Web browser Configuration > Alert Setup > Output Fault Actions > Fault Timeout Overview Fault Timeout controls the delay before fault actions are performed.
Page 117: Alerts, Conditions, And Configuration Options
Configure device options and preferences 7.2.4 Alerts, conditions, and configuration options Table 7-2: Options for alerts and conditions Conditions Ignora- Alert Name Description Electronics Failed [002] RAM Error (Core Processor) There is an internal mem- • Default severi- ory problem with the core ty: Failure processor.
Page 118 Configure device options and preferences Table 7-2: Options for alerts and conditions (continued) Conditions Ignora- Alert Name Description [021] Incorrect Sensor Type Transmitter verification of sensor circuits and char- acterization has produced a discrepancy. The trans- mitter cannot operate the sensor.
Page 119 Configure device options and preferences Table 7-2: Options for alerts and conditions (continued) Conditions Ignora- Alert Name Description Core Low Power [031] Low Power The core processor is not • Default severi- receiving sufficient pow- ty: Failure er. (Enhanced core pro- •...
Page 120 Configure device options and preferences Table 7-2: Options for alerts and conditions (continued) Conditions Ignora- Alert Name Description Transmitter Initial- [009] Transmitter Initializing/Warming Up The transmitter is in pow- izing er-up mode. • Default severi- ty: Failure • Severity config- urable: No •...
Page 121 Configure device options and preferences Table 7-2: Options for alerts and conditions (continued) Conditions Ignora- Alert Name Description Drive Over-Range [102] Drive Overrange The drive power (current/ • Default severi- voltage) is at its maxi- ty: Mainte- mum. nance • Severity config- urable: Yes •...
Page 122 Configure device options and preferences Table 7-2: Options for alerts and conditions (continued) Conditions Ignora- Alert Name Description • Default severi- Enhanced Event 2 Active The conditions assigned ty: Out of Spec- to Enhanced Event 1 are ulation present. • Severity config- Enhanced Event 2 Active The conditions assigned...
Page 123 Configure device options and preferences Table 7-2: Options for alerts and conditions (continued) Conditions Ignora- Alert Name Description Data Loss Possible [103] Data Loss Possible The core processor was • Default severi- unable to store the total- ty: Mainte- izer and inventory values nance Required on the last power-down, •...
Page 124 Configure device options and preferences Micro Motion Model 5700 with Ethernet Transmitters...
Page 125: Integrate The Meter With The Control System
Integrate the meter with the control system Integrate the meter with the control system Topics covered in this chapter: • Channel configuration • Configure Ethernet Channel A and Channel B • Configure I/O Channel C • Configure the mA output •...
Page 126: Configure I/O Channel C
Integrate the meter with the control system Configure I/O Channel C Channel C is a configurable I/O channel. It can be used for one of the following: mA output, frequency output, discrete output, or discrete input. Prerequisites Important To avoid causing process errors: •...
Page 127: Configure Ma Output Source
Integrate the meter with the control system 8.4.1 Configure mA Output Source Display Menu > Configuration > Inputs/Outputs > Channel C > I/O Settings > Source ProLink III Device Tools > Configuration > I/O > Channels > Channel C > mA Output Web browser Configuration >...
Page 128 Integrate the meter with the control system Label Process variable Display ProLink III Web browser GSV Flow Rate Gas Standard Volume Flow Rate Gas Standard Volume Flow Gas standard volume flow rate Temperature Temperature Temperature Temperature Density Density Density Density External Pressure External Pressure External pressure...
Page 129: Configure Lower Range Value (Lrv) And Upper Range Value (Urv) For The Ma Output
Integrate the meter with the control system 8.4.2 Configure Lower Range Value (LRV) and Upper Range Value (URV) for the mA output Display Menu > Configuration > Inputs/Outputs > Channel C > I/O Settings > Lower Range Value Menu > Configuration > Inputs/Outputs > Channel C > I/O Settings > Upper Range Value ProLink III Device Tools >...
Page 130: Configure Ma Output Direction
Integrate the meter with the control system 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 131 Integrate the meter with the control system Important mA Output Direction interacts with Lower Range Value (LRV). The effect of mA Output Direction on the mA output varies, depending on whether LRV < 0 or LRV ≥ 0. Related information Configure Sensor Flow Direction Arrow Effect of mA Output Direction on mA outputs .
Page 132 Integrate the meter with the control system Figure 8-2: Effect of mA Output Direction on the mA output: Lower Range Value < 0 mA Output Direction = Normal mA Output Direction = Absolute Value Reverse flow Forward flow Reverse flow Forward flow Lower Range Value = −x •...
Page 133: Configure Ma Output Cutoff
Integrate the meter with the control system • 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 134: Configure Ma Output Damping
Integrate the meter with the control system Interaction between mA Output Cutoff and process variable cutoffs When mA Output Process Variable is set to a flow variable (for example, mass flow rate or volume flow rate), mA Output Cutoff interacts with Mass Flow Cutoff or Volume Flow Cutoff.
Page 135: Configure Ma Output Fault Action
Integrate the meter with the control system Interaction between mA Output Damping and process variable damping When mA Output Source is set to a flow rate variable, density, or temperature, mA Output Damping interacts with Flow Damping, Density Damping, or Temperature Damping. If multiple damping parameters are applicable, the effect of damping the process variable is calculated first, and the mA output damping calculation is applied to the result of that calculation.
Page 136: Configure The Frequency Output
Integrate the meter with the control system Important If you set mA Output Fault Action to None, the mA output will be controlled by the setting of Process Variable Fault Action. In most cases, if you set mA Output Fault Action to None, you should also set Process Variable Fault Action to None.
Page 137: Configure Frequency Output Source
Integrate the meter with the control system 8.5.1 Configure Frequency Output Source Display Menu > Configuration > Inputs/Outputs > Channel C > I/O Type > Frequency Output ProLink III Device Tools > Configuration > I/O > Channels > Channel C > Frequency Output Web browser Configuration >...
Page 138: Configure Frequency Output Scaling
Integrate the meter with the control system Label Process variable Display ProLink III Web browser GSV Flow Rate Gas Standard Volume Flow Rate GSV Flow Rate Gas standard volume flow rate API referral Temperature-corrected Referred Volume Flow Volume Flow Rate at Reference Referred Volume Flow Rate (standard) volume flow rate Temperature...
Page 139 Integrate the meter with the control system Calculate frequency from flow rate The Frequency=Flow option is used to customize the frequency output for your application when you do not know appropriate values for Units/Pulse or Pulses/Unit. If you specify Frequency=Flow, you must provide values for Rate Factor and Frequency Factor: Rate Factor The maximum flow rate that you want the frequency output to report.
Page 140: Configure Frequency Output Direction
Integrate the meter with the control system 8.5.3 Configure Frequency Output Direction Display Device Tools > Configuration > I/O > Outputs > Frequency Output > Direction ProLink III Device Tools > Configuration > I/O > Outputs > Frequency Output > Direction Web browser Configuration >...
Page 141: Configure Frequency Output Fault Action
Integrate the meter with the control system 8.5.4 Configure Frequency Output Fault Action Display Menu > Configuration > Inputs/Outputs > Channel C > I/O Settings > Fault Action ProLink III Device Tools > Configuration > I/O > Outputs > Frequency Output x > Fault Action Web browser Configuration >...
Page 142: Configure The Discrete Output
Integrate the meter with the control system Label Frequency output behavior Internal Zero 0 Hz None (default) Determined by the setting of Process Variable Fault Action Configure the discrete output The discrete output is used to report specific meter or process conditions. •...
Page 143 Integrate the meter with the control system Options for Discrete Output Source Table 8-3: Options for Discrete Output Source Label Option Display Prolink III Web browser State Discrete output voltage Enhanced Event 1– Basic Event x Enhanced Event x Enhanced Event x •...
Page 144: Configure Discrete Output Polarity
Integrate the meter with the control system Important This table assumes that Discrete Output Polarity is set to Active High. If Discrete Output Polarity is set to Active Low, reverse the voltage values. Important Actual flow direction interacts with Sensor Flow Direction Arrow to determine the flow direction that the transmitter uses in processing.
Page 145: Configure Discrete Output Fault Action
Integrate the meter with the control system 8.6.3 Configure Discrete Output Fault Action Display Menu > Configuration > Inputs/Outputs > Channel C > I/O Settings > Fault Action ProLink III Device Tools > Configuration > I/O > Outputs > Discrete Output > Fault Action Web browser Configuration >...
Page 146: Configure The Discrete Input
Integrate the meter with the control system Discrete output behavior Polarity=Active High Polarity=Active Low Label None (default) Discrete output is controlled by its assignment Fault indication with the discrete output To indicate faults via the 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.
Page 147: Configure Discrete Input Polarity
Integrate the meter with the control system Options for Discrete Input Action Label Action Display ProLink III Web browser Standard Start sensor zero Start Zero Calibration Start Sensor Zero Start Sensor Zero Totalizers Start/stop all totalizers and Start/stop all totalizers Start or Stop All Totalizers Start/Stop All Totals inventories...
Page 148 Integrate the meter with the control system Options for Discrete Input Polarity Polarity Discrete input Voltage Status of discrete in- power supply put at transmitter Active High Internal Voltage across terminals is high Voltage across terminals is 0 VDC External Voltage applied across terminals is 3–30 VDC Voltage applied across terminals is...
Page 149: Complete The Configuration
Complete the configuration Complete the configuration Topics covered in this chapter: • Test or tune the system using sensor simulation • Save the transmitter configuration to a backup file • Enable or disable software write‐protection Test or tune the system using sensor simulation Display Menu >...
Page 150: Sensor Simulation
Complete the configuration Option Required values Fixed Fixed Value Sawtooth Period Minimum Maximum Sine Period Minimum Maximum For temperature, set Wave Form as desired and enter the required values. Option Required values Fixed Fixed Value Sawtooth Period Minimum Maximum Sine Period Minimum Maximum...
Page 151: Save The Transmitter Configuration To A Backup File
Complete the configuration Unlike actual mass flow rate and density values, the simulated values are not temperature- compensated (adjusted for the effect of temperature on the sensor’s flow tubes). Save the transmitter configuration to a backup file A backup file allows you to return the transmitter to a known state. Related information Save a configuration file using the display Save a configuration file using ProLink III...
Page 152 Complete the configuration Micro Motion Model 5700 with Ethernet Transmitters...
Page 153: Part Iii Operations, Maintenance, And Troubleshooting
Operations, maintenance, and troubleshooting Part III Operations, maintenance, and troubleshooting Chapters covered in this part: • Transmitter operation • Operation using the batcher • Measurement support • Maintenance • Log files, history files, and service files • Troubleshooting Configuration and Use Manual...
Page 154 Operations, maintenance, and troubleshooting Micro Motion Model 5700 with Ethernet Transmitters...
Page 155: Chapter 10 Transmitter Operation
Transmitter operation Transmitter operation Topics covered in this chapter: • View process and diagnostic variables • View and acknowledge status alerts • Read totalizer and inventory values • Start, stop, and reset totalizers and inventories 10.1 View process and diagnostic variables Process variables provide information about the state of the process fluid.
Page 156: View Process Variables And Other Data Using A Web Browser
Transmitter operation ProLink III allows you to choose the process variables that appear on the main screen. You can also choose whether to view data in Analog Gauge view or digital view, and you can customize the gauge settings. For more information, see the ProLink III user manual. Related information Effect of Sensor Flow Direction Arrow on digital communications 10.1.3...
Page 157: View And Acknowledge Status Alerts
Transmitter operation 10.2 View and acknowledge status alerts The transmitter posts a status alert whenever one of the specified conditions occurs. You can view active alerts and you can acknowledge alerts. You do not have to acknowledge alerts: The transmitter will perform normal measurement and reporting functions with unacknowledged alerts.
Page 158: View And Acknowledge Alerts Using Prolink Iii
Transmitter operation Related information Generate service files 10.2.2 View and acknowledge alerts using ProLink III You can view a list containing all alerts that are active, or inactive but unacknowledged. From this list, you can acknowledge individual alerts or choose to acknowledge all alerts at once.
Page 159: Read Totalizer And Inventory Values
Transmitter operation 10.3 Read totalizer and inventory values Display Menu > Operations > Totalizers > See Totals ProLink III Device Tools > Totalizer Control > Totalizers Device Tools > Totalizer Control > Inventories Web browser Operations > Totalizers Operations > Inventories Overview Totalizers keep track of the total amount of mass or volume measured by the transmitter since the last totalizer reset.
Page 160: Start, Stop, And Reset Totalizers Using Prolink Iii
Transmitter operation 2. Choose Options. 3. Choose Start or Stop. • To start or stop all totalizers and inventories as a group: 1. Choose Menu > Operations > Totalizers. 2. Choose Start or Stop. • To reset a single totalizer or inventory: 1.
Page 161: Start, Stop, And Reset Totalizers Using A Web Browser
Transmitter operation 2. Click Start All Totals or Stop All Totals. • To reset a single totalizer: 1. Choose Device Tools > Totalizer Control > Totalizers. 2. Scroll to the totalizer that you want to reset, and click Reset. • To reset a single inventory: 1.
Page 162 Transmitter operation 1. Choose Operations > Inventories. 2. Choose from the available operations. Option Description Start Start an individual inventory. Stop Stop an individual inventory. Reset Reset an individual inventory to zero. Reset all Inventories Resets all inventories to zero the same time. Micro Motion Model 5700 with Ethernet Transmitters...
Page 163: Chapter 11 Operation Using The Batcher
Operation using the batcher Operation using the batcher Topics covered in this chapter: • Run a batch • Perform AOC calibration 11.1 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 164 Operation using the batcher • Using the display: Choose Menu > Batcher > Run Batch > Batch Control and select Begin. • Using ProLink III: Choose Device Tools > Application Control > Run Batch and click Begin Batch. • Using a web browser: Choose Operations > Batcher > Run Batcher and click Begin Batch.
Page 165: Perform Aoc Calibration
Operation using the batcher The batch ends automatically when it reaches the target or when it reaches the configured maximum fill time. 11.2 Perform AOC calibration • Perform AOC calibration using the display (Section 11.2.1) • Perform AOC calibration using ProLink III (Section 11.2.2) •...
Page 166: Perform Aoc Calibration Using Prolink Iii
Operation using the batcher 2. Set AOC Window to the number of batches that the rolling AOC coefficient will be based on. 3. 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 167: Perform Aoc Calibration Using A Web Browser
Operation using the batcher 3. Choose Device Tools > Application Control > Run Batcher. 4. Click Start AOC Calibration. 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 168 Operation using the batcher Micro Motion Model 5700 with Ethernet Transmitters...
Page 169: Chapter 12 Measurement Support
Measurement support Measurement support Topics covered in this chapter: • Use Smart Meter Verification (SMV) • Zero the meter • Set up pressure compensation • Validate the meter • Perform a (standard) D1 and D2 density calibration • Adjust concentration measurement with Trim Offset •...
Page 170 Measurement support • Maintain a constant flow rate. If possible, stop flow through the sensor. • Avoid changes to fluid composition, for example, two-phase flow or settling. If you plan to use a fixed value during the SMV test, ensure that all affected control loops are prepared for the interruption in process measurement.
Page 171 Measurement support Run an SMV test using ProLink III Read the Prerequisites in Section 12.1 if you have not done so already. Choose Device Tools > Diagnostics > Meter Verification > Run Test. If Smart Meter Verification is licensed in the Model 5700 transmitter, you can also scroll to the bottom of the ProLink III main screen and choose from the shortcut buttons: Smart Meter Verification Overview >...
Page 172: View Smv Test Results
Measurement support Run an SMV test using a web browser Read the Prerequisites in Section 12.1 if you have not done so already. Choose Service Tools > Smart Meter Verification > Run Meter Verification. Select the desired output behavior. Option Description Continue Measuring During the test, all outputs will continue to report their assigned proc- ess variables.
Page 173 Measurement support View SMV test results using the display • For licensed and unlicensed versions of SMV, results of the current test are displayed automatically. • For licensed versions of SMV only, to view results of previous tests for this meter: 1.
Page 174 Measurement support 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 and the current Smart Meter Verification result.
Page 175: Set Up Smv Automatic Execution
Measurement support Table 12-1: SMV abort codes (continued) Code Description Recommended actions Other General abort Repeat the test. If the test aborts again, contact customer service. 12.1.3 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.
Page 176 Measurement support Set up SMV automatic execution using ProLink III Select one of the following paths to access the SMV scheduler . • Choose Device Tools > Diagnostics > Meter Verification > Meter Verification Scheduler. • Choose Smart Meter Verification Overview > Tools > Schedule Smart Meter Verification.
Page 177: Zero The Meter
Measurement support 12.2 Zero the meter Display Menu > Service Tools > Verification & Calibration > Meter Zero > Zero Calibration ProLink III Device Tools > Calibration > Smart Zero Verification and Calibration > Calibrate Zero Web browser Service Tools > Verification and Calibration > Meter Zero > Calibrate Zero Overview Zeroing the meter establishes a baseline for process measurement by analyzing the sensor's output when there is no flow through the sensor tubes.
Page 178: Terminology Used With Zero Verification And Zero Calibration
Measurement support Start the zero procedure and wait until it completes. When the calibration is complete: • If the zero procedure was successful, a Calibration Success message and a new zero value are displayed. • If the zero procedure failed, a Calibration Failed message is displayed. Postrequisites Restore normal flow through the sensor by opening the valves.
Page 179: 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 180: Set Up Pressure Compensation Using The Display
Measurement support 12.3.1 Set up pressure compensation using the display Pressure compensation adjusts process measurement to compensate for the pressure effect on the sensor. The pressure effect is the change in the sensor’s sensitivity to flow and density caused by the difference between the calibration pressure and the process pressure.
Page 181: Set Up Pressure Compensation Using Prolink Iii
Measurement support Method Description Setup Digital communica- A host writes pressure data to a. Choose Menu > Configuration > Process Measurement > tions the meter at appropriate inter- Pressure Compensation > External Pressure . vals. b. Set External Pressure to On. c.
Page 182: Set Up Pressure Compensation Using A Web Browser
Measurement support d. To use different factors, enter your values in the Density Factor and Flow Factor fields. The density factor is the change in fluid density, in g/cm /PSI. When entering the value, reverse the sign. Example: If the density factor is 0.000006 g/cm /PSI, enter −0.000006g/cm3/PSI.
Page 183 Measurement support Prerequisites You will need the flow factor, density factor, and calibration pressure values for your sensor. • For the flow factor and density factor, see the product data sheet for your sensor. • For the calibration pressure, see the calibration sheet for your sensor. If the data is unavailable, use 20 PSI.
Page 184: Validate The Meter
Measurement support Option Description Setup Digital communica- A host writes pressure data to a. Set Pressure Source to Fixed Value or Digital Communications. tions the meter at appropriate inter- b. Perform the necessary host programming and communica- vals. tions setup to write pressure data to the meter at appropri- ate intervals.
Page 185 Measurement support Prerequisites Identify the meter factor(s) that you will calculate and set. You may set any combination of the three meter factors: mass flow, volume flow, and density. Note that all three meter factors are independent: • The meter factor for mass flow affects only the value reported for mass flow. •...
Page 186: Alternate Method For Calculating The Meter Factor For Volume Flow
Measurement support MeterFactor = 0.9989 MassFlow 250.27 The first meter factor for mass flow is 0.9989. One year later, the flowmeter is validated again. The mass flow measurement from the transmitter is 250.07 lb. The mass flow measurement from the reference device is 250.25 lb.
Page 187: Perform A (Standard) D1 And D2 Density Calibration
Measurement support 12.5 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. Density calibration includes the calibration of the D1 (low-density) and D2 (high-density) calibration points. Important Micro Motion flowmeters are calibrated at the factory, and normally do not need to be calibrated in the field.
Page 188: Perform A D1 And D2 Density Calibration Using Prolink Iii
Measurement support c. Choose Start Calibration. d. Wait for the calibration to complete. e. Choose Finished. Fill the sensor with the D2 fluid and allow the sensor to achieve thermal equilibrium. Perform the D2 calibration. a. Choose D2 (Water). b. Enter the density of your D2 fluid. c.
Page 189: Perform A D1 And D2 Density Calibration Using A Web Browser
Measurement support 12.5.3 Perform a D1 and D2 density calibration using a web browser Prerequisites • During density calibration, the sensor must be completely filled with the calibration fluid, and flow through the sensor must be at the lowest rate allowed by your application.
Page 190: Adjust Concentration Measurement With Trim Slope And Trim Offset
Measurement support You must be able to take a sample of your process fluid and obtain a laboratory concentration value at line density and line temperature. Procedure Take a concentration reading from the meter, and record line density and line temperature.
Page 191 Measurement support Prerequisites Ensure that the active matrix is the one that you want to trim. You can set the offset and slope separately for each matrix on your transmitter. You must be able to take measurements of your process fluid at two different concentrations.
Page 192 Measurement support Example: Calculating the trim slope and the trim offset Comparison 1 Laboratory value 50.00% Meter value 49.98% Comparison 2 Laboratory value 16.00% Meter value 15.99% 50 = � × 49.98 + � Populate the equations: 16 = � × 15.99 + � 50.00 −...
Page 193: Chapter 13 Maintenance
Maintenance Maintenance Topics covered in this chapter: • Install a new transmitter license • Upgrade the transmitter firmware • Reboot the transmitter • Battery replacement 13.1 Install a new transmitter license Display Menu > Service Tools > License Manager ProLink III Device Tools >...
Page 194 Maintenance CAUTION! If the transmitter is in a hazardous area, do not open the wiring compartment while the transmitter is powered up. Opening the wiring compartment while the transmitter is powered up could cause an explosion. Install the license using a method that does not require opening the wiring compartment.
Page 195: Upgrade The Transmitter Firmware
Maintenance 13.2 Upgrade the transmitter firmware You can upgrade the transmitter firmware to stay current with development and to take advantage of any new features. • Upgrade the transmitter firmware using the display (Section 13.2.1) • Upgrade the transmitter firmware using ProLink III (Section 13.2.2) 13.2.1 Upgrade the transmitter firmware using the display...
Page 196: Upgrade The Transmitter Firmware Using Prolink Iii
Maintenance 13.2.2 Upgrade the transmitter firmware using ProLink III You can upgrade the transmitter firmware to stay current with development and to take advantage of any new features. Prerequisites You must have the firmware upgrade files provided by Micro Motion. Procedure Choose Device Tools >...
Page 197: Battery Replacement
Maintenance 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. Related information Battery replacement 13.4 Battery replacement...
Page 198 Maintenance Micro Motion Model 5700 with Ethernet Transmitters...
Page 199: Chapter 14 Log Files, History Files, And Service Files
Log files, history files, and service files Log files, history files, and service files Topics covered in this chapter: • Generate history log files • Generate service files 14.1 Generate history log files Display Menu > USB Options > Transmitter --> USB Drive > Download Historical Files ProLink III Device Tools >...
Page 200: Historian Data And Log
Log files, history files, and service files c. Select the record type. Option Description 1 Second Raw Data The current values of process and diagnostic variables, re- corded at 1-second intervals. 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 201 Log files, history files, and service files • Timestamp Format: Military time Time and time zone: Transmitter clock • Mass flow rate (kg/sec) • Volume flow rate (l/sec) or GSV flow rate • Density (g/cm³) • Line temperature (°C) • External temperature (if available) •...
Page 202: Smv History And Smv Log
Log files, history files, and service files Example: Historian log, 5-minute average data S TAG:SUPPLY UID:22729F1F SW: MassFlow MassFlow MassFlow MassFlow … 000000045 800:000000402 DST ON:Mountain GMT-7.0 SM:T075 kg/s Max kg/s Min kg/s Avg kg/s Std … SN:000000000 8/25/2014 9:58 0.0082359 0.00091223 9.76E-05...
Page 203: Totalizer History And Log
Log files, history files, and service files SMV history and power-cycles If the transmitter is rebooted or power-cycled, SMV history is not affected. SMV history and configuration files If you restore the factory configuration or upload a configuration file, SMV history is not affected.
Page 204: Generate Service Files
Log files, history files, and service files • Timestamp Format: Military time Time and time zone: Transmitter clock The totalizer log also contains a line item for each totalizer or inventory reset. Totalizer history and power-cycles If the transmitter is rebooted or power-cycled, totalizer history is not affected. Totalizer history and configuration files If you restore the factory configuration or upload a configuration file, totalizer history is not affected.
Page 205 Log files, history files, and service files Prerequisites The service port must be enabled. It is enabled by default. However, if you need to enable it, choose Menu > Configuration > Security and set Service Port to On. You must have a USB drive. Procedure Open the wiring compartment on the transmitter and insert the USB drive into the service port.
Page 206: Alert History And Log
Log files, history files, and service files Specify the folder on the USB drive where the log file will be saved. 14.2.1 Alert history and log The transmitter automatically saves information about all alert occurrences to its working memory, and periodically updates an alert history file on its SD card. The alert history log is an ASCII file.
Page 207: Configuration Audit History And Log
Log files, history files, and service files Example: 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/2014 16:33:30 [105] Two-Phase Flow Toggling [035] SMV Aborted...
Page 208 Log files, history files, and service files • Measurement unit, if applicable • 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 209: Assert History And Log
Log files, history files, and service files SYS_Tag FT-0000 SUPPLY 09/SEP/2014 Other 11:35:12 SNS_K1 1606.9 1606.4 09/SEP/2014 Other 11:35:12 SNS_K2 1606.9 7354 09/SEP/2014 Other 11:35:12 SNS_DensityTem 5.66 4.44 09/SEP/2014 Other 11:35:12 … Note The configuration audit log is not translated. It always displays in English. 14.2.3 Assert history and log The transmitter automatically saves information about all asserts.
Page 210 Log files, history files, and service files Time and time zone: Transmitter clock • Number of password entry failures • Number of transmitter firmware upgrade failures • Number of database write failures Security log and power-cycles If the transmitter is rebooted or power-cycled, the security log is not affected. 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.
Page 211: Chapter 15 Troubleshooting
Troubleshooting Troubleshooting Topics covered in this chapter: • Status LED and device status • Network status LED • Status alerts, causes, and recommendations • Flow measurement problems • Density measurement problems • Temperature measurement problems • Velocity measurement problems • API referral problems •...
Page 212: Status Led And Device Status
Troubleshooting 15.1 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 213: Status Alerts, Causes, And Recommendations
Troubleshooting 15.3 Status alerts, causes, and recommendations Table 15-3: Status alerts, causes, and recommendations Conditions Alert Name Cause Recommended actions Electronics Failed [002] RAM Error There is an internal mem- • Ensure that all wiring compartment (Core Processor) ory problem with the core covers are installed correctly.
Page 214 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions [018] EEPROM Error There is an internal mem- • Ensure that all wiring compartment (Transmitter) ory problem with the covers are installed correctly. transmitter. • Ensure that all transmitter wiring meets specifications and that all cable This alert will not clear un-...
Page 215 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions [019] RAM Error There is a ROM checksum • Ensure that all wiring compartment (Transmitter) mismatch in the transmit- covers are installed correctly. ter or the RAM address lo- •...
Page 216 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions [022] Configuration There is a NVM checksum • Ensure that all wiring compartment Database Corrupt mismatch in the core pro- covers are installed correctly. (Core Processor) cessor's configuration •...
Page 217 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions Watchdog Error The watchdog timer has • Reboot or power-cycle the transmitter expired. to see if the alert clears. • If the alert persists, replace the trans- mitter.
Page 218 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions Configuration [020] Calibration Some calibration factors • Verify characterization parameters Error Factors Missing have not been entered or (specifically Flow Cal Factor and K1 val- are incorrect.
Page 219 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions Batcher Not Config- One or more of the fol- • Verify the configuration of the batcher ured lowing has occurred: The application and related parameters. batcher application is dis- abled;...
Page 220 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions Sensor-Transmitter [026] Sensor/Trans- The transmitter has lost • Check the wiring between the sensor Communication Error mitter Communica- communication with the and the transmitter. tions Failure core processor, or there •...
Page 221 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions [008] Density Over- The measured density is • Check your process conditions against range above 10 g/cm³. the values reported by the device. • Verify that the transmitter is config- ured correctly for the connected sen- sor.
Page 222 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions [111] Frequency The output is configured • Check to see if a loop test is in process Output 1 Fixed to send a constant value. (the output is fixed).
Page 223 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions [117] Density Over- The line density is outside • Ensure that process density is within range (API referral) the range of the API table. the range of the API table. •...
Page 224 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions Enhanced Event 4 The conditions assigned • If this is an accurate indication of proc- Active to Enhanced Event 4 are ess conditions, no action is required. present.
Page 225 Troubleshooting Table 15-3: Status alerts, causes, and recommendations (continued) Conditions Alert Name Cause Recommended actions Function Check Failed [010] Calibration The calibration failed. • Ensure that your calibration procedure or Smart Meter Verifica- Failed meets the documented requirements, tion Aborted reboot or power-cycle the transmit- ter, then retry the procedure.
Page 226: Flow Measurement Problems
Troubleshooting 15.4 Flow measurement problems Table 15-4: Flow measurement problems and recommended actions Problem Possible causes Recommended actions Flow rate reported as Process condition below cutoff Verify the cutoffs. zero when flow is present Flow indication at no • Misaligned piping (especially in new instal- •...
Page 227 Troubleshooting Table 15-4: Flow measurement problems and recommended actions (continued) Problem Possible causes Recommended actions Erratic non-zero flow • Two-phase flow • Verify that the sensor orientation is appro- rate when flow is • Damping value too low priate for your application. See the installa- steady •...
Page 228: Density Measurement Problems
Troubleshooting 15.5 Density measurement problems Table 15-5: Density measurement problems and recommended actions Problem Possible causes Recommended actions Erratic density reading • Normal process noise • Check your process conditions against the • Two-phase flow values reported by the device. •...
Page 229: Temperature Measurement Problems
Troubleshooting Table 15-5: Density measurement problems and recommended actions (continued) Problem Possible causes Recommended actions Unusually low density • Two-phase flow • Check your process conditions against the reading • Incorrect calibration factors values reported by the device. • In low-frequency meters, erosion or corro- •...
Page 230: Velocity Measurement Problems
Troubleshooting Table 15-6: Temperature measurement problems and recommended actions (continued) Problem Possible causes Recommended actions Temperature reading • Sensor temperature not yet equalized • If the error is within the temperature speci- slightly different from • Sensor leaking heat fication for the sensor, there is no prob- process temperature lem.
Page 231 Troubleshooting Table 15-7: Velocity measurement problems and recommended actions (continued) Problem Possible causes Recommended actions Erratic non-zero flow • Leaking valve or seal • Verify that the sensor orientation is appro- rate at no-flow condi- • Two-phase flow priate for your application. See the installa- tions •...
Page 232: Api Referral Problems
Troubleshooting 15.8 API referral problems Table 15-8: API referral problems and recommended actions Problem Possible causes Recommended actions Extrapolation alert is Line pressure, line temperature, or line density • Check your process conditions against the active is outside the range of the configured API table values reported by the device.
Page 233: Milliamp Output Problems
Troubleshooting Table 15-9: Concentration measurement problems and recommended actions (continued) Problem Possible causes Recommended actions Inaccurate concentra- • Inaccurate density measurement • Verify the line density value. tion measurement • Inaccurate temperature measurement • Verify the line temperature value. reading •...
Page 234 Troubleshooting Table 15-10: Milliamp output problems and recommended actions (continued) Problem Possible causes Recommended actions mA output below • Incorrect internal/external power configu- • Check your process conditions against the 4 mA ration values reported by the device. • Output not powered •...
Page 235: Frequency Output Problems
Troubleshooting 15.11 Frequency output problems Table 15-11: Frequency output problems and recommended actions Problem Possible causes Recommended actions No frequency output • Stopped totalizer • Verify that the process conditions are be- • Process condition below cutoff low the low-flow cutoff. Reconfigure the •...
Page 236: Discrete Output Problems
Troubleshooting 15.12 Discrete output problems Table 15-12: Discrete output problems and recommended actions Problem Possible causes Recommended actions No discrete output • Output not powered • Check the power supply and power supply • Wiring problem wiring. • Channel not configured for desired input •...
Page 237: Check Sensor-To-Transmitter Wiring
Troubleshooting Prerequisites • You will need the installation manual for your transmitter. • When using DC power, a minimum of 1.5 amps of startup current is required. Procedure Use a voltmeter to test the voltage at the transmitter’s power supply terminals. •...
Page 238: Check Grounding
Troubleshooting • If you have a remote transmitter with remote core processor, check the wiring between the transmitter and the core processor and the wiring between the core processor and the sensor junction box. Prerequisites You will need the installation manual for your transmitter. Procedure Before opening the wiring compartments, disconnect the power source.
Page 239: Perform A Ma Loop Test Using The Display
Troubleshooting • Follow appropriate procedures to ensure that loop testing will not interfere with existing measurement and control loops. • Perform a mA loop test using the display (Section 15.17.1) • Perform a frequency output loop test using the display (Section 15.17.2) •...
Page 240: Perform A Frequency Output Loop Test Using The Display
Troubleshooting Postrequisites • If the mA output readings are within 200 microamps of each other, you can correct this discrepancy by trimming the output. • If the discrepancy between the mA output readings is greater than 200 microamps, or if at any step the reading was faulty, verify the wiring between the transmitter and the remote device, and try again.
Page 241: Perform A Discrete Input Loop Test Using The Display
Troubleshooting Choose New Value. Set Simulation Value to OFF. Start the simulation. Verify the signal at the receiving device. Choose Exit. Postrequisites • If the discrete output readings are reversed, check the setting of Discrete Output Polarity. 15.17.4 Perform a discrete input loop test using the display Prerequisites Before performing a discrete input loop test, configure Channel C for a discrete input.
Page 242: Perform A Frequency Output Loop Test Using Prolink Iii
Troubleshooting Read the mA current at the receiving device and compare it to the transmitter output. The readings do not need to match exactly. If the values are slightly different, you can correct the discrepancy by trimming the output. Click UnFix mA. Enter 20 in Fix to:.
Page 243: Perform A Discrete Input Loop Test Using Prolink Iii
Troubleshooting Follow appropriate procedures to ensure that loop testing will not interfere with existing measurement and control loops. Procedure Choose Device Tools > Diagnostics > Testing > Discrete Output Test. If your transmitter is configured for two or more discrete outputs, determine which discrete output you want to test.
Page 244: Perform A Frequency Output Loop Test Using A Web Browser
Troubleshooting Procedure Choose Device Tools > Simulation > mA Output Test. Enter 4 in Fix to:. Click Fix mA. Read the mA current at the receiving device and compare it to the transmitter output. The readings do not need to match exactly. If the values are slightly different, you can correct the discrepancy by trimming the output.
Page 245: Perform A Discrete Output Loop Test Using A Web Browser
Troubleshooting Click UnFix FO. 15.17.11 Perform a discrete output loop test using a web browser Prerequisites Before performing a discrete output loop test, configure Channel C as a discrete output. Follow appropriate procedures to ensure that loop testing will not interfere with existing measurement and control loops.
Page 246: Trim Ma Output
Troubleshooting 15.18 Trim mA output Trimming an mA output calibrates the transmitter's mA output to the receiving device. If the current trim value is inaccurate, the transmitter will under-compensate or over- compensate the output. • Trim mA output using the display (Section 15.18.1) •...
Page 247: Using Sensor Simulation For Troubleshooting
Troubleshooting Procedure Choose Service Tools > Verification and Calibration > mA Output Trim. Follow the instructions in the guided method. Check the trim results. If any trim result is less than −20 microamps or greater than +20 microamps, contact customer service. 15.19 Using sensor simulation for troubleshooting When sensor simulation is enabled, the transmitter reports user-specified values for basic...
Page 248: Check The Scaling Of The Frequency Output
Troubleshooting If there are no active fault conditions, continue troubleshooting. 15.22 Check the scaling of the frequency output If the process variable assigned to the frequency output goes to a value that would set the frequency output to a signal below 0 Hz or above 12500 Hz, the meter will post an Output Saturated alert for the affected output, then perform the configured fault action.
Page 249: Check The Cutoffs
Troubleshooting 15.25 Check the cutoffs If the transmitter cutoffs are configured incorrectly, the transmitter may report zero flow when flow is present, or very small amounts of flow under no-flow conditions. Procedure Verify the configuration of all cutoffs. 15.26 Check for two-phase flow (slug flow) Two-phase flow can cause rapid changes in the drive gain.
Page 250: Check The Drive Gain
Troubleshooting • Move the transmitter. 15.28 Check the drive gain Excessive or erratic drive gain may indicate any of a variety of process conditions or sensor problems. To know whether your drive gain is excessive or erratic, you must collect drive gain data during the problem condition and compare it to drive gain data from a period of normal operation.
Page 251: Check The Pickoff Voltage
Troubleshooting Erratic drive gain Table 15-15: Possible causes and recommended actions for erratic drive gain Possible cause Recommended actions Foreign material caught in sen- • Purge the sensor tubes. sor tubes • Replace the sensor. 15.29 Check the pickoff voltage If the pickoff voltage readings are unusually low, you may have any of a variety of process or equipment problems.
Page 252: Check The Sensor Coils
Troubleshooting Possible cause Recommended action Moisture inside the sensor junction Ensure that the junction box is dry and no corrosion is present. Liquid or moisture inside the sensor Contact customer support. case Internally shorted feedthrough Contact customer support. Faulty cable Replace the cable.
Page 253 Troubleshooting Table 15-17: Coils and test terminal pairs (continued) Coil Sensor model Terminal colors Fixed resistor (see note) CMFS007, CMFS010, CMFS015, Yellow to orange CMF400, and F300 Note The CMF400 fixed resistor applies only to certain specific CMF400 releases. Contact customer support for more information.
Page 254: Perform A Core Processor Resistance Test
Troubleshooting Plug the terminal blocks into the terminal board. Replace the lid on the sensor junction box. Important When reassembling the meter components, be sure to grease all O-rings. 15.31 Perform a core processor resistance test This procedure measures the resistance between the core processor terminals in the transmitter junction box.
Page 255 Troubleshooting Figure 15-1: Removing the cover of the junction box Disconnect the 4-wire cable between the transmitter and the sensor. Identify the core processor terminals inside the transmitter junction box. Configuration and Use Manual...
Page 256 Troubleshooting Figure 15-2: Core processor terminals inside the transmitter junction box For the 700 core processor only, measure the resistance between the terminal pairs listed here. Terminal pair (trans- Terminal pair (core mitter) processor) Function Expected resistance White – green 3–4 RS-485/A and RS-485/B 29 kΩ...
Page 257: Appendix A Using The Transmitter Display
Using the transmitter display Appendix A Using the transmitter display Topics covered in this appendix: • Components of the transmitter display • Access and use the display menus 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 258 Using the transmitter display Figure A-2: Model 5700 transmitter status LEDs Table A-1: Status LED and device status Status LED condition Device status Solid green No alerts are active. Solid yellow One or more alerts are active with Alert Severity = Out of Specifica- tion, Maintenance Required, or Function Check.
Page 259: Access And Use The Display Menus
Using the transmitter display Figure A-3: Model 5700 transmitter LCD panel The LCD panel also provides access to the display menus and alert information. From the display menus, you can: • View the current configuration and make configuration changes. • Perform procedures such as loop testing and zero verification.
Page 260 Using the transmitter display Figure A-4: Optical switches Procedure Observe the action bar at the bottom of the LCD panel. The action bar displays Menu⇨. Place your thumb or finger over the ⇨ optical switch to activate it. The top-level menu is displayed. Navigate the menus using the four optical switches: Activate ⇧...
Page 261 Using the transmitter display Figure A-5: Navigation arrows 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 •...
Page 262 Using the transmitter display Figure A-7: Numeric values and character strings Activate ⇦ or ⇨ to position the cursor. • Activate ⇧ and ⇩ to scroll through the values that are valid for that position. • • Repeat until all characters are set. Activate and hold ⇨...
Page 263: Appendix B Using Prolink Iii With The Transmitter
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 264: Connect With Prolink Iii
Using ProLink III with the transmitter • The ability to view performance trends for various types of data on the PC • The ability to connect to and view information for more than one device • A guided connection wizard These features are documented in the ProLink III manual.
Page 265 Using ProLink III with the transmitter Note The Ethernet settings are the same for a ProLink III connection over Ethernet as they are for connecting to a web browser. Procedure Configure Ethernet settings as required. • Use the display, ProLink III, or a web browser to configure the transmitter. •...
Page 266: Connect Prolink Iii To The Transmitter
Using ProLink III with the transmitter Note If your PC has more than one wired network adapter, be sure to select the adapter that is connected to the transmitter. B.2.3 Connect ProLink III to the transmitter CAUTION! If the transmitter is in a hazardous area, do not open the wiring compartment while the transmitter is powered up.
Page 267: Appendix C Using A Web Browser To Configure The Transmitter
Using a Web browser to configure the transmitter Appendix C Using a Web browser to configure the transmitter Topics covered in this appendix: • Recommended web browsers • Configuring transmitter and PC Ethernet settings • Log in with a web browser •...
Page 268 Using a Web browser to configure the transmitter Note The Ethernet settings are the same for a ProLink III connection over Ethernet as they are for connecting to a web browser. Procedure Configure Ethernet settings as required. • Use the display, ProLink III, or a web browser to configure the transmitter. •...
Page 269: Log In With A Web Browser
Using a Web browser to configure the transmitter Note If your PC has more than one wired network adapter, be sure to select the adapter that is connected to the transmitter. Log in with a web browser Prerequisites To log in to the transmitter with a web browser: •...
Page 270 Using a Web browser to configure the transmitter Figure C-1: Transmitter home page Micro Motion Model 5700 with Ethernet Transmitters...
Page 271: Change Ethernet Login Passwords
Using a Web browser to configure the transmitter Change Ethernet login passwords ProLink III Configuration > Communications > Webserver Settings Web browser Configuration > Security Overview The Ethernet login passwords prevent unauthorized access to the transmitter. The Admin password should be immediately changed from the default password, and it should be kept confidential.
Page 272 Using a Web browser to configure the transmitter Micro Motion Model 5700 with Ethernet Transmitters...
Page 273: Appendix D Concentration Measurement Matrices, Derived Variables, And Process Variables
Concentration measurement matrices, derived variables, and process variables Appendix D Concentration measurement matrices, derived variables, and process variables Topics covered in this appendix: • Standard matrices for the concentration measurement application • Derived variables and calculated process variables Standard matrices for the concentration measurement application The standard concentration matrices available from Micro Motion are applicable for a variety of process fluids.
Page 274: Derived Variables And Calculated Process Variables
Concentration measurement matrices, derived variables, and process variables Temperature Matrix name Description Density unit unit Derived variable HFCS 42 Matrix represents a hydrometer scale g/cm °C Mass Concentration for HFCS 42 (high-fructose corn syrup) (Density) solutions that indicates the percent by mass of HFCS in solution.
Page 275 Concentration measurement matrices, derived variables, and process variables Calculated process variables Density at reference Standard Net vol- Derived Varia- tempera- volume Specific Concen- Net mass ume flow Description ture flow rate gravity tration flow rate rate ✓ ✓ ✓ ✓ ✓...
Page 276 Concentration measurement matrices, derived variables, and process variables Micro Motion Model 5700 with Ethernet Transmitters...
Page 277: Appendix E Environmental Compliance
Environmental compliance Appendix E Environmental compliance 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 Model 5700 transmitter cannot be serviced or replaced by users. If the battery requires replacement, contact customer service for replacement and disposal.
Page 278 Environmental compliance Micro Motion Model 5700 with Ethernet Transmitters...
Page 279: Appendix F Software History (Namur Recommendation Ne53)
Ethernet transmitters. This document (Micro Motion Model 5700 with Ethernet Transmitters Configuration and Use Manual, MMI-20029769) can be found at www.emerson.com. Operating instructions within this document are English versions. Instructions in other languages have different part numbers but matching revision letters.
Page 280 Software history (NAMUR recommendation NE53) Table F-1: Transmitter software change history (continued) Software Document Date version Type Change revision 3/2017 1.20 Software • Added ability to create PROFINET out- 20029769 put assembly (obsoletes ETO 27742) improvements Rev. AA • Enhanced EtherNet/IP unicast so they can communicate over different sub- nets (obsoletes ETO 27792) •...
Page 281 Software history (NAMUR recommendation NE53) Table F-1: Transmitter software change history (continued) Software Document Date version Type Change revision • Enhanced response when a third ses- sion tries to connect to a 5700 Ethernet web server so the message "Maximum user sessions exceeded"...
Page 282 Software history (NAMUR recommendation NE53) Table F-1: Transmitter software change history (continued) Software Document Date version Type Change revision 10/2017 1.30 Software There were no changes to the EtherNet/IP 20029769 EDS file or the PROFINET GSDXML file. improvements Rev. AB •...
Page 283 Rev. AB 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, you can click on Docu- ments & Drawings > Software Downloads & Drivers to access an update.
Page 284 Software history (NAMUR recommendation NE53) Updated confidence settings defaults in the Advanced Phase Measurement application The following table contains the updated confidence settings for the APM application that were corrected in software v1.20 of the Model 5700 Ethernet transmitters. Modbus Default Name Register...
Page 285 Software history (NAMUR recommendation NE53) Configuration and Use Manual...
Page 286 © 2018 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 Complete the Configuration

Chapter 10 Transmitter Operation

Chapter 11 Operation Using the Batcher

Chapter 12 Measurement Support

Chapter 13 Maintenance

Chapter 14 Log Files, History Files, and Service Files

Chapter 15 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 Software History (NAMUR Recommendation NE53)

Quick Links

Troubleshooting

Related Manuals for Emerson Micro Motion 5700

Summary of Contents for Emerson Micro Motion 5700