1788-CN2PA-R User Manual - Literature Library
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1. cia Rockwell Automation Rockwell Automation Hiprom INSTALLATION Hardware Power The 1788HP CN2PA R requires 9 32V input to operate The user has the option to connect a second power supply for redundant purposes to the module Below is the power supply connection Pwr 1 Pwr 2 optional Pwr GND shield Na Rockwell ah Automation Rockwell Automation Hiprom Profibus PA The Profibus PA network must be connected via the PA terminal on the module Below is the pin out is as follow P A Shield Positive Negative ba Shield Positive Negative Shield tt The PA cable color code is used as set in IEC61158 2 Physical Layer Specification Ethernet The module will connect to an Ethernet network using a RJ45 connector The module will ship with BOOTP enabled Thus the user can set the IP address using a BOOTP server or using the hardware switches The hardware switches Is nf Rockwell Automation Rockwell Automation Hiprom located under the front cover as shown below The Page button is used to toggle between different diagnostics on the display CN2PA R ControlNet NAP Ethernet Switches ControlNet Switches Display Page Toggle A Rockwell Automation Rockwell Automation Hiprom Module will boot with IP address 192 168 1 123 Module will boot with BOOTP enabled For normal operation2. Rockwell Automation Hiprom e ModuleStatus This is currently reserved e Connection Status If a field device is online and running exchanging cyclic data then its field device index bit in the connection status will be set If the device goes offline the bit will be cleared Each field device will display its PA diagnostics as well as all available PVs and their status as shown below FARO IA FieldDevice00 ta fan HTATBBHP EN2 E PARON IA FieldDevice00 PANode 1281 Decimal SINT pPhR ll FeldDeviceDnOnlneRuming Decimal BOOL PAROT IAFieldDevice00 Configfaut Derma BOOL PAROT AFieldDevice00 EDiagsval ima BOOL PAROT AFieldDevioe00 ParameteFaut 0 Decimal BOOL RAROT l FieldDevice00 ParamateRea Deml BOOL PAROT AFieldDevioe00 FreezeMode 0 Decima BOOL PAROT AFieldDevice00 SyneMode ei BOOL PAROT AFieldDevice00 WatchDog ima BOOL E PAROIAFieldDevice00 P ldent O 16 04c2 Hex INT EFARUNAFelDewestabaa Tot Terror PARONA FieldDevice00 Data PY Real dN Float REAL PAROT IAFieldDevice00 DataPvReal2 852 3965 Fot REAL PAROTIAFieldDevice00 Data PWRealB Ft REAL PAROTIAFieldDewice00 Data PY Reald Ft REAL PAROTIAFieldDevice00 Data PWRea5 Dani Float REAL PARONA FieldDexice00 Data PWRed amp Mani Float REAL PAROlAFieldDevice00DataPvRea 0 0 Fot REAL PAROTIAFieldDexice00 Data PWRealB Ft REAL PARDINI FieldDexice00 Data PWStatust 1684 Hex SINT EPAROT IA
3. FieldDevice00 Data PY Status He SINT EPAROT IA FieldDevice00 Data PWStatus OH SINT EIPAROTIAFieldDevice00 Data P Sta He SNT PARONA FieldDexice00 Data PyStatus5 16800 Hex SINT PARDINI FieldDexice00 Data PyStatus OH SINT EPAROT IA FieldDevice00 Data PY Status He SINT EPAROT IA FieldDexice00 Data PyStatus8 OH SINT PAROT IA FieldDeviceD0 D ata Fvint1 1080519979 Deml DINT H PAROT IA FieldDevice00 D ata PvInt2 o ll46427744 Decimal DINT CE PAROT IA FieldDevice00 D ata PWIntS ol Decimal IDINT T DADA CAT iS DO ab Di ihk d mi Finzi FilkIT e PANode This is the node number of the field device on the P bus e OnlineRunning This is set when the device is online and exchanging cyclic data Rockwell 15 agito Automation Rockwell Automation Hiprom e ConfigFault If there is a fault in the configuration of the field device then this bit will be set e ExtDiagAvail When the field device has extra extended diagnostics available then this bit will be set Note that this bit can be dynamic e ParameterFault If there is a fault in the parameterization of the field device then this bit will be set e ParameterReq If the device has not been received its parameterization this bit will be set e FreezeMode If the user has enabled freeze mode in the parameterization of the field device and a global control has been sent to freeze the device PVs this bit will be set e SyncMode If the user has enabled
4. the switches must be set to 000 ControlNet The module will connect to a ControlNet network using a BNC connector The ControlNet node address can be set via the switches under the front cover LL 1 2 Eg The module will have a ControlNet address of 12 L Software The user will need the following software to configure and use the 1788HP CN2PA R e Add on Profile AOP e 1788HP CN2PA R Device Type Manager DTM Both the applications can be found on the product CD or the Hiprom Technologies website www hiprom com nf Rockwell Automation Rockwell Automation Hiprom SETUP RSLogix The module must be added to the IO tree of the Logix Controller in RSLogix before the user can configure the device To add the 1788HP CN2PA R the user must select the module when adding it under an Allen Bradley ControlNet bridge eg CNB CNBR as shown below 2 1756 CNBRID CNMaster i New Module FA Paste Ctrl Description Allen Bradley Hiprom Technologies L SGSHP CN2P R ControlNet to Profibus PA E Parker Hannifin Corp FH Reliance Electric When added the module requested packet interval RPI will default to 300ms If needed the user can change this depending on the field device count and update times required NOTE The RPI will determine the amount of Class 1 data requests send for the field devices configured on the PA Bus Thus if there are many field devices configured on t
5. Rockwell Automation Hiprom USER MANUAL V1 00 01 Section Page INTRODUCTION 2 INSTALLATION 3 HARDWARE 3 SOFTWARE 6 SETUP 7 RSLOGIX 7 FIELD DEVICES 10 DEVICE TYPE MANAGER DTM 12 OPERATION 14 RSLOGIK 14 WEB INTERFACE 17 SPECIFICATIONS 19 ELECTRICAL 19 MECHANICAL 20 APPENDIK 21 A DISPLAY STATUS 21 B OPERATING MODES 29 nf Rockwell ah Automation Rockwell Automation Hiprom INTRODUCTION The 1788HP CN2PA R provides a fast and integrated solution for adding Profibus PA field devices to any Logix platform This linking device provides a direct link between Profibus PA and ControlNet with no intermediate Profibus DP layer required Integration into RSLogix5000 is seamless when making use of the modules Add On Profiles AOPs and the process variables of each field device appear in engineering units without any required user logic The entire Profibus PA configuration is done within the RSLogix5000 environment Additional PV statuses and diagnostic information is also available The module supports a maximum of 24 field devices and can supply a 500mA per trunk It will also allow the user to view detailed diagnostics from each field device using its DTM device type manager directly from the Logix environment with Hiprom s FDT ThinFrame The user will be able to view a scope trace of the signal of each field device and provide extended statistics with regards to packet count send received class 1 class2 etc
6. Single Master Dual Bus Non Terminated Single Master Split Bus Terminated Rockwell ah Automation Rockwell Automation Hiprom 26 Single Master Split Bus Non Terminated Master Mode 7 Single Master Ring Bus Master Mode 8 MultiMaster A Bus Only Terminated Master Mode 9 MultiMaster A Bus Only Shared Termination Master Mode 10 no Rockwell ah Automation Rockwell Automation Hiprom 27 MultiMaster A Bus Only Not Terminated Master Mode 11 MultiMaster B Bus Only Terminated Master Mode 12 MultiMaster B Bus Only Shared Termination Master Mode 13 MultiMaster B Bus Only Not Terminated Master Mode 14 ndo Rockwell ah Automation Rockwell Automation Hiprom 28 LA D e o MultiMaster Dual Bus Terminated gt co c MultiMaster O Dual Bus T Shared 2 Termination gt N D o MultiMaster Dual Bus 2 Not Terminated gt 00 c D Listen Only Dual Bus O Not Terminated gt no Rockwell ah Automation Rockwell Automation Hiprom sahana e ST NU ONDE i LISTEN ONLY is ee 29 ay nu Rockwell tomation Rockwell Automation Hiprom Rockwell Tomation a au HIPROM TEL 27 11 787 4458 FAX 27 11 787 7937 POSTAL P O Box 732 Pinegowrie south Africa 2123 PHYSICAL 369 Pretoria ave Ferndale Randburg South Africa 30
7. ame or using a FDT Frame eg AssetCentre of FieldCare NOTE The 1788HP CN2PA R has the ability to do Class 2 data DTMs on either the ControlNet or Ethernet interface This will help preserve the unscheduled bandwidth of the ControlNet network NOTE The ThinFrame can only view diagnostics of the field device The user will need a FDT frame to configure and parameterize the field device The user must first update the DTM catalog by launching the Process Utility and selecting update as shown below HSProcessUtility File 5D Catalog DTM Catalog update Rockwell 12 agito Automation Rockwell Automation Hiprom Once this is done the user can select the DTM in the AOP by simply selecting the correct DIM given and select open as shown below x dk Overview 5 A Master 1 Model TEMP P TMT 184 Ident 0 1523 e dl Status Vendor File ame Eha 1522650 DA Config Revision H is FDOO 15 DTM penDTM HIE A in Bs A TMT 184 PA 47 011 fo Pee ata A Configuration ses suele TSDR Min 100 A ID Advanced Freeze Enabled E MES 7 roup Iden HS dh Oscilloscope Sunc Enabled Max 200 Br Wi F001 16 A Status m Slave Lack watch Dog 10 A 10 10 ll Pu Data M Slave UnLock WATCHDOG me m W Configuration z m Advanced has 2 Oscilloscope User Parameterization Data Byte 1 E h Ok Cancel A NOTE Sometimes the user will be presented with multiple DTMs of the same de
8. equest before dropping the connection e Class 2 MPPF This is used to determine the amount of acyclic data requests allowed per cyclic scan If the user has set e Slew Compensation This is not to be adjusted by the user Field Devices Each field device can have multiple process variables and each can have a different format In most cases the default configuration will correctly configure each PV but if the user wants to add remove or change PVs the format might need to change The user can select between the following options for formats Process Variable Format 1 Byte 2 Bytes 3 Bytes Rockwell 10 ay Automation Rockwell Automation Hiprom 4 Bytes Re 1Bytewith Status 1 Byte with Status AN NOTE If the user is not certain about the format of the PV please refer to the user manual of the field device being used The user can choose the format clicking on the drop down menu and selecting as shown below Online h ti gt j sl x 8 pr Overview EA Master 1 PA Mode 15 Device 26007 Pressure 263 265 20007 id Status Config Slot 1 2 A Status Slot 1 Analog Input 1 INPUT A F Data 02 Analog Input Al shart Real with Status du i db Configuration dd UT Slot 2 Analog Input 2 INPUT Manual Config jo ie A Oscilloscope FDO1 16 02 Analog Input AI short Real with Status 3 Bytes och Status dh Pu Data 1 Byte
9. he bus and the RPI is set too low the field devices will not be able to update in time and all acyclic PA data will be slow as Class 1 data is prioritized Please see Class 2 MPPF in the master configuration Once the module is added to the tree the user can open the properties by right clicking on the device and selecting the Properties option Once the properties window is open select the Configuration tab to open the 1788HP CN2PA R configuration page as shown below nf Rockwell Automation Rockwell Automation Hiprom Poje ssa304 peopusod peopdn UEIS ada pp ajmag Ado ada ajajar ly 919180 General Connection Configuration Internet Protocol Port Configuration etwork Ve dor Online _E Ga EN O ER P Master Configuration E hi la P Node Max Scan Address SlaveTimeout Slave Retry Limit Class 2 MPPF LA dd Slew Compensation Topology SAT Single Master Bus Only Terminated Load Defaults Ok Status Running OK Cancel Help apop Afojodo SARS xI o e Process Catalog This will launch the Process Utility that manages the GSD files and DTMs Thus if the user loaded new DTMs or GSD files the Process Utility must be launched and the libraries must be updated A NOTE The user will not be able to configure a field device for cyclic communication unless the GSD file is in the Process Utility Catalog and the catalog has been updated as shown belo
10. i ca Overview Status Ok JJ Network settings Online True Eventlog ConfigRunning True i 5 Debug Ident 0x04C2 FC Statistics C Ethernet Process Variables i Ge Profibus PA PV 1 1 1902 Bb cn PA PV2 823 8663 Pv PA Master 0000 FP Field Device Index 0 mm UGG mL Field Device Index 1 Py 5 0 0000 gr Field Dewice Index 2 PV6 0 0000 Field Device Index 3 PVT x Field Device Index 4 2 Field Device Index 5 il s B Field Device Index 6 E Field Device Index 7 Process Variable Status Field Device Index 8 PV 1 Status Ox8D SE Field Device Index 9 PV 2 Status 0x80 C Field Device Index 10 FV 3 Status 0x00 The web interface can be accessed by entering http IP address into the address bar of the browser as shown below Eg 1788HP CN2PA R IP address 196 135 145 234 rn http 196 135 145 234 Rockwell 18 ag Automation Rockwell Automation Hiprom SPECIFICATION Electrical specification value Power will be connected to the 1788HP CN2PA R using the 4 way phoenix connector Power Requirements Operating Voltage 24 to 32 V 260 mA at 24 V with no field devices attached NOTE The CN2PA R must be powered by a SELV Separated Extra Low Voltage power supply limited to 8A or being protected by a 5A fuse Power Consumption PA Bus current supply 500 mA at 24 V per trunk Operating Temperature 0 to 50 C Storage Temperature 0 to 50 C Relative Humidity 5 to 95 Yo non condensing Operating Shock Sto
11. ield Device Success Rockwell Automation Hiprom A new field device is on the bus Masters are sync d The master modules are out of sync PA Bus A has tripped because of over current PA Bus B has tripped because of over current The module has been set into safe mode Below is the definition of the field device summary The success rate is the of packets send to packets received Display DA gt O4 gt gt UA UA mp x DA XX DA me XXX 4 me PA Master of packets received 954 80 70 60 50 Below 50 Unknown If the Page button is pressed the first screen is the PA Master screen as shown below PA Master mum OE NES OE GE NND OE ee DOGS ee ee ee GOES mr ee ee ee ee mr ee Bus A 21 4V 36 7mA Bus B 21 3V 34 8mA Temperature 34 50 C External Pwr 23 41V mm M NEM e O MN OD o ni es ee mr ee ie MN S mr OE NN ee GUN ee mr mr PA Node 1 nf Rockwell Automation Bus A Enabled True Bus B Enabled True Bus A Tripped False Bus B Tripped False Bus A Term True Bus B Term True 22 Rockwell Automation Hiprom e Bus A B First the PA Bus voltage is displayed followed by the current being drawn on that bus e Temperature This is the internal module temperature e External Pwr This is the external power feed voltage Field device As the Page button is pressed from the PA Master screen field device 0 to 23 will d
12. isplay it diagnostics as given below Field Device 0 PA Node 15 Ident 0x1523 Status ConfigRunnning i e een ES GGG een GNO NU Am Success 100 Pckt Send 22305 Pckt Recv 22105 Bad CRC 100 No Reply 100 e PANode This is the node number of the field device on the PA bus e Ident This is the ident number of the specific field device e Status This will show the current module status Rockwell 23 agito Automation Rockwell Automation Hiprom Not Connected The device can not be seen Online The device is online but not configured ConfigRunning The device is configured and exchanging data N A The device has not been added to the configuration e Success The packets send vs received success percentage of the last 100 packets e Pckt Send The total amount of packets sent e PcktRecv The total amount of packets received e Bad CRC The total amount of bad CRC packets received e No Reply The total amount of requests that did not receive a reply Rockwell 2 ah Automation Rockwell Automation Hiprom APPENDIX B Operating Modes Single Master A Bus Only Terminated Master Mode 0 Single Master A Bus Only Non Terminated Master Mode 1 Single Master B Bus Only Terminated Master Mode 2 Rockwell Automation r3 Master Mode 5 Master Mode 4 Master Mode 3 Master Mode 6 Single Master B Bus Only Non Terminated Single Master Dual Bus Terminated
13. ltageB 21 2184 Flea REAL PARO A Master PABusCumentB 94 Fl REAL PAROT lAMasterEstemalolage 23 55474 Fiet REAL PAROT lA Master Temperature 9228 Float REAL PARO A Master BussEnabled 1 Decimal BOOL PARO A Master BusBEnabled LL Decimal BOOL PARDIAMesterBusATHpped 1 cima BOOL PARONA Master BusBTipped cima BOOL PARONA Master BusATeminated 1 Decimal BOOL PAROTAMasterBusBTeminated 1 Decimal BOOL PAROT lAMasterNewFieldDevie 0 Decimal BOOL V PAROllAMasterMuliMasteclve OLO Decimal BOOL TPAROT A Master Masterode BL Decimal SINT H PARONA MasterModuleStatus 0 Decimal INT PEEPAROT dA Master ConnectionStatus 240000 0000 0000 0000 0000 0000 0000 0011 Binary DINT e Bus A B Tripped If too much current has been drawn gt 500mA on either Bus A or Bus B it will trip can the bus will no longer be functional It will then be indicated in the input image e NewFieldDevice If a new field device is found which is not in the configuration of the PA Master the new field device bit will be set e MultiMasterActive Once the two PA Master modules have sync d and they have the same node number as well as the same configuration then this bit will be set A NOTE Both PA Masters must have exactly the same configuration master and field devices for the masters to be able to sync e MasterMode This will give the current topology implemented Please view Appendix B Rockwell 14 agito Automation
14. mal DINT B FAROI 0AFieldDevice00 Ping 0 Decima DINT PAROI DAFieldDevice00 PvStatust 18800 Hen SINT PAPAR DA FieldDevice00 PvStaus 18800 Hes SINT PAROI DAFieldDevice00 PvStatud 18800 Her SINT FAROI 0A FieldDevice00 PvStatusd 18800 Hes SINT PAROI DAFieldDevice00 PvStatu5 16800 Hes SINT HEPAR LDAFieldDeviceDDPVStausE 16600 Hes SINT PAROI DA FieldDevice00 PvStatu7 18800 Hen SINT E FAROI 0AFieldDevice0 PvStatus 18800 Hen SINT e PVInt1 PVint8 If the user is using a field device that requires an output the data must be updated in the output image of that field device If a real value must be sent then use a copy function to update the PViInt A NOTE Please refer to the example code for a detailed example on how to update data for output modules e PVStatus1 PVStatus8 If the user has set a process variable to be a 1Byte to 4 Byte format the user will find the data in this section A NOTE Some field devices will only operate correctly once a valid Status for example 80h is sent with the process variable Rockwell 17 ag Automation Rockwell Automation Hiprom Web Interface The web interface can be used from any PC that has a web browser It will provide all the diagnostics of the module as well as each field device as shown below HIPROM 1788Hp CN2PA R cali PROFIBUS PA Field Device 4 Main s Home El Diagnostics PA Node Address 15
15. rage Shock Vibration Emissions ESD Immunity Radiated RF Immunity EFT B Immunity Conducted RF Immunity Enclosure Type Rating IP20 18 AWG 0 75 sq mm maximum 24 AWG 0 25 sq mm minimum Power Conductors copper wire Ethernet Conductor CATS STP Profibus PA Conduelot 18 AWG 0 75 sq mm maximum 24 AWG 0 25 sq mm minimum copper wire ControlNet Conductor Rockwell d ah Automation Mechanical ZENA Burngur wg sraya OP F OULU WvdcMa Hg84 no Rockwell ah Automation Rockwell Automation Hiprom dvdeNno unu ng 152 mm I URL G 20 Rockwell Automation Hiprom APPENDIX A Display Status The display of the 1788HP CN2PA R will provide certain diagnostics to the user Below are the various screens Main The main screen will always be displayed unless the user has toggled to another screen If the user has not toggled the screen again after 10 seconds it will default back to this screen PABus A 21 4V B 21 3V IP 192 168 1 123 CNet MAC 12 e PA Bus A B This is the voltage of each bus e P This is the current IP address set If BOOTP has been enabled this will indicate BOOTP e CNet MAC This is the current ControlNet node address e STS This will show the current module status ok No events Rockwell 21 agito Automation new device found redundancy ok redundancy err bus A tripped bus B tripped SAFE MODE e F
16. rom scratch e Delete Device If a device need to be deleted from the tree the user will use this command e Delete All This is used to remove all field devices from the configuration PA Master Configuration e Topology Mode The user must select the correct topology mode for the application The graphical representation must be used to match the topology e PA Node nf Rockwell Automation Rockwell Automation Hiprom The PA Master 1788HP CN2PA R needs a node number to operate on the PA Bus The default is node number 1 e Max Scan Address The max scan address is used for one of two functions The first is when the module is operating it will constantly ping each node number in the background as to see if there are any new field devices connected The background scan will only run to the max scan address and restart at one The second is when the scan function is used it will only scan up to the maximum address given e Slave Timeout This is the time in milli seconds ms that the PA Master will give a field device to reply in before retrying the request A NOTE If the timeout is set too low some field devices will not be able to reply in time resulting in lost packets If the timeout is set too big then if a field device has gone offline it might take a long time before the P Master will timeout that field device e Slave Retry The slave retry is used to determine the amount of times the PA Master must re r
17. sync mode in the parameterization of the field device and a global control has been sent to sync the device PVs this bit will be set e WatchDog If the watchdog has been enabled in the parameterization of the field device this bit will be set e PAldent This is the ident number of the specific field device e PVReal1 PVReal8 If the user has set a process variable to be a Real format the user will find the data in this section e PVStatus1 PVStatus8 If the user has set a process variable to have a Status the user will find the status value for the each PV in this section A NOTE The definition of the PV Status can be found in the user manual of the field device In general a value of below 40 indicates that the PV is bad a value of between 40 and 7F indicates that the PV value is uncertain and a value of above 80 indicates that the PV value is good Rockwell 16 agito Automation Rockwell Automation Hiprom e PVint1 PVint8 If the user has set a process variable to be a 1Byte to 4 Byte format the user will find the data in this section PARIT DA FieldDevice00 aa e JHT 1788HP ENG RARO DA FieldDeviee00Pvini 0 Decimal DINT IFAROI 0AFieldDevice00 Vin o Decimal DINT EPARO 0A FieldDeviee00Pvind 0 Decimal DNT IFAROI 0AFieldDevice00 PVind Decimal DINT EPARO 0A FieldDeviee00Pvin5 0 Decimal DINT PAROI 0AFieldDevice00 Pin 0 Decimal DINT PAROI 0AFieldDevice00 Pvin 0 Deci
18. vice but different revisions The user must select the correct one for the specific field device When using a FDT Frame the user will first need to add the Comm DTM HS Ethernet IP Under this Comm DTM the user must the select the 1756 ENBT channel DTM followed by the 1756 Chassis channel DTM and 1756 CNB channel DTM Under the 1756 CNB channel DTM the user will add the 1788HP CN2PA R channel DTM The user will need to configure the Allen Bradley Ethernet Bridge eg EN2T IP address and slot number the Allen Bradley ControlNet bridge eg CNBR node number and slot and the CN2PA R ControlNet address and Max Scan Address Once this is done the user can access field devices or the PA Master diagnostics as given in the profile m Host PC E lt HS Ethernet IP dp A 1756 EMET dp Channel 3 40 1756 Chassis dp Channel Eg 1756 CNE dp Channel F Pod Channel KAKAK KONAN E Cerabar M PMs dx F dp Channel 13 Wy Rockwell 7 Automation Rockwell Automation Hiprom OPERATION RSLogix Each 1788HP CN2PA R consumes a total of 4 connections from the Logix Controller regardless of the field device count Thus the input and output image of each 1788HP CN2PA R is divided into four sections A to D The first connection will have the PA Master Data added as well Below is the input image of the PA Master HPARD Master HT 1788HP ENA FAROT mese Pausa O oaas PF Float REAL PAROTAMasterPaBusCumem REAL PARO A Master PABusvo
19. w HSProcessUtility File GSD Catalog DTM Catalog Add File Compile ts e Download nf Rockwell Automation Rockwell Automation Hiprom Once the user is happy with the configuration it can be downloaded to the 1788HP CN2PA R The device will save the configuration in non volatile memory If the power is cycled then the module will use the last configuration saved A NOTE Any changes will only take effect once ithas been downloaded to the 1788HP CN2PA R module e Upload If the user does not have the configuration of the 1788HP CN2PA R it can be uploaded and saved in the RSLogix project A NOTE The configuration will only be saved in the RSLogix project if the user has pressed the Apply button in the AOP e Scan The scan function is used to find the field devices on the local PA bus and apply a default configuration to each one according to the manufacturers GSD file The AOP will scan up to the Max Scan Address configured in Master config e Add Device The user can also add a device manually is for example the device is not currently connected As a device is selected the same default configuration is done to the field device configuration e Copy Device In the case where the user has setup a field device in a specific way and there are lots of the same devices in the same tree the user might want to copy the current field device to all the other locations instead of having to setup each field device f
20. with Status ara A Configuration 2 Bytes with Status A Ad d 3 Bytes with Status pa Vance 4 Bytes with Status i jb Oscilloscope eal with Status oo Ok Cancel In some cases eg Positioner field devices there are multiple input and output PVs per slot The user will then manually need to configure the format for the slot This is done be selecting the Manual Config tick box and clicking the configure button as shown below 11 nf Rockwell ny Automation Rockwell Automation Hiprom one te o 2 x wj A Overview E Master 1 P Node 15 a Device Z26007 Pressure 263 265 20007 b Status a A Config i INPUT FORMAT OUTPUT FORMAT FDOO 15 L Status f INPUT 1 Rea with Status OUTPUT 1 Real with Status A PV Data j INPUT2 4Bytes OUTPUT 2 A Configuration dis A Advanced INPUT 3 O EmptySlot OUTPUT 3 db Oscilloscope INPUT 4 OEmptySIot OUTPUT 4 o A Status INPUT 5 OUTPUT 5 A PY Data Configuratian INPOT B BAS och Advanced INFUT 7 DEmptyStot E OUTPUT 7 as Oscilloscope INPUT 8 o EmptySlot r OUTPUT 8 0 EmptySlot The user must select the number of inputs and outputs and their respective formats as given in the user manual of the field devices In the input image of the field device the PV will be set as given in the manual slot configuration Device Type Manager DTM The DTM can be used either in the profile with the ThinFr
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