Page 1 Configuration and Use Manual P/N MMI-20016855, Rev. AA June 2010 Micro Motion® 9739 MVD Transmitters Configuration and Use Manual Configuration Operation Maintenance...
Page 2 Copyrights and trademarks © 2010 Micro Motion, Inc. All rights reserved. The Micro Motion and Emerson logos are trademarks and service marks of Emerson Electric Co. Micro Motion, ELITE, MVD, ProLink, MVD Direct Connect, and PlantWeb are marks of one of the Emerson Process Management family of...
Page 3: Table Of Contents
Contents Getting started......................1 Chapter 1 Before you begin ......................3 Safety messages .....................3 Obtain version information................3 Available communications tools ................3 Additional documentation and resources ............4 9739 MVD transmitter configuration worksheet ..........4 Chapter 2 Quick start with the display ..................19 Apply power ....................19 Configuration tips and tricks ................19 Configure the primary mA output to report mass flow rate in a user-selected measurement unit..................20...
Page 4 Configure Flow Direction..................79 Configure density measurement ..............84 Configure temperature measurement ..............88 Configure pressure compensation ..............90 Configure the petroleum measurement application...........91 5.10 Configure the concentration measurement application ........93 Chapter 6 Configure device options and preferences..............99 Configure the transmitter display..............99 Enable or disable operator actions from the display ........103 Configure security for the display menus ............
Page 5 10.7 Frequency output problems ................189 10.8 Use sensor simulation for troubleshooting ............. 190 10.9 Check power supply wiring ................190 10.10 Check sensor-to-transmitter wiring..............191 10.11 Check grounding ..................191 10.12 Check for radio frequency interference............191 10.13 Check HART communication loop..............192 10.14 Check HART Address and Loop Current Mode ............
Page 7: Getting Started
I I I Getting started Chapters covered in this part: ♦ Before you begin ♦ Quick start with the display ♦ Quick start with ProLink II ♦ Quick start with the Field Communicator...
Page 9: Before You Begin
Chapter 1 Before you begin Topics covered in this chapter: ♦ Safety messages ♦ Obtain version information ♦ Available communications tools ♦ Additional documentation and resources ♦ 9739 MVD transmitter configuration worksheet Safety messages Safety messages are provided throughout this manual to protect personnel and equipment. Read each safety message carefully before proceeding to the next step.
Page 10: Additional Documentation And Resources
• Field Communicator (DD v2 or later) You may be able to use other tools from Emerson Process Management, such as AMS Suite: Intelligent Device Manager or the Smart Wireless THUM™ Adapter. Use of AMS or the Smart Wireless THUM Adapter is not discussed in this manual.
Page 11 Before you begin Table 1-3 9739 MVD transmitter configuration settings Configurable with: Configuration Field Communi- parameter Setting Display ProLink II cator Sensor Type ü ü T-Series (Straight Tube) Other (Curved Tube) Flow calibration ü ü factor ü ü ü ü Density ü...
Page 12 ü ü Temperature ü ü ü °C measurement unit °F °R Kelvin Temperature ü ü damping Pressure units: ü ü ü ü ü Flow factor: Pressure compensation Density factor: ü ü Calibration pressure: ü ü Micro Motion 9739 MVD Transmitters...
Page 13 Before you begin Table 1-3 9739 MVD transmitter configuration settings continued Configurable with: Configuration Field Communi- parameter Setting Display ProLink II cator API table type: ü ü Degrees API, reference temperature 60 °F Relative Density/Specific Gravity, reference temperature 60 °F kg/m at user-defined Petroleum...
Page 14 10,000 milliseconds range; default is 200 milliseconds): Auto scroll: ü ü Enable Disable Auto scroll rate (default is 10 ü ü seconds): Backlight: ü ü Totalizer start/stop: ü ü Enabled Disabled Totalizer reset: ü ü Enabled Disabled Micro Motion 9739 MVD Transmitters...
Page 15 Before you begin Table 1-3 9739 MVD transmitter configuration settings continued Configurable with: Configuration Field Communi- parameter Setting Display ProLink II cator Acknowledge all alarms: ü ü Enabled Disabled Offline menu: ü ü Enabled Disabled Alarm password: ü ü Enabled Disabled Response time: ü...
Page 16 ü Active High Active Low Polarity: ü ü ü Active High Frequency output Active Low Fault action: ü ü Upscale Downscale Internal zero None Fault level: ü ü Power type: ü ü ü Internal External Micro Motion 9739 MVD Transmitters...
Page 17 Before you begin Table 1-3 9739 MVD transmitter configuration settings continued Configurable with: Configuration Field Communi- parameter Setting Display ProLink II cator Assignment: ü ü ü Calibration in progress Discrete event 1 Discrete event 2 Discrete event 3 Discrete event 4 Discrete event 5 Event 1 Event 2...
Page 18 Primary variable PV current and percentage of range Read device variables with status Transmitter variables HART variables ü ü • Primary variable (PV): • Secondary variable (SV): • Tertiary variable (TV): • Quaternary variable (QV): Micro Motion 9739 MVD Transmitters...
Page 19 Before you begin Table 1-3 9739 MVD transmitter configuration settings continued Configurable with: Configuration Field Communi- parameter Setting Display ProLink II cator Digital ü ü Upscale Communications Fault Actions Downscale Settings Report NAN (Not A Number) Flow Rates go to zero value = zero flow Flow Rates go to zero value = zero flow.
Page 20 Reset CM reference volume total Reset CM net mass total Reset CM net volume total Increment CM matrix Event Type: ü ü Discrete Event 2 Process Variable: ü ü Setpoint A: ü ü Setpoint B: ü ü Micro Motion 9739 MVD Transmitters...
Page 21 Before you begin Table 1-3 9739 MVD transmitter configuration settings continued Configurable with: Configuration Field Communi- parameter Setting Display ProLink II cator Action: ü ü None (default) Start Sensor Zero Start/stop all totalizers Reset mass total Reset volume total Reset gas standard volume total Reset all totals Reset temperature-corrected...
Page 22 Reset CM reference volume total Reset CM net mass total Reset CM net volume total Increment CM matrix Event Type: ü ü Discrete Event 4 Process Variable: ü ü Setpoint A: ü ü Setpoint B: ü ü Micro Motion 9739 MVD Transmitters...
Page 23 Before you begin Table 1-3 9739 MVD transmitter configuration settings continued Configurable with: Configuration Field Communi- parameter Setting Display ProLink II cator Action: ü ü None (default) Start Sensor Zero Start/stop all totalizers Reset mass total Reset volume total Reset gas standard volume total Reset all totals Reset temperature-corrected...
Page 24 Variable type: ü ü External pressure External temperature None Polling control: ü ü None Poll As Primary Poll As Secondary External Tag: ü ü Polled variable 2 Variable type: ü ü External pressure External temperature None Micro Motion 9739 MVD Transmitters...
Page 25: Quick Start With The Display
Chapter 2 Quick start with the display Topics covered in this chapter: ♦ Apply power ♦ Configuration tips and tricks ♦ Configure the primary mA output to report mass flow rate in a user-selected measurement unit ♦ Perform a loop test ♦...
Page 26: Configure The Primary Ma Output To Report Mass Flow Rate In A User-Selected Measurement Unit
When AO 1 SRC appears on the display, activate Select. Activate Scroll to view the options for mA Output Process Variable options. When you see MFLOW, activate Select. If STORE/YES? flashes on the display, activate Select. Set Lower Range Value (LRV). Micro Motion 9739 MVD Transmitters...
Page 27: Perform A Loop Test
Quick start with the display Lower Range Value specifies the value of Mass Flow Rate to be represented by an output level of 0 mA or 4 mA. Activate Scroll until AO 1 4 mA or AO 1 0 mA appears on the display, then activate Select. Define each character in Lower Range Value, including the sign.
Page 28 Repeat the procedure for the other signal state. Read the mA input. Set the remote input device so that the desired current is sent to the transmitter. At the transmitter, choose OFFLINE MAINT→SIM, and select READ MAI. Micro Motion 9739 MVD Transmitters...
Page 29: Zero The Flowmeter
Quick start with the display Verify the current value. Postrequisites • If the mA output readings were slightly off at the receiving device, you can correct this discrepancy by trimming the output. • If the mA output reading was significantly off (±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 30 Quick start with the display OFFLINE MAINT→RESTORE ZERO→RESTORE/YES? Micro Motion 9739 MVD Transmitters...
Page 31: Chapter 3 Quick Start With Prolink Ii
Chapter 3 Quick start with ProLink II Topics covered in this chapter: ♦ Apply power ♦ Connect with ProLink II ♦ Configuration tips and tricks ♦ Configure the primary mA output to report mass flow rate in a user-selected measurement unit ♦...
Page 32 • When you are using a HART connection, ProLink II will not allow you to open more than one window at a time. This is done to manage network traffic and optimize speed. • You cannot make a service port connection while an active connection exists between the transmitter and Modbus host. Micro Motion 9739 MVD Transmitters...
Page 33 Quick start with ProLink II 3.2.2 Make a service port connection Prerequisites You will need the following: • An installed, licensed copy of ProLink II • An available serial or USB port • One of the following types of signal converters: −...
Page 34 Set the COM Port value to the PC COM port that you are using for this connection. Click Connect. If the connection is successful: • The status bar in the main window is updated to show an active connection. • The Process Variables window or Commissioning Wizard window is displayed. Micro Motion 9739 MVD Transmitters...
Page 35 Quick start with ProLink II If an error message appears: • Switch the leads and try again. • Ensure that you are using the correct COM port. • Check the physical connection between the PC and the transmitter. 3.2.3 Make a HART/Bell 202 connection Prerequisites You will need the following: •...
Page 36 To connect to a point in the local HART loop, attach the leads from the signal converter to any point in the loop and add resistance as necessary. See Figure 3-3. ProLink II must be connected across a resistance of 250–600 Ω. Micro Motion 9739 MVD Transmitters...
Page 37 Quick start with ProLink II Figure 3-3 ProLink II connection to local HART loop HART interface Any combination of resistors R1, R2, and R3 as necessary to meet HART communication resistance requirements DCS or PLC Transmitter Notes • This figure shows a serial port connection. A USB port connection is also available. To connect to a point in the HART multidrop network, attach the leads from the signal converter to any point in the loop and add resistance as necessary.
Page 38 HART/Bell 202 connections use standard connection parameters. You do not need to configure them here. If you are using a USB port connection, enable Converter Toggles RTS. Set Address/Tag to the HART polling address configured in the transmitter. Micro Motion 9739 MVD Transmitters...
Page 39 Quick start with ProLink II Tips • If this is the first time you are connecting to the transmitter, use the default address: 0. • If you are not in a HART multidrop environment, the HART polling address is typically left at the default value.
Page 40 RS-485 to RS-232 signal converter Transmitter To connect to a point in the RS-485 network, connect the leads on your signal converter to any point in the network and add resistance as necessary. See Figure 3-6. Micro Motion 9739 MVD Transmitters...
Page 41 Quick start with ProLink II Figure 3-6 ProLink II connection to an RS-485 network using HART 25-to-9 pin adapter, if necessary RS-485 to RS-232 signal converter 120-Ω, 1/2-watt terminating resistors at both ends of the segment, if necessary DCS or PLC (Auto-detect communication) Transmitter Notes •...
Page 42 • Configured Modbus address (default = 1) Baud rate Standard rates between 1200 and 38,400 Stop bits 0, 1 Parity Even, odd, none Set the COM Port value to the PC COM port that you are using for this connection. Micro Motion 9739 MVD Transmitters...
Page 43 Quick start with ProLink II 10. Set Master as appropriate: Option Description Secondary Use this setting if another host such as a DCS is on the network. Primary Use this setting if no other host is on the network. The Field Communicator is not a host.
Page 44 See Figure 3-9 . Restriction The Modbus host must not be communicating with the transmitter when you make the ProLink II connection. To make the connection, wait until the host communication is complete, or terminate the host connection. Micro Motion 9739 MVD Transmitters...
Page 45 Quick start with ProLink II Figure 3-9 ProLink II connection to RS-485 network 25-to-9 pin adapter, if necessary RS-485 to RS-232 signal converter 120-Ω, 1/2-watt terminating resistors at both ends of the segment, if necessary DCS or PLC (must not be communicating with the transmitter during the ProLink II connection) Transmitter Start ProLink II.
Page 46: Configuration Tips And Tricks
Restore the factory configuration Restoring the factory configuration returns the transmitter to a known operational configuration. Procedure Make a connection from ProLink II to your transmitter. Choose ProLink→Configuration→Device→Restore Factory Configuration. In the Configuration window, click the Device tab. Micro Motion 9739 MVD Transmitters...
Page 47: Configure The Primary Ma Output To Report Mass Flow Rate In A User-Selected Measurement Unit
Quick start with ProLink II Click Restore Factory Configuration. Click OK. Configure the primary mA output to report mass flow rate in a user-selected measurement unit This procedure shows you how to perform these tasks using ProLink II. For all other configuration tasks, including other options for the mA output, see the configuration sections of this manual.
Page 48 Verify the signal state at the receiving device. Click UnFix. Read the discrete input. Set the remote input device so that the desired signal is sent to the transmitter. Choose ProLink→Test→Read Discrete Input. Verify the signal state at the transmitter. Micro Motion 9739 MVD Transmitters...
Page 49: Trim Ma Outputs
Quick start with ProLink II Repeat the procedure for the other signal state. Read the mA input. Set the remote input device so that the desired signal is sent to the transmitter. Choose ProLink→Test→Read MA Input. Postrequisites • If the mA output readings were slightly off at the receiving device, you can correct this discrepancy by trimming the output.
Page 50: Test Or Tune The System Using Sensor Simulation
You can use this feature to test the system’s response to a variety of process conditions, including boundary conditions, problem conditions, or alarm conditions, or to tune the loop. Micro Motion 9739 MVD Transmitters...
Page 51 Quick start with ProLink II When you enable sensor simulation, the simulated values are stored in the same memory locations used for process data from the sensor. Therefore, the simulated values will be used throughout transmitter functioning. For example, sensor simulation will affect: •...
Page 52: Back Up Transmitter Configuration
PC. This allows you to back up and restore your transmitter configuration, and is also a convenient way to replicate a configuration across multiple devices. Procedure Choose File→Load from Xmtr to File to save the transmitter configuration to your PC. Micro Motion 9739 MVD Transmitters...
Page 53: Enable/Disable Hart Security
Quick start with ProLink II 3.10 Enable/disable HART security You use the HART security switch located on the transmitter display to disable configuration of the transmitter using HART protocol. When the HART security switch is set to ON, HART protocol cannot be used to perform any action that requires writing to the transmitter.
Page 55: Quick Start With The Field Communicator
Chapter 4 Quick start with the Field Communicator Topics covered in this chapter: ♦ Apply power ♦ Connect with the Field Communicator ♦ Configuration tips and tricks ♦ Configure the primary mA output to report mass flow rate in a user-selected measurement unit ♦...
Page 56 Attach the leads from the Field Communicator to the HART clips on the face of the transmitter and add resistance as necessary. The Field Communicator must be connected across a resistance of 250–600 Ω. HART connections are polarity-insensitive. It does not matter which lead you attach to which terminal. Micro Motion 9739 MVD Transmitters...
Page 57 Quick start with the Field Communicator Figure 4-1 Field Communicator connection to HART clips Field Communicator 250–600 Ω resistance Transmitter To connect to a point in the local HART loop, attach the leads from the Field Communicator to any point in the loop and add resistance as necessary. See Figure 4-2. The Field Communicator must be connected across a resistance of 250–600 Ω.
Page 58: Configuration Tips And Tricks
Most configuration, maintenance, and troubleshooting tasks are performed from the Online menu. You may see messages related to the DD or active alerts. Press the appropriate buttons to ignore the message and continue. Configuration tips and tricks Review these tips before beginning configuration. Micro Motion 9739 MVD Transmitters...
Page 59: Configure The Primary Ma Output To Report Mass Flow Rate In A User-Selected Measurement Unit
Quick start with the Field Communicator 4.3.1 HART security HART security may be enabled on the 9739 MVD transmitter. To configure the transmitter using HART protocol, you must disable HART security. 4.3.2 Default values and ranges Default values and ranges for the most commonly used parameters are provided in Appendix A. Configure the primary mA output to report mass flow rate in a user-selected measurement unit Note...
Page 60: Perform A Loop Test
Read the frequency signal at the receiving device and compare it to the transmitter output. Choose End. Test the discrete output. Press Service Tools→Simulate→Simulate Outputs→Discrete Output Test. Choose Off. Verify the signal state at the receiving device. Choose On. Verify the signal state at the receiving device. Micro Motion 9739 MVD Transmitters...
Page 61: Trim Ma Outputs
Quick start with the Field Communicator Choose End. Postrequisites • If the mA output readings were slightly off at the receiving device, you can correct this discrepancy by trimming the output. • If the mA output reading was significantly off (±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 62: Test Or Tune The System Using Sensor Simulation
Do not enable sensor simulation unless your process can tolerate the effects of the simulated process values. Procedure Navigate to the sensor simulation menu: Service Tools→Simulate→Simulate Sensor. Enable sensor simulation. For mass flow, set Wave Form as desired and enter the required values. Micro Motion 9739 MVD Transmitters...
Page 63 Quick start with the Field Communicator Option Required values Fixed Sim Fixed Value Sawtooth Sim Ramp Low Point Sim Ramp High Point Sim Ramp Period Sine Sim Ramp Low Point Sim Ramp High Point Sim Ramp Period For density, set Wave Form as desired and enter the required values. Option Required values Fixed value...
Page 64: Enable/Disable Hart Security
Remove the transmitter housing cover. Move the HART security switch to the desired position (see Figure 4-4). Figure 4-4 HART security switch (on blank display) HART security switch Unused Replace the transmitter housing cover. Restore power to the transmitter. Micro Motion 9739 MVD Transmitters...
Page 65: Reference Information For Commissioning
II II II Reference information for commissioning Chapters covered in this part: ♦ Configure process measurement ♦ Configure device options and preferences ♦ Integrate the meter with the control system...
Page 67: Configure Process Measurement
Chapter 5 Configure process measurement Topics covered in this chapter: ♦ Characterize the flowmeter ♦ Configure mass flow measurement ♦ Configure volume flow measurement for liquid applications ♦ Configure gas standard volume flow measurement ♦ Configure Flow Direction ♦ Configure density measurement ♦...
Page 68 • Figure 5-2: Newer curved-tube sensors (all sensors except T-Series) • Figure 5-3 : Older straight-tube sensors (T-Series) • Figure 5-4 : Newer straight-tube sensors (T-Series) Figure 5-1 Tag on older curved-tube sensors (all sensors except T-Series) Micro Motion 9739 MVD Transmitters...
Page 69 Configure process measurement Figure 5-2 Tag on newer curved-tube sensors (all sensors except T-Series) Figure 5-3 Tag on older straight-tube sensor (T-Series) Figure 5-4 Tag on newer straight-tube sensor (T-Series) Configuration and Use Manual...
Page 70: Configure Mass Flow Measurement
• For K2, enter the second 5 digits of the density calibration factor. In the sample tag in Figure 5-1, this value is shown as 14286. If your sensor does not show an FD value, contact flow.support@emerson.com . If your sensor tag does not show a DT or TC value, enter the last 3 digits of the density calibration factor.
Page 71 Configure process measurement 5.2.1 Configure Mass Flow Measurement Unit Display OFF-LINE MAINT→OFF-LINE CONFG→UNITS→MASS ProLink II ProLink→Configuration→Flow→Mass Flow Units Field Communicator Configure→Manual Setup→Measurements→Flow→Mass Flow Unit Mass Flow Measurement Unit specifies the unit will be used for the mass flow rate. The unit used for mass total and mass inventory is derived from this unit.
Page 72 Set Mass Total Label to the label to be used for the mass total and mass inventory unit. The special measurement unit is stored in the transmitter. You can configure the transmitter to use the special measurement unit at any time. Micro Motion 9739 MVD Transmitters...
Page 73 Configure process measurement t Example: Defining a special measurement unit for mass flow You want to measure mass flow in ounces per second. 1. Set Base Mass Unit to Pounds (lb). 2. Set Base Time Unit to Seconds (sec). 3. Calculate Mass Flow Conversion Factor: a.
Page 74 • AO Cutoff for the primary mA output: 10 grams/second • Mass Flow Cutoff: 15 grams/second Result: If the mass flow rate drops below 15 grams/second, mass flow will be reported as 0, and 0 will be used in all internal processing. Micro Motion 9739 MVD Transmitters...
Page 75: Configure Volume Flow Measurement For Liquid Applications
Configure process measurement t Example: Cutoff interaction Configuration: • mA Output Process Variable for the primary mA output: Mass Flow Rate • Frequency Output Process Variable: Mass Flow Rate • AO Cutoff for the primary mA output: 15 grams/second • Mass Flow Cutoff: 10 grams/second Result: •...
Page 76 The transmitter provides a standard set of measurement units for Volume Flow Measurement Unit, plus one user-defined special measurement unit. Different communications tool use different labels for the units. Options for Volume Flow Measurement Unit are shown in Table 5-2 . Micro Motion 9739 MVD Transmitters...
Page 77 Configure process measurement Table 5-2 Options for Volume Flow Measurement Unit for liquid applications Label Unit description Display ProLink II Field Communicator Cubic feet per second CUFT/S ft3/sec Cuft/s Cubic feet per minute CUF/MN ft3/min Cuft/min Cubic feet per hour CUFT/H ft3/hr Cuft/h...
Page 78 1 gal/sec = 8 pints/sec b. Volume Flow Conversion Factor = 1/8 = 0.1250 4. Set Volume Flow Conversion Factor to 0.1250. 5. Set Volume Flow Label to pints/sec. 6. Set Volume Total Label to pints. Micro Motion 9739 MVD Transmitters...
Page 79 Configure process measurement 5.3.3 Configure Volume Flow Cutoff Display Not available ProLink II ProLink→Configuration→Flow→Vol Flow Cutoff Field Communicator Configure→Manual Setup→Measurements→Flow→Volume Flow Cutoff Volume Flow Cutoff specifies the lowest volume flow rate that will reported as measured. All volume flow rates below this cutoff will be reported as 0. Procedure Set Volume Flow Cutoff to the desired value.
Page 80: Configure Gas Standard Volume Flow Measurement
Volume Flow Type controls whether liquid or gas standard volume flow measurement will be implemented. Restriction If you are using the petroleum measurement application, you must set Volume Flow Type to Liquid. Gas standard volume measurement is incompatible with the petroleum measurement application. Micro Motion 9739 MVD Transmitters...
Page 81 Configure process measurement Restriction If you are using the concentration measurement application, you must set Volume Flow Type to Liquid. Gas standard volume measurement is incompatible with the concentration measurement application. Procedure Set Volume Flow Type to Gas Standard Volume. 5.4.2 Configure Standard Gas Density Display...
Page 82 Not available minute Standard cubic meters per SM3/H Sm3/hr Not available hour Not available Standard cubic meters per SM3/D Sm3/day Standard liter per second SLPS SLPS Not available Standard liter per minute SLPM SLPM Not available Micro Motion 9739 MVD Transmitters...
Page 83 Configure process measurement Table 5-3 Options for Gas Standard Volume Measurement Unit continued Label Unit description Display ProLink II Field Communicator Not available Standard liter per hour SLPH SLPH Standard liter per day SLPD SLPD Not available Special measurement unit SPECL special Spcl...
Page 84 • Gas Standard Volume Flow Cutoff: 15 SLPM Result: If the Gas Standard Volume flow rate drops below 15 SLPM, volume flow will be reported as 0, and 0 will be used in all internal processing. Micro Motion 9739 MVD Transmitters...
Page 85: Configure Flow Direction
Configure process measurement t Example: Cutoff interaction with AO Cutoff higher than Gas Standard Volume Flow Cutoff Configuration: • mA Output Process Variable for the primary mA output: Gas Standard Volume Flow Rate • Frequency Output Process Variable: Gas Standard Volume Flow Rate •...
Page 86 • If Lower Range Value is set to a negative value, see Figure 5-6 . Figure 5-5 Effect of Flow Direction on the mA output: Lower Range Value = 0 Notes • Lower Range Value = 0 • Upper Range Value = x Micro Motion 9739 MVD Transmitters...
Page 87 Configure process measurement Figure 5-6 Effect of Flow Direction on the mA output: Lower Range Value < 0 Notes • Lower Range Value = −x • Upper Range Value = x t Example: Flow Direction = Forward and Lower Range Value = 0 Configuration: •...
Page 88 Negate Forward Zero 0 Hz Hz > 0 Negate Bidirectional Hz > 0 0 Hz Hz > 0 (1) Refer to the digital communications status bits for an indication of whether flow is positive or negative. Micro Motion 9739 MVD Transmitters...
Page 89 Configure process measurement Flow Direction and discrete outputs Discrete outputs are affected by Flow Direction only if Discrete Output Source is set to Flow Direction. Discrete output states for different combinations of Flow Direction and actual flow direction are shown in Table 5-6. Table 5-6 Effect of the Flow Direction parameter and actual flow direction on discrete outputs Actual flow direction...
Page 90: Configure Density Measurement
The default setting for Density Measurement Unit is g/cm3 (grams per cubic centimeter). Options for Density Measurement Unit The transmitter provides a standard set of units for Density Measurement Unit. Different communications tools use different labels. Options for Density Measurement Unit are shown in Table 5-9 . Micro Motion 9739 MVD Transmitters...
Page 91 Configure process measurement Table 5-9 Options for Density Measurement Unit Label Unit description Display ProLink II Field Communicator Specific gravity unit (not temperature-corrected) Grams per cubic G/CM3 g/cm3 g/Cucm centimeter Grams per liter Grams per milliliter G/mL g/ml g/mL Kilograms per liter KG/L kg/l kg/L...
Page 92 If the slug flow condition does not clear before Slug Duration expires, outputs that represent flow rate report a flow rate of 0. If Slug Duration is set to 0.0 seconds, outputs that represent flow rate will report a flow rate of 0 as soon as slug flow is detected. Micro Motion 9739 MVD Transmitters...
Page 93 Configure process measurement 5.6.3 Configure Density Damping Display Not available ProLink II ProLink→Configuration→Density→Density Damping Field Communicator Configure→Manual Setup→Measurements→Density→Density Damping Damping is used to smooth out small, rapid fluctuations in process measurement. The Damping Value specifies the time period (in seconds) over which the transmitter will spread changes in the reported process variable.
Page 94: Configure Temperature Measurement
Options for Temperature Measurement Unit The transmitter provides a standard set of units for Temperature Measurement Unit. Different communications tools use different labels. Micro Motion 9739 MVD Transmitters...
Page 95 Configure process measurement Options for Temperature Measurement Unit are shown in Table 5-10 . Table 5-10 Options for Temperature Measurement Unit Label Description Display ProLink II Field Communicator Degrees Celsius °C degC degC Degrees Fahrenheit °F degF degF Degrees Rankine °R degR degR...
Page 96: Configure Pressure Compensation
/PSI. Density Factor for your sensor is provided on the sensor product data sheet. When entering the value, reverse the sign. Example: If the density factor is 0.000006 g/cm /PSI, enter −0.000006 g/cm3/PSI. Enter Calibration Pressure for your sensor. Micro Motion 9739 MVD Transmitters...
Page 97: Configure The Petroleum Measurement Application
Configure process measurement Calibration Pressure is the pressure at which your sensor was calibrated, and therefore defines the pressure at which there will be no pressure effect. Calibration Pressure for your sensor is provided on the sensor calibration sheet. If the data is unavailable, enter 20 PSI. Decide how pressure data will be provided to the transmitter, and perform the required setup.
Page 98 Range: −0 to +40 Liquids with a User-supplied 60 °F (non- Degrees API constant density reference density (or configurable) base or known thermal expansion thermal expansion coefficient) coefficient and observed temperature Micro Motion 9739 MVD Transmitters...
Page 99: Configure The Concentration Measurement Application
Configure process measurement Table 5-11 API reference tables, associated process fluids, and associated calculation values continued Reference Table name Process fluid CTL source data temperature Density unit Generalized crude Observed density 60 °F (non- Relative density and JP4 and observed configurable) temperature Range: 0.6110 to...
Page 100 Set up polling for temperature, or configure the mA input to receive temperature data from an external measurement device. You can now configure your transmitter to report and handle concentration process variables in the same way that it reports and handles other process variables. Micro Motion 9739 MVD Transmitters...
Page 101 Configure process measurement 5.10.1 Concentration measurement application The concentration measurement application calculates concentration data from process temperature and density. Micro Motion provides a set of concentration curves that calculate concentration data for several standard industry applications and process fluids. If desired, you can configure a custom curve for your process fluid, or purchase a custom curve from Micro Motion.
Page 102 Mass concentration The percent ü ü ü ü derived from mass of solute reference density or of material in suspension in the total solution, derived from reference density Micro Motion 9739 MVD Transmitters...
Page 103 Configure process measurement Table 5-13 Derived variables and calculated process variables continued Calculated process variables Density at Standard Specific Concen- Net mass reference volume gravity tration flow rate volume tempera- flow rate flow rate Description ture Derived Variable Mass concentration The percent ü...
Page 105: Configure Device Options And Preferences
Chapter 6 Configure device options and preferences Topics covered in this chapter: ♦ Configure the transmitter display ♦ Enable or disable operator actions from the display ♦ Configure security for the display menus ♦ Configure the speed of the transmitter’s response to changes in process data ♦...
Page 106 Set Display Variable to the variable that you want to appear in that slot. t Example: Display variable configuration Display variable Process variable assignment Display Variable 1 Mass flow Display Variable 2 Mass totalizer Display Variable 3 Volume flow Display Variable 4 Volume totalizer Display Variable 5 Density Micro Motion 9739 MVD Transmitters...
Page 107 Configure device options and preferences Display variable Process variable assignment Display Variable 6 Temperature Display Variable 7 External pressure Display Variable 8 Mass flow Display Variable 9 None Display Variable 10 None Display Variable 11 None Display Variable 12 None Display Variable 13 None Display Variable 14...
Page 108 You may need to apply the Auto Scroll setting before you can access Scroll Rate. 6.1.6 Enable or disable the display backlight Display OFF-LINE MAINT→OFF-LINE CONFG→DISPLAY→BKLT ProLink II ProLink→Configuration→Display→Display Options→Display Backlight On/Off Field Communicator Not available You can enable or disable the backlight on the display’s LCD panel. Micro Motion 9739 MVD Transmitters...
Page 109: Enable Or Disable Operator Actions From The Display
Configure device options and preferences Procedure Enable or disable Backlight as desired. The default setting is Enabled. Enable or disable operator actions from the display Display OFF-LINE MAINT→OFF-LINE CONFG→DISPLAY ProLink II ProLink→Configuration→Display→Display Options Field Communicator Not available You can control whether or not the operator will be able to perform specific actions from the transmitter display.
Page 110 Disabled (default) Operators cannot reset totalizers from the display. Ensure that the totalizers to be reset from the display have been configured as display variables. Micro Motion 9739 MVD Transmitters...
Page 111: Configure Security For The Display Menus
Configure device options and preferences This function is accessed from the totalizer value on the display. If the appropriate totalizer is not configured as a display variable, the operator will not be able to reset it. 6.2.3 Enable or disable the Acknowledge All Alarms display command Display OFF-LINE MAINT→OFF-LINE CONFG→DISPLAY→ALARM ProLink II...
Page 112 If both Off-Line Password and Alarm Password are enabled, the operator is prompted for the off-line password at the top of the off-line menu, and is not prompted thereafter. (Optional) Set Off-Line Password to the desired value. The default value is 1234. The range is 0000 to 9999. Micro Motion 9739 MVD Transmitters...
Page 113: Configure The Speed Of The Transmitter's Response To Changes In Process Data
Configure device options and preferences Record your password for future reference. Configure the speed of the transmitter’s response to changes in process data Display Not available ProLink II ProLink→Configuration→Device→Response Time Field Communicator Not available You can configure the speed of the transmitter’s response to changes in process data. The following parameter is used to control the speed of the transmitter’s response: •...
Page 114: Configure Alarm Handling
Configure Status Alarm Severity Display Not available ProLink II ProLink→Configuration→Alarm→Severity Field Communicator Configure→Alert Setup→Alert Severity→Set Alert Severity Status Alarm Severity controls which set of fault actions the transmitter will perform when it detects an alarm. Micro Motion 9739 MVD Transmitters...
Page 115 Configure device options and preferences Restrictions • For some alarms, Status Alarm Severity is not configurable. • For some alarms, Status Alarm Severity can be set only to two of the three options. Procedure Select a status alarm. Set Status Alarm Severity as desired. Option Description Fault...
Page 116 Can be set to either Informational or Ignore, but cannot be set to Fault. A102 Drive overrange Informational A104 Calibration in progress Informational Can be set to either Informational or Ignore, but cannot be set to Fault. Micro Motion 9739 MVD Transmitters...
Page 117 Configure device options and preferences Table 6-1 Status alarms and Status Alarm Severity continued Alarm Status message Default code severity Notes Configurable? A105 Slug flow Informational A106 Burst mode enabled Informational Can be set to either Informational or Ignore, but cannot be set to Fault. A107 Power reset occurred Informational...
Page 118: Configure Informational Parameters
Configure informational parameters Display Not available ProLink II ProLink→Configuration→Sensor Field Communicator Configure→Manual Setup→Info Parameters The informational parameters can be used to identify or describe your flowmeter. They are not used in transmitter processing and are not required. Micro Motion 9739 MVD Transmitters...
Page 119 Configure device options and preferences The informational parameters include: • Device parameters − Descriptor − Message − Date • Sensor parameters − Sensor Serial Number − Sensor Model Number − Sensor Material − Sensor Liner Material − Sensor Flange Type 6.6.1 Configure Descriptor Display...
Page 120 Sensor Material is not used in transmitter processing and is not required. Procedure Obtain the material used for your sensor’s wetted parts from the documents shipped with your sensor, or from a code in the sensor model number. Micro Motion 9739 MVD Transmitters...
Page 121 Configure device options and preferences To interpret the model number, refer to the product data sheet for your sensor. Set Sensor Material to the appropriate option. 6.6.6 Configure Sensor Liner Material Display Not available ProLink II ProLink→Configuration→Sensor→Sensor Matl Field Communicator Configure→Manual Setup→Info Parameters→Sensor Information→Tube Lining Sensor Liner Material provides a place to store the type of material used for your sensor liner in transmitter memory.
Page 123: Integrate The Meter With The Control System
Chapter 7 Integrate the meter with the control system Topics covered in this chapter: ♦ Configure the mA outputs ♦ Configure the frequency output ♦ Configure the discrete output ♦ Configure the discrete input ♦ Configure the mA input ♦ Configure digital communications ♦...
Page 124 Options for mA Output Process Variable are listed in Table 7-1 . Table 7-1 Options for mA Output Process Variable Label Process variable Display ProLink II Field Communicator Mass flow rate MFLOW Mass Flow Rate Mass flo Volume flow rate VFLOW Volume Flow Rate Vol flo Micro Motion 9739 MVD Transmitters...
Page 125 Integrate the meter with the control system Table 7-1 Options for mA Output Process Variable continued Label Process variable Display ProLink II Field Communicator Gas standard volume GSV F Gas Std Vol Flow Rate Gas vol flo flow rate Temperature TEMP Temp Temp...
Page 126 Each option for mA Output Process Variable has its own LRV and URV. If you change the configuration of mA Output Process Variable, the corresponding LRV and URV are loaded and used. Default values for LRV and URV are shown in Table 7-2 . Micro Motion 9739 MVD Transmitters...
Page 127 Integrate the meter with the control system Table 7-2 Default values for Lower Range Value (LRV) and Upper Range Value (URV) Process variable All mass flow variables −200.000 g/sec 200.000 g/sec All liquid volume flow variables −0.200 l/sec 0.200 l/sec Gas standard volume flow −423.78 SCFM 423.78 SCFM...
Page 128 Added Damping is not applied if the mA output is fixed (for example, during loop testing) or if the mA output is reporting a fault. Added Damping is applied while sensor simulation is active. Procedure Set Added Damping to the desired value. The default value is 0.0 seconds. Micro Motion 9739 MVD Transmitters...
Page 129 Integrate the meter with the control system When you specify a value for Added Damping, the transmitter automatically rounds the value down to the nearest valid value. Valid values are shown in Table 7-3 . Table 7-3 Valid values for Added Damping Valid values for Added Damping 0.0, 0.1, 0.3, 0.75, 1.6, 3.3, 6.5, 13.5, 27.5, 55.0, 110, 220, 440 Interaction of damping parameters...
Page 130: Configure The Frequency Output
Configure the frequency output Display OFF-LINE MAINT→OFF-LINE CONFG→IO→FO ProLink II ProLink→Configuration→Frequency Field Communicator Configure→Manual Setup→Inputs/Outputs→Frequency Output The frequency output is used to report a process variable. The frequency output parameters control how the process variable is reported. Micro Motion 9739 MVD Transmitters...
Page 131 Integrate the meter with the control system The frequency output parameters include: • Frequency Output Process Variable • Frequency Output Scaling Method • Frequency Output Maximum Pulse Width • Frequency Output Polarity • Frequency Output Fault Action and Frequency Output Fault Value •...
Page 132 You want the frequency output to report all flow rates up to 2000 kg/min. The frequency receiving device is configured for 10 pulses/kg. Solution: Set parameters as follows: • Rate Factor: 2000 • Frequency Factor: 333.33 Micro Motion 9739 MVD Transmitters...
Page 133 0.5 milliseconds and 277.5 milliseconds. The transmitter automatically adjusts the value to the nearest valid value. Micro Motion recommends leaving Frequency Output Maximum Pulse Width at the default value. Contact before changing Frequency Output Maximum Pulse Width. flow.support@emerson.com 7.2.3 Configure Frequency Output Polarity Display OFF-LINE MAINT→OFF-LINE CONFG→IO→FO→POLAR...
Page 134 If you set Frequency Output Fault Action to Upscale, set Frequency Fault Level to the desired value. The default value is 15000 Hz. The range is 10 Hz to 15000 Hz. Options for Frequency Output Fault Action Options for Frequency Output Fault Action are shown in Table 7-7 . Micro Motion 9739 MVD Transmitters...
Page 135: Configure The Discrete Output
Integrate the meter with the control system Table 7-7 Options for Frequency Output Fault Action Code ProLink II Field Communicator Frequency output behavior Upscale Upscale Goes to configured Upscale value: • Range: 10 Hz to 15000 Hz • Default: 15000 Hz Downscale Downscale 0 Hz...
Page 136 (2) Assumes that Discrete Output Polarity is set to Active High. If Discrete Output Polarity is set to Active Low, reverse the voltage values. (3) Events configured using the enhanced event model. (4) Events configured using the basic event model. Micro Motion 9739 MVD Transmitters...
Page 137 Integrate the meter with the control system Table 7-8 Options for Discrete Output Source continued Code Field Communi- Discrete output Option Display ProLink II cator Condition voltage Flow Switch (5)(6) FL SW Flow Switch Flow Switch Site-specific Indication Flow Direction FLDIR Forward/Re- Forward/Re-...
Page 138 • When asserted (condition tied to DO is true), the circuit provides 0 V. • When not asserted (condition tied to DO is false), the circuit provides a pull-up to a site-specific voltage, to a maximum of 30 V. Micro Motion 9739 MVD Transmitters...
Page 139 Integrate the meter with the control system 7.3.3 Configure Discrete Output Fault Action Display Not available ProLink II ProLink→Configuration→Discrete Output→Discrete Output→DO Fault Action Field Communicator Configure→Manual Setup→Inputs/Outputs→Discrete Output→DO Fault Action Discrete Output Fault Action controls the behavior of the discrete output if the transmitter encounters an internal fault condition.
Page 140: Configure The Discrete Input
OFF-LINE MAINT→OFF-LINE CONFG→IO→DI→DI ACT ProLink II ProLink→Configuration→Discrete Input→Assignment Field Communicator Configure→Alert Setup→Discrete Events→Assign Discrete Action Discrete Input Action controls the action or actions that the transmitter will perform when the discrete input transitions from OFF to ON. Micro Motion 9739 MVD Transmitters...
Page 141 Integrate the meter with the control system Before assigning actions to an enhanced event or discrete input, check the status of the event or the remote input device. If it is ON, all assigned actions will be performed when the new configuration is implemented.
Page 142: Configure The Ma Input
Input Process Variable specifies the type of process data that you are receiving from the external measurement device. Procedure Set the mA Input Process Variable as desired. Option Description None No external data External pressure The remote device measures pressure. External temperature The remote device measures temperature. Micro Motion 9739 MVD Transmitters...
Page 143 Integrate the meter with the control system The default setting is None. Configure the transmitter’s measurement units to match the measurement units used by the remote device. • To configure pressure measurement units: − Using the display, choose OFF-LINE MAINT→OFF-LINE CONFG→UNITS→PRESS −...
Page 144: Configure Digital Communications
HART/Bell 202 network. The HART/Bell 202 communications parameters include: • HART Address (Polling Address) • Loop Current Mode (ProLink II) or mA Output Action (Field Communicator) • Burst Parameters (optional) • HART Variables (optional) Micro Motion 9739 MVD Transmitters...
Page 145 Integrate the meter with the control system Procedure Set HART Address to a value between 0 and 15. HART Address must be unique on the network. The default address (0) is typically used unless you are in a multidrop environment. Devices using HART protocol to communicate with the transmitter may use either HART Address or HART Tag (Software Tag) to identify the transmitter.
Page 146 Primary Variable (PV), Secondary Variable (SV), Tertiary Variable (TV), and Quaternary Variable (QV). You can assign specific process variables to the HART variables, and then use standard HART methods to read or broadcast the assigned process data. Micro Motion 9739 MVD Transmitters...
Page 147 Integrate the meter with the control system Options for HART variables Options for HART variables are shown in Table 7-12 . Table 7-12 Options for HART variables Process variable Mass flow rate ü ü ü ü Line (Gross) Volume flow rate ü...
Page 148 Configure HART/RS-485 communications Display Not available ProLink II ProLink→Configuration→Device→Digital Comm Setting Field Communicator Configure→Manual Setup→Inputs/Outputs→Communications→Setup RS-485 Port HART/RS-485 communications parameters support HART communication with the transmitter's RS-485 terminals. HART/RS-485 communication parameters include: • HART Address (Polling Address) Micro Motion 9739 MVD Transmitters...
Page 149 Integrate the meter with the control system Important To minimize configuration requirements, the 9739 MVD transmitter uses an auto-detection scheme when responding to a connection request. With this auto-detect feature, you do not need to enter some HART communication parameters. Procedure Set HART Address to a value between 0 and 15.
Page 150 ProLink→Configuration→Device→Digital Comm Settings→Digital Comm Fault Setting Field Communicator Configure→Alert Setup→Inputs/Outputs Fault Actions→Digital Communications Digital Communications Fault Action specifies the values that will be reported via digital communications if the transmitter encounters an internal fault condition. Micro Motion 9739 MVD Transmitters...
Page 151 Integrate the meter with the control system Procedure Set Digital Communications Fault Action as desired. The default setting is None. Options for Digital Communications Fault Action Options for Digital Communications Fault Action are shown in Table 7-15. Table 7-15 Options for Digital Communications Fault Action Code ProLink II Field Communicator...
Page 152: Configure Events
> A The event will occur if the value of the assigned process variable (x) is less than the setpoint (Setpoint A), endpoint not included. x < A Assign a process variable to the event. Micro Motion 9739 MVD Transmitters...
Page 153 Integrate the meter with the control system Set a value for the setpoint (Setpoint A). (Optional) Configure a discrete output to switch states according to event status. 7.7.2 Configure an enhanced event Display Not available ProLink II ProLink→Configuration→Discrete Events Field Communicator Configure→Alert Setup→Discrete Events→Discrete Events 1–5 An “enhanced”...
Page 154: Set Up Polling For Pressure
If this is not acceptable, wait until an appropriate time to assign actions to the event or discrete input. Set up polling for pressure Display Not available ProLink II ProLink→Configuration→Polled Variables→External Pressure Field Communicator Configure→Manual Setup→Measurements→External Compensation→External Polling Micro Motion 9739 MVD Transmitters...
Page 155 Integrate the meter with the control system The transmitter can poll an external pressure device for current pressure data. The pressure value is used only for pressure compensation. If you are not implementing pressure compensation, do not set up polling for pressure. To obtain value from pressure compensation, the external measurement device must be reliable and accurate.
Page 156: Set Up Polling For Temperature
If you set up polling for both temperature and pressure, use the same Polling Control option for both. If you do not, Primary will be used for both devices. (ProLink II only) Click Apply to enable the polling controls. Micro Motion 9739 MVD Transmitters...
Page 157 Integrate the meter with the control system Enter the device tag of the external measurement device. Set Process Variable to Temperature. Postrequisites Verify that the transmitter is receiving the external data. To do this: • Using ProLink II, click ProLink→Process Variables and check the External Temperature value. •...
Page 159: Operations, Maintenance, And Troubleshooting
III III III Operations, maintenance, and troubleshooting Chapters covered in this part: ♦ Transmitter operation ♦ Measurement support ♦ Troubleshooting...
Page 161: Chapter 8 Transmitter Operation
Chapter 8 Transmitter operation Topics covered in this chapter: ♦ Record the process variables ♦ View process variables ♦ View transmitter status ♦ View and acknowledge status alarms ♦ Start and stop totalizers and inventories ♦ Reset mass and volume totalizers ♦...
Page 162 Figure 8-1 identifies the features of the transmitter display. Figure 8-1 Transmitter display features Process variable Current value Unit of measure Optical switch indicator, turns red when Select activated Optical switch: Select Optical switch: Scroll Optical switch indicator, turns red when Scroll activated Micro Motion 9739 MVD Transmitters...
Page 163: View Transmitter Status
Transmitter operation View transmitter status Display See Section 8.3.1. ProLink II Prolink→Status Field Communicator Overview→Check Status 8.3.1 View transmitter status using the status LED The status LED is located on the user interface module of the transmitter. Procedure View the status LED on the user interface module of the transmitter. •...
Page 164 Operator access to the alarm menu must be enabled (default setting). If operator access to the alarm menu is disabled, you must use ProLink II or the Field Communicator to view or acknowledge status alarms. Procedure To view or acknowledge status alarms, follow the procedure in Figure 8-2. Micro Motion 9739 MVD Transmitters...
Page 165 Transmitter operation Figure 8-2 Using the display to view and acknowledge the status alarms 8.4.2 View or acknowledge status alarms with ProLink II You can view or acknowledge alarms two ways: using the Status window or the Alarm Log window. You can view alarms in both windows, but you cannot acknowledge alarms from within the Status window.
Page 166 − If Severity is Fault, outputs go to their configured Fault Action (after the configured fault timeout has expired). − If the Severity is Information or Ignore, outputs are not affected. They continue to report process data. Micro Motion 9739 MVD Transmitters...
Page 167: Start And Stop Totalizers And Inventories
Transmitter operation When the transmitter detects that the alarm condition has cleared: • First status flag is set to Inactive. • Second status flag is unchanged: Unacknowledged. • (For Fault alarms only) Outputs return to reporting process data. Operator action is required to change the second status flag; however, alarm acknowledgement is not necessary.
Page 168: Reset Mass And Volume Totalizers
• To reset the volume (liquid or gas) totalizers using the display: Scroll until the volume totalizer value appears. Select. Scroll until RESET appears beneath the current totalizer value. Select. Select again to confirm. Scroll to EXIT. Select. Micro Motion 9739 MVD Transmitters...
Page 169: Reset Mass And Volume Inventories Using Prolink Ii
Transmitter operation Reset mass and volume inventories using ProLink II Prerequisites To reset the mass and volume inventories, you must enable this feature in the ProLink II Preferences window. To enable inventory reset using ProLink II, do the following: 1. Click View→Preferences. 2.
Page 171: Chapter 9 Measurement Support
Chapter 9 Measurement support Topics covered in this chapter: ♦ Options for measurement support ♦ Validate the meter ♦ Perform a (standard) D1 and D2 density calibration ♦ Perform a D3 and D4 density calibration (T-Series sensors only) ♦ Perform temperature calibration Options for measurement support Micro Motion provides several measurement support procedures to help you evaluate and maintain your flowmeter's accuracy.
Page 172 For good results, the reference device must be highly accurate. Procedure Determine the meter factor as follows: Use the flowmeter to take a sample measurement. Measure the same sample using the reference device. Calculate the meter factor using the following formula: Micro Motion 9739 MVD Transmitters...
Page 173 Measurement support Ensure that the calculated meter factor is between 0.8 and 1.2, inclusive. If the meter factor is outside these limits, contact Micro Motion Customer Service. Configure the meter factor in the transmitter. • To set the meter factor using the display: OFF-LINE MAINT→CONFG→UNITS→MTR F •...
Page 174: Perform A (Standard) D1 And D2 Density Calibration
Calibrate the flowmeter only if you must do so to meet regulatory requirements. Contact Micro Motion before calibrating the flowmeter. Micro Motion recommends using meter validation and meter factors, rather than calibration, to prove the meter against a regulatory standard or to correct measurement error. Micro Motion 9739 MVD Transmitters...
Page 175 Measurement support 9.3.1 Perform a D1 and D2 density calibration using ProLink II 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. This is usually accomplished by closing the shutoff valve downstream from the sensor, then filling the sensor with the appropriate fluid.
Page 176 • Before performing the calibration, record your current calibration parameters. If the calibration fails, restore the known values. Restriction For T-Series sensors, the D1 calibration must be performed on air and the D2 calibration must be performed on water. Micro Motion 9739 MVD Transmitters...
Page 177: Perform A D3 And D4 Density Calibration (T-Series Sensors Only)
Measurement support For T-Series sensors only, you have the option to perform a D3 and D4 calibration to improve the accuracy of the density measurement if the fluid density is outside of the 0.8 g/cm to 1.2 g/cm density range. If you choose to perform the D3 and D4 calibration, do not perform the D1 and D2 calibration. Procedure To perform a D1 and D2 calibration, see Figure 9-2 .
Page 178 PC. If the calibration fails, restore the known values. Procedure To perform a D3 calibration or D3 and D4 calibration using ProLink II, see Figure 9-3. Micro Motion 9739 MVD Transmitters...
Page 179 Measurement support Figure 9-3 D3 or D3 and D4 density calibration using ProLink II 9.4.2 Perform a D3 and D4 density calibration using Field Communicator 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 180: Perform Temperature Calibration
The two parts must be performed without interruption, in the order shown. Make sure that you are prepared to complete the process without interruption. You must use ProLink II to calibrate for temperature. Micro Motion 9739 MVD Transmitters...
Page 181 Measurement support Important Consult Micro Motion before performing a temperature calibration. Under normal circumstances, the temperature circuit is stable and should not need an adjustment. Procedure See Figure 9-5 for the procedure to perform a temperature calibration using ProLink II. Figure 9-5 Temperature calibration using ProLink II Configuration and Use Manual...
Page 183: Chapter 10 Troubleshooting
Chapter 10 Troubleshooting Topics covered in this chapter: ♦ Transmitter status LED states ♦ Status alarms ♦ Flow problems ♦ Density problems ♦ Temperature problems ♦ Milliamp output problems ♦ Frequency output problems ♦ Use sensor simulation for troubleshooting ♦ Check power supply wiring ♦...
Page 184: Status Alarms
• Check for slug flow. See Section 10.24. • Check the drive gain and the pickoff voltage. See Section 10.25 and Section 10.26 . • Check for electrical shorts. See Section 10.27 . • Check sensor tubes. • Contact Micro Motion. Micro Motion 9739 MVD Transmitters...
Page 185 Troubleshooting Table 10-2 Status alarms and recommended actions continued Alarm code Description Cause Recommended actions A006 Transmitter not Calibration factors • Verify characterization parameters. configured have not been entered and the sensor type is • Contact Micro Motion. incorrect. A008 Density overrange The measured density •...
Page 186 A021 Incorrect sensor type The sensor is • Verify characterization parameters. recognized as a straight tube but the K1 value indicates a curved tube, or vice versa. Micro Motion 9739 MVD Transmitters...
Page 187 Troubleshooting Table 10-2 Status alarms and recommended actions continued Alarm code Description Cause Recommended actions A027 Security breach • Check the HART device ID. • The weights and measures security seal has been broken. An authorized procedure is required to reestablish security.
Page 188 • Purge the flow tubes. A111 Frequency output fixed User has fixed the • Check that the transmitter is in loop test frequency output. mode. • Check that the output has been fixed via digital communication. Micro Motion 9739 MVD Transmitters...
Page 189 Troubleshooting Table 10-2 Status alarms and recommended actions continued Alarm code Description Cause Recommended actions A113 Secondary mA output • Check process conditions. Actual saturated conditions may be outside of the normally expected conditions for which the output is configured. •...
Page 190: Flow Problems
• Bad sensor zero • Check for open or leaking valves or seals. • Check for mounting stress on the sensor (e.g., sensor being used to support piping, misaligned piping). • Contact Micro Motion. Micro Motion 9739 MVD Transmitters...
Page 191 Troubleshooting Table 10-3 Flow problems and recommended actions continued Problem Possible causes Recommended actions Erratic non-zero flow • Leaking valve or seal • Verify that the sensor orientation is rate under no-flow appropriate for your application (refer to conditions • Slug flow the sensor installation manual).
Page 192 • Verify that the receiving device, and the • Problem with receiving device wiring between the transmitter and the receiving device • Wiring problem • Check the wiring between the sensor and transmitter. See Section 10.10. Micro Motion 9739 MVD Transmitters...
Page 193: Density Problems
Troubleshooting 10.4 Density problems Table 10-4 Density problems and recommended actions Problem Possible causes Recommended actions Inaccurate density • Problem with process fluid • Verify process conditions. reading • Bad density calibration factors • Verify characterization parameters. • Wiring problem •...
Page 194: Milliamp Output Problems
• Check the Fault Action settings. See consistently out of upscale or downscale Section 10.18. range • LRV and URV are not set correctly • Check the settings of Upper Range Value and Lower Range Value. See Section 10.17 . Micro Motion 9739 MVD Transmitters...
Page 195: Frequency Output Problems
Troubleshooting Table 10-6 Milliamp output problems and recommended actions continued Problem Possible causes Recommended actions Consistently • Output not trimmed correctly • Check the mA output trim. See Section incorrect mA 10.16 . measurement • Incorrect flow measurement unit configured •...
Page 196: Use Sensor Simulation For Troubleshooting
Verify that the power supply wires are making good contact, and are not clamped to the wire insulation. Inspect the voltage label on the inside of the field-wiring compartment. The voltage supplied to the transmitter should match the voltage specified on the label. Reapply power to the transmitter. Micro Motion 9739 MVD Transmitters...
Page 197: Check Sensor-To-Transmitter Wiring
Troubleshooting If the transmitter is in a hazardous area, do not reapply power to the transmitter with the housing cover removed. Reapplying power to the transmitter while the housing cover is removed could cause an explosion. Use a voltmeter to test the voltage at the transmitter’s power supply terminals. The voltage should be within specified limits.
Page 198: Check Hart Communication Loop
If the HART Address is configured to a value other than 0, some configuration tools will automatically change Loop Current Mode as well. If Loop Current Mode is Disabled, the primary mA output will not report process variable data or indicate fault conditions. Micro Motion 9739 MVD Transmitters...
Page 199: Check Hart Burst Mode
Troubleshooting Procedure Set HART Address as appropriate for your HART network. Set Loop Current Mode to Enabled. 10.15 Check HART burst mode Procedure Check to see if burst mode is enabled or disabled. If burst mode is enabled, disable it. 10.16 Check mA output trim There are four mA output trim values: a 4 mA and a 20 mA trim value for each mA output.9739...
Page 200: Check Frequency Output Maximum Pulse Width And Frequency Output Scaling Method
There are separate cutoff parameters for mass flow, volume flow (including gas standard volume flow), and density. Furthermore, there is an independent cutoff for each mA output. The interaction between cutoffs sometimes produce unexpected results. Procedure Verify the configuration of the cutoffs. Micro Motion 9739 MVD Transmitters...
Page 201: Check For Slug Flow
Troubleshooting For typical applications, Micro Motion recommends setting Flow Cutoff to the zero stability of your sensor, multiplied by 10. 10.24 Check for slug flow The default slug flow limits are appropriate for most applications. Raising the low slug flow limit or lowering the high slug flow limit will increase the possibility of the transmitter reporting slug flow conditions.
Page 202 Foreign material caught in flow tubes • Purge the flow tubes. • Replace the sensor. 10.25.1 Collect drive gain data Prerequisites You will need either ProLink II or a Field Communicator to collect the drive gain data. Micro Motion 9739 MVD Transmitters...
Page 203: Check The Pickoff Voltage
Troubleshooting Procedure Navigate to the drive gain data: • If you are using ProLink II, choose ProLink→Diagnostic Information. • If you are using a Field Communicator, choose 3 Service Tools→4 Maintenance→5 Diagnostic Variables Observe and record drive gain data over an appropriate period of time, under a variety of process conditions.
Page 204: Check For Electrical Shorts
Right pickoff coil (RPO) Blue to gray Resistance temperature detector Yellow to violet (RTD) Lead length compensator (LLC) All except T-Series and CMF400 Yellow to orange Composite RTD T-Series Yellow to orange Fixed resistor CMF400 Yellow to orange Micro Motion 9739 MVD Transmitters...
Page 205 Troubleshooting There should be no open circuits, that is, no infinite resistance readings. The left pickoff and right pickoff readings should be the same or very close (±5 Ω). If there are any unusual readings, repeat the coil resistance tests at the sensor junction box to eliminate the possibility of faulty cable. The readings for each coil pair should match at both ends.
Page 207: Appendices And Reference
Appendices and reference...
Page 209: Appendix A Default Values And Ranges
Appendix A Default values and ranges Topics covered in this appendix: ♦ Default values and ranges Default values and ranges See Table A-1 for the default values and ranges for the most frequently used transmitter settings. Table A-1 Transmitter default values and ranges Type Setting Default...
Page 210 User-entered value is corrected to nearest lower value in list of preset values. Temperature Temperature units Deg C Temperature calibration factor 1.00000T0.00 Pressure units Flow factor Pressure Density factor Cal pressure T-Series sensor DFQ1 DFQ2 Micro Motion 9739 MVD Transmitters...
Page 211 Default values and ranges Table A-1 Transmitter default values and ranges continued Type Setting Default Range Comments Base mass unit Base mass time Mass flow conversion factor Special units Base volume unit Base volume time Volume flow conversion factor Primary variable Mass flow Secondary variable Density...
Page 212 Display totalizer start/stop Disabled Display totalizer reset Disabled Display auto scroll Disabled Display offline menu Enabled Display offline password Disabled Display alarm menu Enabled Display acknowledge all alarms Enabled Offline password 1234 Auto scroll rate 10 sec Micro Motion 9739 MVD Transmitters...
Page 213: Appendix B Transmitter Components And Installation Wiring
Appendix B Transmitter components and installation wiring Topics covered in this appendix: ♦ Transmitter components ♦ Transmitter-to-sensor wiring ♦ Power supply terminals ♦ Input/output (I/O) terminals Transmitter components You may need to identify the transmitter components for certain operational or troubleshooting tasks. See Figure B-1 .
Page 214 Electronics module Intrinsically safe sensor wiring terminals Non–intrinsically-safe output wiring terminals Conduit opening for sensor wiring Conduit opening for power supply wiring Conduit opening for output wiring Housing base User interface: with or without display options Micro Motion 9739 MVD Transmitters...
Page 215: Transmitter-To-Sensor Wiring
Transmitter components and installation wiring Transmitter-to-sensor wiring Refer to the Micro Motion 9739 MVD Transmitters: Installation Manual for all safety and detailed wiring information for the 9739 MVD transmitter. You are responsible for following all safety and wiring instructions documented in the transmitter installation manual, plus any additional site requirements.
Page 216: Input/Output (I/O) Terminals
Power ground terminal Input/output (I/O) terminals Refer to the Micro Motion 9739 MVD Transmitters: Installation Manual for all safety and detailed wiring information for the 9739 MVD transmitter. You are responsible for following all safety and wiring instructions documented in the transmitter installation manual, plus any additional site requirements.
Page 217 Transmitter components and installation wiring Figure B-3 I/O terminals Table B-2 I/O terminals and functions Terminal Function Frequency output, DC supply voltage (+) 15 and 16 Frequency/pulse output (+) Return Primary variable (PV+) mA output Primary variable (PV–) mA output Secondary variable (SV+) mA output Secondary variable (SV–) mA output 21 and 16...
Page 219: Appendix C Using The Transmitter Display
Appendix C Using the transmitter display Topics covered in this appendix: ♦ Components of the transmitter interface ♦ Access and use the display menu system ♦ Display codes for process variables ♦ Codes and abbreviations used in display menus ♦ Menu maps for the transmitter display Components of the transmitter interface See Figure C-1 to view a transmitter with a display.
Page 220 Process variable HART security switch Unused Optical switch indicator for Scroll Scroll optical switch HART clips Unused Service port clips Select optical switch Optical switch indicator for Select Unit of measure Status LED Current value Micro Motion 9739 MVD Transmitters...
Page 221: Access And Use The Display Menu System
Using the transmitter display Figure C-2 Transmitter without display Zero button HART security switch Unused HART clips Service port clips Status LED Access and use the display menu system Prerequisites To access the display menu system, operator access to either the Off-Line menu or the Alarm menu must be enabled.
Page 222 The display allows you to enter a maximum of 8 characters, including the sign. The decimal point is not counted as a character. Exponential notation is used to enter values that require more than 8 characters. Micro Motion 9739 MVD Transmitters...
Page 223 Using the transmitter display Enter a floating-point value using decimal notation Decimal notation allows you to enter values between –9999999 and 99999999. You can use the decimal point to enter values with a precision of 0 through 4 (4 digits to the right of the decimal point). Decimal values entered via the display must meet the following requirements: •...
Page 224 Activate Select to move the cursor to the rightmost character on the display. Activate Scroll until the desired character is displayed. Activate Select to move the cursor one position to the left. Activate Scroll until the desired character is displayed. Enter the mantissa. Micro Motion 9739 MVD Transmitters...
Page 225: Display Codes For Process Variables
Using the transmitter display The mantissa must be a four-digit value with a precision of three; i.e., values between 0.000 and 9.999. Activate Select to move the cursor to the rightmost digit in the mantissa. Activate Scroll until the desired character is displayed. Activate Select to move the cursor one digit to the left.
Page 226: Codes And Abbreviations Used In Display Menus
TCVOL Temperature-corrected volume Petroleum measurement application only TUBEF Raw tube frequency WTAVE Weighted average Codes and abbreviations used in display menus Table C-3 lists and defines the codes and abbreviations used in the display menus. Micro Motion 9739 MVD Transmitters...
Page 227 Using the transmitter display Table C-3 Codes and abbreviations used in display menus Code or abbreviation Definition Comment or reference Acknowledge alarm ACK ALARM ACK ALL Acknowledge all alarms Action ADDR Address AO 1 SRC Fixed to the process variable assigned to the primary output Analog output 1 (primary mA output) Analog output 2 (secondary mA output)
Page 228 LOCK Write-protect Loop current LOOP CUR MTR F Meter factor M_ASC Modbus ASCII M_RTU Modbus RTU MAO1 mA output 1 (primary mA output) MAO2 mA output 2 (secondary mA output) MASS Mass flow MBUS Modbus Micro Motion 9739 MVD Transmitters...
Page 229: Menu Maps For The Transmitter Display
Using the transmitter display Table C-3 Codes and abbreviations used in display menus continued Code or abbreviation Definition Comment or reference MFLOW Mass flow Measurement MSMT OFFLN Off-line OFF-LINE Off-line maintenance MAINT P/UNT Pulses/unit POLAR Polarity Pressure PRESS QUAD Quadrature Revision SCALE Scaling method...
Page 230 Using the transmitter display Figure C-4 Offline menu – version information Micro Motion 9739 MVD Transmitters...
Page 231 Using the transmitter display Figure C-5 Offline menu – configuration: units and I/O Configuration and Use Manual...
Page 232 Using the transmitter display Figure C-6 Offline menu – configuration: meter factors, volume Micro Motion 9739 MVD Transmitters...
Page 233 Using the transmitter display Figure C-7 Offline menu – configuration: display Configuration and Use Manual...
Page 234 Using the transmitter display Figure C-8 Offline menu – Simulation (loop testing) Micro Motion 9739 MVD Transmitters...
Page 235 Using the transmitter display Figure C-9 Offline menu – Simulation: loop testing (continued) Configuration and Use Manual...
Page 236 Using the transmitter display Figure C-10 Offline menu – Zero Micro Motion 9739 MVD Transmitters...
Page 237: Appendix D Using Prolink Ii With The 9739 Mvd Transmitter
Appendix D Using ProLink II with the 9739 MVD transmitter Topics covered in this appendix: ♦ Basic information about the ProLink II software tool ♦ Menu maps for ProLink II Basic information about the ProLink II software tool ProLink II is a software tool available from Micro Motion. It runs on a Windows platform and provides complete access to transmitter functions and data.
Page 238: Menu Maps For Prolink Ii
Using ProLink II with the 9739 MVD transmitter Menu maps for ProLink II Figure D-1 Main menu Micro Motion 9739 MVD Transmitters...
Page 239 Using ProLink II with the 9739 MVD transmitter Figure D-2 Configuration menu Configuration and Use Manual...
Page 240 Using ProLink II with the 9739 MVD transmitter Figure D-3 Configuration menu (continued) Micro Motion 9739 MVD Transmitters...
Page 241 Using ProLink II with the 9739 MVD transmitter Figure D-4 Configuration menu (continued) Configuration and Use Manual...
Page 243: Appendix E Using The Field Communicator With The 9739 Mvd Transmitter
Appendix E Using the Field Communicator with the 9739 MVD transmitter Topics covered in this appendix: ♦ Basic information about the Field Communicator ♦ Menu maps for the Field Communicator Basic information about the Field Communicator The Field Communicator is a handheld configuration and management tool that can be used with a variety of devices, including Micro Motion transmitters.
Page 244: Menu Maps For The Field Communicator
This manual does not document all of these messages and notes. Important The user is responsible for responding to messages and notes and complying with all safety messages. Menu maps for the Field Communicator Figure E-1 On-Line menu Micro Motion 9739 MVD Transmitters...
Page 245 Using the Field Communicator with the 9739 MVD transmitter Figure E-2 Overview menu Configuration and Use Manual...
Page 246 Using the Field Communicator with the 9739 MVD transmitter Figure E-3 Configure menu: top level Micro Motion 9739 MVD Transmitters...
Page 247 Using the Field Communicator with the 9739 MVD transmitter Figure E-4 Configure menu: Manual Setup: Characterize Configuration and Use Manual...
Page 248 Using the Field Communicator with the 9739 MVD transmitter Figure E-5 Configure menu: Manual Setup: Measurements Micro Motion 9739 MVD Transmitters...
Page 249 Using the Field Communicator with the 9739 MVD transmitter Figure E-6 Configure menu: Manual Setup: Display Figure E-7 Configure menu: Manual Setup: Inputs/Outputs Configuration and Use Manual...
Page 250 Using the Field Communicator with the 9739 MVD transmitter Figure E-8 Configure menu: Manual Setup: Inputs/Outputs (continued) Micro Motion 9739 MVD Transmitters...
Page 251 Using the Field Communicator with the 9739 MVD transmitter Figure E-9 Configure menu: Alert Setup Figure E-10 Service Tools menu: top level Configuration and Use Manual...
Page 252 Using the Field Communicator with the 9739 MVD transmitter Figure E-11 Service Tools menu: Variables Micro Motion 9739 MVD Transmitters...
Page 253 Using the Field Communicator with the 9739 MVD transmitter Figure E-12 Service Tools menu: Maintenance Figure E-13 Service Tools menu: Simulate Configuration and Use Manual...
Page 254 T +65 6777–8211 F +31 (0) 318 495 556 F +65 6770–8003 Micro Motion United Kingdom Micro Motion Japan Emerson Process Management Emerson Process Management Limited Horsfield Way 1–2–5, Higashi Shinagawa Bredbury Industrial Estate Shinagawa-ku Stockport SK6 2SU U.K. Tokyo 140–0002 Japan T +44 0870 240 1978 T +81 3 5769–6803...

Emerson Micro Motion 9739 MVD Configuration And Use Manual

Chapter 1 Before You Begin

Chapter 2 Quick Start with the Display

Chapter 3 Quick Start with Prolink II

Chapter 4 Quick Start with the Field Communicator

Chapter 5 Configure Process Measurement

Chapter 6 Configure Device Options and Preferences

Chapter 7 Integrate the Meter with the Control System

Chapter 8 Transmitter Operation

Chapter 9 Measurement Support

Chapter 10 Troubleshooting

Appendix A Default Values and Ranges

Appendix B Transmitter Components and Installation Wiring

Appendix C Using the Transmitter Display

Appendix D Using Prolink II with the 9739 MVD Transmitter

Appendix E Using the Field Communicator with the 9739 MVD Transmitter

Quick Links

Troubleshooting

Related Manuals for Emerson Micro Motion 9739 MVD

Summary of Contents for Emerson Micro Motion 9739 MVD

Table of Contents