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• OPC-10000-4 – OPC Unified Architecture - Part 4: Services
  5.12.1 Overview
  Method Service Set defines the means to invoke Methods . A Method shall be a component of an Object . Discovery is provided through the Browse and Query Services . Clients discover
• OPC-10000-8 – OPC Unified Architecture - Part 8: Data Access
  B.2 Representation
  annotatable > ::= < simple-unit >< exponent > | < simple-unit > < component > ::= < annotatable >< annotation > | < annotatable > | < annotation > | < factor ... term >")" < term > ::= < term >"."< component > | < term >"/"< component > | < component > < main-term
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  1 Scope
  networking requirements for UAFX. This release includes definitions for functional networking requirements, including Bridge Component , End Station Component , IA-station , and UAFX Station , and network services, including remote management, topology
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  5.6.4.1 General
  release, vendor-specific means are required for all networking-related End Station and Bridge Component configurations, including VLAN configuration, time synchronisation, and QoS. The engineering workflow described in this clause ... Descriptors to be shared in both directions. The default networking configuration of End Station Component s defined in the application and QoS engineering phase (see 5.6.4.2 ) of the workflow allows
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  6.1 General
  General This clause defines a component model to structure the selection of functional networking features. This component model consists of Bridge Component (see 6.2 ), End Station Component
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  6.2.1 Overview
  Overview A Bridge Component interconnects two or more network segments and forwards packets between them. This document supports the Bridge Component features listed in 6.2.2 , including link speeds
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  6.2.2 Bridge Component feature selection
  Bridge Component feature selection A Bridge Component may support the following features: C-VLAN component requirements as defined in IEEE Std 802.1Q‑2022 , 5.5. NOTE This document does
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  6.3.1 Overview
  Overview An End Station Component is the source or destination of network traffic
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  6.3.2 End Station Component feature selection
  Station Component feature selection An End Station Component may support the following features: Transmission and reception of C-VLAN tagged frames. NOTE A future release of this document will define ... additional End Station Component requirements
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  6.4.1 Overview
  Overview IA-stations can be a simple End Station Component (see 6.3 ) acting as the source or destination for industrial data traffic. IA-stations may also include a Bridge Component ... shows three examples of an IA-station . IA-station 1 comprises one End Station Component hosting two IA-station functions. IA-station 2 comprises one End Station Component hosting
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  6.4.2 IA-station requirements
  station requirements An IA-station shall: comprise at least one conformant End Station Component as defined in 6.3 , support topology discovery as defined in clause 7.3 . An IA-station
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  6.5.2 UAFX Station requirements
  Station contains one or more Bridge Components , at least one instance of the RemoteSystemsData Component of the LldpInformationType
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  7.2.2 NETCONF
  shows a UAFX Station comprised of two End Station Components and one Bridge Component , all controlled by a single management entity. Figure 16 - Example of a UAFX Station supporting NETCONF
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  7.3.2.1 Overview
  support the LLDP local system YANG (see 7.3.2.2.5 ). UAFX Stations that include a Bridge Component also receive and store LLDP announcement information received from their peers in the LLDP remote ... agents and their management in a UAFX Station consisting of a single End Station Component , an IA-station , and a UAFX Station with an End Station Component and a Bridge
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  7.3.2.2.2 Operational control parameters
  UAFX Station shall support LLDP transmit mode (adminStatus enabledTxOnly) on an external End Station Component port and may support transmit and receive mode (adminStatus enabledRxTx) on that port (see IEEE ... Station shall support LLDP transmit and receive mode (adminStatus enabledRxTx) on an external Bridge Component port (see IEEE
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  7.3.2.2.4.4 System Capabilities TLV
  transmitted LLDPDUs. A UAFX Station with at least one End Station Component and at least one Bridge Component shall set the system and enabled capabilities fields to Station Only ... VLAN component (i.e., bit 9 set to "1") for all transmitted LLDPDUs. NOTE The combination of the Station Only and C-VLAN component flags is used
• OPC-10000-82 – OPC Unified Architecture - Part 82: UAFX Networking
  7.4.2.1 Overview
  gPTP domains it participates in and its composition, e.g., the presence of a Bridge Component . A UAFX Station can host more than one PTP Instance , e.g., UAFX Stations
• OPC-10000-84 – OPC Unified Architecture - Part 84: UAFX Profiles
  5.2.3 UAFX AutomationComponent
  CloseCalCount Variable of the AutomationComponent Diagnostics FunctionalGroup . Server UAFX AutomationComponent Log Supports the AutomationComponentLog Component of the AutomationComponentType
• OPC-10000-84 – OPC Unified Architecture - Part 84: UAFX Profiles
  5.2.6 UAFX ConnectionManager
  EstablishCallFailedCount Variable of the ConnectionManagerType Diagnostics FunctionalGroup . Server UAFX ConnectionManager Log Supports the ConnectionManagerLog Component of the ConnectionManagerType . Server UAFX ConnectionManager EditConnectionConfigurationSets Supports the EditConnectionConfigurationSets Method. This includes support
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  5.2.2 Condition monitoring and maintenance
  Condition monitoring and maintenance Description The condition of a Device or a Component of a device is useful for understanding its health status and performance, as well as possible maintenance ... these reasons, the following information is envisioned to be represented for a Device or Component : Indicators of health status, Indicators of operating time and number of actions performed since installation
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  7.1.2.1 Overview
  Operate 0:ToState True Shutdown 0:HasCause True GotoShutdown 0:HasEffect True TransitionEventType The Component Variables of the LADSDeviceStateMachineType have additional Attributes , as defined in Table 19 . Table 19 - LADSDeviceStateMachineType
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  7.1.3 LADSComponentType ObjectType Definition
  LADSComponentType ObjectType Definition Devices may be composed of tangible subcomponents. A Component is represented by the LADSComponentType . A Component itself may also have subcomponents. The LADSComponentType is formally defined ... Specification. Identification provides the properties to identify a device. Recommendations for Identification: • If the Component consists solely of software with no hardware, the SoftwareRevision should be provided and the HardwareRevision
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  7.1.5.1 Overview
  ToState True Stopped 0:HasEffect True TransitionEventType Running 0:HasSubStateMachine True RunningStateMachine The Component Variables of the FunctionalStateMachineType have additional Attributes , as defined in Table 28 . Table 28 - FunctionalStateMachineType Attribute
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  7.1.6.1 Overview
  Unholding 0:ToState True Holding 0:HasCause True Hold 0:HasEffect True TransitionEventType The Component Variables of the RunningStateMachineType have additional Attributes , as defined in Table 34 . Table 34 - RunningStateMachineType
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  7.1.10.1 Overview
  used to implement instances of maintenance tasks applicable at both the Device and Component levels. Maintenance tasks include activities such as periodic maintenance, cleaning, calibration, and validation. Maintenance tasks
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  7.3.10 MaintenanceSetType Definition
  Definition The MaintenanceSetType is a set containing all maintenance tasks for a Device or Component according to the recommendations in OPC UA 10000-110. It is formally defined in Table
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  7.7.2.1 Overview
  ToState True Opened UnlockingToClosed 0:FromState True Unlocking 0:ToState True Closed The Component Variables of the CoverStateMachineType have additional Attributes , as defined in Table 121 . Table 121 - CoverStateMachineType Attribute
• OPC-30500-1 – OPC UA for Laboratory & Analytical Device Standard (LADS) - Part 1: Basics
  10.1 Namespace metadata
  information is provided as an Object of type NamespaceMetadataType . This Object is a Component of the Namespaces Object that is part of the Server Object . The NamespaceMetadataType ObjectType
• OPC-40001-1 – OPC UA for Machinery - Part 1: Basic Building Blocks
  11.2 MachineComponentsType ObjectType Definition
  Node. 0:HasProperty Variable 0:DefaultInstanceBrowseName 0:QualifiedName 0:PropertyType - 0:HasComponent Object <Component> 0:BaseObjectType OP Conformance Units Machinery Find Components of Machines The < Component ... BaseObjectType . As all identifiable components shall contain the Identification Object , <Component> references to that AddIn as defined in Table 27 . As a Machine can contain other Machines
• OPC-40082-4 – OPC UA interfaces for plastics and rubber machinery - Peripheral devices - Part 4: Dosing Systems
  10.1 ComponentsType definition
  ComponentsType definitionThis ObjectType is a container for all Component s in the DosingSystem . It is formally defined in Table 18 . Table 18 - ComponentsType Definition Attribute Value BrowseName ComponentsType IsAbstract ... HasProperty Variable 0:NodeVersion 0:String 0:PropertyType M, RO 0:HasComponent Object <Component_Nr> ComponentType MP 0:GeneratesEvent ObjectType 0:GeneralModelChangeEventType Defined in OPC 10000-5 Conformance
• OPC-40082-4 – OPC UA interfaces for plastics and rubber machinery - Peripheral devices - Part 4: Dosing Systems
  11.6 FeedrateScalingFactor
  FeedrateScalingFactor Material-specific output of the Component per DrivePercentage . Example: A dosing screw with a maximum rotational speed of 300 rpm, the material output flow is 900 grams per second
• OPC-40082-4 – OPC UA interfaces for plastics and rubber machinery - Peripheral devices - Part 4: Dosing Systems
  12.4 StartFilling
  StartFilling Method to fill the Component up to the MaxValue of the MonitoredParameterType in the Level Variable. No Arguments. Signature: StartFilling(); Table 32 - StartFilling Method AddressSpace Definition Attribute Value BrowseName
• OPC-40082-4 – OPC UA interfaces for plastics and rubber machinery - Peripheral devices - Part 4: Dosing Systems
  12.5 AbortFilling
  AbortFilling Method to abort filling the Component . No Arguments. Signature: AbortFilling(); Table 33 - AbortFilling Method AddressSpace Definition Attribute Value BrowseName AbortFilling References Node Class BrowseName DataType TypeDefinition Modelling Rule
• OPC-40082-4 – OPC UA interfaces for plastics and rubber machinery - Peripheral devices - Part 4: Dosing Systems
  13.2 MaterialClass
  regrind composition is unknown (REGRIND_OPEN_LOOP), the regrind is treated as an additional component. Table 36: Calculation Example based on Regrind MaterialClass Component MaterialClass Recipe MaterialClass of Regrind REGRIND
• OPC-40082-4 – OPC UA interfaces for plastics and rubber machinery - Peripheral devices - Part 4: Dosing Systems
  17 Alarmmanagement
  this specification, such as temperature limit alarms or diagnostic events. In the case of Component related messages, the SourceNode (included in BaseEventType ) shall contain the NodeId of the related component
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  3.2.1 Airnet
  outputs of the Airnet , in a Compressed Air System . Note 1 to entry: A Component can be connected to multiple Airnets . Note 2 to entry: Airnets may touch or overlap
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  3.2.5 ComponentClass
  ComponentClass Specific type of a Component and value of the ComponentClass Variable of an instance of the FunctionalGroup Design of a Component . EXAMPLE 1 The compressor
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  3.2.10 Integrated [Component]
  Integrated [Component] A Component is Integrated if the Main Control System has control over the generation or treatment of compressed air. Note 1 to entry: A compressor is Integrated ... loaded state. Note 2 to entry: The Main Control System can switch a Component between the two states Integrated and Isolated
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  3.2.11 Isolated [Component]
  Isolated [Component] A Component is Isolated if the Main Control System has no control over the generation or treatment of compressed air. Note 1 to entry: A Component is Isolated ... loaded state. Note 2 to entry: The Main Control System can switch a Component between the two states Integrated and Isolated
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  3.2.13 Main Function [of a Component]
  Main Function [of a Component] The actual main function of Components is not specified in this specification. The following examples of Main Functions do not imply the actual function ... referenced Component . EXAMPLE 1 Charging system: to keep pressure upstream above a set minimum pressure or within a set pressure range EXAMPLE 2 Compressor: to deliver compressed air into
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  3.2.14 Quantity
  entry: A calculation performed on the Main Control System which is used by a Component shall be assigned to that Component . EXAMPLE 1 A temperature Quantity is measured
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  5.3 Maintenance Management
  generalized Compressed Air System health status, based on the NAMUR NE107 categories. Each Component should have a specific set of alarms and conditions assigned
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  6.4 Identification
  MachineryItemIdentificationType and its subtypes provide the capabilities to globally uniquely identify the Component and have access to vendor defined information about the Component and manage user-specific information ... identification of the Component . When instantiating a Component , the Identification Object must use an appropriate subtype of the MachineryItemIdentificationType. For all Components and the Main Control System the DeviceClass Property
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  6.5 Extending FunctionalGroups
  additional Variables , Objects , or Methods shall be added to an appropriate FunctionalGroup of the Component . It is important, that the Variables , Objects , or Methods which are added match the description
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  6.6 Alarms and Conditions
  have a HasNotifier reference for each CASPart which instantiates alarms or conditions. Every instantiated Component shall have at least one appropriate GeneratesEvent reference targeting the NAMUR NE 107 alarms defined
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  6.7 Adding new Components
  Adding new Components All Component ObjectTypes in this specification (clauses 7.8 - 7.19 ) may be used for subtyping when defining more specific Components . If future companion specifications, a manufacturer, or system ... more specific ObjectType for one of the existing Components , the ObjectType of that Component shall be used as supertype. If future companion specifications, a manufacturer, or system integrator wants
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.3 ComponentsGroupType ObjectType Definition
  nesting this ObjectType to further categorize the referenced Components . It also allows adding concrete Component groups not defined by this specification. The InstanceDeclarations of the ComponentsGroupType have additional Attributes defined
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.4 AirnetType ObjectType Definition
  shall be referenced by using the Organizes ReferenceType. The concrete instance of a Component shall be instantiated in the Components Folder of the CASType instance. Figure 20 shows an example ... Ambient AbsolutePressure Measured or calculated actual absolute pressure of the environment in which the component, piping or system is working. Ambient DewPoint Measured or calculated actual dew point
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.5 AirnetComponentsType ObjectType Definition
  Object Valves 0:FolderType O The OptionalPlaceholder Object <ComponentsGroup> allows adding concrete Component groups not defined by this specification. The InstanceDeclarations of the AirnetComponentsType have additional Attributes defined
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.7 CASComponentType ObjectType Definition
  CASComponentType ObjectType DefinitionThe CASComponentType is the representation of a Component and provides both Objects for Quantities and FunctionalGroups . It is illustrated in Figure 22 and formally defined in Table ... MachineryItemIdentificationType M The optional Property ActiveAirnet indicates which Airnet is currently using this Component . The Property shall only be instantiated if the Component is connected to more than one Airnet
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.8 ChargingSystemType ObjectType Definition
  charging system is a pressure maintenance system that maintains a minimum pressure in a Component . It is formally defined in Table 26 . Table 26 - ChargingSystemType Definition Attribute Value BrowseName ChargingSystemType ... MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.10 ConverterType ObjectType Definition
  MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.11 CoolingSystemType ObjectType Definition
  supertype for concrete cooling system ObjectTypes . A cooling system removes heat from a Component or the air flow in a Compressed Air System. It is formally defined in Table ... MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.12 DrainType ObjectType Definition
  MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.13 DryerType ObjectType Definition
  MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.14 FilterType ObjectType Definition
  MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.15 HeatRecoverySystemType ObjectType Definition
  MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.16 ReceiverType ObjectType Definition
  MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.17 SensorType ObjectType Definition
  sensor is a device that detects a condition in a system or component and produces an output signal. It is illustrated in Figure 29 and formally defined in Table ... MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.18 SeparatorType ObjectType Definition
  MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.19 ValveType ObjectType Definition
  MachineryItemIdentificationType, either MachineIdentificationType or MachineryComponentIdentificationType, depending on the concrete usage of this Component . The ModellingRule of the Property DeviceClass remains as mandatory and its Value Attribute shall match the value
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  7.45 OperationalType ObjectType Definition
  used for Airnets and Components and describes whether the Main Function of a Component or the Requirements of an Airnet can be fulfilled. The states may be influenced ... more specific definition of this Variable . The optional Variable OnOff describes whether a Component is switched on or switched off. Some subtypes of this OperationalType define more specific states
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  B.2 Adding or Removing a Component to/from an Airnet
  Adding or Removing a Component to/from an Airnet During the life of a Compressed Air System the manufacturer, integrator, or operator may wish to add or remove Components ... from one of the Airnets . This also includes moving a Component permanently from one Airnet to another. The OPC UA provided Services AddReferences and DeleteReferences can add or remove References
• OPC-40250-1 – OPC UA for Compressed Air Systems - Part 1: Main Control Systems
  B.3 Temporarily Switch a Component from one Airnet to Another
  Temporarily Switch a Component from one Airnet to Another Some Main Control Systems allow for Components to switch from one Airnet to another by operating a valve or a similar ... ActiveAirnet Property changes its Value Attribute to indicate which Airnet is currently using the Component
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  3.2 OPC UA for Powertrain terms
  Component Constituent part of a device which cannot be physically divided into smaller parts without losing its particular function. IEC 60050-151 [151-11-21] Contactor Element intended to carry ... uses a direct current voltage level as a reference. DC bus module Separately orderable component and serves as an interface between rectifier and DC/AC converter in electric drives. DC/DC converter
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  3.4.1.1 Node definitions
  name, the BrowseName of the TargetNode and its NodeClass . If the TargetNode is a component of the Node being defined in the table the Attributes of the composed Node ... points with a HasTypeDefinition Reference to the corresponding Node . The ModellingRule of the referenced component is provided by specifying the symbolic name of the rule in the ModellingRule column
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  6.1 Powertrain
  this document focuses on the elements of a drive system. This includes drive component related products (e.g., brake resistor, DC bus module , safety module , input/ output filter ), drive related products ... contactor , motor starter , drive types) and motor/motor component related products (e.g., motor, gearmotor, encoder, sensors). Out of scope are mains and components of the load side. Figure 9 - Scope
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  6.2 Information Model Structure
  devices by combining them. The level of granularity was chosen to be on basic component level like motor, encoder and brake. These entities are called assets ( PtAssetType ) and have ... PtMotorRoteryAttributesType . A complex asset like PtAssetServoDriveType has to be decomposed into the predefined component asset attributes like PtInputConverterAttributesType and PtOutputConverterAttributesType . Figure 10 shows the powertrain information model basic structure. Subtypes
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  6.3 PtAssetType and Identification
  compatibility to OPC 10000-81 it implements the IAssetRevision interface. The PtAssetType is a component in the sense of the OPC 40001-1 specification and therefore also be compliant
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  7.1.2 Object Description
  Drive". If a manufacturer creates its own subtype of PtAssetType to represent a component for which none of the defined subtypes of PtAssetType can be used, the new subtype
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  7.4.2.1 Overview
  control of the energy flow through the bleed resistor is outside the bleed resistor component (asset). The PtAssetBleedType is a subtype of the PtAssetType and therefore has mandatory identification attributes
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  7.4.6.1 Overview
  Overview The PtAssetOutputConverterType describes an output converter (also known as inverter/drive ) as component in a powertrain and is formally defined in Table 42 . The output converter transforms energy from
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  7.4.16.1 Overview
  Overview The PtAssetCoolingType describes a device or component which is used as part of the power drive system (PDS) cooling system and is formally defined in Table 52 . The PtAssetCoolingType
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  7.8.8.1 Overview
  Overview The PtGearAttributesType provides information about the gear component of a powertrain and is formally defined in Table 76 . Table 76 - PtGearAttributesType Definition Attribute Value BrowseName PtGearAttributesType IsAbstract False References
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  7.9.3.2 Object Description
  Object Description Capacitance is the ability of a component or circuit to collect and store energy in the form of an electrical charge. The unit shall be farads
• OPC-40400-1 – OPC UA for the Powertrain - Part 1: Asset Management
  10.1 Namespace Metadata
  details. The information is provided as Object of type NamespaceMetadataType . This Object is a component of the Namespaces Object that is part of the Server Object . The NamespaceMetadataType ObjectType
• OPC-40501-1 – OPC UA for Machine Tools - Part 1: Machine Monitoring and Job Management
  14.1 ConformanceUnits
  Server MachineTool Production Basic [DEPRECATED] The ProductionActiveProgramType is available in the AddressSpace as a Component of the Production Node in the MachineToolType . This node has to include all mandatory components ... AddressSpace using the respective subtypes of the WorkingUnitMonitoringType . Server MachineTool Equipment ToolIdentification The Tools component of the EquipmentType is available in the AddressSpace and contains a list of all physically
• OPC-40503-1 – OPC UA for Metal Forming - Part 1: General
  11.1 Conformance Units
  CyclicProcessValueType . Server MetalForming CyclicProcessValueVariableType The CyclicProcessValueVariableType is represented in the AddressSpace. The Component CyclicProcessValueVariableType has to be present for every tool. Server MetalForming CyclicProcessValueDataType The CyclicProcessValueDataType is represented
• OPC-40530 – OPC UA for Laser Systems
  7.2.6 ConditionDataMonitoring ObjectType Definition
  value of which does not change during its life cycle. The Value Component represents the current value of the monitored condition parameter. The Value is mandatory and given as number ... UpperWarningLevel is a mandatory and given as number. This Component represents the upper limit for the monitored condition parameter above which a warning message is expected. The mandatory UpperErrorLevel Component