Symphony Plus S+ Operations 1.1.
Symphony Plus S+ Operations 1.1.
NOTICE This document contains information about one or more ABB products and may include a description of or a reference to one or more standards that may be generally relevant to the ABB products. The presence of any such description of a standard or reference to a standard is not a representation that all of the ABB products referenced in this document support all of the features of the described or referenced standard.
TABLE OF CONTENTS 1. INTRODUCTION........................................................................................... 9 1.1 Terms ............................................................................................................. 10 1.2 Abbreviations ................................................................................................ 10 2. INSTALLATION .......................................................................................... 11 2.
TABLE OF CONTENTS 3.6.3 PServer Log Files ................................................................................................ 53 3.6.4 Data Access Test Client ...................................................................................... 54 3.6.5 Event Test Client ................................................................................................. 55 3.7 PV Definitions................................................................................................ 55 3.
TABLE OF CONTENTS 4.8 Special Objects Sheet................................................................................... 76 4.9 S+ P13 Tag Engineering Workflow .............................................................. 77 4.10 OPC Server Configuration............................................................................ 77 5. S+ P13 OPC BUILDER .............................................................................. 78 5.1 Procedure for Engineering Data Loading .................
TABLE OF CONTENTS 6.8.5 Display Elements ............................................................................................... 101 6.8.6 Analog Input ...................................................................................................... 103 6.8.7 Analog Output.................................................................................................... 105 6.9 Binary Control .............................................................................................
SPlus Operations P13 Connectivity Guide INTRODUCTION 1. INTRODUCTION “Symphony Plus Operations” is the human system interface (HSI) to various ABB distributed control systems. The “S+ Operations P13 Connect” provides the connectivity between the ABB HSI and the Procontrol P13 distributed control system. Multiple connectivity‟s to Symphony Plus Operations exist within ABB. This document describes the steps required to configure and operate the Procontrol P13 specific functions of S+ Operations.
SPlus Operations P13 Connectivity Guide 1.1 INTRODUCTION Terms Table 1-1: Terms 1.
SPlus Operations P13 Connectivity Guide INSTALLATION 2. INSTALLATION 2.1 Software and Hardware Requirements For Procontrol P13 Connect OPC Server Below SW / HW specifications are the basic requirements for optimum operation Hardware: 2.2 PC – Pentium Core DUO Serial ports: ISA slots: PCI slots: HD memory partition: Software: 1.
SPlus Operations P13 Connectivity Guide 2.3 INSTALLATION S+ Operations P13 Connect Installation After installation the different components of the server (Third Party, S+ Operations & S+ Historian), S+ System Installer the installation of S+ Operations - P13 Connect will start. . Figure 2-2: S+ Operations P13 Connect Installation – Step 1 Step 1: Click “Next” to continue the installation Figure 2-3: S+ Operations P13 Connect Installation – Step 2 Step 2: Select options as shown in the Figure 2-3.
SPlus Operations P13 Connectivity Guide INSTALLATION Figure 2-4: S+ Operations P13 Connect Installation – Step 3 Step 3: Click “Install” to continue the installation. Figure 2-5: S+ Operations P13 Connect Installation – Step 4 Step 4: This step completes the installation of S+ P13 Engineering Workbook, S+ P13 OPC Builder and the required dll file.
SPlus Operations P13 Connectivity Guide INSTALLATION Figure 2-6: S+ Operations P13 Connect Installation – Step 5 Step5: This step starts the installation of the Procontrol P13 Connect OPC Server. Continue the installation by clicking “Next”.
SPlus Operations P13 Connectivity Guide INSTALLATION Step 6: Based on the specific plant requirements check if needed the “Install PIF Support” option and select “Next”. By default “Install PIF Support” is checked.
SPlus Operations P13 Connectivity Guide INSTALLATION Figure 2-9: S+ Operations P13 Connect Installation – Step 8 Step 9: Complete S+ Operations - P13 Connect installation as shown in Figure 2-9: S+ Operations P13 Connect Installation – Step 8 Figure 2-9: S+ Operations P13 Connect Installation – After the installation of S+ Operations - P13 Connect, S+ System Installer installs S+ Operations Display Library which consists of required faceplates, P13 data processor, fonts and necessary registry settings.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3. PROCONTROL P13 OPC SERVER 3.1 Product Overview PServer is an OPC Server for Procontrol P13/42. It supports the OPC standards for Data Access 2.0 and Alarm & Event 1.0. Via the PServer, client applications can access data in a Procontrol system. The PServer supports communication with Procontrol via serial line and bus coupler BK06 or via PIF board and intraplant bus P42.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Parity Configurable Flow control None Baud rate Configurable For details of BK06 programming see BK06Programming. 3.2.1.2 PIF The settings on the PIF hardware listed in the following table must match the corresponding PIF configuration parameters in PServer.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-3: Configure Procontrol OPC Server Service for Redundant Servers in a Domain Remark: Do enter the account in the form \ (e.g. INDUSTRIALIT\SPLUS), do not enter the account in the form provided by Browse...! To ensure, that the OPC Server will be started under the selected service account with the desired configuration file (psc-file), login once with this account, start the OPC Server via Start Menu ->...
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-4: Dialog to select OPC Server in data access client This starts the PServer, if not already started. The PServer window can be opened through the Windows taskbar. The Help->About dialog shows the product version. Figure 3-5: PServer window after initial installation 1. 2.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-6: Browser dialog for sample configuration Add the calculated variables 01ANR10AC101_XJ0J (Analog) and 01DTL10DC101_XS01 (Digital) to the group. Write a value to both variables and check the display. Figure 3-7: Writing values to calculated test variables Writing to the digital value will cause messages in the event client as shown in the following figure. Figure 3-8: Messages generated by writing to calculated test variables 3.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-9: Reference code – License Dialog Send an E-Mail with your reference code and the product serial number to the following PlantControl.support@ch.abb.com address: After receiving the license key, you can finish the registration. Verify that the software is properly registered: (Licence->Licence status.
SPlus Operations P13 Connectivity Guide 3.3 PROCONTROL P13 OPC SERVER Configuration and Engineering 3.3.1 Overview The project-specific application data used by PServer can be classified as follows: Site Configuration Parameters (.psc) These parameters comprise the basic parameters concerning bus connections, VPC interfaces etc. They can be modified through the PServer configuration user interface. Process Variable Engineering Data (.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-13: Open Dialog for PServer Site Configuration File The default file extension for PServer site configuration files is .psc . Important To activate modifications of site parameters, save the configuration file, exit the PServer configuration and then restart it! The option to handle PServer site configuration files is provided as an option in menu File. Figure 3-14: Menu items to handle PServer site configuration files 3.3.2.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-15: Property Page for PV Engineering File Configuration 3.3.2.3 VPC Modes Configuration PServer supports a “logical” interface for VPC commands. This means, that a client can issue commands via a corresponding command item which hides the specific signal concept (“VPC mode”) implemented for a certain plant. The VPC mode to be used can be selected on the corresponding VPC mode property sheet.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-17: Property Page for Bus Configuration – Type BK06 Figure 3-18: Property Page for Bus Configuration – Type PIF 26 2VAA001153C
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Table 3-3: Bus Configuration Parameters Name Meaning Allowed Values Coupler Type Type of bus coupler. {BK06, PIF, PCI PIF, NotUsed} Station Address Number (Address) of the coupling station. For PIF coupler, this address must match the station address configured on the PIF board. 0,…,3F Port Number Communication port (Serial or PIF) used for coupler.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.2.6 Serial Ports Configuration A serial port must be associated to a BK06 coupled bus. The corresponding parameters can be specified in the 4 corresponding property sheet. Figure 3-20: Property Page for Serial Port Configuration Table 3-4: Serial Port Configuration Parameters Name Meaning Allowed Values Port Id. Port identification String, e.g. COM1, COM2, etc.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.2.7 ISA PIF Port Configuration A PIF port must be associated to a PIF coupled bus. The corresponding parameters can be specified in the corresponding property sheet. Figure 3-21: Property Page for ISA PIF Port Configuration Table 3-5: ISA PIF Port Configuration Parameters Name Meaning Allowed Values Interrupt Level Interrupt line used by this PIF, i.e. must correspond to setting of jumper W5 on the PIF hardware. String, e.g.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.2.8 PCI PIF Port Configuration A PCI PIF port must be associated to a PIF coupled bus. The corresponding parameters can be specified in the corresponding property sheet. If no PCI PIF devices are detected, this property sheet is disabled.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.3.2 PVE File Interface Table 3-7: PVE File Interface Standard PVs Name Meaning Allowed Values Default Pos.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.3.3.1 Signals (AIX, AOX, DIX, AOX) Table 3-8: PVE File Interface Signals Extended Name Meaning Allowed Values Default Pos.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.3.3.2 Binary Control Objects (ASE, ASS, ASM) Table 3-9: PVE File Interface Binary Control Objects Extended Name SubType Section Meaning Subtype Process section Operable Allowed Values Pos. Default ASEX ASSX ASMX Any string.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.3.3.3 Analog Control Objects (ASIX, ASPX, HSTX, SWVX) Table 3-10: PVE File Interface Analog Control Objects Extended Name Section Meaning Process section Operable Allowed Values Defa ult Pos.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER ActStepSignal Signal for actual step Signal reference - 14 RELON Signal for Release ON Signal reference - 19 RELOFF Signal for Release OFF Signal reference - 20 PROTON Signal for Protection ON Signal reference - 21 PROTOFF Signal for Protection ON Signal reference - 22 StartON 1. Step for ON 1,2,3,… 1 23 LastON Last Step for ON 1,2,3,… 50 24 StartOFF 1.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.3.4 Specific Parameter Sets and Instructions Because specific parameters sets do not create an object in the PServer but modify some global parameters, they can only appear once in a PV engineering file. 3.3.3.4.1 Parameter Set VPCID for ID-Signals Definition The default signal codes designating the associated ID-Signals for a control object can be modified by means of this parameter definition.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Example: APPEND, C:\OPC_P13\Data\BOP.pve 3.3.3.4.5 SERVER Instruction The SERVER instruction allows to target the parameters sets to a certain server only. This can be useful for example for redundant configurations, where the parameters which have to be different (e.g. VPC ID-bit naming) on the redundant servers can be targeted to only one server, nevertheless the engineering files can be kept identical for both servers.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Format: PRIORITYMAP, , , , Where: Sever: Severity for priority n Example: PRIORITYMAP, 1000,750,500,1 3.3.3.4.9 PARTNERNODE[X] Instruction The PARTNERNODE instruction defines the partner node in redundant configurations. (See 3.8 Redundancy Support).
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Examples: STATIONMONITOR,2,3,4 Activates station disturbance word handling with reset feature on bus 2 via diagnostic triple at 3 with service address 4. The normal address for the disturbance word is to be defined in the STATION directive. STATIONMONITOR,1 Activates station without reset feature. The normal address for the disturbance word is to be defined in the STATION directive.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.3.4.12 AEOPTIONS Instruction The AEOPTIONS instruction allows to define options concerning handling of alarm and event messages.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.3.3.4.14 PIFCMDTO Instruction (PIF Command Timeout) The PIF Command Timeout is intended to ensure a command signal reset in situations where the PIFs host PC is not able to do the regular reset anymore. With the PIFCMDTO instruction, the timeout for active PIF command signals can be defined. A zero PIF Command Timeout means that the PIF Command Timeout is not active.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Many OPC clients do not support the data access to OPC item properties, i.e. the access via OPC items is often the only way to get data into an OPC client. It is therefore essential to know which data an OPC server exposes through OPC Items and possibly which through Item properties. The PServer provides data for process variables as also for raw Procontrol data (data words). The properties of PVs are also exposed as OPC Item Properties.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Examples: #_2.1E.3F Control System Item : Object #_: Control System Part 2.1E.3F (Bus,Station, Device) PV Property Item : 12MAW10AA001_XC50.RLOW Loop Signal Property (“RangeLow”) Figure 3-27: Examples for PServer naming conventions for OPC items The naming convention for OPC items associated with PVs is of course derived from the naming conventions for PVs (see 3.4.2.2 Naming Conventions for Process Variables).
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Control objects implement the corresponding commands and give access to the associated feedback signals. To issue 14 a command, some object individual identification signals are sent Procontrol . The association of these feedback and identification signals to its control object is defined by a corresponding naming convention for PVs. OPC Client OPC Items DI Feedback Signals By Naming Conventio n CO Commands ACKN ON OFF ..
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-30: OPC Items for an ASE Control Object in a browser To follow this naming convention is a matter of engineering and must be observed when building the object GUI components. Because naming convention as described above has not been observed consequently within projects and not in all projects the same signal names have been used, a mechanism to map existing signal names to a unified naming convention must be provided.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER The value for control system data items is provided as integer. The access rights for control system data items are defined as “readable & writeable”. Figure 3-32: Browsing Control System Items Note: For each configured BK06 connection, the corresponding control system data items are created automatically by the PServer.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Table 3-16: Bus and station status word meaning Bit Meaning 0 1-15 1 * Disturbed 0 * OK The status words can be accessed as PC items as illustrated in the following picture. Figure 3-33: Bus and station status word shown in an item browser If required, DIs can be associated to bus and station status word bits. This is illustrated in the following example records for the PVE file.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.4.4.4 PServerAdmin_ActiveBuses, PServerAdmin_ActiveBusesPrtn OPC Item The PserverAdmin_ ActiveBuses provides the number active buses. The PserverAdmin_ ActiveBusesPrtn provides the number active buses of the partner server. These items are only available if extended partnernode communication is configured. 3.4.5 Support for XC80-Telegram 3.4.5.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Table 3-17: Object IndividualXC80 Configuration Field Position XC80Ref 19 27 Meaning Generate: Generate XC80 From bus with address reference AddrRef 3.4.5.4 OPC Item Interface for XC80 Telegram The information concerning the XC80-Telegram is provided via corresponding OPC items as shown in the table.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Table 3-20: Mapping of priorities to OPC severities Priority Meaning OPC Severity 0 Status 1 1 Alarm 999 2 Warning 699 3 Disturbance 399 4 Status 1 This default mapping can be changed with the PRIORITYMAP Instruction. 3.5.1.3 Acknowledge Event Category Acknowledge Required Process For priority 1,2,3 Signal Yes Limit For priority 1,2,3 Command For priority 1,2,3 System No 3.5.2 Messages 3.5.2.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.5.2.4 Command Messages Command messages are provided for commands issued against a control object. Process signals. Command messages are indicated with source User. Figure 3-38: Example a command messages in an OPC alarm & event client 3.5.2.5 System Messages System messages are provided to report for system events as simple messages. Figure 3-39: Example of system messages in an OPC alarm & event client 3.5.2.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Service Mode In service mode, PServer runs as a Windows NT service. As a service, PServer remains running also if no user is logged on Windows NT. On the other hand, the user interface of PServer running in service mode is not accessible. To enable PServer to run in service mode, it must be installed as NT-service. This can be achieved by selecting the Procontrol OPC Server menu item PServer – Create Service.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Normally only one instance of PServer is started. To allow viewing of PServer site configuration without stopping a PServer running in service mode, a PServer instance in configuration mode can run in parallel to one running in service mode. Important When using PServer in configuration mode, some attention should be paid that clients do not connect to the “wrong” server.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-45: PServer Log Files The PServer log files are text files which can be viewed by any text editor. With the ExtendedLogging instruction, the number of log files kept on disk can be extended (see 3.3.3.4.15 ExtendedLogging Instruction). 3.6.4 Data Access Test Client For testing the installation concerning data access, a simple OPC Data Access client can be used.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.6.5 Event Test Client For testing the installation concerning event & alarm access, an OPC alarm & event client can be used. Start : Start -> ABB P13 Connect OPC Server -> Event Display Client In the OPC Client, connect to PServer by OPC -> Connect… Remark: The alarm & event test client connects automatically to the last connected server (if possible). Figure 3-48: Connecting an alarm & event client to the PServer 3.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 21 Device Device address 0,…,FF (1FF) x x Bit Bit address 0,…,F x x OPC Item OPC Item value with x Value OPC item value Variant: Analog: Double Digital: Boolean x Quality OPC quality flags indicating the quality of the value Bitset x TimeStamp Time stamp of last update UTC Time (FILETIME) x SpecProc 23 Special processing specifier String x 22 x Table 3-22: Special Processing Identifiers Identifier Meaning
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.7.2.3 Analog Outputs (AO) Table 3-25: Specific Attributes for Analog Outputs Name Meaning Data Type Engin. Para. OPC Prop. OPC Item RangeLow Measuring range low Double x x Rlow RangeHigh Measuring range high Double x x Rhigh Output Output connection Bool x x 3.7.2.4 Digital Outputs (DO) Table 3-26: Specific Attributes for Digital Outputs Name Meaning Data Type Engin. Para. OPC Prop.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.7.3 Process Signals Extended 3.7.3.1 Analog Inputs Extended (AIX) Table 3-27: Specific Attributes for Analog Inputs Extended 58 Name Meaning Data Type Engin. Para. OPC Prop.
SPlus Operations P13 Connectivity Guide Unit Measuring unit PROCONTROL P13 OPC SERVER Character x Unit 3.7.3.2 Digital Inputs Extended (DIX) Table 3-28: Specific Attributes for Digital Inputs Name Meaning Data Type Engin. Para. OPC Prop.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER 3.7.4 Control Objects 3.7.4.1 Naming Conventions for Associated Signals Control object individual command signals are associated to the object by corresponding naming conventions. For VPC Mode 1, these signals are the identification signals. The following table shows the default naming convention use by PServer. This default naming convention can be overwritten by a corresponding VPCID record in the PV engineering file (see 3.3.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Name Meaning Data Type ACKN Acknowledge Command Bool CMD_ACKN AUTOMAN Auto/Manual Command Bool CMD_AUTOM AN ON On/Open Command Bool CMD_ON OFF Off/Close Command Bool CMD_OFF STOP Stop Command Bool CMD_STOP DMS DMS Command Bool CMD_DMS 27 Engin. Para. OPC Prop. OPC Item 25 26 3.7.4.2.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Name Meaning Data Type Engin. Para. Operable Object is operable Bool x Station Station number String Type PV Type String x Type SubType Subtype String x SubType Error Set if signal error in one of the feedbacks Short Error XC80Tel See 3.4.5 Support for XC80Telegram UI2 XC80Tel UI2 XC80Def XC80Def XC80Dist OPC Prop.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER XL59 XL59 signal PV DI (see DIX) x AV Actual Step AI (see AIX) x 3.7.4.3.3 Selector Control (VW2, VW3, VW4) Table 3-39: Specific Attributes for Selector Control Objects Name Meaning Data Type Engin. Para. OPC Prop.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER XL79 XL79 signal PV DI (see DIX) XL88 XL88 signal PV DI (see DIX) XL89 XL89 signal PV DI (see DIX) 3.7.4.3.5 Condition Definitions (COND, STEP) The Condition Definition object types do not involve any processing within PServer. It provides engineering data via OPC server to a client. Table 3-41: Attributes for Condition Definitions (COND, STEP) Name Meaning Data Type Engin. Para. OPC Prop.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER S_XDESCRIPTION Object type specific error code Short S_XDESCR IPTION DistWord Station Disturbance Word Short .DistWord Message Rate Number of telegram messages per second provided by the PIF Short .
SPlus Operations P13 Connectivity Guide PServer Node01 PROCONTROL P13 OPC SERVER Acknowledge Information PARTNERNODE, Node02 PServer Node02 PARTNERNODE, Node01 Figure 3-50: Exchange of Acknowledge Information between Partner Nodes How to define a Partner Node is described in 3.3.3.4.9 PARTNERNODE[X] Instruction. 3.8.2 Synchronization of Event Suppression Via the partner node connection, the event suppression configuration is synchronized. 3.8.3 Propagation of Node-Specific Partner Events.
SPlus Operations P13 Connectivity Guide Global Release Global Acknowledge PROCONTROL P13 OPC SERVER & CO1 ON OFF ACKN Individual Command Signals CO2 SEL1 SEL2 ….
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER For the global acknowledge signal : VPCDEF1,ACKN,,,… If the global signals are the same for all busses, the configuration must look as follows: Global signals valid for all busses : VPCDEF1,REL,,* VPCDEF1,ACKN,,* 3.9.2.
SPlus Operations P13 Connectivity Guide PROCONTROL P13 OPC SERVER Figure 3-54: VPC Mode “Mixed Mode I” Configuration 3.10.2.2 Configure Analog Control (XC13) Part Select number of ID bits in dialog General->VPC Modes. Configure signal ID for ID bits with VPCID instruction in the pve-file (see 3.3.3.4.1 Parameter Set VPCID for ID-Signals Definition). Configure existing command channels per bus. Set addresses for XC11 and XC12 to zero. Configure bit for acknowledge if not default. 3.10.2.
SPlus Operations P13 Connectivity Guide VPCDEF1 PROCONTROL P13 OPC SERVER REL 10CKA21 GK001_ XS55 * VPCDEF1 ASE XB11 XB11 XB12 VPCDEF1 ASS XB11 XB11 XB12 VPCDEF1 ASM XB11 XB11 XB12 VPCDEF1 VW2 XA61 XA61 XB63 VPCDEF1 GSA XA11 XA11 XA12 #Command signal codes XM23 XB13 XM23 XM23 XA15 #Reset delay for global acknowledge (ms) VPCDEF1 DELAY1 100 #Suppress warnings with missing command signals MSGFILTER 1 #Definitions for analog control #Acknowledge bit is 8 (non default) VPC
SPlus Operations P13 Connectivity Guide S+ P13 ENGINEERING WORK BOOK 4. S+ P13 ENGINEERING WORK BOOK 4.1 Overview The input interface for the S+ P13 tag database engineering is the S+ P13 Engineering Workbook. The S+ P13 Engineering Workbook is an Excel Workbook which can be imported to the S+ Operations tag database. The corresponding pve-file used by then Procontrol P13 Connect OPC Server can be generated by means of the S+ P13 OPC Builder.
SPlus Operations P13 Connectivity Guide 4.3 S+ P13 ENGINEERING WORK BOOK Column Headings – Field Names Both, the S+ Operations tag import and the S+ P13 OPC Builder work with column headings to identify the columns and not with the column positions. The columns used and the field designations are different for the two utilities. Therefore two rows with column headings are provided.
SPlus Operations P13 Connectivity Guide S+ P13 ENGINEERING WORK BOOK EventDef - x - Event definition: 0: No message 1: Message if Normal->Active 2: Message if Active->Normal 3: Message both directions 0,…,3 NormPos - x - Which is normal (not active) state {0,1} Inverted - x - Field value to be inverted {Y, N} RangeLow LINS_LIMT - x Measuring range low Float RangeHigh HINS_LIMT - x Measuring range high Float Unit EUDESC - x Measuring unit Text NoDecs NUMDECPL - x No
SPlus Operations P13 Connectivity Guide S+ P13 ENGINEERING WORK BOOK The following table shows applicable special processing. Consult also the Procontrol P13 Connect OPC Server part of the manual [PROCONTROL P13 OPC SERVERError! Reference source not found.]. Table 4-3:Available Special Processing for Signals 4.
SPlus Operations P13 Connectivity Guide S+ P13 ENGINEERING WORK BOOK - TAGTYPE S+ Operation stag type DIGITAL - TAGSRC Data source for S+ Operations PROP13 - ALMGROUP Alarm group for alarm display 0, 1… - ALMREM Remote alarm processing N - FIELD_TX1 OPC DA server ABBProcontrolP13.OPC.1 - FIELD_TX3 OPC DA item name =
SPlus Operations P13 Connectivity Guide 4.7 S+ P13 ENGINEERING WORK BOOK ID-Signals Sheet ID-Signals are only used by the Procontrol P13 Connect OPC server for command output. ID-Signals are not loaded to S+ Operations. The fields are described in the following table. Table 4-6: S+ P13 Engineering Workbook- Fields for ID-Signals 4.8 OPC Field Meaning Value Type Tag type DO Name Tag name String Descr Tag description String Bus Bus number 0,…,7 Station Station number Hex, 00,..
SPlus Operations P13 Connectivity Guide 4.9 S+ P13 ENGINEERING WORK BOOK PLANTUNIT 1... ALMGROUP 0, 1… FIELD_AD1 200 FIELD_AD2 120 TAGTYPE ANALOG TAGSRC PROP13 AL_REM Y FIELD_TX1 ABBProcontrolP13.OPC.1 FIELD_TX3 PServerAdmin FIELD_TX5 ABBProcontrolP13.Event.1 FIELD_TX7 System BUS 5 - DATA_PROC PROP13.Block.P13. P13CON PROP13.Block.P13.BUS PROP13.Block.P13. STATION ANALOG DIGITAL BUS 5 5-STN3E - S+ P13 Tag Engineering Workflow 4.
SPlus Operations P13 Connectivity Guide S+ P13 OPC BUILDER 5. S+ P13 OPC BUILDER The S+ P13 OPC Builder extracts the data needed for the Procontrol P13 OPC server from the S+ P13 Engineering workbook and creates the corresponding pve-file to be loaded by the OPC server. Figure 5-1: User Interface of S+ P13 OPC Builders Select the paths for the S+ P13 Engineering Workbook and the target OPC Engineering File. Then generate the pvefile. Note The S+ P13 OPC Builder should be started from a local drive.
SPlus Operations P13 Connectivity Guide S+ P13 OPC BUILDER Figure 5-2: Import Setting for Update of the S+ Tag Database 5.2 S+ Operations P13 Connect OPC Communication Diagnostic In order to have redundancy changeover on OPC communication failure between SPlus Operations and ABB Procontrol P13 OPC Server, It‟s necessary to create OPC Connection diagnostic tag SPlus Operations level. 5.
SPlus Operations P13 Connectivity Guide S+ P13 OPC BUILDER Figure 5-3: Adding OPC Diagnostic Tag in Windows Registry If the defined “E.g:S2P13POC” tag name is not already present in SPlus Operations database, you‟re able to configure it later in SPlus Operations without stopping the OPC Client.
SPlus Operations P13 Connectivity Guide S+ P13 OPC BUILDER Figure 5-4: Adding OPC Diagnostic Tag in Windows Registry The following are the diagnostic tag values associated to the communication states.
SPlus Operations P13 Connectivity Guide S+ P13 OPC BUILDER Figure 5-5: Configuring Different Alarm States for OPC Diagnostic Tag Figure 5-6: Configuring AL_REM flag 82 2VAA001153C
OPC Diagnostic Tag S+ P13 OPC BUILDER In order to shutdown the SPlus Operations during OPC Communication failure, Configure the Task monitor as shown below: 2 3 1 4 Figure 5-7: Process Monitor In System Tray, Right on PWMONITOR and Select Process Monitor > Configurator. Click on Settings and Select Tag Configuration from drop down menu. In the Process Monitor Configuration add OPC Diagnostic Tag under Alarmed Tags to Monitor.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6. S+ P13 OBJECT REFERENCE 6.1 Product Overview The S+ Operations P13 Connect Object Types provide the necessary S+ Operations object types to use S+ Operations functions for process operation and monitoring of Procontrol P13 plants. In particular, the S+ Operations P13 Connect Objects Types provide the graphical components like faceplates. 6.2 General 6.3 Colors The colors used in faceplates are defined with named logical colors.
SPlus Operations P13 Connectivity Guide Extended X S+ P13 OBJECT REFERENCE X X X X 6.4.2 Alarm Symbol 6.4.3 Control Object State Presentation Signal Error, Unacknowledged Channel Failure, Unacknowledged Fault, Unacknowledged Fault, Acknowledged Alarm gone, Unacknowledged No Alarm, (Alarm Gone Acknowledged) Signals Control Object Reset Button 6.4.4 Links Area Operator Note Indication Operating Parameters Last Alarms List Figure 6-2: Faceplate Links Area 6.4.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.4.6 Button Area The button area provides the button to send commands to an object; Issue a command needs a two-step operation. First, the command selection button for the desired command has to be pressed. To send the command to the object, the OK/Return button has to be pressed. Command Selection Command Output Figure 6-3: Faceplate Command Area 6.4.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Left Manual 6.6 Object Types 6.7 Binary Signals 6.7.1 Faceplates 6.7.1.1 General Structure For Binary signals provided with two tabs Parameters, Trend respectively. Figure 6-6: Binary Signal Faceplate 6.7.1.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 4 Error 6.7.1.3 Parameters Tab Parameters show the Procontrol P13 Address of the signal Figure 6-7: Binary Signal – Parameters Tab 6.7.1.4 Trend Tab Trend Tab shows the Procontrol P13 value of the signal in trend form.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.7.2 Display Elements 6.7.2.1 Display Elements LED The LED element shows the value of a binary signal as colored shape. Optionally a text can be inserted into the element. For status (Priority 0) signals, alarm and normal colors can be configured.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Table 6-6: Color Mapping for LED Display Element with Text State Active Error Inactive Error Active Acknowledged 0 Acknowledged Not applicable Inactive Acknowledged Acknowledged Not applicable 1 Flashing Flashing Flashing Flashing Flashing Flashing 2 3 4 Not applicable Not applicable Using the color options of the LED element, special indications for binary signals can be created.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 1 Flashing Flashing Flashing Flashing Flashing Flashing 2 3 Table 6-9: Input Properties for Display Element StatusText Property Meaning Value Default HAlign Horizontal Alignment of the text Left Center Right Center FrameWidth Width of the rectangles frame Integer 1 AlarmText Optional text for active (=1) state. Text Alarm text of the object Optional text for inactive (=0) state.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 2 P max P max Flashing P max P max Flashing P max P max P max Flashing P max P max Flashing P max 3 Using the color options of the StatusText element, special indications for binary signals can be created.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.7.2.4 Display Elements 1WayValve Table 6-14: Color mapping for 1WayValve Display Element Priority Error Active Error Inactive Active Inactive All Table 6-15: Input Properties for Display Element 1WayValve Property Manning Value Default Direction Direction of the flame Left Right Up Down Right 6.7.2.5 Display Element TagName The display element Tagname shows the tagname (object name). Figure 6-9: Display Element TagName 6.7.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.7.3 Digital Input 6.7.3.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Parameters Tab Parameters show the Procontrol P13 Address of the signal. Figure 6-14: Parameters Tab Trend Tab Trend Tab shows the Procontrol P13 value of the signal in trend form.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.7.4 Digital Output 6.7.4.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Figure 6-17: Digital Output Signal Extended Faceplate Parameters Tab Parameters show the Procontrol P13 Address of the signal.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Trend Tab Trend Tab shows the Procontrol P13 value of the signal in trend form.
SPlus Operations P13 Connectivity Guide 6.8 S+ P13 OBJECT REFERENCE Analog Signals 6.8.1 Faceplates 6.8.2 General structure The faceplates for AI signals provides value and limit information.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.8.3 Parameters Tab For details on numeric and bar representation Figure 6-22: Analog Signal Faceplate – Parameters Tab 6.8.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.8.5 Display Elements 6.8.5.1 Display Element Bar The Bar element shows the value of the analog signal as length of a bar. Additionally it shows the position and type of the limits configured for the analog signal. A corresponding coloring of the bar indicates the limit state. Display Range - High Upper Limit Lower Limit Display Range - Low Figure 6-24: AI Faceplate 6.8.5.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.8.5.4 Element Scale The Scale element can be used in combination with the bar element. The scale limits are taken form the analog signal object. Figure 6-25: Bar Element combined with Scale Element 6.8.5.5 Display Element Numeric The Numeric element shows the value of the analog signal in numeric form together with the measuring unit. The number of decimal digits are defined by the signal‟s corresponding configuration parameter (NoDecs).
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.8.5.8 Display Element Description The display element Description shows the description text. Figure 6-28: Display Element Description 6.8.5.9 Display Element Address The display element Address shows the Procontrol address. Figure 6-29: Display Element Address Format ... 6.8.6 Analog Input 6.8.6.1 Faceplates 6.8.6.2 General Structure The faceplate for AI signals provides value and limit information.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Parameters Tab For details on numeric and bar representation Figure 6-31: Parameters Tab Trend Tab Figure 6-32: Trend Tab 104 2VAA001153C
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.8.7 Analog Output 6.8.7.
SPlus Operations P13 Connectivity Guide 6.9 S+ P13 OBJECT REFERENCE Binary Control 6.9.1 Faceplates 6.9.1.1 General structure Figure 6-35: Binary Control Faceplate 6.9.1.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Undefined Error 6.9.1.3 Analyze Tab The Analyze tab allows retrieving information on Release and Protection criteria for the control objects. Figure 6-36: Binary Control Faceplate – Analyze Tab 6.9.1.4 XC80 Tab The Analyze tab allows retrieving information on XC80 Telegram for the control objects.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2 Display Elements 6.9.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2.3 Display Element Motor Table 6-22: Binary Control Display Element Motor State State Indication Normal State Indication Disturbed Error On Off Intermediate Table 6-23: Input Properties for Display Element Motor 110 Property Meaning Value MotorText Letter inside element Any Letter or empty.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.2.
SPlus Operations P13 Connectivity Guide 6.9.2.
SPlus Operations P13 Connectivity Guide 6.9.2.
SPlus Operations P13 Connectivity Guide 6.9.2.
SPlus Operations P13 Connectivity Guide 6.9.2.
SPlus Operations P13 Connectivity Guide 6.9.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.3 ASS 6.9.3.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.3.2 Faceplate “TIP” mode If the subtype of an ASS is defined as “TIP”, operation is of the ASS is done in the TIP mode (“inching mode”), i.e. running to the desired position as long as the Command button is pressed. The Command buttons are then provided as shown in the following picture. Figure 6-40: ASS Faceplate – TIP Mode 6.9.3.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.4 ASM 6.9.4.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.9.4.2 Feedback Signals to State Mapping Feedback Signal Signal Code Default Value Open XL18 0 1 0 0 0 0 * * Opening XL19 0 0 * 1 0 0 * * Closed XL28 0 0 1 0 0 0 * * Closing XL29 0 * 0 0 1 0 * * Disturbed XL68 0 0 0 0 0 0 1 1 Acknowledged XL69 0 * * * * * 0 1 OPEN CLOSED OPENING CLOSING UNDEFINED DISTURBED DISTURBED ACKN Table 6-38: Feedback Signals to State Mapping 6.9.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Figure 6-44: ASE Extended Faceplate 6.9.5.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.10 Setpoint Control (HST/SWV) 6.10.1 Faceplates 6.10.1.1 General structure Figure 6-45: SetPoint Faceplate 6.10.1.2 State Indication Table 6-40: State Indication State State Indication Normal State Indication Disturbed Auto/Manual Indication Lower limit reached Higher limit reached Manual In Status Symbol marked with red circle.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Manual by disturbance In Status Symbol marked with red circle. Automatic In Status Symbol marked with red circle. Undefined In Status Symbol marked with red circle. Error 6.10.1.3 Trend Tab The Trim curves tab allows showing a trend of setpoint value, the actual value and the Control value. Figure 6-46: SetPoint Faceplate- Trend Tab 6.10.1.4 Mode Indication Setpoint control object can be configured for two modes.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.10.2 Display Elements 6.10.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.10.3 HST 6.10.3.1 Faceplates Figure 6-47: HST Faceplate 6.10.3.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.10.4 SWV 6.10.4.1 Faceplates Figure 6-48: SWV Faceplate 6.10.4.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.11 Analog Drive Control (ASI/ASP) 6.11.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Figure 6-50: Analog Control Extended Faceplate 6.11.1.1 State Indication Table 6-45: State Indication State State Indication Normal State Indication Disturbed Auto/Manual Indication Error Manual In Status Symbol marked with red circle. Manual by Disturbance In Status Symbol marked with red circle. Automatic In Status Symbol marked with red circle.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Opening Arrow flashing Close Closing Arrow flashing Undefined In Status Symbol marked with red circle. 6.11.1.2 Analyze Tab The Analyze Tab allows retreiving information on Release and Protection criteria for the control objects.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.11.1.3 Trend Tab The Trim Curves tab allows showing a trend of the setpoint value, the actual value and the Control value. Figure 6-52: Analog Control Extended Faceplate – Trend Tab 6.11.1.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.11.1.5 Limits Tab Limits provides the Mininmum and Maximum range details of AV, SP and CV. Figure 6-54: Analog Control Extended Faceplate – Limits Tab 6.11.1.6 Mode Indication Setpoint control object can be configured for two modes.The corresponding indication in the Faceplates is showing in the following table.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Automatic Undefined 6.11.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Opening Close Closing Undefined 6.11.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Automatic Open Opening Close Closing Undefined 2VAA001153C 139
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.11.2.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Closing Undefined 6.11.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.12 Group Control GSA 6.12.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.12.2 Faceplates Indication Table 6-52: Faceplates Indication State State Indication Normal State Indication Disturbed Error ON OFF Running To ON Running To OFF UNDEFINED MANUAL / STOP 6.12.3 Step Indication The current step indication on the extended faceplates allows to monitor the current Step number in the “Running to ON” and in the “Running to OFF” state.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.12.4 Analyze Tab The Analyze tab of the GSA allows retrieving information on Release and Protection criteria for start and stop of the GSA. Additionally information on step release conditions can be retrieved.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.12.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Feedback Signals to State Mapping Signal Code Default Value ON XL18 0 1 0 0 0 0 * * Running to ON XL19 0 0 1 * 0 0 * * OFF XL28 0 0 0 1 0 0 * * Running to OFF XL29 0 * 0 0 1 0 * * Stop or Manual XL59 0 0 0 0 0 1 * * Disturbed XL68 0 0 0 0 0 0 1 1 Acknowledged XL69 0 * * * * * 0 1 RUNNING TO ON OFF RUNNING TO OFF STOP / MANUAL DISTURBED DISTURBED ACKN Feedback Signa
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.13.1.2 State Indication The following table shows the state indication for VW4. The state Indication for VW2 and VW3 follow the same principle.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.13.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE Figure 6-61: 2-Selector Extended Faceplate 6.13.3.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.13.4 VW3 (3 Selector) 6.13.4.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.13.4.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.13.5 VW4 (4 Selector) 6.13.5.
SPlus Operations P13 Connectivity Guide S+ P13 OBJECT REFERENCE 6.13.5.2 Display Element Sel 4 Table 6-59: Display Element Sel 4 State State Indication Normal State Indication Disturbed Unit 1 Selected Unit 1 Difference Unit 2 Selected Presentation of other states follows the same principle… Error 6.14 Building P13 Specific Symbols from S+ Common Symbol Library Refer to S+ Operations Common Symbol Library User Manual for building P13 specific symbols.
ABB AG Power Generation Mannheim GERMANY E-Mail: powergeneration@de.abb.com www.abb.com/controlsystems ABB Pte. Ltd. Power Generation Singapore SINGAPORE E-Mail: powergeneration@sg.abb.com www.abb.com/controlsystems Docment Number 2VAA001153C ABB Inc. Power Generation Wickliffe OHIO, USA E-Mail: powergeneration@us.abb.com www.abb.
