User Manual - Instrumart
Contents
1. Good High Limit Warning Good Constant Output Good Low Limit Alarm Good High Limit Alarm O February 2015 MAG UM 01409 EN 03 Page 19 Compliance COMPLIANCE Page 20 PROFIBUS PROFINET Certificate PROFIBUS Nutzerorganisation e V grants to Badger Meter Europa N rtinger Str 76 72639 Neuffen Germany the Certificate No Z01692 for the PROFIBUS Device Model Name M2000 Revision 1 SW FW V1 17 HW Rev 1 GSD BD020D01 GSD File Version 1 0 PA039700 GSD This certificate confirms that the product has successfully passed the certification tests with the following scope DP V0 MSO Set_Slave_Add DP Vi MS2 Prm Block Structure Profile PROFIBUS 3 02 Physical Layer RS485 Test Report Number PCN166 PAS 01 Authorized Test Laboratory PROCENTEC Wateringen The Netherlands The tests were in with the following documents Test Specifications for PROFIBUS DP Slaves Version 3 0 9 September 2008 and Test Specifications for PROFIBUS PA Devices Profile 3 02 Version 5 0 4 February 2010 This certificate is granted according to the document Framework for testing and certification of PROFIBUS and PROFINET products For all products that are placed in circulation by May 10 2015 the certificate is valid for life Board of PR2. RD RR ROV EUR CR a IN CORO 10 Network Baud Rate srair ck Va ks ka yd UR X RE PRG ER n 10 Slave Device Network Address 44 4440 70408404 04944049 84 4 OF OE RA WHER a 2ik a Q 2 a al a amp ER Ea 10 Data Management pacare ky ac mr p hd OR EE RR ORE ORG RR d de RU E OR RUE RU RO de baa ae da RR 11 PhysicallBlock xan e ana Drees eas Ae goes a doy que o e 11 Transducer Block 42a Resa dg Q al ar n aa 400 454an jk uw 13 2 x aq eo eee desto QUO us dri d diua IIIA a 2 6 2 20 February 2015 MAG UM 01409 EN 03 Page iii M Series M2000 PROFIBUS DP Page iv MAG UM 01409 EN 03 February 2015 About This Manual ABOUTTHIS MANUAL Definitions Device Description PROFIBUS protocol for D ecentralized distributed P eripherals Defines the basic functions related to cyclic data exchange Extended functions of PROFIBUS DP that allow acyclic communication for parameter configuration DP is traditionally only suited for transfer of measured variables Device Type Manager General Station Data file Driver file that defines the behavior of the PROFIBUS DP device over PROFIBUS The driver file describes capabilities like data rates dynamic variables etc PROFIBUS DP master uses the GSD file to
3. 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 192 02 53400 192
4. 60 SERVICE Output 1 Flow Alarm Maximum 0x00A2 UINT16 YES 171 61 SERVICE Output 1 Output Mode 0x00A3 UINT16 YES 172 62 SERVICE Output 1 Output Operation 0x00A4 UINT16 YES Page 14 MAG UM 01409 EN 03 February 2015 Data Management Output 2 Category Absolute Relative Write MODBUS Static Index name Register Data Type kaa Index Index Access Level Revision Address 173 63 SERVICE Output 2 Pulses Per Unit User Units 0x00A9 FLOAT32 YES 174 64 SERVICE Output 2 Pulse Width ms 0x00AD UINT16 YES 175 65 SERVICE Output 2 Flow Alarm Minimum OxOOAE UINT16 YES 176 66 SERVICE Output 2 Flow Alarm Maximum OxOOAF UINT16 YES 177 67 SERVICE Output 2 Output Mode 0 00 0 UINT16 YES 178 68 SERVICE Output 2 Output Operation 0x00B1 UINT16 YES Output 3 Category Absolute Relative Write MODBUS Static Index name Register Data Type an Index Index Access Level Revision Address 179 69 SERVICE Output 3 Full Scale Frequency Hz 0x00B2 UINT16 YES 180 70 SERVICE Output 3 Flow Alarm Minimum 0x00B3 UINT16 YES 181 71 SERVICE Output 3 Flow Alarm Maximum 0x00B4 UINT16 YES 182 72 SERVICE Output 3 Output Mode 0x00B5 UINT16 YES 183 73 SERVICE Output 3 Hardware Select 0x00B6 UINT16 YES 184 74 SERVICE Output 3 Output Operation 0x00B7 UINT16 YES Output 4 Category Absolute Relative Write MODBUS Static Index name Registe
5. Loss Totalizer seconds 4 0x93 Total 41 bytes Maximum The PROFIBUS DP daughterboard supports zero module configuration 0x00 to allow the possibility of leaving a dynamic variable out of cyclic data exchange when using manufacture specific configurations IMPORTANT For both types of supported network configurations modification of the display units User Units will have an immediate effect on the data transferred over PROFIBUS IMPORTANT For best performance of the PROFIBUS DP daughterboard ensure the MODBUS RTU baud rate for Port B is set to 38400 February 2015 MAG UM 01409 EN 03 Page 9 System Configuration Identity Numbers The PROFIBUS DP daughterboard is based on the PROFIBUS PA Profile v3 0 The device supports two identity numbers 0x0D01 belongs to GSD file BD020D01 GSD and includes the complete functionality of the M2000 0x9700 is a manufacturer independent identity number and belongs to the GSD file PA139700 GSD This provides interchangeability of devices that is an exchange of electromagnetic flow meters of different vendors Network Baud Rate After power on a baud rate search is started to detect the current bus speed It is not necessary to set the baud rate manually If the baud rate is changed during operation a power cycle of the slave device is required to re establish communication with the master IMPORTANT The PROFIBUS DP daughterboard only supports baud rates up to 6 Mbs A baud rate
6. 0x00C6 UINT16 200 90 READ ONLY Port B Broadcast Packets 0x00C7 UINT16 201 91 READ ONLY Port B CRC Errors 0x00C8 UINT16 202 92 READ ONLY Port B Packets Received 0 00 9 UINT16 203 93 READ ONLY Port B Packets Sent 0x00CA UINT16 204 94 READ ONLY Port B Parity Errors 0x00CB UINT16 205 95 READ ONLY Port B Framing Errors 0x00CC UINT16 206 96 READ ONLY Port B Overrun Errors 0x00CD UINT16 207 97 READ ONLY Port B Break Detects 0x00CE UINT16 Meter Diagnostic Counters Category Absolute Relative Write I dex hame Tage Data Type Static Index Index Access Level Address Revision 208 98 READ ONLY Power Up Counter OxOOF5 UINT16 209 99 READ ONLY Detector Error Counter 0 00 6 UINT16 210 100 READ ONLY Empty Pipe Counter 0 00 7 UINT16 211 101 READ ONLY Full Scale Counter 0x00F8 UINT16 212 102 READ ONLY Totalizer Overflow Counter 0x00F9 UINT16 213 103 READ ONLY Pulse Sync Counter 0x00FC UINT16 214 104 READ ONLY ADC Interrupt Counter 0x00FD UINT16 215 105 READ ONLY ADC Range Counter 0x00FE UINT16 216 106 READ ONLY WDT Resets Counter 0x00FF UINT16 217 107 READ ONLY WDT Location 0x0100 UINT16 218 108 READ ONLY System Error 0x0101 UINT16 219 109 READ ONLY Meter Status 0x0106 UINT16 220 110 READ ONLY Action Request Overflows 0x0109 UINT16 221 111 READ ONLY Measurement Overflows 0x010A UINT16 222 112 READ ONLY Remote Resets 0x0154 UINT16 Miscellaneous Category Ab
7. 0x012F UINT32 February 2015 MAG UM 01409 EN 03 Page 17 Data Management Analog Input Functional Block Analog Input function block has single fixed channel This fixed channel associates with the Flow Rate User Units parameter The Al function block operates in modes controlled by a state machine The modes determine the output that is OUT from the function block The following modes are supported Mode Codin Mode Output from Function Block Hexa dd Out of Service Last output value when resource states shows a HW Failure 0x80 Manual Output value set by operator 0x10 Output value is calculated from the function block input Auto au 0x08 The input may be set by the operator when in simulation PV_FTIME Last Value PV_SCALE Last Useable ALARM Value High Alarm erannal High Warning ala a FILTER PV OUT i gt OUT SIMULATE L N Low Warning En 1 Switched Mode Low Alarm OUT SCALE UNIT Value set by operator Figure 6 Analog Input Function Block Structure NOTE PV_SCALE PV_FTIME OUT_SCALE UNIT and SIMULATE are programmable function block parameters within the analog input function block The input to the function block is normally taken from an index in the transducer block and is determined by the CHANNEL para
8. 6 Product Identification Category Absolute Relative Write Data Type Static Index Index Access Level Address Revision 136 26 READ ONLY Product Code 0x0000 UINT16 137 27 READ ONLY Firmware Name 0x0009 UCHAR16 16 138 28 READ ONLY Application Version 0 0019 UCHAR16 10 139 29 READ ONLY Compile Date MM DD YYYY 0x0023 UCHAR16 16 140 30 READ ONLY Compile Time HH MM SS 0x0033 UCHAR16 16 141 31 READ ONLY OTP Boot Checksum 0 0048 UCHAR16 3 142 32 READ ONLY Flash OS Checksum 0 004 UCHAR16 3 143 33 READ ONLY Boot Version 0x004E UCHAR16 5 144 34 READ ONLY OS Version 0x0053 UCHAR16 4 145 35 READ ONLY Daughterboard Major Version 0x0058 UINT16 146 36 READ ONLY Daughterboard Minor Version 0x0059 UINT16 147 37 READ ONLY Power On Splash Line 1 0x005A UCHAR16 1 1 148 38 READ ONLY Power On Splash Line 2 0x0156 UCHAR16 1 1 February 2015 MAG UM 01409 EN 03 Page 13 Data Management Meter Calibration Category Absolute Relative Write MODBUS Static Index name Register Data Type 42 Index Index Access Level Revision Address 149 39 READ ONLY Detector Diameter 0x006F UINT16 150 40 READ ONLY Detector Diameter Other mm 0x0070 UINT16 151 41 READ ONLY Detector Factor 0x0071 FLOAT32 152 42 READ ONLY Detector Offs
9. OFIBUS Nutzerorganisation e V Official in Charge Karsten Schneider Oh eq K P Lindner MAG UM 01409 EN 03 February 2015 User Manual INTENTIONAL BLANK PAGE February 2015 MAG UM 01409 EN 03 Page 21 M Series M2000 PROFIBUS DP INTENTIONAL BLANK PAGE Page 22 MAG UM 01409 EN 03 February 2015 User Manual INTENTIONAL BLANK PAGE February 2015 MAG UM 01409 EN 03 Page 23 M Series M2000 PROFIBUS DP 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 Branch Office Badger Meter Europe PO Box 341442 Dubai Silicon Oasis Head Quarter Building Wing C Office
10. PSModMAG ModMAG w series M2000 M Series M Series B MAG Electromagnetic Flow Meters B MAG Electromagnetic Flow Meters PROFIBUS DP gt Badger Meter MAG UM 01409 EN 03 February 2015 U 5 r M a n u a M Series M2000 PROFIBUS DP Page ii MAG UM 01409 EN 03 February 2015 User Manual CONTENTS About 542454856654 ave EE av LUNGU ee ee d i 5 s an al SN aha an av ew qi aran n WR dik dk a qi sd p ENG an ew S ee dq RR a 5 cf rents AA wo Soe TUTTI 5 Modu NILI KUAGA MAC MNARA UNAAMUA UAE ES ES 5 DD AA C 6 Prerequisites Q al al arana NAA MAA dew k ala EURO RGB RUP UE R E UR e Eom e ea 6 Installing EIA i 2I aya waw k AAA AWIKA s yad RR 6 System Congrats 2 wx xa a da PR EN A k 8 br gt r gt gt 7 j Zazxaxa yJo gt eeeee eAPAPe e J mm a Ge 8 Master CIRSS 5 es a ADR oU Ci Ud QE RG RRM TERRE SRR Pe RAE ERG CR eee E DEEP 8 General Station Data GSD Files for Master Class 1 Devices 9 Cyclic Data ExXchanGe zzX gt gt gt o T BEEB K b KJeooommmmmmgmmagmg m 9 Identity Numbers 246 424 K a alv W
11. d High Warning When the OUT value has exceeded one of the alarm levels then the status of the OUT value is changed to signal the event The output value OUT consists of 5 bytes a 4 byte float value defined according to IEEE Standard 745 followed by a 1 byte status value IMPORTANT The only way to check the quality of the transmitted measured values is to monitor the status value A value will be transmitted even if the status of the measurement value is bad or uncertain The supported status values are described in the following table Alarm Limits Bit Bit Bit Bit Bit Bit Bit Bit 7 6 5 4 3 2 1 0 Quality Quality Substatus Description Special Notes The PROFIBUS DP daughterboard is 0 0 0 0 1 0 Bad Not Connected powered up without connection to the M2000 0 0 1 1 Bad Device Failure The resource block is failing No sensor value has been received for the last 5 MODBUS requests Analog Input Function Block is in Out 0 1 1 1 Out of Service of Service mode for other reasons than resource block failure No update from MODBUS over the last 3 updates 1 0 0 0 0 0 Good Non Cascade Value Good Alarm Priority lt 8 0 1 0 0 Sensor Failure 0 1 0 0 0 1 Uncertain Last Usable Value Good Low Limit Warning
12. ds for additional information Page 12 MAG UM 01409 EN 03 February 2015 Transducer Block Data Management Typically the Device Description file is used to understand the organization of the meter specific parameters within the transducer block PROFIBUS Transducer Block Indexes SLOT 1 by Category Measurements Category Absolute Relative Write indexnam 1 Data Static Index Index AccessLevel Address Revision 120 10 READ ONLY T1 T m 0x00CF FLOAT32 121 11 READ ONLY T1 T User Units 0x00D3 FLOAT32 122 12 READ ONLY 2 T m 0x00D7 FLOAT32 123 13 READ ONLY T2 T User Units 0x00DB FLOAT32 124 14 READ ONLY T3 TN m 0x00DF FLOAT32 125 15 READ ONLY T3 TN User Units 0x00E3 FLOAT32 126 16 READ ONLY T1 T Rollver Counter 0 00 7 UINT16 127 17 READ ONLY T2 T Rollover Counter 0x00E8 UINT16 128 18 READ ONLY Flow Velocity m s 0x00E9 FLOAT32 129 19 READ ONLY Flow Rate m s 0x00ED FLOAT32 130 20 READ ONLY Flow Rate User Units 0x00F1 DS 33 131 21 READ ONLY Relative Flow Rate 0x00F3 FLOAT32 132 22 READ ONLY Preset Batch Totalizer m 0x00EB FLOAT32 133 23 READ ONLY Preset Batch Totalizer User Units OxOOEF FLOAT32 134 24 READ ONLY Power Loss Totalizer seconds 0 0107 UINT32 135 25 READ ONLY Flow Direction 0 0120 UINT1
13. es within the slave device cyclically The Master Class 1 device will also support acyclic read and write services to application parameters in the slave device The slave device offers such services only to the master device that has set the device into cyclic data exchange and only when it is in cyclic data exchange A Master Class 1 device is typically a process controller PLC or SPS that is performing control functions based on continuously updated measurement variables Master Class2 Master Class 2 devices typically establish connections to the slave device Through this connection the master device will be able to manipulate application parameters of the slave device A Master Class 2 device is typically a configuration station Laptop PC with configuration management software Master Class 2 devices are capable of configuring the device and may operate on all network accessible parameters within the PA profile Page 8 MAG UM 01409 EN 03 February 2015 System Configuration General Station Data GSD Files for Master Class 1 Devices GSD files contain information that will be needed for project planning of the PROFIBUS communication network downloadable via the internet GSD files describe the capabilities of the PROFIBUS DP device For example the baud rates supported by the slave device are listed in the GSD file Configuration Type Identity Number GSD File Name PROFIBUS 3 0 PA Profile Configuration 0
14. et m s 0x0075 FLOAT32 153 43 READ ONLY Amplifier Factor 0x0079 FLOAT32 154 44 READ ONLY Detector Current A 0x007D FLOAT32 155 45 SERVICE Power Line Frequency Hz 0x0081 UINT16 YES 156 46 ADMIN Excitation Frequency Hz 0x0082 UINT16 YES 157 47 SERVICE Scale Factor 0x010B FLOAT32 YES Meter Measurement Settings Category Absolute Relative Write MOBBUS Static Index Register Data Type 222 Index Index Access Level Revision Address 158 48 USER Flow Unit 0x0083 UINT16 YES 159 49 USER Volume Unit 0x0084 UINT16 YES 160 50 USER Unit Multiplier 0x0085 UINT16 YES 161 51 USER Full Scale Velocity m s 0x0086 FLOAT32 YES 240 130 USER Full Scale Flow User Units 0x0090 FLOAT32 YES 162 52 USER Low Flow Cutoff 0x008E FLOAT32 YES 163 53 USER Flow Direction 0x0092 UINT16 YES 164 54 USER Damping Factor s 0x0093 UINT16 YES Digital Input Category Absolute Relative Write MOBBUS Static Index name Register Data Type 25 Index Index Access Level Revision Address 165 55 SERVICE Digital Input Input Operation 0x0094 UINT16 YES 166 56 READ ONLY Digital Input Status 0x0155 UINT16 Output 1 Category Absolute Relative Write Static Index Register Data Type 225 Index Index Access Level Revision Address 167 57 SERVICE Output 1 Pulses Per Unit User Units 0x009C FLOAT32 YES 168 58 SERVICE Output 1 Pulse Width ms 0x00A0 UINT16 YES 169 59 SERVICE Output 1 Flow Alarm Minimum UINT16 YES 170
15. fy recognition of the PROFIBUS DP daughterboard Navigate to Main Menu gt Info gt Help The Daughterboard Info field indicates the Daughterboard Type is PROFIBUS DP February 2015 MAG UM 01409 EN 03 Page7 System Configuration SYSTEM CONFIGURATION The network diagram below illustrates a typical network configuration of PROFIBUS devices with an RS485 interface The PROFIBUS devices with an RS485 interface do not need any segment coupler These devices can connect directly to the PROFIBUS DP network The maximum cable length in a segment depends on the transmission speed The PROFIBUS DP daughterboard communicates at speeds from 9 6 kBps to 6 Mbps over distances from 100 to 1200 meters Baud Rate pbs 9 6 K 19 2 K 93 75 K 187 5 K 500 K 1 5 M 6M Length m 1200 1200 1200 1000 400 200 100 The PROFIBUS DP protocol has two distinct modes of operation cyclic data exchange mode and acyclic configuration mode Two types of master devices are defined in a DPV1 network SPS or PLC MASTER CLASS 1 PC with Siemens PDM MASTER CLASS 2 Profibus USB Interface Profibus DP with max 6 Mbits s Other Profibus DP Profibus DP RS 485 Devices Daughterboard Modbus RTU IMPORTANT Only two master connections are supported M2000 Figure 5 Typical Network Configuration Master Class 1 Master Class 1 devices can read and write to variabl
16. ith an M2000 through a PROFIBUS DP to MODBUS RTU signal conversion board referred to as the PROFIBUS DP daughterboard throughout the remainder of this document Profibus DP Daughter Board INTELLIGENT HOST Modbus RTU Profibus DP Figure 1 PROFIBUS DP to MODBUS RTU Commands February 2015 MAG UM 01409 EN 03 Page 5 Installation INSTALLATION Prereguisites Installing a PROFIBUS DP daughterboard into M2000 requires firmware revision v1 10 or later Installing the Daughterboard The PROFIBUS DP daughterboard connects to the 11 pin connector labeled COMMUNICATION on the main amplifier Figure 2 Daughterboard Connection Follow these steps to install the daughterboard 1 Prior to installing the daughterboard verify or configure the M2000 Communication Port The port settings are located at Main Menu gt Communications gt Port B Settings Parameter Value Comments Port Address 001 Mandatory value of 001 Extended Port Address Application specific Sets PROFIBUS DP address of module Baud Rate 38400 PROFIBUS DP Daughterboard auto bauds Data Bits 8 Mandatory value of 8 Parity EVEN Mandatory value of EVEN Stop Bits 1 Mandatoryvalue of 1 2 Power off the M2000 DISCONNECT THE INPUT POWER BEFORE ACCESSING THE EQUIPMENT This step is important for the M2000 to properly recognize the PROFIBUS DP daughterboard 3 Prior to i
17. meter fixed of Analog Input function block However if the operator enables the simulate function the input value is taken from the SIMULATE parameter In addition the operator may choose to scale the output into another unit compared to what is given by the measurement PV Normally the OUT value will be given in either or in the unit of measurement of PV The scaling is linear and is made between the PV upper lower range and the OUT upper lower range IMPORTANT The PV unit is fixed to the meters selected flow unit Changing meters flow units will change the PV unit After changing the flow unit review the scaling parameters of the OUT value The output from the Analog Input function block is the OUT parameter The source for the output is determined by the mode of the function block The function block is executed as normal in AUTO mode and the function block execution generates the OUT value In Out of Service mode the function block execution is stopped and the OUT value remains at the last usable value In manual mode the operator may write directly to the OUT value and force the output to a value A first order low pass filter may be used PV_FTIME is the damping factor of the filter This value represents the time when the OUT value has reached 63 of the final value after an input step Page 18 MAG UM 01409 EN 03 February 2015 Data Management There are four configurable alarm levels Low Alarm Low Warning High Alarm an
18. nserting the daughterboard install the foam insulation pad as shown Figure 3 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 of the enclosure wall Page 6 MAG UM 01409 EN 03 February 2015 Figure 3 Installing Foam Insulation Pad 4 Insert the 8 pin daughterboard into the 11 connector 5 Use the following information to make appropriate wiring of signals to the 7 pin customer connector Installation Apply insulation pad flush with the top of the housing Pin Number Pin Description Comments 51 RXD TXD P Receive Data Transmission Data Plus 52 RXD TXD N Receive Data Transmission Data Negative 53 Shield 54 RKD TKD P Receive Data Transmission Data Plus 55 RKD TKD N Receive Data Transmission Data Negative 56 Shield 57 Chassi 6 Power on the M2000 390 f 380 4 KITAA HEHHE 2 3 4 24 harto a Figure 4 Signal Wiring Diagram 7 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 PROFIBUS DP daughterboard is not recognized then the M2000 should be power cycled 8 Veri
19. nt sensor failure set if there 15 a failure over modbus 6 DIA_NOT_INIT 7 DIA INIT ERR 8 DIA ZERO ERR 9 DIA SUPPLY 10 DIA CONF INVAL Cid coc le Lu 11 DIA WARMSTART Reset occurred within last 10 seconds 12 COLDSTART Power cycle occurred within last 10 seconds 13 DIA MAINTENANCE 14 DIA CHARACT 15 Wrong identity number 16 NM _ B 30 31 u Yes Extension status is available February 2015 MAG UM 01409 EN 03 Page 11 Data Management Below is the definition of the DIAGNOSIS EKTENSION parameter Byte Supported Bit Description 0 Detector Error 1 Empty Pipe Error 2 Full Scale Flow Error 3 Totalizer Rollover Error 0 Yes 4 Totalizer Rollover Status 5 Flow Simulation Status 6 Pulse Synchronization Warning 7 ADC Interrupt Error 0 ADC Range Error 1 7 2 0 7 3 0 7 0 Yes Internal Communication Failure sensor electronics have responded to modbus requests 4 1 Yes Configuration Error 2 7 5 0 7 The FACTORY_RESET parameter of the physical block is supported This parameter index is used to reset the device Three levels exist based on the value written to this index 1 Factory Reset 2506 Warm start 2712 Set bus address to 126 Remaining parameter indices of the physical block are out of the scope of this document Please refer to PROFIBUS standar
20. of 12 Mbs is not supported Slave Device Network Address new device will have the address of 126 In order to operate on the network it must be assigned a bus address the range of 0 to 125 Normally the lower addresses will be assigned for master devices The address may be changed only when the device is not in cyclic data exchange mode There are two ways to commission the network address of the slave device Using PROFIBUS DP Using M2000 menu Port B External Node Address Page 10 MAG UM 01409 EN 03 February 2015 DATA MANAGEMENT The PROFIBUS DP interface is based on the PROFIBUS PA Profile v3 0 and supports the following blocks Data Management One Physical Block contains parameters defined in PA Profile v3 0 One Transducer Block contains parameters defined PA Profile v3 0 in addition to meter specific parameters One Analog Input Function Block contains one fixed channel Flow Rate User Units Physical Block The physical block contains general device setup parameters It is important to describe the details of the DIAGNOSIS and DIAGNOSIS_EXT parameters of the physical block Below is the definition of the supported bits of the DIAGNOSIS parameter Bit Bit Mnemonic Supported Bit Description 0 DIA_HW_ELECTR Hardware Failure of electronics 1 DIA_HW_MECH 2 DIA_TEMP_MOTOR 3 DIA_TEMP_ELECTR 4 DIA_MEM_CHKSUM 5 DIA_MEASUREMENT Failure in measureme
21. r Data Type na Index Index Access Level Revision Address 185 75 SERVICE Output 4 Flow Alarm Minimum 96 0 00 8 UINT16 YES 186 76 SERVICE Output 4 Flow Alarm Maximum 0x00B9 UINT16 YES 187 77 SERVICE Output 4 Output Mode Ox00BA UINT16 YES 188 78 SERVICE Output 4 Hardware Select 0 00 UINT16 YES 189 79 SERVICE Output 4 Output Operation 0 00 UINT16 YES Port A DiagnosticCounters Category Absolute Relative Write MODBUS Static Index name Register Data Type Index Index Access Level Revision Address 190 80 READ ONLY Port A Packets Processed 0x00BD UINT16 191 81 READ ONLY Port A Broadcast Packets 0x00BE UINT16 192 82 READ ONLY Port A CRC Errors 0x00BF UINT16 193 83 READ ONLY Port A Packets Received 0x00C0 UINT16 194 84 READ ONLY Port A Packets Sent 0x00C1 UINT16 195 85 READ ONLY Port A Parity Errors 0 00 2 UINT16 196 86 READ ONLY Port A Framing Errors 0 00 3 UINT16 197 87 READ ONLY Port A Overrun Errors 0 00 4 UINT16 198 88 READ ONLY Port A Break Detects 0 00 5 UINT16 February 2015 MAG UM 01409 EN 03 Page 15 Data Management Diagnostic Counters Category Absolute Relative Write Data Static Index Index AccessLevel Address Revision 199 89 READ ONLY Port B Packets Processed
22. solute Relative Write ind xname sewa Data Type Static Index Index Access Level Address Revision 223 113 USER Display Backlight Mode 0x010F UINT16 YES 224 114 SERVICE Preset Batch Amount m 0x0110 FLOAT32 YES 225 115 USER Menu Language Setting 0x0114 UINT16 YES Page 16 MAG UM 01409 EN 03 February 2015 Data Management Empty Pipe Category Absolute Relative Write MODBUS Static Index name Register Data Type kaa Index Index Access Level Revision Address 226 116 READ ONLY Empty Pipe Actual Resistance Ohms 0x011A FLOAT32 227 117 ADMIN Empty Pipe Calibration Volts 0x011E FLOAT32 YES 228 118 READ ONLY Empty Pipe Measure Value Volts 0x0120 FLOAT32 229 119 ADMIN Full Pipe Calibration Volts 0x0122 FLOAT32 YES 230 120 SERVICE Empty Pipe Mode 0x0124 UINT16 YES Control Commands Category Absolute Relative Write MODBUS Static Index name Register Data Type ic Index Index Access Level Revision Address 231 121 SERVICE Flow Simulation 0x012A SINT16 YES 236 126 SERVICE Command Action Request 0x0125 UINT16 YES Security Category Absolute Relative Write MODBUS Static Index name Register Data Type Hie Index Index Access Level Revision Address 237 127 READ ONLY Security Status 0x011C UINT8 238 128 READ ONLY Access Level 0x011C UINT8 239 129 READ ONLY Display Active 0x011D UINT8 241 131 READ ONLY Random Value 0x012B UINT32 233 123 NONE Remote Login
23. start cyclic communication with the device PA Profile The PA profile standardizes the basic functions for all the different PROFIBUS devices Alternate abbreviation for Programmable Logic Controller Defined by configuration of the meter s volume unit or flow unit Scope This document shall discuss the supported features of PROFIBUS DP how these features are related to the M2000 and the special considerations and type of data that is accessible over PROFIBUS DP This document assumes general understanding of the PROFIBUS DP protocol by the reader For further information regarding the PROFIBUS DP Protocol refer to www PROFIBUS com The M2000 PROFIBUS DP daughterboard supports PROFIBUS DPV1 protocol This is an extended protocol that allows for acyclic communication for parameter configuration In addition the M2000 PROFIBUS DP daughterboard supports PA Profile Version 3 0 INTRODUCTION PROFIBUS is an international vendor independent bus standard for a wide range of applications in manufacturing production process and building automation and other automation control industries The PROFIBUS family comprises three types of protocol PROFIBUS DP PROFIBUS PA and PROFIBUS FMS and each is used for different tasks Only PROFIBUS DP is considered in this document PROFIBUS DP Decentralized Periphery is a rapid and low cost communication connection designed for high speed data transmission PROFIBUS DP is accomplished w
24. x9700 PA139700 GSD Manufacture Specific Configuration 0x0D01 BD020D01 GSD Follow the instructions of the vendor PLC or SPS when installing the GSD file into the PLC Cyclic Data Exchange During network configuration the user defines which data should be transferred cyclically to the master from the slave device This is performed through the bus configuration tool for the PLC or SPS Network configuration will be done using one of the supported GSD files PA139700 GSD or BD020D01 GSD The PA Profile Configuration cyclically transfers the analog input function block as defined by the GSD file PA139700 GSD The PROFIBUS DP daughterboard associates the meter s flow rate User Units with the analog input function block This is the only dynamic variable that can be cyclically exchanged using the PA profile configuration The Manufacture Specific Configuration allows for selection of up to 11 dynamic variables to be transmitted cyclically The table below defines configurable data that can be exchanged cyclically ea Dynamic Variable Units Number of Bytes 1 Flow Rate User Units 5 0x94 or 0x42 84 08 05 2 Flow Velocity m s 4 0x93 3 T1 T User Units 4 0x93 4 T2 T User Units 4 0x93 5 T3 TN User Units 4 0x93 6 Digital Input Status 2 0 91 7 Flow Direction 2 0 91 8 Relative Flow Rate Yo 4 0x93 9 Preset Batch Totalizer m 4 0x93 10 Preset Batch Totalizer User Units 4 0x93 11 Power
Download Pdf Manuals
Related Search