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Emerson Process Management
manual Micro Motion, Model 2400S Transmitters for DeviceNet
Models:
2400S
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Troubleshooting
Menu Flowcharts
Configuration and Use Manual
4.4Connecting to a Model 2400S DN transmitter
11.19.3Drive gain problems
Reset all inventories
Diagnostics Object
10.5.2Zero procedure
5.5Default assemblies
7.6Handling status alarms
Page 1
Image 1
Configuration and Use Manual
P/N
MMI-20007739,
Rev. B
July 2008
Micro Motion
®
Model 2400S Transmitters for DeviceNet
™
Configuration and Use Manual
Page 2
Page 1
Image 1
Page 2
Contents
Configuration and Use Manual
Micro Motion
Configuration and Use Manual
Model 2400S Transmitters for DeviceNet
Page
Configuration and Use Manual
Contents
Contents
Configuration and Use Manual
Chapter 11 Troubleshooting
Configuration and Use Manual
Page
Before You Begin
Chapter
1.2Safety
1.1Overview
1.5Determining version information
1.4DeviceNet functionality
Table 1-1 Obtaining version information
1.6Communication tools
1.7Planning the configuration
1.8Pre-configurationworksheet
Figure 1-1 Configuration overview
Required Configuration
Optional Configuration
Configuration data
Pre-configurationworksheet
Startup Transmitter User Interface Using ProLink
1.9Flowmeter documentation
1.10Micro Motion customer service
Chapter
Flowmeter Startup
2.1Overview
2.3Bringing the transmitter online
Flowmeter Startup
Chapter
Using the Transmitter User Interface
3.1Overview
3.2User interface without or with display
•Viewing the LEDs •Viewing the LCD panel
3.4Using the optical switches
3.5.1Display language
3.5Using the display
3.5.2Viewing process variables
Figure 3-3 Entering the display menu system
3.5.3Using display menus
3.5.4Display password
SX.XXXX
Figure 3-4 Numeric values in decimal notation
Figure 3-5 Numeric values in exponential notation
SX.XXXEYY
Page
Chapter
4.3Configuration upload/download
4.1Overview
4.2Requirements
4.4.2Service port connection parameters
4.4Connecting to a Model 2400S DN transmitter
Table 4-1 Service port auto-detectionlimits
4.4.3Connecting via the service port clips
•COM Port: as appropriate
4.5ProLink II language
4.4.4Connecting via the IrDA port
5.2Connecting to the Model 2400S DN transmitter
Using a DeviceNet Tool
5.3Using the DeviceNet device profile
Chapter
5.4.1Type A tools
5.4Using a DeviceNet tool
5.4.2Type B tools
Table 5-1 Default DeviceNet assemblies
5.5Default assemblies
Using a DeviceNet Tool
Required Configuration
Page
6.2.1When to characterize
Required Transmitter Configuration
Chapter
6.1Overview
0.0010
19.0005.13
0.9980
Table 6-1 Sensor calibration parameters
Figure 6-2 Characterizing the flowmeter
6.2.3How to characterize
6.3Configuring the measurement units
Using a DeviceNet Tool
Figure 6-3 Configuring measurement units
Configuration
Using the Transmitter Optional Configuration
Table 6-3 Volume flow measurement units – Liquid
6.3.2Volume flow units
6.3.1Mass flow units
Table 6-2 Mass flow measurement units
Table 6-4 Volume flow measurement units – Gas
Table 6-5 Density measurement units
6.3.3Density units
Table 6-6 Temperature measurement units
6.3.4Temperature units
6.3.5Pressure units
Table 6-7 Pressure measurement units
Table 6-7 Pressure measurement units continued
Chapter
Using the Transmitter
7.1Overview
7.2Recording process variables
7.3.1With the display
7.3Viewing process variables
7.3.2With ProLink
7.3.3With a DeviceNet tool
Using the Transmitter
Table 7-1 Process data in DeviceNet objects
Attribute
Table 7-2 Summary of input assemblies
Using the Transmitter
Using a DeviceNet Tool Required Configuration
Optional Configuration
Table 7-2 Summary of input assemblies continued
• Status
Table 7-2 Summary of input assemblies continued
7.4.1Using the module LED
7.4Using the LEDs
Table 7-2 Summary of input assemblies continued
7.5.1Using the status LED
7.4.2Using the network LED
Using the Transmitter
7.5Viewing transmitter status
7.5.3Using a DeviceNet tool
7.5.2Using ProLink
7.6Handling status alarms
Table 7-5 Transmitter status LED
7.6.1Using the display
Table 7-6 Transmitter responses to status alarms
Status window
7.6.2Using ProLink
7.6.3Using a DeviceNet tool
Alarm Log window
7.7Using the totalizers and inventories
NETVI for ED Net Volume Inventory
LVOLI for Liquid Volume Inventory
Using the Transmitter
GSV I for Gas Standard Volume Inventory
With a DeviceNet tool
With ProLink
7.7.2Controlling totalizers and inventories
With the display
With ProLink
With a DeviceNet tool
Reset all inventories
Using the Transmitter
Using a DeviceNet Tool Required Configuration
Optional Configuration
• Start/stop all totalizers and inventories
Page
Table 8-1 Configuration map
Optional Configuration
Chapter
8.1Overview
8.2Configuring volume flow measurement for gas
Table 8-1 Configuration map continued
•Liquid volume the default •Gas standard volume
Using the Gas Wizard
8.2.1Using ProLink
8.3Configuring cutoffs
8.2.2Using a DeviceNet tool
8.3.1Cutoffs and volume flow
Table 8-2 Cutoff default values
8.4Configuring the damping values
8.5Configuring the flow direction parameter
8.4.1Damping and volume measurement
Table 8-3 Valid damping values
8.6.1Defining events
8.6Configuring events
Table 8-6 Event actions
Table 8-5 Event types
Example
Table 8-6 Event actions continued
8.6.2Checking and reporting event status
8.7Configuring slug flow limits and duration
8.6.3Changing event setpoints from the display
Alarm severity levels and fault reporting
8.8Configuring status alarm severity
Table
Table 8-8 Status alarms and severity levels
8.9.1Update period
8.9Configuring the display
8.9.2Language
8.9.3Enabling and disabling display functions
Table 8-9 Display functions
8.9.4Configuring the LCD backlight
•Using ProLink II, see Figure B-3
8.10.1DeviceNet node address
8.10Configuring digital communications
8.10.2DeviceNet baud rate
8.10.3DeviceNet configurable input assembly
Table 8-11 Baud rate codes
8.10.5Modbus ASCII support
8.10.4Modbus address
8.10.6IrDA port usage
8.10.7Digital communications fault action
8.11Configuring device settings
8.10.8Fault timeout
Table 8-13 Device settings
8.13.1About the petroleum measurement application
8.12Configuring sensor parameters
Terms and definitions
CTL derivation methods
API reference tables
8.13.2Configuration procedure
Table 8-14 API reference temperature tables
•Using ProLink II, see Figure B-3
•Using a DeviceNet tool, see Table C-10
Optional Configuration
8.14Configuring the enhanced density application
Temperature unit
8.14.1About the enhanced density application
Temperature unit
Optional Configuration
Volume Conc Dens
Using a DeviceNet Tool Required Configuration
Volume Conc SG
8.14.2Configuration procedure
Conc Dens
Conc SG
Using the Transmitter
Using a DeviceNet Tool
Optional Configuration
Configuration and Use Manual
Page
Pressure Compensation
and Temperature Compensation
Chapter
9.1Overview
9.2.2Pressure correction factors
9.2.3Configuration
Measurement Performance Troubleshooting
9.3External temperature compensation
Defaults
be configured to match pressure unit
•With ProLink II, see Figure
Data description
Instance ID
Size
Bytes
Page
Chapter
Measurement Performance
10.1Overview
10.2.2Meter validation and meter factors
10.2.1Meter verification
10.2.3Calibration
10.3Performing meter verification
10.2.4Comparison and recommendations
To perform meter verification
Configuration and Use Manual
Troubleshooting Defaults
Compensation
Measurement Performance
Measurement Performance
Troubleshooting Defaults
Step number
Step description
10.3.1Uncertainty limit and test results
10.4Performing meter validation
2.Calculate the meter factor as follows
10.5Performing zero calibration
Example
10.5.1Preparing for zero
10.5.2Zero procedure
Configuration and Use Manual
Troubleshooting Defaults
Compensation
Measurement Performance
ProLink > Calibration > Zero Calibration
Figure 10-6 ProLink II – Flowmeter zero procedure
Calibration in Progress
LED turns red
10.6Performing density calibration
10.6.1Preparing for density calibration
10.6.2Density calibration procedures
Sensor requirements
Density calibration fluids
Configuration and Use Manual
Troubleshooting Defaults
Compensation
Measurement Performance
D2 calibration
D1 calibration
Bit 14 0ff?
Configuration and Use Manual
Troubleshooting Defaults
Compensation
Measurement Performance
D4 calibration
D3 calibration
Bit 7 0ff?
Figure 10-12 Temperature calibration – ProLink
10.7Performing temperature calibration
Page
11.2Guide to troubleshooting topics
Troubleshooting
Table 11-1 Troubleshooting topics and locations
Chapter
11.4Transmitter does not operate
11.3Micro Motion customer service
11.5Transmitter does not communicate
11.7.1Checking the DeviceNet cable and connector
11.7Diagnosing wiring problems
11.6Checking the communication device
ProLink
11.9Fault conditions
Figure 11-1 DeviceNet connector
11.7.2Checking grounding
11.8Zero or calibration failure
11.11Transmitter LEDs
Table 11-2 Status alarms and remedies
11.12Status alarms
Troubleshooting
Alarm
Troubleshooting
Table 11-2 Status alarms and remedies continued
Defaults
Compensation Measurement Performance
A030
Table 11-2 Status alarms and remedies continued
11.13Checking process variables
Erratic non-zeroflow rate under
Defaults
Troubleshooting
11.14Checking slug flow
Compensation Measurement Performance
11.15Checking the sensor tubes
11.16Checking the flow measurement configuration
11.17Checking the characterization
11.18Checking the calibration
Table 11-4 Test points with DeviceNet tool
11.19.1Obtaining the test point values
11.19.2Evaluating the test points
Table 11-5 Sensor pickoff values
11.19.4Low pickoff voltage
11.19.3Drive gain problems
11.20Checking sensor circuitry
Transmitter housing Clamp Feedthrough pins
Transmitter housing cover User interface module
inside housing Feedthrough mounted on sensor
Transmitter
Figure 11-3 Accessing the feedthrough pins
Figure 11-4 Feedthrough pins
To return to normal operation
Page
Appendix A
Default Values and Ranges
A.2 Most frequently used defaults and ranges
Table A-1 Transmitter default values and ranges
Setting
Default Values and Ranges
Default
Type
Defaults
Troubleshooting
Display
Compensation Measurement Performance
Page
Appendix B
Menu Flowcharts
B.1 Overview
B.2 Version information
Figure B-1 ProLink II main menu
Menu Flowcharts
Menus
Figure B-2 ProLink II configuration menu
Device Profile
Display Codes
Display ·Var1 ·Var2 ·… ·Var Display precision
Menus
Figure B-4 Display menu – Off-linemenu, top level
Device Profile
Display Codes
4Displayed only if Auto Scroll is enabled
RESTORE ZERO
Configuration and Use Manual
RESTORE ZERO/YES?
Menus
OFF-LINEMAINT
Device Profile
Appendix C
C.1 Overview
C.2 Analog Input Point Object 0x0A
Service
Device Profile
Attrib
Value
Gas Standard Volume Object
Calibration Object
REAL
Diagnostics Object
Alarm status
Menus
Alarm status
Device Profile
Display Codes Index
Alarm status
Menus
Alarm status
Device Profile
Display Codes Index
9-wirecable
Menus
Alarm
Device Profile
Display Codes Index
Meter
Menus
Meter
Device Profile
Display Codes Index
Meter
Page
Local Display Object
Menus
Display
Device Profile
Display Codes Index
Table C-10 API Object 0x69 – Instance
Table C-10 API Object 0x69 – Instance 1 continued
Net mass flow
Device Profile
C.11
measurement unit codes
Process variable codes
Process variable codes
Process variable codes continued
Alarm index codes
Table C-15
Table C-16
Table C-16
Alarm index codes continued
Display Codes and Abbreviations
Appendix D
D.1 Overview
D.2 Codes and abbreviations
Display Codes and Abbreviations
Table D-2 Display codes used in off-linemenu
Code or abbreviation
Definition
Event
Table D-2 Display codes used in off-linemenu
Page
Index
Page
Page
Page
Page
configuration 30 list
Volume flow, liquid cutoff 58 measurement unit
Wiring problems
Zero calibration failure 114 procedure
Page
Micro Motion Inc. USA
MMI-20007739
Worldwide Headquarters
Micro Motion Europe