User Manual - Instrumart
Contents
1. Output 3 HART Command Support No Write Security Register Name Register Type DS Device Specific UN Universal 52 SERVICE Output 3 Full Scale Frequency Hz UINT16 DS 212 213 Read Write 53 SERVICE Output 3 Flow Alarm Minimum UINT16 DS 204 205 Read Write 54 SERVICE Output 3 Flow Alarm Maximum UINT16 DS 206 207 Read Write 55 SERVICE Output 3 Output Mode UINT16 DS 208 209 Read Write 56 SERVICE Output 3 Hardware Select UINT16 DS 214 215 Read Write 57 SERVICE Output 3 Output Operation UINT16 DS 210 211 Read Write Output 4 HART Command Support No Write Security Register Name Register Type DS Device Specific UN Universal 58 SERVICE Output 4 Flow Alarm Minimum UINT16 DS 204 205 Read Write 59 SERVICE Output 4 Flow Alarm Maximum UINT16 DS 206 207 Read Write 60 SERVICE Output 4 Output Mode UINT16 DS 208 209 Read Write 61 SERVICE Output 4 Hardware Select UINT16 DS 214 215 Read Write 62 SERVICE Output 4 Output Operation UINT16 DS 210 211 Read Write Port A Diagnostic Counters HART Command Support No Write Security Register Name Register Type DS Device Specific UN Universal 63 FIRMWARE Port A Packets Processed UINT16 DS 220 Read 64 FIRMWARE Port A Broadcast Packets UINT16 DS 220 Read 65 FIRMWARE Port A CRC Errors UINT16 DS 220 Read 66 FIRMWARE Port A Packets Received UINT16 DS 220 Read 67 FIRMWARE Port A Packets Sent UINT16 DS 220 Read2. Product Identification HART Command Support Write Security Register Name Register Type DS Device Specific UN Universal 1 FIRMWARE Product Code UINT16 DS 130 Read 2 FIRMWARE Product Name UCHAR16 8 DS 131 Read 3 FIRMWARE Firmware Name UCHAR16 16 DS 132 Read 4 FACTORY Application Version UCHAR16 10 DS 133 Read 5 FIRMWARE Compile Date MM DD YYYY UCHAR16 16 DS 134 Read 6 FIRMWARE Compile Time HH MM SS UCHAR16 16 DS 134 Read 7 FACTORY PCB Serial Number UCHAR16 5 DS 141 Read 8 FIRMWARE OTP Boot Checksum UCHAR16 3 DS 135 Read 9 FIRMWARE Flash OS Checksum UCHAR16 3 DS 136 Read 10 FIRMWARE Boot Version UCHAR16 5 DS 137 Read 11 FIRMWARE Os Version UCHAR16 4 DS 138 Read 12 NONE Daughterboard Product Type UINT16 DS 139 Read 13 NONE Daughterboard Major Version UINT16 DS 140 Read 14 NONE Daughterboard Minor Version UINT16 DS 140 Read 15 NONE Meter Tag Name UCHAR16 17 UN 20 22 Read Write Meter Calibration HART Command Support No Write Security Register Name Register Type DS Device Specific UN Universal 16 ADMIN Detector Diameter UINT16 DS 150 Read 17 ADMIN Detector Diameter Other mm UINT16 DS 152 Read 18 ADMIN Detector Factor FLOAT32 DS 154 Read 19 ADMIN Detector Offset m s FLOAT32 DS 156 Read 20 ADMIN Amplifier Factor FLOAT32 DS 158 Read 21 ADMIN Detector Current mA FLOAT32 DS 160 Read 22 SERVICE Power Line Frequency Hz UINT16 DS 162 163 Read W
3. 24444221 AUAI Week Year Figure 2 Main Board Label Installing the Daughterboard The daughterboard connects to the 11 pin connector labeled as COMMUNICATION on the main amplifier Figure 3 Daughterboard Connection Page 6 MAG UM 01408 EN 03 February 2015 Installation Follow these steps to install the daughterboard 1 Prior to installing the daughterboard verify or configure the M2000 Communication Port Access the port settings at Main Menu gt Communications gt Port B Settings Parameter Value Comments Port Address 001 Extended Port Address Not applicable for HART Baud Rate 38400 HART Daughterboard auto bauds all baud rates supported Data Bits 8 Parit EVEN Stop Bits 1 2 Verify or configure the analog output range at 4 20 mA Access the analog output range at Main Menu gt Inputs Outputs gt Analog Output Range 3 Power off the M2000 DISCONNECT THE INPUT POWER BEFORE ACCESSING THE EQUIPMENT This step is important for the M2000 to properly recognize the HART daughterboard and fulfill HART compliance 4 Prior to inserting the daughterboard install the foam insulation pad as shown below Be sure to align the groove with the two screws attaching the detector or wall mount bracket to the enclosure The primary purpose of this pad is to ensure the daughterboard is insulated from the enclosure wall It is important to install this pad flush with the top
4. ModMAG ModMAG w series 2000 M Series M Series B MAG Electromagnetic Flow Meters B MAG Electromagnetic Flow Meters Bi Directional Communication Protocol Data Access Badger Meter MAG UM 01408 EN 03 February 2015 U se r M a n u a M Series M2000 HART Bi Directional Communication Protocol Data Access Page ii MAG UM 01408 EN 03 February 2015 User Manual CONTENTS About THS Manual cecce AA e002 4 AA WA aa 5 DennitiOnss ican sabe todd te ee ak oe ROR AR ee ee Ce Se eee tee oR aan 5 ee eee ae aoa ae eee ae ie ee eae 5 5 15 Lanne Ka eed 6 ea ee ee 6 Installing the 252 dae ae AA Cae a eae ee 6 M2000 and HART Rake hen Perea daa Phage ded a hae ee eee WA 8 Device Vina as es aa ai Sac wa ee 9 Dynamic Variables hae CISPR ES ARES aS a Pee 9 Device Stats 00064 44 RAG AOR MA Deer ea a heer dae Oe oaks hOGA hee eS 9 Meter Status Register ccc cisini eka ee RRA Ce REA EERE EAD ERE ES EERE SD ES eRe Eas 10 Un
5. 123 FIRMWARE Random Value UINT32 DS 247 Read 124 NONE Remote Login UINT32 DS 242 Write Page 20 MAG UM 01408 EN 03 February 2015 Device Description DEVICE DESCRIPTION The device descriptions located www hartcomm org under Product Catalog gt All Products gt 2000 can be installed into host systems such as the Emerson 475 Field Communicator Periodically the device description monitors the attached device for non zero status codes universal command 48 These codes inform the user of the status of the M2000 If the status of the M2000 does not clear these informational dialogs will continue to be presented To reduce the amount of dialogs correct the state of the meter or configure the host to ignore these non zero status codes In addition performing changes to the meter s configuration generates a configuration changed status dialog This bit must be manually cleared to prevent future display of this dialog This can be done within the DD file by navigating to M2000 gt Advanced gt Miscellaneous gt Service gt Reset Config Change or separately issuing universal command 38 TROUBLESHOOTING Symptom Solution Using DD files not able to change values with the handheld Check the wiring Verify load is above minimum required resistance of 230 Ohms Verify installation requirements are met firmware v1 10 or later PCB serial number 1911 or later Verify the loop current is within range espe
6. Current and Four Dynamic Variables 6 Write Polling Address 7 Read Loop Configuration 8 Read Dynamic Variable Class 9 Read Device Variables with Status 11 Read Unique Identifier Associated with Tag 12 Read Message 13 Read Tag Descriptor Date 14 Read PV Sensor Information 15 Read Output Information 16 Read Final Assembly Number 17 Write Message 18 Write Tag Descriptor Date 19 Write Final Assembly Number 20 Read Long Tag 21 Read Unique Identifier Associated with Long Tag 22 Write Long Tag 38 Reset Configuration Changed Flag 48 Read Additional Device Status Typically these commands are used by advanced users of HART or the usage of these commands is embedded within the DD files With the use of the HART universal commands device variables and dynamic variables are accessible Device and dynamic variables are defined later For further understanding of the format and function of the HART Universal Commands please refer to HART protocol documentation Device specific commands are mainly for accessing many of the M2000 data parameters including configuration identity and diagnostic parameters Much of the data accessible with device specific commands is accessed through the use of the DD files The DD files provide all the necessary information for data management within the M2000 Installing and using the DD files in the applications host is the most convenient method for communicating to the M2000 over HART Using both the HART
7. the reply to this command Unused bits are not listed in the table and are always set to 0 Some of these bits influence the device status bits shown in the Device Status Bits Set column Byte Bit Description Class Device Status Bits Set 0 Detector Error Error 4 7 1 Empty Pipe Error Error 4 7 2 Full Scale Flow Error Warning 0 4 3 Totalizer Rollover Error Error 4 7 0 4 Totalizer Rollover Status Warning 4 5 Flow Simulation Status Warning 4 6 Pulse Synchronization Warning 4 Warning 7 ADC Interrupt Error Error 4 7 1 0 ADC Range Error Error 4 7 0 Internal Communication Error 4 7 4 Failure 1 Configuration Error Warning 4 The internal communication failure status bit byte 4 bit 0 is set when MODBUS communication between the meter and the daughterboard have failed Verify that the diagnostic bi color LED on the daughterboard is blinking both status indicators red and green If both colors are not observed then power cycle the meter The Configuration Error status bit byte 4 bit 1 is set when a mismatch between the meter s configuration and that reported over the HART protocol Generally this implies the intended value for the parameter was invalid Below are some examples for how this bit could be set Example 1 Intended value is invalid If the configured function for output 1 is set to 24V DC supply the output type has to be normally open If the intended value for the
8. universal commands and device specific commands allows for complete access to the M2000 parameters including the ability to read or write M2000 parameters The Data Management section defines the M2000 data and the associated HART command 8 MAG UM 01408 EN 03 February 2015 Device Variables M2000 and HART There are thirteen device variables as defined in the table below Device variables can be accessed with universal command 9 No Name Classification Units 0 Flow Rate 66 USER UNITS 1 Flow Velocit 67 m s 2 T1 T 68 USER UNITS 3 T2 T 68 USER UNITS 4 T3 Tn 68 USER UNITS 5 Relative Flow Rate 81 6 Flow Rate 66 12 5 7 T1 T 68 m 8 2 68 m 9 T3 Tn 68 m 10 PS 68 m 11 PS 68 USER UNITS 12 Power Loss Totalizer 70 Seconds Dynamic Variables Four dynamic variables are supported Dynamic variables can be accessed with universal command 3 The assignment to dynamic variables is fixed and is defined in the table below Device Status No Name Classification Units PV Primary Variable Flow Rate 66 USER UNITS SV Secondary T1 T 68 USER UNITS Variable TV Tertiary Variable T2 T 68 USER UNITS FV Fourth Variable T3 Tn 68 USER UNITS HART defined device status information is available Only those bits supported by the M2000 are listed in the table below All other bits will be set to 0
9. 68 FIRMWARE Port A Parity Errors UINT16 DS 220 Read 69 FIRMWARE Port A Framing Errors UINT16 DS 220 Read 70 FIRMWARE Port A Overrun Errors UINT16 DS 220 Read 71 FIRMWARE Port A Break Detects UINT16 DS 220 Read Port B Diagnostic Counters HART Command Support No Write Security Register Name Register Type DS Device Specific UN Universal 72 FIRMWARE Port B Packets Processed UINT16 DS 221 Read 73 FIRMWARE Port B Broadcast Packets UINT16 DS 221 Read 74 FIRMWARE Port B CRC Errors UINT16 DS 221 Read 75 FIRMWARE Port B Packets Received UINT16 DS 221 Read 76 FIRMWARE Port B Packets Sent UINT16 DS 221 Read 77 FIRMWARE Port B Parity Errors UINT16 DS 221 Read 78 FIRMWARE Port B Framing Errors UINT16 DS 221 Read 79 FIRMWARE Port B Overrun Errors UINT16 DS 221 Read 80 FIRMWARE Port B Break Detects UINT16 DS 221 Read Page 18 MAG UM 01408 EN 03 February 2015 Data Management Measurements Write Security Register Name Register Type HART Command Support DS Device Specific UN Universal Write Security Register Name 81 FIRMWARE T1 T m FLOAT32 UN 9 Read 82 FIRMWARE T1 T User Units FLOAT32 UN 3 9 Read 83 FIRMWARE 2 T m FLOAT32 UN 9 Read 84 FIRMWARE 2 User Units FLOAT32 UN 3 9 Read 85 FIRMWARE m FLOAT32 UN 9 Read 86 FIRMWARE TN User Units FLOAT32 UN 3 9 Read 87 FI
10. 8 EN 03 February 2015 About This Manual ABOUTTHIS MANUAL Definitions DD Device Description HART Highway Addressable Remote Transducer HOST Host System typically the master i e handheld device PV Primary Variable SV Secondary Variable TV Tertiary Variable FV Fourth Variable Scope This document discusses the supported features of HART and how these features are related to the M2000 This document also discusses special considerations and the type of data that is accessible over HART This document is intended for readers who have a general understanding of the HART protocol For further information regarding the HART protocol please refer to www hartcomm org The M2000 HART daughterboard supports Universal Command Revision 7 INTRODUCTION HART protocol provides the means for sending and receiving digital information across analog wires HART is a bi directional communication protocol that provides data access between intelligent field instruments like the M2000 and host systems like the Emerson Field Communicator HART technology is a master slave protocol which means that a field device only speaks when spoken to by a master The M2000 operates as a slave device In order to connect with the M2000 using the HART protocol the HART daughterboard is required As an accessory module to the M Series M2000 the HART daughterboard allows access to many of the M2000 measurements and configuration data using the analog wires In add
11. Analog Output Current FLOAT32 UN 2 3 Read Read 38 SERVICE Alarm Mode UINT16 DS 197 Write 39 NONE Fixed Current Mode FLOAT32 UN 6 7 Read Write Output 1 HART Command Support No Write Security Register Name Register Type DS Device Specific UN Universal 40 SERVICE Output 1 Pulses Per Unit User Units FLOAT32 DS 200 201 Read Write 41 SERVICE Output 1 Pulse Width ms UINT16 DS 202 203 Read Write 42 SERVICE Output 1 Flow Alarm Minimum UINT16 DS 204 205 Read Write 43 SERVICE Output 1 Flow Alarm Maximum UINT16 DS 206 207 Read Write 44 SERVICE Output 1 Output Mode UINT16 DS 208 209 Read Write 45 SERVICE Output 1 Output Operation UINT16 DS 210 211 Read Write Output 2 HART Command Support Write Security Register Name Register Type DS Device Specific UN Universal 46 SERVICE Output 2 Pulses Per Unit User Units FLOAT32 DS 200 201 Read Write 47 SERVICE Output 2 Pulse Width ms UINT16 DS 202 203 Read Write 48 SERVICE Output 2 Flow Alarm Minimum UINT16 DS 204 205 Read Write 49 SERVICE Output 2 Flow Alarm Maximum UINT16 DS 206 207 Read Write 50 SERVICE Output 2 Output Mode UINT16 DS 208 209 Read Write 51 SERVICE Output 2 Output Operation UINT16 DS 210 211 Read Write February 2015 MAG UM 01408 EN 03 Page 17 Data Management
12. Bit Description Comments 0 PV Out of Range Set if the primary variable is exceeding the sensor limits 1 Non PV Out of Range Not Used 2 PV Output Saturated Set if the primary variables analog loop current exceeds the limits of 4 mA and 20 mA 3 PV Output Fixed Set if the daughterboard is configured for multi drop mode and the polling address is non zero When set current is fixed at 4 mA 4 More Status Available Set when alarm or failure is detected Refer to command 48 for further information 5 Device Reset Set at power up or on reset of the meter 6 Configuration Changed Indicates when M2000 configuration has been changed This bit can be cleared by Universal command 38 7 Field Device Malfunction Set when there is failure of the M2000 that prevents flow measurement February 2015 MAG UM 01408 EN 03 9 2000 Meter Status Register Meter status is status variable accessible over MODBUS that identifies the error state of the M2000 The HART daughterboard shall query this MODBUS register and report status through the usage of Universal Command 9 and 48 Below is a table that defines the meter status register Unused bits are not listed in the table and are always set to 0 e Description Detector Error Empty Pipe Error Full Scale Flow Error Totalizer Rollover Error Totalizer Rollover Status Flow Simulation Status Reserved ADC Interrupt Error ADC Range Error Universal Command 0 Read U
13. RMWARE T1 T Rollover Counter UINT16 DS 239 Read 88 FIRMWARE T2 T Rollover Counter UINT16 DS 239 Read 89 FIRMWARE Flow Velocity m s FLOAT32 UN 9 Read 90 FIRMWARE Flow Rate m s FLOAT32 UN 9 Read 91 FIRMWARE Flow Rate User Units FLOAT32 UN 1 3 9 Read 92 FIRMWARE Relative Flow Rate FLOAT32 UN 2 9 Read 93 FIRMWARE Preset Batch Totalizer m FLOAT32 UN 9 Read 94 FIRMWARE Preset Batch Totalizer User Units FLOAT32 UN 9 Read 95 FIRMWARE Flow Direction UINT16 DS 239 Read Meter Diagnostic Counters HART Command Support Register Type DS Device Specific UN Universal Write Security Register Name 96 FIRMWARE Power Up Counter UINT16 DS 222 Read 97 FIRMWARE Detector Error Counter UINT16 DS 222 Read 98 FIRMWARE Empty Pipe Counter UINT16 DS 222 Read 99 FIRMWARE Full Scale Counter UINT16 DS 222 Read 100 FIRMWARE Totalizer Overflow Counter UINT16 DS 222 Read 101 FIRMWARE Pulse Sync Counter UINT16 DS 222 Read 102 FIRMWARE ADC Interrupt Counter UINT16 DS 222 Read 103 FIRMWARE ADC Range Counter UINT16 DS 222 Read 104 FIRMWARE WDT Resets Counter UINT16 DS 222 Read 105 FIRMWARE WDT Location UINT16 DS 222 Read 106 FIRMWARE System Error UINT16 DS 222 Read 107 FIRMWARE Meter Status UINT16 UN 48 Read 108 FIRMWARE Action Request Overflows UINT16 DS 222 Read 109 FIRMWARE Measurement Overflows UINT16 DS 222 Read 110 FIRMWARE Remote Re
14. a is defined in the following table Bit Definition 0 If set indicates meter is secured 1 If set indicates menu access level is NONE 2 If set indicates menu access level is USER 3 If set indicates menu access level is SERVICE 4 If set indicates menu access level is ADMIN 5 If set indicates menu access level is FACTORY 6 Not Defined 7 Not Defined 8 If set indicates remote access level is NONE 9 If set indicates remote access level is USER 10 If set indicates remote access level is SERVICE 11 If set indicates remote access level is ADMIN 12 If set indicates remote access level is FACTORY 13 Not Defined 14 Not Defined 15 Not Defined Page 12 MAG UM 01408 EN 03 February 2015 Additional Features Fixed Current Mode Multi Drop The M2000 provides an active analog output This means it is the source of the analog signal When placing the meter into fixed current mode the M2000 shall fix the output current to 4 mA regardless of the primary variables value that is Flow Rate During this condition the device status bit 3 PV Analog Channel Fixed is set To place the meter into fixed current mode the polling address must be non zero This is a HART specific parameter The polling address is not accessible within the M2000 menu structure Changing this value when the meter is secured is not prevented With reference to the HART DD this parameter is located at Configuration gt Ha
15. cation Method The above product has successfully completed the validation process and meets the requirements to be HART REGISTERED Registration Registration HCF QA 7 2 Number L2 06 1000 130 Issue Date Nov 30 2011 Approval J COMMUNICATION FOUNDATION HART is a registered trademark of the HART Communication Foundation Page 22 MAG UM 01408 EN 03 February 2015 User Manual INTENTIONAL BLANK PAGE February 2015 MAG UM 01408 EN 03 Page 23 M Series M2000 HART Bi Directional Communication Protocol Data Access Control Manage Optimize M SERIES is registered trademark of Badger Meter Inc Other trademarks appearing in this document are the property of their respective entities Due to continuous research product improvements and enhancements Badger Meter reserves the right to change product or system specifications without notice except to the extent an outstanding contractual obligation exists 2015 Badger Meter Inc All rights reserved www badgermeter com The Americas Badger Meter 4545 West Brown Deer Rd PO Box 245036 Milwaukee WI 53224 9536 800 876 3837 414 355 0400 M xico Badger Meter de las Americas S A de C V Pedro Luis Ogaz n N 32 Esq Angelina N 24 Colonia Guadalupe Inn CP 01050 M xico DF M xico 52 55 5662 0882 Europe Middle East and Africa Badger Meter Europa GmbH Nurtinger Str 76 72639 Neuffen Germany 49 7025 9208 0 Europe Middle East Bra
16. cially if configured for multi drop Unable to communicate with the meter over HART Unable to find the calibration These methods only are visible when the meter is unsecured or when properly methods for empty pipe or the logged into a secured meter For secured meters these methods require SERVICE level analog output authorization To eliminate this condition and any concerns regarding this condition it is advisable to reset the M2000 This can be done by issuing the RESET command in the The configuration error flag is set Advanced gt Miscellaneous gt Service menu Shortly thereafter the M2000 resets and the daughterboard image updates to match the M2000 image Then re verify all configuration data is as desired Verify the meter is not configured for multi drop mode A meter configured for multi My analog current is always 4 drop mode will have a non zero polling address Set the polling address to zero Verify flow rate is non zero Flow rate is directly proportional to the analog current February 2015 MAG UM 01408 EN 03 Page 21 Compliance COMPLIANCE REGISTERED Certificate of Registration HCF Verified Badger Meter Europe M2000 Manufacturer Product Name Model Number 000080 BD02 Manufacturer ID Hex Expanded Device Type Hex 4 01 HART Protocol Revision Device Revision 01 OE Hardware Revision Software Revision 10 30 2011 HCF Test Date Verifi
17. e that defines the remote actions that can be taken including the level of security reguired if the meter is secured To issue action to the meter access the command action parameter at Configuration gt M2000 gt Advanced gt Miscellaneous gt Service Empty Pipe Calibration Description Save Totalizers to EEPROM 7 SERVICE Clear T1 or T 8 SERVICE Clear 2 or T 9 SERVICE Clear T3 or Tn 10 SERVICE Clear All Totalizers 11 SERVICE Clear Port A Diagnostics 12 SERVICE Clear Port B Diagnostics SERVICE SERVICE Clear All Error Counts Clear Power Off Totalizer SERVICE Remote Reset power cycle SERVICE Reset Batch Amount NONE Logoff Remote No Action Empty Pipe Calibration is an application embedded within the DD file that allows for remote calibration of empty pipe Navigate to Configuration gt M2000 gt Advanced gt Empty Pipe and select Empty Pipe Calib to start the application Follow the on screen instructions for further details It may take up to 30 seconds for each pipe condition s reading to stabilize During this time the following message displays Wait while reading stabilizes Executing the empty pipe calibration application will leave Empty Pipe enabled regardless of the state prior to execution Page 14 MAG UM 01408 EN 03 February 2015 Additional Features Analog Output Calibration Analog Ou
18. ition the HART daughterboard allows for real time control and monitoring of the M2000 The Device Description DD files for the M2000 are located on www hartcomm org under Product Catalog gt All Products gt M2000 These files describe the supported features and functions of the M2000 with respect to HART The DD includes details of menus and graphic display features to be used by host applications in order to access all parameters and data in the M2000 These files describe what parameters are accessible and should be installed in host systems In order to provide access to the M2000 over HART the daughterboard converts HART protocol commands to MODBUS RTU commands M2000 HART INTELLIGENT DSP Daughter HOST Board Modbus RTU HART Figure 1 HART to MODBUS RTU Commands February 2015 MAG UM 01408 EN 03 Page 5 Installation INSTALLATION Prereguisites Installing HART daughterboard into an M2000 has two requirements Firmware v1 10 or later M2000 PCB serial number must indicate that the board was manufactured week 19 of Year 2011 or later The PCB serial number is listed in the menus at Main Menu gt Info Help gt Serial Number The PCB serial number is of the following format WWYYSSSS where WW Week YY Year A label on the main board also indicates the week and year 4601 9 1 1Y 0049 be 6861 LF 36249
19. iversal Command 0 Read Unique Identifier 10 Universal Command 9 Read DeviceVariableswithStatus 10 Universal Command 48 Read AdditionalDeviceStatus 11 Additional Features ee ade Geese ae wees 12 SECUN eed ee GA ee ab Oe ee a Om ae es eee het eee 12 Fixed Current Mode Multi Drop 66 cw aR we Re RADAR AW Oe ERD HSS Awa ee ae eS 13 Command ActioniRequest 24555249 ee Oe Oe ee 14 Empty Ripe Calibration ters agate eee ale eRe Sees eae Pes 14 Analog Output Calibration i6 0 04 04 244 G86 404 4 C869 ORT 15 Data Management trasa ma eR RETR ERR RRR DR ER RET ER ERO RD ERT Se RS 16 Device Descriptio esst wate ab ea hw a 2 a ea ete a ee Dara ele 21 TroubleshootnG c 5 eee he eee Ree ee EP RAE Awe Chu Rees 21 wd eek Ae ee PER 5 ends ado nd eee 22 February 2015 MAG UM 01408 EN 03 Page iii M Series M2000 HART Bi Directional Communication Protocol Data Access Page iv MAG UM 0140
20. nch Office Badger Meter Europe PO Box 341442 Dubai Silicon Oasis Head Quarter Building Wing Office 209 Dubai UAE 971 4 371 2503 Czech Republic Badger Meter Czech Republic s r o Ma kova 2082 26 621 00 Brno Czech Republic 420 5 41420411 Slovakia Badger Meter Slovakia s r o Racianska 109 B 831 02 Bratislava Slovakia 421 2 44 63 83 01 Asia Pacific Badger Meter 80 Marine Parade Rd 21 06 Parkway Parade Singapore 449269 65 63464836 China Badger Meter 7 1202 99 Hangzhong Road Minhang District Shanghai China 201101 86 21 5763 5412 Legacy Document 191 02
21. nique Identifier NID Command has particular status information that requires definition Below is a table that defines byte 16 of the response Extended Field Device Status Bit Description 0 Maintenance Required Set when Meter Status bits 0 1 3 4 7 or 8 are set 1 Alert State Set when Meter Status bits 2 5 6 are set Universal Command 9 Read Device Variables with Status Command 9 has particular status information that requires definition Below is a table that defines the device variable status byte coding Only those defined in the table below can be observed Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Process 222 Data Ime Reserved Always 0 Description Status Status 1 1 X X 0 0 0 0 Good Data M2000 is without error and all measurements are proper 0 0 X X 0 0 0 0 Bad Data M2000 is with error and notrelating to actual Bad data is considered when additional device status indicates an error condition Refer to Universal Command 48 Warning conditions are considered good data Page 10 MAG UM 01408 EN 03 February 2015 M2000 HART Universal Command 48 Read Additional Device Status Command 48 returns 8 bytes of data that is specific to the M2000 HART daughterboard The following table defines the status information for
22. of the enclosure wall Apply insulation pad flush with the top of the housing Figure 4 Installing Foam Insulation Pad 5 Insert the daughterboard into the 11 pin connector 6 Use the following information to make appropriate wiring of analog wires to the 4 pin customer connector Pin Number Pin Description Comments 41 Ground 42 Analog Signal Requires minimum loop impedance of 230 for communication 43 Analog Shield Only for shielded wires 44 Chassis Jumper Connect to screw in corner 7 Power on the M2000 8 Allow time for the daughterboard to properly power up and be recognized by the M2000 before navigating the menus This time is typically 5 seconds If the HART daughterboard is not recognized then the M2000 should be power cycled 9 Verify recognition of the HART daughterboard Navigate to Main Menu gt Info gt Help The Daughterboard Info field indicates the Daughterboard Type is HART February 2015 MAG UM 01408 EN 03 Page7 2000 2000 HART protocol has three categories of commands Universal Device Specific Common Practice The M2000 HART daughterboard supports only some Universal commands and Device Specific commands Universal commands supported include es Command Description 0 Read Unique Identifier 1 Read Primary Variable 2 Read Current and Percent of Range 3 Read
23. output type is normally closed the configuration error flag will be set indicating the intended value was invalid due to its dependency on the function of the output Example 2 Writing to a secured meter If connected to a secured meter and you try to change a parameter after the login timer has expired the Configuration Error indicates that the parameter image between HART and the M2000 is not equal February 2015 MAG UM 01408 EN 03 Page 11 Additional Features ADDITIONAL FEATURES Security The M2000 Security feature when enabled also applies to remote access thatis HART Refer to the M2000 IOM for information on how to configure security Remote reads are always allowed regardless of security rights Remote writes using the HART protocol are not allowed unless the user has remotely logged into the meter with the appropriate access level The remote login pins are the same as the login pins that are used on the M2000 display Remote writes are not allowed if a user is actively navigating the menus at the display Remote login expires five minutes after the last remote write To remotely logout more quickly do one of the following Write an invalid pin to the Remote Login parameter Send a remote logoff action request to the Service parameter Access levels for writable parameters are defined in the Data Management section The security status of the meter is accessible using device specific command 243 The response dat
24. rite 23 ADMIN Excitation Frequency Hz UINT16 DS 164 165 Read Write 24 SERVICE Scale Factor FLOAT32 DS 166 167 Read Write Page 16 MAG UM 01408 EN 03 February 2015 Data Management Meter Measurement Settings HART Command Support Write Security Register Name Register Type DS Device Specific UN Universal 25 USER Flow Unit UINT16 DS 175 176 Read Write 26 USER Volume Unit UINT16 DS 177 178 Read Write 27 USER Unit Multiplier UINT16 DS 179 180 Read Write 28 USER Full Scale Velocity m s FLOAT32 DS 181 182 Read Write 29 USER Full Scale Flow User Units FLOAT32 DS 173 174 Read Write 30 USER Low Flow Cutoff FLOAT32 DS 183 184 Read Write 31 USER Flow Direction UINT16 DS 185 186 Read Write 32 USER Damping Factor s UINT16 DS 187 188 Read Write Digital Input HART Command Support No Write Security Register Name Register Type DS Device Specific UN Universal 33 SERVICE Digital Input Input Operation UINT16 DS 190 191 Read Write 34 FIRMWARE Digital Input Status UINT16 DS 192 Read Analog Output HART Command Support No Write Security Register Name Register Type DS Device Specific UN Universal 35 SERVICE Analog Customer Offset 4 MA A FLOAT32 DS 193 194 Read Write 36 SERVICE Analog Customer Offset 20 MA A FLOAT32 DS 195 196 Read Write 37 FIRMWARE
25. rt gt Hart Output gt Poll Addr Each meter to be commissioned for multi drop should exercise the following procedure The default polling address for all HART daughterboards is 0 1 Turn off power to all meters to be commissioned for HART multi drop mode IMPORTANT As a result of the M2000 having an active analog output only five M2000s can be configured for multi drop mode within the same network 2 Wire the meters in parallel as shown in Figure 5 42 43 44 Polling Address 1 41 41 42 43 44 Polling Address 2 41 42 43 44 Polling Address 3 Amp Meter 12 mA J 2500 Figure 5 Wiring Meters Parallel 3 Turn power to one of the meters 4 Change the polling address to desired address As a suggestion it may be desirable to change the installation data while changing the polling address Installation data can provide additional means for identifying the meter on the HART network 5 Repeat this procedure until all nodes on the HART multi drop network are configured with a non zero and unique polling address IMPORTANT The analog output alarm mode has no effect while the meter is configured for multi drop mode February 2015 MAG UM 01408 EN 03 Page 13 Additional Features Command Action Reguest There are several remote actions that can be reguested of the meter over HART Below is a tabl
26. sets UINT16 DS 222 Read Miscellaneous HART Command Support Register Type DS Device Specific UN Universal 111 FIRMWARE Power Loss Totalizer seconds UINT32 UN 9 Read 112 USER Display Backlight Mode UINT16 DS 225 226 Read Write 113 SERVICE Preset Batch Amount FLOAT32 DS 227 228 Read Write 114 USER Menu Language Setting UINT16 DS 229 230 Read Write 115 NONE Port B Extended Address UINT16 UN 6 7 Read Write February 2015 MAG UM 01408 EN 03 Page 19 Data Management Empty Pipe No Write Security Register Name Register Type HART Command Support DS Device Specific UN Universal 116 ADMIN Empty Pipe Calibration Volts FLOAT32 DS 233 234 Read Write 117 FIRMWARE Empty Pipe Measure Value Volts FLOAT32 DS 237 Read 118 ADMIN Full Pipe Calibration Volts FLOAT32 DS 235 236 Read Write 119 SERVICE Empty Pipe Mode UINT16 DS 231 232 Read Write Control Comma nds No Write Security Register Name Register Type HART Command Support DS Device Specific UN Universal 120 NONE Command Action Request UINT16 DS 244 Write 121 SERVICE Flow Simulation SINT16 DS 240 241 Read Write Security No Write Security Register Name Register Type HART Command Support DS Device Specific UN Universal 122 FIRMWARE Security Status UINT16 DS 243 Read
27. tput Calibration is an application embedded within the DD file that allows for remote configuration of the analog output Navigate to Configuration gt M2000 gt Advanced gt Analog Output and select D A Trim Follow the on screen instructions for further details Do not exercise the D A Trim application if meter is configured in multi drop mode The output current is fixed in multi drop mode that is Polling address is non zero This application uses the custom offsets The deviation from 4 mA and 20 mA must be entered in terms of milliamperes Recalibration will take effect once all offsets are configured and the application has completed Figure 6 is an example of a diagram for a setup intended to assist in calibrating the analog output 41 42 43 44 Polling Address 0 Reference Meter Fluke Amp Meter X 2500 Load Handheld Field Communicator Figure 6 Setup to Assist in Calibrating Analog Output February 2015 MAG UM 01408 EN 03 Page 15 Data Management DATA MANAGEMENT Below is a table identifying all M2000 specific data that is accessible over HART This table lists the HART Protocol commands used to access the data This table also lists the security privileges and data types of the data Typically the DD files handle all data access Refer to the DD files for further information
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