Table 66 – HasPnApplicationRelation Definition
|
Attribute |
Value |
|
BrowseName |
HasPnApplicationRelation |
|
InverseName |
IsPnApplicationRelationOf |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the HasComponent from [OPC 10000-5]. |
|
The HasPnApplicationRelation reference is used to append nodes to the PnApplicationRelationContainerType node.
This reference should always be bidirectional.
The destination of the reference shall be an object of the ObjectType PnApplicationRelationType.
Table 67 – HasPnRealModule Definition
|
Attribute |
Value |
|
BrowseName |
HasPnRealModule |
|
InverseName |
IsPnRealModuleOf |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the HasComponent from [OPC 10000-5]. |
|
The HasPnRealModule reference type is used to append nodes to the PnRealModuleContainerType node.
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnRealModuleType interface.
Table 68 – HasPnRealSubmodule Definition
|
Attribute |
Value |
|
BrowseName |
HasPnRealSubmodule |
|
InverseName |
IsPnRealSubmoduleOf |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the HasComponent from [OPC 10000-5]. |
|
The HasPnRealSubmodule reference type is used to append nodes to the PnRealSubmoduleContainerType node.
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnRealSubmoduleType interface.
Table 69 – HasPnExpectedModule Definition
|
Attribute |
Value |
|
BrowseName |
HasPnExpectedModule |
|
InverseName |
IsPnExpectedModuleOf |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the HasComponent from [OPC 10000-5]. |
|
The HasPnExpectedModule reference type is used to append nodes to the PnExpectedModuleContainerType node.
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnExpectedModuleType interface.
Table 70 – HasPnExpectedSubmodule Definition
|
Attribute |
Value |
|
BrowseName |
HasPnExpectedSubmodule |
|
InverseName |
IsPnExpectedSubmoduleOf |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the HasComponent from [OPC 10000-5]. |
|
The HasPnExpectedSubmodule reference type is used to append nodes to the PnExpectedSubmoduleContainerType node.
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnExpectedSubmoduleType interface.
Table 71 – HasPnAsset Definition
|
Attribute |
Value |
|
BrowseName |
HasPnAsset |
|
InverseName |
IsPnAssetOf |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the HasComponent from [OPC 10000-5]. |
|
The HasPnAsset reference type is used to append nodes to the PnAssetContainerType node.
This reference should always be bidirectional.
The destination of the reference shall be an object of the ObjectType PnAssetType.
Table 72 – HasPnInterface Definition
|
Attribute |
Value |
|
BrowseName |
HasPnInterface |
|
InverseName |
IsPnInterfaceOf |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the HasComponent from [OPC 10000-5]. |
|
The HasPnInterface reference type is used to append nodes to the PnInterfaceContainerType node.
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnInterfaceType interface.
Table 73 – HasPnPort Definition
|
Attribute |
Value |
|
BrowseName |
HasPnPort |
|
InverseName |
IsPnPortOf |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the HasComponent from [OPC 10000-5]. |
|
The HasPnPort reference type is used to append nodes to the PnPortContainerType node.
This reference should always be bidirectional.
The destination of the reference shall be an object of the ObjectType PnPortType.
Table 74 – IsPnRealModule Definition
|
Attribute |
Value |
|
BrowseName |
IsPnRealModule |
|
InverseName |
IsPnExpectedModule |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the NonHierarchicalReferences from [OPC 10000-5]. |
|
The IsPnRealModule reference type is used to link ExpectedModule objects to their RealModule counterparts (See Figure 17 – Object Structure).
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnRealModuleType interface.
The source of the reference shall be an object implementing the IPnExpectedModuleType interface.
Table 75 – IsPnRealSubmodule Definition
|
Attribute |
Value |
|
BrowseName |
IsPnRealSubmodule |
|
InverseName |
IsPnExpectedSubmodule |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the NonHierarchicalReferences from [OPC 10000-5]. |
|
The IsPnRealSubmodule reference type is used to link ExpectedSubmodule objects to their RealSubmodule counterparts (See Figure 17 – Object Structure).
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnRealSubmoduleType interface.
The source of the reference shall be an object implementing the IPnExpectedSubmoduleType interface.
Table 76 – IsPnApplicationRelationDeviceInterface Definition
|
Attribute |
Value |
|
BrowseName |
IsPnApplicationRelationDeviceInterface |
|
InverseName |
UsedByPnApplicationRelation |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the NonHierarchicalReferences from [OPC 10000-5]. |
|
The IsPnApplicationRelationDeviceInterface is used to link PnApplicationRelationType objects to the PN Interface object of the Device object (objects implementing IDeviceType) the application relation connects to (See Figure 17 – Object Structure).
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnInterfaceType interface.
The source of the reference shall be an object of the ObjectType PnApplicationRelationType and shall not use the reference type more than once.
Table 77 – IsPnApplicationRelationControllerInterface Definition
|
Attribute |
Value |
|
BrowseName |
IsPnApplicationRelationControllerInterface |
|
InverseName |
UsedByPnApplicationRelation |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the NonHierarchicalReferences from [OPC 10000-5]. |
|
The IsPnApplicationRelationControllerInterface is used to link PnApplicationRelationType objects to the PN Interface object of the controller object (objects implementing IControllerType) the application relation belongs to (See Figure 17 – Object Structure).
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnInterfaceType interface.
The source of the reference shall be an object of the ObjectType PnApplicationRelationType and shall not use the reference more than once.
Table 78 – IsPnInterface Definition
|
Attribute |
Value |
|
BrowseName |
IsPnInterface |
|
InverseName |
RealizedByPnSubmodule |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the NonHierarchicalReferences from [OPC 10000-5]. |
|
The IsPnInterface reference type is used to link RealSubmodule objects to PN Interface objects (See Figure 18 – Network Topology).
This reference should always be bidirectional.
The destination of the reference shall be an object implementing the IPnInterfaceType interface.
The source of the reference shall be an object implementing the IPnRealSubmoduleType interface.
Table 79 – IsPnPort Definition
|
Attribute |
Value |
|
BrowseName |
IsPnPort |
|
InverseName |
RealizedByPnSubmodule |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the NonHierarchicalReferences from [OPC 10000-5]. |
|
The IsPnPort reference type is used to link RealSubmodule objects to PN Port objects (Figure 18 – Network Topology).
This reference should always be bidirectional.
The destination of the reference shall be an object of the ObjectType PnPortType.
The source of the reference shall be an object implementing the IPnRealSubmoduleType interface.
Table 80 – CommLinkTo Definition
|
Attribute |
Value |
|
BrowseName |
CommLinkTo |
|
InverseName |
CommLinkFrom |
|
Symmetric |
False |
|
IsAbstract |
False |
|
Subtype of the Organizes from [OPC 10000-5]. |
|
The CommLinkTo reference type is used between object instances representing network entities like Ethernet interfaces and Ethernet ports to describe their communication as well as their topology dependencies. (See Figure 18 – Network Topology).
This reference should always be bidirectional.