Micro Motion Integration Guide: Micro Motion 5700 Transmitters PROFINET Siemens PLC Manuals & Guides
Micro Motion™ 5700 Transmitters
PROFINET Siemens PLC Integration Guide
Integration Guide
MMI-20029785, Rev AB
June 2022
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.
Safety and approval information
This Micro Motion product complies with all applicable European directives when properly installed in accordance with the
instructions in this manual. Refer to the EU declaration of conformity for directives that apply to this product. The following are
available: the EU Declaration of Conformity, with all applicable European directives, and the complete ATEX installation drawings
and instructions. In addition, the IECEx installation instructions for installations outside of the European Union and the CSA
installation instructions for installations in North America are available at Emerson.com or through your local Micro Motion
support center.
Information affixed to equipment that complies with the Pressure Equipment Directive, can be found at Emerson.com. For
hazardous installations in Europe, refer to standard EN 60079-14 if national standards do not apply.
Other information
Troubleshooting information can be found in the Configuration Manual. Product data sheets and manuals are available from the
Micro Motion web site at Emerson.com.
Return policy
Follow Micro Motion procedures when returning equipment. These procedures ensure legal compliance with government
transportation agencies and help provide a safe working environment for Micro Motion employees. Micro Motion will not accept
your returned equipment if you fail to follow Micro Motion procedures.
Return procedures and forms are available on our web support site at Emerson.com, or by calling the Micro Motion Customer
Service department.
2
Integration Guide Contents
MMI-20029785 June 2022
Contents
Chapter 1 Before you begin........................................................................................................5
1.1 About this document...................................................................................................................5
1.2 Related documentation............................................................................................................... 5
Chapter 2 5700 transmitters in Ethernet networks.....................................................................7
2.1 Star topology...............................................................................................................................7
2.2 Ring topology.............................................................................................................................. 8
2.3 Daisy-chain topology................................................................................................................... 9
Chapter 3 Establish cyclic data................................................................................................. 10
3.1 Install the GSDXML file...............................................................................................................10
3.2 Create a PROFINET network....................................................................................................... 11
3.3 Configure Ethernet IP address and device name.........................................................................18
3.4 Verify communications..............................................................................................................21
3.5 Troubleshooting the PROFINET integration............................................................................... 22
Chapter 4 Configuring Siemens PLC read/write operation........................................................ 24
Appendix A Input and output slots..............................................................................................32
A.1 Input slots................................................................................................................................. 32
A.2 Output slots.............................................................................................................................. 40
PROFINET Siemens PLC Integration Guide 3
Contents Integration Guide
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4 Micro Motion 5700 Ethernet transmitters
Integration Guide Before you begin
MMI-20029785 June 2022
1 Before you begin
1.1 About this document
This document provides information about how to integrate a Model 5700 Ethernet transmitter
communicating with a Siemens Simatic S7-400 PLC using a Simatic Manager project.
Important
This manual assumes that:
• The transmitter has been installed correctly and completely according to the instructions in the
transmitter installation manual.
• Users understand basic transmitter and sensor installation, configuration, and maintenance concepts and
procedures.
1.2 Related documentation
You can find all product documentation via the product documentation DVD shipped with the product or at
Emerson.com.
• Hazardous area installation — see the approval documentation shipped with the transmitter, or download
the appropriate documentation
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Before you begin Integration Guide
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6 Micro Motion 5700 Ethernet transmitters
Integration Guide 5700 transmitters in Ethernet networks
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2 5700 transmitters in Ethernet networks
• Make sure that each cable is no longer than 328 ft (100 m).
• Connect the 5700 Ethernet transmitter to the host system via a LAN (Local Area Network) and not a WAN
(Wide Area Network).
• Follow all network security best practices.
2.1 Star topology
5700 Ethernet transmitters can be installed in a star network.
Figure 2-1: 5700 star network
A. Programmable Logic Controller (PLC)
B. 5700 with Ethernet output
C. External Ethernet switch
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2.2 Ring topology
5700 Ethernet transmitters can be installed in a ring network.
Figure 2-2: 5700 ring network
A. Programmable Logic Controller (PLC)
B. 5700 with Ethernet output
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Integration Guide 5700 transmitters in Ethernet networks
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2.3 Daisy-chain topology
5700 Ethernet transmitters can be installed in a daisy-chain network.
Figure 2-3: 5700 daisy-chain network
A. Programmable Logic Controller (PLC)
B. 5700 with Ethernet output
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3 Establish cyclic data
3.1 Install the GSDXML file
Procedure
1. Download the GSDXML file using one of the following methods:
Option Description
Use a USB
memory drive
a. Insert a USB memory drive into the 5700 Ethernet service port.
The service port connection is located under the transmitter cap.
b. From the transmitter display, choose Menu → USB Options → Transmitter →
USB Drive → Download Support Files → GSD file.
c. Follow the menu to copy the GSDXML file to the USB memory drive.
d. Copy the zip file from the USB memory drive to the PC where SIMATIC Manager
is installed.
e. Unzip the file to a chosen location.
Download the
file
2. To install the 5700 PROFINET GSDXML file into your GSD file catalog using the HW config in SIMATIC
Manager:
a) Choose Options → Install GSD File.
10 Micro Motion 5700 Ethernet transmitters
a. Download the GSDXML file from the Micro Motion 5700 Ethernet product
website.
b. Unzip the file to a chosen location.
Integration Guide Establish cyclic data
MMI-20029785 June 2022
Example
b) Select Install.
c) Choose Update Catalog.
3.2 Create a PROFINET network
Procedure
1. Configure the primary protocol as PROFINET in the 5700 device:
a) From the transmitter display, choose Device Tools → Configuration → Network Settings.
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b) Select Profinet.
2. From SIMATIC Manager, choose File → 'New Project' Wizard.
3. Follow the wizard to select the CPU for your PLC.
Example
CPU 400
4. In the Component View, click on the CPU.
5. Double-click Connections.
A graphical representation of the network is displayed.
6. Double-click the CPU icon.
The HW Config screen is displayed.
7. Double-click the interface, then click Properties.
Example
The network settings of the S7 400 PLC Ethernet interface are configured.
8. Right-click on the Ethernet interface, and select Insert PROFINET IO System.
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Example
The Ethernet network is created.
9. Double-click on the PROFINET network you just created.
The Properties menu is displayed.
10. Enter the name of the network.
Example
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11. (Optional) To use the network name in the IO device and in the controller, check Use the name in IO
device/controller.
12. Drag and drop the device called Standard from the GSD file catalog to the 5700 Ethernet network.
The 5700 Ethernet network is located at PROFINET IO → Additional Field Devices → Sensors →
Coriolis → 5700 Coriolis Meter.
Example
13. Double-click on the device to enter the configuration menu.
14. Enter the Device name.
Note
The Device name must:
• Follow all DNS conventions
• Cannot start with a number
• Cannot contain uppercase alpha characters
15. Make the appropriate IP address configuration of the device, and press Ok.
You can use the Ethernet button if required.
If the Use name in IO device/controller checkbox is checked in the network properties, then Device
name will have the following format: device_name.network_name.
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Option Description
Device name when the Use
name in IO device/
controller checkbox is
unchecked
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Option Description
Device name when the Use
name in IO device/
controller checkbox is
checked
16. Click on the 5700 Ethernet icon to display the HW configuration in the lower screen.
17. From the HW Catalog, drag the input and output slots to one of the following locations:
• PROFINET IO → Additional Field Devices → Sensors → Coriolis → 5700 Coriolis Meter →
Standard → Input Modules – Slot 1
• PROFINET IO → Additional Field Devices → Sensors → Coriolis → 5700 Coriolis Meter →
Standard → Output Modules – Slot 2
Example
If Empty is selected, delete the slot by right-clicking on the slot, and selecting Delete.
For a description of the Input and Output slots, see Input and output slots.
Example
In this example, Small Configurable Data has been added to Slot 1.
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18. Press Save and Compile.
19. Press Download to Module to download the configuration into the CPU module.
Note
The modules configured and downloaded in the HW Config are set in the transmitter. You do not need
to set the Input or Output modules on the transmitter first. You can configure the variables in the input
data sets using the web server or ProLink III.
Example
The configuration is downloaded into the CPU module. The PLC should show a red LED bus fault.
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3.3 Configure Ethernet IP address and device name
Use this procedure to configure the Ethernet IP address and device name for the Model 5700 Ethernet device.
Procedure
1. Choose PLC → Ethernet → Edit Ethernet Node.
Example
2. To configure the programming machine (PG) to PC interface, choose Options → Set PG/PC Interface…
Example
3. Press Browse to find the Model 5700 Ethernet device on the network.
Tip
If you cannot find the Model 5700 device, turn off your firewall. Firewalls sometimes prevent SIMATIC
Manager from browsing network devices.
Example
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4. Select the device from the list and press Ok.
Example
5. Fill in the appropriate network settings and press Assign IP Configuration.
6. Fill in the device name and press Assign Name.
Make sure the IP configuration and device name are the same as what you configured in Create a
PROFINET network.
Example
7. Press Browse again to make sure the changes were applied to the device.
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Example
8. Choose
Example
PLC → Ethernet → Verify Device Name to verify the device name was properly assigned.
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3.4 Verify communications
Procedure
1. Verify that the PLC shows no faults (red lights).
The most likely error will be a Bus Fault (BF LED is red), which means either the Device Name, the IP
address, the Input Slot, or the Output Slot between the PLC and the Model 5700 Ethernet transmitter
does not match.
2. To verify you are receiving data:
a) In the HW Config, click the Model 5700 Ethernet icon.
b) Right-click on the Input Slot and press Monitor/Modify.
c) Click the I/O Display box and the Monitor box to see the process variables updating.
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Example
3. If the transmitter is still not communicating, from the transmitter display, choose Menu →
Configuration → Ethernet settings → Primary Protocol → Profinet to verify that PROFINET is the
configured primary protocol on the Model 5700 Ethernet transmitter.
3.5 Troubleshooting the PROFINET integration
3.5.1 Cannot download PROFINET into the PLC controller
Use the following procedure if you cannot download the PROFINET program into the PLC controller.
Procedure
1. Choose PLC → Ethernet → Edit Ethernet Node.
2. Select Browse.
A list of network devices with MAC IDs is displayed.
3. Select the PROFINET controller and press OK.
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Example
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4 Configuring Siemens PLC read/write operation
Procedure
1. To insert the data blocks:
You will use the data blocks to configure the request and response parameters on the Siemens PLC.
a) From the SIMATIC Manager screen, select Insert → S7 Block → Data Block.
Example
b) From the Properties screen, enter the values as shown in the following example and select OK.
Example
The first of two data blocks is created.
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c) From the Properties screen, enter the values as shown in the following example and select OK.
The second of two data blocks is created.
2. To copy the SFB52 and SFB53 data blocks to your project:
a) From the SIMATIC Manager screen, select File → Open and select the Library tab.
b) Select Standard Library and press OK.
Example
The pre-defined library opens.
c) From the Standard Library tree view, select System Function Blocks → Blocks.
d) From the right panel, select SFB52 and SFB53, and select Copy.
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SFB52 and SFB53 are copied to your Projects folder under CPU → S7 Program → Blocks.
3. To add the SFB52 and SFB53 DB instances:
a) To create the data blocks, choose Insert → S7 Block → Data Block.
b) Enter the values as shown in the following example and select OK.
Example
The first of the two data block DB instances is added.
c) Enter the values as shown in the following example and select OK.
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The second of the two data block DB instances is added. The SIMATIC Manager displays the
entries.
4. To configure the DB2 Request data block, double-click DB2 Request and enter the values as shown in
the following example.
Example
5. To configure the DB3 Response data block, double-click DB3 Response and enter the values as shown
in the following example.
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Example
6. To program acyclic read:
a) Double-click OB1.
Example
b) Choose Insert → Network.
Example
c) To configure the input and output parameters, from SFB blocks, drag SFB52 to Network.
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Example
Parameter Description
REQ The Read request is sent to the Model 5700 using
bit memory M8.2. You have the following options:
• 1 (true) starts the read request. You must end
the request.
• 0 (false) ends the request. Reset Bit logic is used
to reset M8.2.
VALID Bit memory M8.4 indicates whether a new data
record was received and valid.
BUSY Bit memory M8.3 indicates whether the read
process has terminated or not.
ERROR Bit memory M8.5 indicates whether an error has
occurred while processing the function.
STATUS The double-word bit memory MD18 contains an
error code. For error descriptions, see Help on
system functions / function blocks.
ID Displays the PN-IO diagnostic address (for example,
“8180” = 1FF4 hex). This address is used for
PROFINET acyclic read/write to the Model 5700E
station to perform pre-defined diagnoses.
INDEX Displays the data record number (247 – starting
Modbus register for mass flow). For the Model
5700, the starting address is 1.
MLEN The maximum length in bytes of data record
information to be fetched.
RECORD The destination area for the read data record. For
DB3 in this example, the starting address is 0 and
the address length is two bytes.
d) Read the acyclic parameters displayed in the Actual value field.
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Example
7. To program acyclic write, choose S7 Program → Blocks and double-click OB1.
The OB1 block is a Program Cycle Organization Block. The S7 CPU operating system executes OB1
periodically. When OB1 has been executed, the operating system restarts it. Cyclic execution of OB1 is
started after the start-up has been completed.
a) To edit the program, select OB1.
b) Choose Insert → Network.
c) From SFB blocks, drag SFB53 to Network and and configure the input and output as shown in
the following example.
Example
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8. To create a variable table:
Use the variable table to modify and monitor the connected PLC variables and memory content.
a) From the SIMATIC Manager screen, choose Insert → S7 Block → Variable Table.
b) Enter the values as shown in the following examples and save your changes.
Example
The write request is sent to the Model 5700 using bit memory M1.0.
c) To start the read request, enter 1 (true) in the Modify value field, right-click, and press Modify.
d) To end the request, enter 0 (false) in the Modify value field, right-click, and press Modify.
9. To download a project to PLC:
a) From the SIMATIC Manager screen, select the Download to Module icon.
The configuration is downloaded to your CPU.
b) After the project downloads, open the vat table and make the corresponding M 1.0, 8.2 bits high
for read and read/write.
The read request is sent to the Model 5700 using bit memory M8.2. The write request is sent to
the Model 5700 using bit memory M1.0.
c) Go online to read and write acyclic data into the Model 5700 device module.
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Input and output slots Integration Guide
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A Input and output slots
A.1 Input slots
Empty
Use the Empty Input slot when no input data is required. Typically for an Ethernet mass flow meter, the Empty
Input slot is unused because this meter is a measuring device.
Table A-1: Common input data
Assembly
Dword
index
0 Mass Flow REAL
1 Temperature REAL
2 Density REAL
3 Drive Gain REAL
4 Totalizer 1 (default = Mass Total) REAL
5 Inventory 1 (default = Mass Inventory) REAL
6 Status DWORD
Name Data type
Severity (bits 0-15) • Bit #0 = Immediate Failure
• Bit #1 = Last Measure Value Failure
• Bit #2 = Function Check
• Bit #3 = Out of Specification
• Bit #4 = Maintenance Required
Counter/Heartbeat (bits 16-32) The PLC will display the counter/
heartbeat as a signed INT, therefore
the counter can be negative.
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Table A-1: Common input data (continued)
Assembly
Dword
index
7 Alert detail • Bit #0 = Electronics Failure
Name Data type
• Bit #1 = Sensor Failed
• Bit #2 = Configuration Error
• Bit #3 = Core Low Power
• Bit #4 = Security Breach
• Bit #5 = Sensor-Transmitter
Communication Error
• Bit #6 = Tube Not Full
• Bit #7 = Extreme Primary Purpose
Variable
• Bit #8 = Reserved
• Bit #9 = Flowmeter Initializing
• Bit #10 = Function Check in
Progress
• Bit #11 = Sensor Being Simulated
• Bit #12 = Output Fixed
• Bit #13 = Drive Over Range
• Bit #14 = Process Aberration
• Bit #15 = Discrete Event X Active
• Bit #16 = Output Saturated
• Bit #17 = Function Check Failed
• Bit #18 = Data Loss Possible
DWORD
8 Echo Output Data Discrete Actions DWORD
Table A-2: Liquid volume flow
Assembly
Dword
index
0–8 Common input data See Table A-1
9 Volume Flow REAL
10 Totalizer 2 (default = Volume Total) REAL
11 Inventory 2 (default = Volume Inventory) REAL
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Name Data type
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Table A-3: Gas volume flow
Assembly
Dword
index
0–8 Common input data See Table A-1
9 Gas Volume Flow REAL
10 Totalizer 4 (default = Gas Volume Total) REAL
11 Inventory 4 (default = Gas Volume Inventory) REAL
Name Data type
Table A-4: API referral
Assembly
Dword
index
0–8 Common input data See Table A-1
9 Volume Flow REAL
10 Totalizer 2 (default = Volume Total) REAL
11 Inventory 2 (default = Volume Inventory) REAL
12 Corrected Density REAL
13 Corrected Vol Flow REAL
14 Totalizer 3 (default = Corrected Vol Total) REAL
Name Data type
15 Inventory 3 (default = Corrected Vol Inv) REAL
16 Avg Density REAL
17 Avg Temperature REAL
18 CTL REAL
Table A-5: Concentration measurement
Assembly
Dword
index
0–8 Common input data See Table A-1
9 Volume Flow REAL
10 Totalizer 2 (default = Volume Total) REAL
11 Inventory 2 (default = Volume Inventory) REAL
12 Density at Reference REAL
13 Std Vol Flow Rate REAL
14 Totalizer 5 (default = Std Vol Total) REAL
15 Inventory 5 (default = Std Vol Inv) REAL
16 Net Mass Flow Rate REAL
Name Data type
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Table A-5: Concentration measurement (continued)
Assembly
Dword
index
17 Totalizer 6 (default = Net Mass Total) REAL
18 Inventory 6 (default = Net Mass Inv) REAL
19 Net Vol Flow Rate REAL
20 Totalizer 7 (default = Net Vol Flow Total) REAL
21 Inventory 7 (default = Net Vol Flow Inv) REAL
22 Concentration REAL
23 Density - Fixed SG Units REAL
24 Density - Special Density Units REAL
Table A-6: Batcher
Assembly
Dword
index
0–8 Common input data See Table A-2
9–11 Liquid Volume
12 Batch Total REAL
Name Data type
Name Data type
13 Overshoot Compensation Value (Reg 1457) REAL
14 Batch Fill Time REAL
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Table A-6: Batcher (continued)
Assembly
Dword
index
15 Fill status and diagnostics
Name Data type
• Bit #0 - Primary Fill in progress (reg 2495 bit 0)
• Bit #1 - Primary AOC training (reg 2495 bit 9)
• Bit #2 = Primary Valve (reg 2495 bit 5
• Bit #3 = Undefined
• Bit #4 = Undefined
• Bit #5 = Undefined
• Bit #6 - Fill Start Not Okay (reg 2496 bit 0)
• Bit #7 - AOC Flow Rate Too High (reg 2496 bit 1)
• Bit #8 - Maximum Fill Time Exceeded (reg 2496 bit 2)
• Bit #9 - Slug Flow (reg 2496 bit 3)
• Bit #10 - Tube Not Full (reg 2496 bit 4)
• Bit #11 - Drive Overrange (reg 2496 bit 5)
• Bit #12 - Critical Sensor Failure (reg 2496 bit 6)
• Bit #13 - Critical Transmitter Failure (reg 2496 bit 7)
• Bit #14 - Density Out of Limits (reg 2496 bit 8)
• Bit #15 - Temperature Out of Limits (reg 2496 bit 9)
• Bit #16 - Bit #31 for future expansion
DWORD
Table A-7: Small input configurable data set
Assembly
Dword
index
0–8 Common input data See Table A-1
9–16 8 configurable slots REAL *8
Name Data type
Table A-8: Medium input configurable data set
Assembly
Dword
index
0–8 Common input data See Table A-1
9–24 16 configurable slots REAL *16
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Name Data type
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Table A-9: Large input configurable data set
Assembly
Dword
index
0–8 Common input data See Table A-1
9–40 32 configurable slots REAL *32
Name Data type
Table A-10: Advanced Phase Measurement (APM) – liquid
Assembly
Dword
index
0–8 Common input data See Table A-1
9 Volume Flow REAL
10 Totalizer 2 (default = Volume Total) REAL
11 Inventory 2 = (default = Volume Inventory) REAL
12 Gas Void Fraction REAL
13 Contract Total 1 REAL
14 Contract Total 2 REAL
15 Contract Total 3 REAL
16 Contract Total 4 REAL
Name Data type
17 Net Oil Flow @ Line REAL
18 Net Water Flow @ Line REAL
19 Watercut @ Line REAL
20 Net Oil Total @ Line REAL
21 Net Water Total @ Line REAL
22 Density Oil @ Line REAL
23 Net Oil Flow @ Ref REAL
24 Net Water Flow @ Ref REAL
25 Watercut @ Ref REAL
26 Net Oil Total @ Ref REAL
27 Net Water Total @ Ref REAL
Table A-11: Advanced Phase Measurement (APM) – gas volume
Assembly
Dword
index
0–8 Common input data See Table A-1
9 Gas Volume Flow REAL
Name Data type
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Table A-11: Advanced Phase Measurement (APM) – gas volume (continued)
Assembly
Dword
index
10 Totalizer 4 (default = Gas Volume Total) REAL
11 Inventory 4 = (default = Gas Volume Inventory) REAL
12 Contract Total 1 REAL
13 Contract Total 2 REAL
14 Contract Total 3 REAL
15 Contract Total 4 REAL
16 Total time mist detected DWORD
17 APM Status
18 Liquid Mass Flow Estimate REAL
19 Watercut @ Ref REAL
(1) Do not include the parenthesis in the label.
Name Data type
• Bit #0 – TMR Algorithm Active (reg 433 bit 12)
• Bit #1 – Bit #15 currently not defined
• Bit #16 – Bit #31 for future expansion
Table A-12: Wet Gas Measurement
(1)
DWORD
Assembly
Dword
index
0-8 Common input data See Table A-1
9 Gas Volume Flow REAL
10 RPO REAL
11 Live Zero REAL
12 Tube Frequency REAL
13 Core Temperature REAL
14 Inventory 2 (default = Volume Inventory) REAL
15 Contract Total 1 REAL
16 Contract Total 2 REAL
17 Contract Total 3 REAL
18 Contract Total 4 REAL
Name Data type
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Table A-12: Wet Gas Measurement (continued)
Assembly
Dword
index
19 Total time mist detected DWORD
20 APM Status
21 Liquid Mass Flow Estimate REAL
22 Watercut @ Ref REAL
23 Gas Mass Flow (Reg 2008) REAL
24 Liquid Volume Flow (Reg 2261) REAL
25 Gas to Liquid Ratio (Reg 2255) REAL
26 Gas to Oil Ratio (Reg 2263) REAL
27 Net Oil Flow @ Ref REAL
28 Net Water Flow @ Ref REAL
29 Net Oil Total @ Ref REAL
30 Net Water Total @ Ref REAL
Name Data type
• Bit #0 – TMR Algorithm Active (reg 433 bit 12)
• Bit #1 – Bit #15 undefined
• Bit #16 – Bit #31 for future expansion
DWORD
Table A-13: Device Status
Assembly
Dword
index
0 Status & Diagnosis
1 LPO REAL
2 RPO REAL
3 Live Zero REAL
4 Tube Frequency REAL
5 Core Temperature REAL
6 Case Temperature REAL
7 Core In Volts REAL
Name Data type
• Bit #0 – Smart Meter Verification Running
• Bit #1 – Smart Meter Verification Passed
• Bit #2 – Smart Meter Verification Failed
• Bit #3 – Smart Meter Verification Aborted
• Bit #4 – Bit #31 for future expansion
DWORD
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Table A-13: Device Status (continued)
Assembly
Dword
index
8 Flow Verification Zero REAL
9 Result 1 (LPO Normalized Stiffness Reg 5782) REAL
10 Result 1 (RPO Normalized Stiffness Reg 5784) REAL
11 Result 3 – Future Use REAL
12 Result 4 – Future Use REAL
13 Result 5 – Future Use REAL
14 Result 6 – Future Use REAL
15 Data 1 – (Confidence Interval LPO Reg 6360) REAL
16 Data 2 – (Confidence Interval RPO Reg 6362) REAL
17 Data 3 – (LPO Std. Dev. Reg 6356) REAL
18 Data 4 – (RPO Std. Dev. Reg 6358) REAL
19 Data 5 – (LPO Meter Factor Reg 6371) REAL
20 Data 6 – (RPO Meter Factor Reg 6373) REAL
21 Data 7 – Future Use REAL
22 Data 8 – Future Use REAL
Name Data type
23 Data 9 – Future Use REAL
24 Smart Meter Verification Run Number (Reg 5826) UINT
25 Smart Meter Verification Progress (Reg 3020) UINT
26 Code 1 (Abort Code Reg 3002) UINT
27 Code 2 – Future Use UINT
28 Code 3 – Future Use UINT
A.2 Output slots
Empty
Use the Empty Input slot when no output data is required. No output data is a typical application and is the
default.
Table A-14: Common output data — Discrete actions only
Note
Common output data is required for every output assembly in order to access 5700 functions. Depending on the
application, not all functions may be used.
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Assembly
Dword
index
0 Discrete Actions:
Name Data type
• Bit #0 – Start Sensor Zero (trigger start with a 1, no abort)
• Bit #1 – Reset All Process Totals (same as setting bits 2-8)
• Bit #2 – Reset Totalizer 1 (Mass Total by default)
• Bit #3 – Reset Totalizer 2 (Volume Total by default)
• Bit #4 – Reset Totalizer 3 (PM Ref Vol Total by default)
• Bit #5 – Reset Totalizer 4 (GSV Total by default)
• Bit #6 – Reset Totalizer 5 (CM Ref Vol Total by default)
• Bit #7 – Reset Totalizer 6 (CM Net Mass Total by default)
• Bit #8 – Reset Totalizer 7 (CM Net Vol Total by default)
• Bit #9 – Start All Totals (trigger start with a 1)
• Bit #10 – Stop All Totals (trigger stop with a 1)
If both start and stop =1, then totals are stopped
• Bit #11 – Start Smart Meter Verification (Continue Measuring Mode
only)
Trigger start with a 1, no abort
• Bit #12 – Reset all Inventory Totals
• Bit #13 – Bit #31 for future expansion
DWORD
Table A-15: External process data
Assembly
Dword
index
0 Common output data See Table A-14
1 External Pressure REAL
2 External Temperature REAL
Name Data type
Table A-16: Batcher
Assembly
Dword
index
0 Common output data See Table A-14
1 Batch Target REAL
Name Data type
PROFINET Siemens PLC Integration Guide 41
Input and output slots Integration Guide
June 2022 MMI-20029785
Table A-16: Batcher (continued)
Assembly
Dword
index
2 Batcher Control – Discrete Actions
Name Data type
• Bit #0 – Reserved
• Bit #1 – Start Fill
• Bit #2 – End Fill
• Bit #3 – Pause Fill
• Bit #4 – Resume Fill
• Bit #5 – Reserved
• Bit #6 – Start Training
• Bit #7 – Save AOC Calibration
• Bit #8 – Reset Batch Total
• Bit #9 – Print Batch Ticket
• Bit #10 – Reset Preset 1 Inventory
• Bit #11 – Reset Preset 2 Inventory
• Bit #12 – Reset Preset 3 Inventory
• Bit #13 – Reset Preset 4 Inventory
• Bit #14 – Reset Preset 5 Inventory
• Bit #15 – Reset Preset 6 Inventory
• Bit #16 – Inhibit Totalizer
• Bit #17 – Inhibit Flow
• Bit #18 – Inhibit Batch
• Bit #19 – Bit #31 for future expansion
DWORD
3 Maximum Batch Time (Reg 1305) REAL
4 Batch Preset UINT
Table A-17: Batcher and external process data
Assembly
Dword
index
0–2 External process data See Table A-15
3 Batch Target REAL
42 Micro Motion 5700 Ethernet transmitters
Name Data type
Integration Guide Input and output slots
MMI-20029785 June 2022
Table A-17: Batcher and external process data (continued)
Assembly
Dword
index
4 Batcher Control – Discrete Actions
Name Data type
• Bit #0 – Reserved
• Bit #1 – Start Fill
• Bit #2 – End Fill
• Bit #2 – Pause Fill
• Bit #4 – Resume Fill
• Bit #5 – Reserved
• Bit #6 – Start Training
• Bit #7 – Save AOC Calibration
• Bit #8 – Reset Batch Total
• Bit #9 – Print Batch Ticket
• Bit #10 – Reset Preset 1 Inventory
• Bit #11 – Reset Preset 2 Inventory
• Bit #12 – Reset Preset 3 Inventory
• Bit #13 – Reset Preset 4 Inventory
• Bit #14 – Reset Preset 5 Inventory
• Bit #15 – Reset Preset 6 Inventory
• Bit #16 – Inhibit Totalizer
• Bit #17 – Inhibit Flow
• Bit #18 – Inhibit Batch
• Bit #19 – Bit #31 for future expansion
DWORD
5 Maximum Batch Time (Reg 1305) REAL
6 Batch Preset UINT
Table A-18: Output configurable data
Assembly
Dword
index
0 Common output data DWORD
1 Configurable Slot 1 (Register) DWORD
2 Configurable Slot 2 (Register) DWORD
3 Configurable Slot 3 (Register) DWORD
4 Configurable Slot 4 (Register) DWORD
5 Configurable Slot 5 (Register) DWORD
PROFINET Siemens PLC Integration Guide 43
Name Data type
Input and output slots Integration Guide
June 2022 MMI-20029785
Table A-18: Output configurable data (continued)
Assembly
Dword
index
6 Configurable Slot 6 (Register) DWORD
7 Configurable Slot 7 (Register) DWORD
8 Configurable Slot 8 (Register) DWORD
9 Configurable Slot 9 (Coil) DWORD
10 Configurable Slot 10 (Coil) DWORD
11 Configurable Slot 11 (Coil) DWORD
12 Configurable Slot 12 (Coil) DWORD
Name Data type
Table A-19: Advanced Phase Measurement (APM)
Assembly
Dword
index
0 Common output data See Table A-14
1 External Pressure REAL
2 External Temperature REAL
3 External Water Cut REAL
Name Data type
44 Micro Motion 5700 Ethernet transmitters
Integration Guide Input and output slots
MMI-20029785 June 2022
PROFINET Siemens PLC Integration Guide 45
*MMI-20029785*
MMI-20029785
Rev. AB
2022
For more information:
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