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1、System Platform 3.1,Wonderware System Platform 3.1,Agenda,Contents Module 1:Introduction Module 2:Application Infrastructure Module 3:Application Objects Module 4:Extending the Objects Module 5:Alarms and History Module 6:Security Module 7:Galaxy Maintenance Module 8:Device Integration Products Modu
2、le 9:Multi-Node Applications,System Platform,Module 1: Introduction,Contents Section 1:Course Introduction Section 2:Wonderware System Platform Lab 1 Creating a Galaxy Section 3:The ArchestrA IDE Section 4:Automation Objects Section 5:System Requirements, Licensing and Support Section 6:Application
3、Planning Lab 2 Identifying the Mixer,System Platform,Course Description and Objectives,Project Specific Work,Wonderware System Platform,Microsoft Technologies & Industry Standards,System Platform,Clients,Industry Packs,Project Specific Work,Wonderware System Platform,Microsoft Technologies & Industr
4、y Standards,System Platform,Clients,Industry Packs,Wonderware System Platform,Wonderware System Platform,Wonderware Clients,Application Server,Historian,Information Server,Device Integration Products,ActiveFactory (Analysis Client),Information Server CAL (Report Client),InTouch (Visualization),3rd P
5、arty Data Sources,Software Applications,3rd Party Controllers,It is an open and extensible system of components based on a distributed, object-oriented design.,It provides a unified environment for visualization, plant history, device communications and automation application integration.,Applicatio
6、n Servers application, configuration information and project database.,Single computer and software where the Galaxy database is located.,Concepts and Terminology,Highlights,Leverage the .NET Framework for the Automation World Object-based application One global networked namespace Centralized confi
7、guration and security Multi-user development environment Component-based plant application model Self documenting Advanced system maintenance and diagnostics,Wonderware Application Server,+ Scan-based system.,10 min,LAB 1Creating a Galaxy,Alarms and events,Documentation,Inputs/Outputs,Logic/Scriptin
8、g,Historical Information,Security,Automation Objects,Graphic symbols,$Valve,CV101,CV102,CV103,Automation Objects,ArchestrA Topology,ArchestrA Topology,Bootstrap,Platform,Galaxy Rep.,Bootstrap,Platform,Bootstrap,Platform,Historian,Bootstrap,Platform,Info Server,Bootstrap,Platform,InTouch,Bootstrap,Pl
9、atform,InTouch,Bootstrap,Platform,IDE,Bootstrap,Platform,IDE,Bootstrap,Platform,IO Server,Bootstrap,Platform,Galaxy Rep.,Historian,Info Server,InTouch,InTouch,IDE,IDE,IO Server,ArchestrA Topology,Bootstrap,Platform,Bootstrap,Platform,Bootstrap,Platform,Bootstrap,Platform,Bootstrap,Platform,Bootstrap
10、,Platform,Bootstrap,Platform,Bootstrap,Platform,Bootstrap,Platform,Unified Name Space,Bootstrap,Platform,System Requirements Software,* SP3 for SQL Server 2005 is not supported,System Requirements Hardware,Galaxy Repository,ArchestrA IDE and AutomationObject Server,All Systems,This refers to the tot
11、al application model that resides in the Galaxy Repository.,Number of I/O points being access into the Galaxy.,Number of PCs in the Galaxy that will be part of the single namespace.,Integrated Development Environment for configuring the Galaxy,Concepts and Terminology,Suggested Project Workflow,Iden
12、tify Field Devices and Functional Requirements,Defined Naming Conventions,Defined the Plant Model,Plan Templates,Defined the Security Model,Defined the Deployment Model,10 min,LAB 2Identifying the Mixer,Mixer System,LAB 2Identifying the Mixer (Cont.),10 min,Heat Exchanger,Module 2: Application Infra
13、structure,Contents Section 1:The Plant Model Lab 3 Creating the Plant Model Section 2:The Deployment Model Lab 4 Creating the Deployment Model Section 3:The Runtime Environment Lab 5 Using Object Viewer Section 4:Connecting to the Field Lab 6 Connecting to the Field,System Platform,Plant,The Plant M
14、odel,Section,Area,Production Line,Manufacturing Cell,Area,Production Line,Manufacturing Cell,Section,Plant,The Plant Model,Section,Area,Production Line,Manufacturing Cell,Area,Production Line,Manufacturing Cell,Section,Plant,Production,LAB 3Creating the Plant Model,Line1,Line2,10 min,ControlSystem,B
15、ootstrap,The Deployment Model,Platform,AppEngine,Area,Area,Bootstrap,The Deployment Model,Platform,15 min,LAB 4Creating the Deployment Model,15 min,LAB 5Using Object Viewer,Connecting to the Field,Legacy InTouch Node,Field Device,Device Driver,Communication Protocols,Client,Server,DDE,OPC,SuiteLink,
16、Galaxy,LAB 6Connecting to the Field,15 min,Field Device,Device Driver,Module 3: Application Objects,Contents Section 1:Templates and Instances Section 2:The $UserDefined Object Lab 7 Modeling the Heat Exchanger Section 3:Change Control and Propagation Lab 8 Configuring Change Control and Propagation
17、 Section 4:The $AnalogDevice Object Lab 9 Modeling a Meter Section 5:The $DiscreteDevice Object Lab 10 Modeling a Valve, Pump and Motor Section 6 Containment Lab 11 Creating the Mixer,System Platform,Templates,Base Template,Core objects created with the ArchestrA Object Toolkit,Contain the base attr
18、ibutes and functionality of the object,Read-Only configuration,Templates created from another template within the ArchestrA IDE,Inherits the attributes, functionality and configuration from the parent template,Writeable configuration,Derived Template,$UserDefined Object,AnalogFA,PV.Input.InputSource
19、,PV.Input.Value,Scaling,RawMin,RawMax,EngUnitMin,EngUnitMax,DiscreteFA,PV.Input.InputSource,PV.Input.Value,Invert,Analog,Boolean,Template,LAB 7Modeling the Heat Exchanger,20 min,Control of Changes and Propagation,Locking Attributes,Locking an attribute prevents changes of that attribute on derived o
20、bjects (templates and instances). Locking attributes helps to establish standards in the galaxy. Locking an attribute locks that attribute all the way down on the derivation hierarchy. Unlocking an attribute releases the “locking control” only one level down.,Control of Changes and Propagation,LAB 8
21、Configuring Change Control and Propagation,10 min,$AnalogDevice Object,PV,PV.Input.InputSource,PV.Input.Value,Scaling,RawMin,RawMax,EngUnitMin,EngUnitMax,Analog,LAB 9Modeling a Meter,10 min,$DiscreteDevice Object,PV,CLS.InputSource,CLS.Value,Map,OLS.InputSource,OLS.Value,States,Map,Cmd,CmdOpen.Outpu
22、tDest,CmdOpen.Value,Boolean,Boolean,LAB 10Modeling a Valve, Pump and Motor,20 min,Containment,Containment,Allows more advanced structures to be modeled as a single object. Container and contained objects are still accessible as individual objects. Relationship can be build at the template or instanc
23、e level.,Inlet Valve,$InletValve,Level Meter,$LevelMeter,Outlet Valve,$OutletValve,Agitator,$Agitator,$Tank,LAB 11Creating the Mixer,30 min,Module 4: Extending the Objects,Contents Section 1:UDAs Section 2:Extensions Lab 12 Configuring the Motor Speed Section 3:Introduction to QuickScripts .NET Lab
24、13 Adding Auto Reconnect to DDESuiteLinkClient Lab 14 Configuring Automatic Reference,System Platform,UDA Categories,Calculated Calculated Retentive,Object Writeable,User Writeable,Same Object,Other Objects,External Users,LAB 12Configuring the Motor Speed,10 min,Relative References,LAB 13Adding Auto
25、 Reconnect to DDESuiteLinkClient,15 min,LAB 14 Configuring Automatic Reference,15 min,Module 5: Alarms and History,Contents Section 1:Alarms Lab 15 Configuring Alarms Section 2:Historization Lab 16 Configuring History,System Platform,Alarms,Alarm Engine,Alarms are generate by the objects. Alarm prov
26、iders make the alarms available to external alarm subscribers. Available alarm subscribers allows: Visualization and acknowledge of alarms Logged alarms into a SQL Server database,Alarms,Alarm Engine,Alarms are generate by the objects. Alarm providers make the alarms available to external alarm subs
27、cribers. Available alarm subscribers allows: Visualization and acknowledge of alarms Logged alarms into a SQL Server database Print alarms,Alarms,WinPlatform,AppEngine,Area,Alarm Viewer,Alarm DB Logger,PROV,Alarm Provider,$WinPlatform object as the InTouch Alarm Provider for the galaxy. A single $Wi
28、nPlatform can provide alarms from the whole galaxy. Alarm providers can be limited to provide alarms for specific areas of the galaxy.,Alarms,WinPlatform,AppEngine,Area,Alarm Viewer,Alarm DB Logger,Alarm Printer,PROV,Alarm Provider,$WinPlatform object as the InTouch Alarm Provider for the galaxy. A
29、single $WinPlatform can provide alarms from the whole galaxy. Alarm providers can be limited to provide alarms for specific areas of the galaxy.,LAB 15Configuring Alarms,30 min,WinPlatform,AppEngine,Historization,Area,CLIENT,History Engine,$AppEngine object as the Historian client for the objects. A
30、n $AppEngine historize only the objects that it host. Native support for Store & Forward.,Historian,LAB 16Configuring History,20 min,Module 6: Security,Contents Section 1:Security Overview Lab 17 Configuring Security,System Platform,Development Security,Runtime Security,Security,Develoment Testing T
31、roubleshooting Environment,Users,Security Groups,BELONGS TO ONE OR MORE,OPERATIONAL PERMISSIONS,ASSIGNED TO ATTRIBUTES,Roles,Security Classifications,Development Security,Runtime Security,Security,Develoment Testing Troubleshooting Environment,Security Groups,BELONGS TO ONE OR MORE,OPERATIONAL PERMI
32、SSIONS,ASSIGNED TO ATTRIBUTES,Roles,Security Classifications,Users,LAB 17Configuring Security,40 min,Module 7: Galaxy Maintenance,Contents Section 1:Exporting and Importing Objects Section 2:Configuring Instances Through a CSV File Section 3:System Management Console (SMC) Section 4:Network Account
33、Utility,System Platform,Module 8: Device Integration Products,Contents Section 1:Wonderware I/O Servers Section 2:Wonderware Data Access Servers Section 3:Device Integration Objects,System Platform,DAS Engine,Device Integration Products,IO Server,DDE,SuiteLink,PLC Protocol,IO Servers and DA Servers,
34、Communications between the Galaxy and field devices is achieved through Device Integration Products. Supported protocols include DDE, SuiteLink and OPC. New internal architecture for DA Servers provides independency between components.,DDE,SuiteLink,OPC,PLC Protocol,DA Server,DAS Engine,Device Integ
35、ration Products,IO Server,DDE,SuiteLink,PLC Protocol,DDE,SuiteLink,OPC,PLC Protocol,IO Servers and DA Servers,Communications between the Galaxy and field devices is achieved through Device Integration Products. Supported protocols include DDE, SuiteLink and OPC. New internal architecture for DA Serv
36、ers provides independency between components.,DDE,SuiteLink,OPC,PLC Protocol,DA Servers and DI Objects,PLC5_A,SLC_A,PLC_1,CNET,DHP,NIC,PLC_2,SLC_B,PLC5_B,Module 9: Multi-Node Applications,Contents Section 1:Application Redundancy Lab 18 Configuring Application Redundancy Section 2:DI Redundancy Lab
37、19 Configuring the Redundant DI Object Section 3:Multi-Node Application Lab 20 Convert to Network Environment,System Platform,Application Redundancy,ArchestrA Runtime,ArchestrA Runtime,Non-Redundant System,The server handles all the data. If server if lost, client lose connection to all data: InTouc
38、h Historian Other Application Object Servers,Application Redundancy,Platform1,Characteristics,Currently supported only in pairs Second network connection (RMC) necessary Configuration Terminology: Primary AppEngine Backup AppEngine Runtime Terminology Active AppEngine Standby AppEngine Active AppEng
39、ine refer to Standby AppEngine as Partner.,RMC,ArchestrA,Platform2,AppEngine1 (Backup),Primary,Backup,AppEngine1,Active,Standby,Standby,Active,Redundant Message Channel,Automatic Synchronization,Current data (Checkpoint) Alarm states and times History store and forward blocks Deployed objects and co
40、nfiguration AppEngine status,RMC,ArchestrA,Active,Standby,Supported Configuration,Platform1,Characteristics,Peer to peer architecture Each WinPlatform host a different AppEngine and Application Objects No need for dedicated backup nodes WinPlatforms can host more than one AppEngine: Backup for AppEn
41、gine1 is assigned to Node 2 Backup for AppEngine2 is assigned to Node 1,RMC,ArchestrA,Platform2,AppEngine1 (Backup),AppEngine2 (Backup),AppEngine2,AppEngine1,Redundancy Configuration,LAB 18Configuring Application Redundancy,30 min,DI Redundancy,ArchestrA Runtime,Field Device Connectivity,Loss of the
42、 control network would cause the server to lose connection to data. The Redundant DI Object allows communications through a Standby network if the Active is lost. The Redundant DI Object allows Applications Objects to subscribe to a single object that in turn can retrieve data from either a Primary
43、or Backup DI object.,DI Redundancy,DIO_2,DIO_1,Application Objects,Platform1,Control Networks,AppEngine1,DAServer (A),DAServer (B),LAB 19Configuring the Redundant DI Object,15 min,LAB 20Convert to Network Environment,60+ min,Platform,AppEngine,Platform,AppEngine,Platform,AppEngine,Platform,AppEngine
44、,ArchestrA IDE,ArchestrA IDE,ArchestrA IDE,ArchestrA IDE,Galaxy Master,Remote Node,Remote Node,Remote Node,LAB 20Convert to Network Environment,60+ min,Platform,AE,Platform,AE,Platform,AE,ArchestrA IDE,ArchestrA IDE,ArchestrA IDE,ArchestrA IDE,Galaxy Master,Remote Node,Remote Node,Remote Node,Platform,AE,AEDI,Powering intelligent plant decisions in real time.,