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Emerson Network Router User Manual

Emerson Network Router User Manual

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Instruction Manual
P/N 20001909, Rev. DA
August 2009
®
ProLink
for Micro Motion
Transmitters
Installation and Use Manual
II Software
®

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  • Page 1 Instruction Manual P/N 20001909, Rev. DA August 2009 ® ProLink II Software for Micro Motion Transmitters Installation and Use Manual ®...
  • Page 2 © 2009 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 companies. All...

  • Page 3: Table Of Contents

    Contents Chapter 1 Before You Begin ........1 About this manual .
  • Page 4 Contents 3.10 Managing the ProLink II license ........34 3.10.1 3.10.2 Chapter 4...
  • Page 5 Contents Appendix B Configuring the Discrete Batch Application ....73 About this appendix..........73 About discrete batching.
  • Page 6 ® ® ProLink II Software for Micro Motion Transmitters...

  • Page 7: Chapter 1 Before You Begin

    Chapter 1 Before You Begin About this manual This manual explains how to install the Micro Motion on your personal computer (PC). This manual also provides an overview of using ProLink II with Micro Motion transmitters. Before using this instruction manual, the reader should be familiar with the Microsoft Windows operating system.

  • Page 8: Uses Of Prolink Ii

    Before You Begin 1.2.2 Uses of ProLink II Using ProLink II, you can: • Perform initial transmitter startup procedures • Read process variables • Manage totalizers and inventories • Configure the transmitter • Perform verification and calibration procedures • Read meter status information and alarm conditions •...

  • Page 9: Determining Your Transmitter Type

    In Europe: In the U.K., phone 0870 240 1978 (toll-free) In other locations, phone +31 (0) 318 495 555 (The Netherlands) Customers outside the U.S.A. can also email Micro Motion customer service at flow.support@emerson.com. Installation and Use Manual 800-522-MASS (800-522-6277) (toll-free)
  • Page 10 Before You Begin Figure 1-1 Transmitter model numbers and codes RFT9739 R F T 9 7 3 9 x x x x x x x Mounting: • R = rack-mount or panel-mount • D, E = field-mount Transmitter model Series 3000 3 x x 0 x x x x x x x x x x x x Sensor interface: •...
  • Page 11 Before You Begin Figure 1-1 Transmitter model numbers and codes continued Model 2400S 2 4 0 0 S x x x x x x x x x User interface option: • 1 = display/LCD with glass lens • 2 = no display/LCD •...
  • Page 12 ® ® ProLink II Software for Micro Motion Transmitters...

  • Page 13: Installation And Setup

    Chapter 2 Installation and Setup Overview This chapter provides information on installing ProLink II software, connecting to the transmitter, and troubleshooting the installation or connection. To install and set up ProLink II, the following steps are required: 1. Ensure required privileges (see Section 2.2) 2.

  • Page 14: Generate A Temporary License

    Installation and Setup (2) If the user who installs ProLink II does not have Administrator rights, the installation wizard may display a message warning that the installation may not be successful. If this occurs, the installation wizard will run to completion but the Windows Registry may not be updated correctly. If you are subsequently unable to connect to a transmitter, reinstall the software with Administrator privileges.
  • Page 15 Installation and Setup On Model 3350/3700 transmitters, opening the wiring compartment in explosive atmospheres can cause an explosion. Do not remove the compartment covers in an explosive atmosphere within three minutes after power is disconnected. On Model 2400S and Model 2200S transmitters, removing the transmitter housing cover in a hazardous area can cause an explosion.
  • Page 16 Installation and Setup Table 2-1 Transmitter terminals for ProLink II connections HART/Bell 202 Transmitter IFT9701/9703 4–20+ RFR9712 RFT9739 • Rack-mount • Field-mount Model 1700/2700 with analog outputs LF-Series field-mount with output code 1 or 3 Model 1700/2700 with I.S. outputs Model 2700 with configurable I/O LF-Series field-mount...

  • Page 17: Connection Diagrams

    Installation and Setup Table 2-1 Transmitter terminals for ProLink II connections continued HART/Bell 202 Transmitter Model 7835 EXD ™ ™ Direct Connect with no barrier MVD Direct Connect with I.S. barrier • To barrier • To core processor Core processor (1) If connecting to terminals 1 and 2, terminals must be externally powered, with a minimum of 250 not apply to service port.
  • Page 18 Installation and Setup Figure 2-2 HART/Bell 202 temporary connection to RFT9739 field-mount and RFT9712 transmitters Prongs Transmitter Notes: • Add R1 if necessary to bring the total resistance within 250–1000 Ω. Figure 2-3 HART/Bell 202 temporary connection to RFT9739 rack-mount transmitters HART jack Notes: •...
  • Page 19 Installation and Setup Figure 2-4 HART/Bell 202 connection to Model 1700/2700 I.S. transmitters DCS or Notes: • Connect the HART interface leads to the primary mA output of the transmitter, or to any point on the network. • If necessary, use any combination of R1, R2, and R3 to bring the total resistance within 250–600 Ω. •...
  • Page 20 Installation and Setup Figure 2-5 Model 1700/2700 I.S. transmitters: Resistance and voltage requirements for HART/Bell 202 connections 1000 Figure 2-6 HART/RS-485 connection to transmitter or multidrop network DCS or Notes: • Connect the interface leads to the RS-485 terminals on the transmitter, or to any point on the network. •...
  • Page 21 Installation and Setup Figure 2-7 Modbus/RS-485 connection to transmitter or multidrop network DCS or Attach serial port or USB adapter if necessary (not shown) Notes: • Connect the interface leads to the RS-485 terminals on the transmitter, or to any point on the network. •...
  • Page 22 Installation and Setup Figure 2-8 Modbus/RS-485 temporary connection to the service port Transmitter Notes: • For Model 1700/2700, Model 2400S, and LF-Series field-mount transmitters, the service port is available at any time. • For Model 1500/2500, Series 3000, and LF-Series DIN rail transmitters, the service port is available during a 10-second interval after power-up.
  • Page 23 Installation and Setup Figure 2-10 Modbus/RS-485 connection to RS-485 terminals on standard core processor Core processor RS-485/A Notes: • Ensure that no other Modbus master devices are currently active on the network. • Before using ProLink II to communicate with the core processor, disconnect any wiring to a remote PLC. Figure 2-11 Modbus/RS-485 connection to RS-485 terminals on enhanced core processor Core processor...

  • Page 24: Configure Prolink Ii Connection Parameters

    Installation and Setup Figure 2-12 Modbus/RS-485 connection to RS-485 terminals on MVD Direct Connect I.S. barrier Non-I.S. terminals Notes: • Ensure that no other Modbus master devices are currently active on the network. • Before using ProLink II to communicate with the core processor, disconnect any wiring to a remote PLC. Configure ProLink II connection parameters To connect to the transmitter, ProLink II must use connection parameters appropriate to the transmitter.
  • Page 25 Installation and Setup • If you use any other connection type, you must configure ProLink II connection parameters to match the transmitter’s configuration. If you do not know the transmitter’s configuration, you can use a Communicator or the transmitter’s display to view or change its configuration. For all transmitters, if you are using HART protocol, you can specify the transmitter’s HART tag (software tag) instead of the HART address, if a HART tag has been configured in the transmitter.
  • Page 26 Installation and Setup Table 2-4 Default communication parameters for Series 1000/2000/3000 transmitters Transmitter Physical layer Model 1500/2500 Bell 202 RS-485 Model 1700/2700 Bell 202 Analog RS-485 Model 1700/2700 I.S., Bell 202 Model 2700 Config. I/O Model 2200S Bell 202 Model 2400S Analog Bell 202 RS-485 Series 3000...

  • Page 27: Obtain And Configure A Site Key

    4. Contact Micro Motion in one of the following ways: • Send an email to: Flow.Support@Emerson.com Attach the edited file to the email. The file is named LicenseRequest.txt, and in typical installations is located in Note: This is the default location. If the ProLink II installation program found an existing license file, the program and License Request file were installed in the location of the license file.

  • Page 28: Troubleshooting The Prolink Ii Installation

    Installation and Setup Figure 2-13 License window c. Enter the site key into the Troubleshooting the ProLink II installation If you have problems with the ProLink II installation, review the information in this section and follow the suggestions. If you cannot resolve the problem, contact Micro Motion customer support. 2.8.1 Insufficient privileges If you are unable to install ProLink II, verify that you have the required privileges (see Section 2.2).

  • Page 29: Troubleshooting The Prolink Ii Connection

    Installation and Setup Troubleshooting the ProLink II connection If you cannot connect to the transmitter, review the information in this section and follow the suggestions. If you cannot resolve the problem, contact Micro Motion customer support. 2.9.1 OPC server or OPC client issues If the Context message displays either of the following: The OPC server could not be started.
  • Page 30 Installation and Setup 8. Try adding resistance to the connection. • For HART connections, refer to the installation instructions earlier in this chapter. Verify that there is a 250–600 Ω resistor in parallel in the communications circuit. • For HART connections to Model 1700/2700 transmitters with the intrinsically safe outputs option board, ensure that the resistor is in series.

  • Page 31: Using Prolink Ii Software

    Chapter 3 Using ProLink II Software Overview This chapter provides information on the ProLink II user interface, including: • Starting ProLink II and connecting to a transmitter (see Section 3.2) • Using the Commissioning Wizard (Section 3.3) • The ProLink II help system (see Section 3.4) •...
  • Page 32 Using ProLink II Software • Service port connections: Service ports use standard connection parameters, so you do not have to know the transmitter’s configuration. ProLink II uses Modbus protocol for service port connections, which is the fastest protocol available. On Model 1700/2700 transmitters, LF-Series field-mount transmitters, and Model 2400S transmitters, the service port is always available.
  • Page 33 Using ProLink II Software Figure 3-1 Connect to Densitometer/Viscometer window Making the connection – all other transmitters 1. Ensure that your PC is connected to a transmitter, using one of the methods described in Chapter 2. 2. Choose Connection > Connect to Device 3.

  • Page 34: Disconnecting

    Using ProLink II Software Notes: • Due to the design of HART protocol, connections made using HART protocol are slower than connections that use Modbus protocol. If you use HART protocol, you cannot open more than one ProLink II window at a time. •...

  • Page 35: Disabling Write-Protect Mode

    Using ProLink II Software To start configuring your transmitter, click each task set is finished, the Task Status will change from Not Started to Completed, allowing you to see what configuration steps you have already performed. 3.3.1 Disabling write-protect mode To assist with configuration, write-protect mode can be automatically disabled while using the Commissioning Wizard.

  • Page 36: Viewing Process Data

    Using ProLink II Software Figure 3-4 Installed Options window Viewing process data ProLink II provides the following windows for viewing process data and related information: • Process Variables • Output Levels • Totalizer Control The following windows are available if the associated option has been installed on the transmitter: •...
  • Page 37 Using ProLink II Software To enable inventory reset: 1. Choose View > Preferences 2. Select Enable Inventory Totals Reset 3. Click (if necessary). Apply To manage totalizers and inventories: 1. Choose ProLink > Totalizer Control measurement application is enabled in the transmitter). See Figure 3-5. 2.

  • Page 38: Viewing Meter Status

    Using ProLink II Software Viewing meter status ProLink II allows you to view a variety of status information: • LED – located in the lower right corner of the main window (see Figure 3-2). Connection This LED indicates the status of the connection between ProLink II and the transmitter: Green –...

  • Page 39: Viewing And Acknowledging Alarms

    Using ProLink II Software Viewing and acknowledging alarms The transmitter sets alarms whenever a process variable exceeds its defined limits or when the transmitter detects a fault condition. 3.9.1 Viewing alarms There are two ways to view alarms: • Using the window (see Figure 3-6).

  • Page 40: Acknowledging Alarms

    Using ProLink II Software Figure 3-7 Alarm Log window 3.9.2 Acknowledging alarms To acknowledge an alarm using ProLink II, you must use the To acknowledge an alarm: 1. Choose ProLink > Alarm Log 2. Select for each alarm you want to acknowledge. If the alarm is no longer active (green light), the alarm will be cleared from the list, and the Alarm Log If the alarm is still active (red light), the red light will remain, but the name of the alarm...

  • Page 41: Transferring To Same Pc

    Using ProLink II Software 3.10.1 Transferring to same PC To transfer ProLink II to another location on the same PC: 1. Choose File > License 2. Click To Directory 3. Specify the directory to which ProLink II will be transferred. 4.
  • Page 42 ® ® ProLink II Software for Micro Motion Transmitters...

  • Page 43: Initial Transmitter Startup Procedures

    Chapter 4 Initial Transmitter Startup Procedures Overview The first time you start up your transmitter, it may be useful to perform one or more of the following tasks: • Perform a loop test on transmitter outputs (and inputs, if your transmitter has a discrete input or frequency input) •...

  • Page 44: Trimming The Milliamp (Ma) Output(S)

    Initial Transmitter Startup Procedures Figure 4-1 Loop test procedure Fix Milliamp 1 Fix Freq Out Fix Milliamp 2 Enter mA value Enter pulses/second (Hz) value Fix mA Fix Frequency Read output at Read output at receiving device receiving device Correct? Correct? Loop test successful UnFix...
  • Page 45 Initial Transmitter Startup Procedures Note the following: • If you have two mA outputs, you should trim both. • You must trim the output at both the 4 mA and 20 mA points to ensure appropriate compensation across the entire output range. •...

  • Page 46: Zeroing The Meter

    Initial Transmitter Startup Procedures Figure 4-3 Milliamp trim wizard – Screen 2 If the adjusted output is not 4.0: a. Click Back b. Read the output level at the receiving device and enter the new value in the box. c. Click Next d.
  • Page 47 Initial Transmitter Startup Procedures To zero the meter: 1. Prepare the meter for zeroing: a. Apply power to the meter. Wait several minutes to allow the meter to warm up: • For IFT or RFT transmitters, wait for approximately 30 minutes. •...
  • Page 48 Initial Transmitter Startup Procedures Figure 4-4 Zeroing 4. Change the Zero Time transmitter before performing the actual zeroing procedure. 5. If the Convergence Limit parameter is displayed, type a new convergence limit in the Converg. Limit 6. Click Perform Auto Zero light will turn red.

  • Page 49: Transmitter Configuration, Characterization, And Calibration

    Chapter 5 Transmitter Configuration, Characterization, and Calibration Overview This chapter describes: • Saving and loading transmitter configuration files (Section 5.2) • Configuring a transmitter (Section 5.3) • Using the Gas Unit Configurator utility (Section 5.3.1) • Characterizing a transmitter (Section 5.4) •...

  • Page 50: Loading A Configuration File To A Transmitter

    Transmitter Configuration, Characterization, and Calibration 5.2.2 Loading a configuration file to a transmitter To load a configuration file: 1. Choose File > Send to Xmtr from File 2. Use the file dialog to locate the configuration file and click 3. Click Upload Configuration 4.
  • Page 51 Transmitter Configuration, Characterization, and Calibration Figure 5-1 Configuration window Whenever you make configuration changes on a particular tab, the tab color changes to yellow. To send the changes you have made to the transmitter, click individual tab, click Cancel After you click , the following dialog box appears: Apply Before you click...

  • Page 52: Using The Gas Unit Configurator Tool

    Transmitter Configuration, Characterization, and Calibration 5.3.1 Using the Gas Unit Configurator tool Note: For Model 2400S transmitters, and for Series 1000/2000 and LF-Series transmitters with firmware version 5.0 and above, the Gas Unit Configurator tool is not available because standard and normal units are pre-defined in the transmitter.

  • Page 53: Characterizing The Meter

    Transmitter Configuration, Characterization, and Calibration Characterizing the meter Characterizing the meter adjusts the transmitter to compensate for the unique traits of the sensor it is paired with. The characterization parameters, or calibration parameters, describe the sensor’s sensitivity to flow, density, and temperature. 5.4.1 When to characterize If the transmitter and the sensor were ordered together as a Coriolis meter, then the meter has already...
  • Page 54 Transmitter Configuration, Characterization, and Calibration Figure 5-2 Sample calibration tags – T-Series sensor Newer tag Figure 5-3 Sample calibration tags – All sensors except T-Series Newer tag 19.0005.13 12500142864.44 0.0010 0.9980 4.44000 Density calibration factors If your sensor tag does not show a D1 or D2 value: •...

  • Page 55: How To Characterize

    Transmitter Configuration, Characterization, and Calibration Flow calibration values Two separate values are used to describe flow calibration: a 6-character FCF value and a 4-character FT value. Both values contain decimal points. During characterization, these are entered as a single 10-character string that includes two decimal points. In ProLink II, this value is called the Flowcal parameter.

  • Page 56: When To Calibrate

    Transmitter Configuration, Characterization, and Calibration Figure 5-4 ProLink II calibration options 5.5.1 When to calibrate The transmitter is factory calibrated and does not normally need to be calibrated in the field. Calibrate the transmitter only if you must do so to meet regulatory requirements. Micro Motion recommends using meter factors, rather than calibration, to adjust the meter to specific conditions.
  • Page 57 Transmitter Configuration, Characterization, and Calibration For T-Series sensors, the optional D3 and D4 calibrations could improve the accuracy of the density measurement. If you choose to perform the D3 and D4 calibration: • Do not perform the D1 or D2 calibration. •...
  • Page 58 Transmitter Configuration, Characterization, and Calibration Figure 5-5 D1 and D2 density calibration Close shutoff valve downstream from sensor Fill sensor with D1 fluid ProLink Calibration Density cal - Point 1 Enter density of D1 fluid Do Cal Calibration in Progress light turns red Calibration in Progress light turns green...
  • Page 59 Transmitter Configuration, Characterization, and Calibration Figure 5-6 D3 or D3 and D4 density calibration Close shutoff valve downstream from sensor Installation and Use Manual Fill sensor with D3 fluid ProLink Calibration Density cal - Point 3 Enter density of D3 fluid Do Cal Calibration in Progress light turns red...

  • Page 60: Temperature Calibration

    Transmitter Configuration, Characterization, and Calibration 5.5.3 Temperature calibration Temperature calibration is a two-point procedure: temperature offset calibration and temperature slope calibration. The entire procedure must be completed without interruption. To perform a temperature calibration, see Figure 5-7. Figure 5-7 Temperature calibration Fill sensor with low-temperature fluid Wait until sensor achieves...

  • Page 61: Compensating For Pressure

    Transmitter Configuration, Characterization, and Calibration Compensating for pressure Some Micro Motion transmitters can compensate for the effect of pressure on the sensor flow tubes. Pressure effect is defined as the change in sensor flow and density sensitivity due to process pressure change away from calibration pressure.

  • Page 62: Compensating For Temperature

    Transmitter Configuration, Characterization, and Calibration 5. If you will use a static pressure value: a. Type the pressure value in the b. Click Apply c. Ensure that neither polled variable is configured to poll for pressure. Polling for temperature is allowed. See Section 5.8. Compensating for temperature Temperature data are used in several different calculations.

  • Page 63: Configuring Polling

    Transmitter Configuration, Characterization, and Calibration Configuring polling Polling is used to retrieve temperature or pressure data from an external device. These data can then be used for API calculation or other process variable calculations in applications that require pressure or temperature compensation. You may query one or two external devices. You must also ensure that the primary mA output has been wired for HART protocol.
  • Page 64 ® ® ProLink II Software for Micro Motion Transmitters...

  • Page 65: Chapter 6 Meter Verification

    Chapter 6 Meter Verification Overview Meter verification evaluates the structural integrity of the sensor tubes by comparing current tube stiffness to the stiffness measured at the factory. Stiffness is defined as the load per unit deflection, or force divided by displacement. Because a change in structural integrity changes the sensor’s response to mass and density, this value can be used as an indicator of measurement performance.
  • Page 66 ® ® ProLink II Software for Micro Motion Transmitters...

  • Page 67: Chapter 7 Data Logger

    Chapter 7 Data Logger Overview The Data Logger tool allows periodic logging of user-selected meter data, including process variables, diagnostic variables, and output levels. Data logged via Data Logger can be viewed or imported into external programs such as spreadsheets for further analysis. Using Data Logger To access the Data Logger, choose You will need to define the log file, specify the type of data to be logged and the frequency of data...

  • Page 68: Specifying Log Contents

    Data Logger Note: The log file can become very large if you choose Time Interval and log for a long period of time. Be sure to set the Update Rate accordingly. Figure 7-1 Data Logger 7.2.2 Specifying log contents Variables that are available for inclusion are shown in the included in the log: 1.

  • Page 69: Starting And Stopping The Logging Function

    Data Logger While Data Logger is running, you can add a note to the log by entering the note in the textbox, then clicking . The note is added to the current end of the log. Subsequent data points will be Add Note added after the note.
  • Page 70 ® ® ProLink II Software for Micro Motion Transmitters...

  • Page 71: A.2 Transmitter Terminal Diagrams

    Appendix A Transmitter Terminal Reference Overview This appendix provides diagrams of the transmitter terminals that can be used for a ProLink II connection. The following transmitters are shown: • RFT9739 transmitters (see Figure A-1) • RFT9712 and IFT9701/9703 transmitters (see Figure A-2) •...
  • Page 72 Transmitter Terminal Reference Figure A-2 RFT9712 and IFT9701/9793 transmitters RFT9712 17 (+) 22 (RS-485/B) Figure A-3 Model 1500/2500 and LF-Series DIN-rail transmitters (RS-485/A) HART/Bell-202 hookups 16 (–) 21 (RS-485/A) 21 (PV+) 22 (PV–) (RS-485/B) IFT9701 / IFT9703 ® ProLink II Software for Micro Motion 4–20mA ®...
  • Page 73 Transmitter Terminal Reference Figure A-4 Model 1700/2700 and LF-Series field-mount transmitters Note: Terminals 5 and 6 used for communications only by transmitters with the analog outputs option board. Figure A-5 Model 2200S transmitters User interface (with display, cover removed) HART clips Installation and Use Manual 1 (+) 2 (–)
  • Page 74 Transmitter Terminal Reference Figure A-6 Model 2400S transmitters with analog outputs User interface (with display, cover removed) HART clips HART clips Note: The user interface shown here is equipped with a display. On models without a display, the HART clips and service port clips are located in the same position on the user interface. Outputs wiring compartment (user interface removed) Service port...
  • Page 75 Transmitter Terminal Reference Figure A-7 Model 2400S transmitters with DeviceNet With display 3.237 Service port (RS-485/A) Figure A-8 Model 2400S transmitters with PROFIBUS-DP With display Service port (RS-485/A) Installation and Use Manual Without display Service port (RS-485/B) Service port (RS-485/A) Without display Service port (RS-485/B)
  • Page 76 Transmitter Terminal Reference Figure A-9 Series 3000 transmitters Series 3000 panel-mount Series 3000 rack-mount Series 3000 field-mount Input/output wiring terminals Input/output wiring terminals Input/output wiring terminals Label for Model 3350 Card for Model 3300 or 3500 with Label for Model 3300 or 3500 or 3700 screw-type or solder-tail terminals with I/O cables...
  • Page 77 Transmitter Terminal Reference Figure A-10 Core processor Standard Figure A-11 MVD Direct Connect I.S. barrier Installation and Use Manual Enhanced (RS-485/B) (RS-485/A) (RS-485/A) (RS-485/B) Non-I.S. terminals (RS-485/B) (RS-485/A)
  • Page 78 ® ® ProLink II Software for Micro Motion Transmitters...

  • Page 79: Appendix B Configuring The Discrete Batch Application

    Appendix B Configuring the Discrete Batch Application About this appendix This appendix explains how to configure the discrete batch application, and provides basic information on batch operation. Note: For more detailed information on operating the discrete batch application, see the Series 3000 MVD transmitter manual.
  • Page 80 Configuring the Discrete Batch Application Figure B-1 Discrete batch configuration panel 3. Click the Discrete Output a. Configure the required discrete outputs. For 1-stage operation, you must configure one discrete output. This output must control either the pump or the primary valve, as appropriate to your application. This discrete output is required.
  • Page 81 Configuring the Discrete Batch Application Figure B-2 Discrete Output tab 4. If desired, you can assign a batch control function to a discrete input or discrete event. See Section B.3.4. 5. If you enabled the Batch AOC control option, you should perform batch AOC (automatic overshoot compensation) calibration.

  • Page 82: B.3.2 Control Options

    Configuring the Discrete Batch Application B.3.1 Flow source The flow source specifies the flow variable that will be used for batch measurement. Select one of the flow sources defined in Table B-1. Table B-1 Flow sources Flow source None Frequency input Mass flow rate Volume flow rate CM std vol flow rate...
  • Page 83 Configuring the Discrete Batch Application Table B-2 Control options continued Setting Default Lockout target Auto print at batch end Reset on start Enable end warning Enable overrun Ignore source alarms No-flow 10.00000 Sec timeout Number of 1 Stage stages Number of decimals Maximum 1.0000E9 kg...

  • Page 84: B.3.3 Configure Presets

    Configuring the Discrete Batch Application One-stage versus two-stage batching Number of stages started, the pump starts or the valve opens; at the configured target, the pump stops or the valve closes. Open primary configuring the preset (see Section B.3.3). Number of stages requirements apply when configuring the preset: •...
  • Page 85 Configuring the Discrete Batch Application Table B-3 Preset parameters continued Setting Default Density None curve Overrun 0.0 kg Preset target 0.0 kg (1) This parameter is configurable only if Number of stages was set to 2. (2) This parameter is configurable only if Enable end warning was set to Yes. (3) This parameter is configurable only if Enable overrun was set to Yes.

  • Page 86: Batch Control Methods

    Configuring the Discrete Batch Application Example 2 B.3.4 Batch control methods Batch control functions can be performed in three ways: • By using the function buttons on the transmitter display (see the Series 3000 transmitter manual), or in the ProLink II •...
  • Page 87 Configuring the Discrete Batch Application Figure B-3 Discrete Input tab Installation and Use Manual...
  • Page 88 Configuring the Discrete Batch Application Table B-4 Batch control assignments Default Function assignment End discrete None batch Inhibit discrete batch Inhibit discrete batch totalizer Inhibit discrete batch flow Reset discrete batch Resume discrete batch Start discrete batch Stop discrete batch Increment current batch preset...

  • Page 89: B.4 Running A Batch

    Configuring the Discrete Batch Application If the Inhibit Totalizer function is mapped to a discrete input: • The totalizer will not increment while the discrete input is active. • The totalizer will resume incrementing automatically when the discrete input becomes inactive.

  • Page 90: Performing Batch Aoc Calibration

    Configuring the Discrete Batch Application Batch management functions are shown at the top of the window: • To specify the preset to use for batching, select it from the dropdown list at the top of the Batcher Control window, and click •...

  • Page 91: Index

    Index Adapaters 2 Adapter-barrier 67 Alarm log 33 Alarm severity and status window 33 Alarms acknowledging 34 types 33 viewing 33 AOC calibration 84 Auto-detection limits 19 Autozero 40 Batch processing 83 See Discrete batch application Bell 202 connection 11, 12, 13, 14, 20, 26 Calibrating 49 AOC 84 how to calibrate for density 50...
  • Page 92 Index Discrete events assignment 82 in batch control 80 Discrete inputs assignment 82 in batch control 80 End batch 82 Flow source 76 Gas applications normal volume flow as quasi mass flow rate 46 standard volume flow as quasi mass flow rate 46 Gas Unit Configurator tool 46 HART clips 16 Help 29...
  • Page 93 Index viewing and resetting inventories 30 viewing process data 30 viewing status 32 viewing, starting, stopping, and resetting totalizers 30 Registry repairing 22 Requirements 2 Reset batch 82 Resume batch 82 RS-485 connection 14, 15, 17, 18, 20, 26 Sensor, characterizing transmitter for 47 Service port connection 16 Signal converter 2 installing 8...
  • Page 94 ® ® ProLink II Software for Micro Motion Transmitters...
  • Page 96 6718 WX Ede The Netherlands +31 (0) 318 495 555 +31 (0) 318 495 556 Micro Motion United Kingdom Emerson Process Management Limited Horsfield Way Bredbury Industrial Estate Stockport SK6 2SU U.K. +44 0870 240 1978 +44 0800 966 181...

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