OPC UA ObjectTypes – OPC UA for the Powertrain

7 OPC UA ObjectTypes

7.1 PtAssetType ObjectType Definition

7.1.1 Overview

The PtAssetType provides the properties that are required for identifying assets of a powertrain and is formally defined in Table 18.

Table 18 – PtAssetType Definition

Attribute	Value
BrowseName	PtAssetType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the BaseObjectType defined in OPC 10000-5: OPC Unified Architecture
0:HasProperty	Variable	0:DefaultInstanceBrowseName	0:QualifiedName	0:PropertyType
0:HasInterface	ObjectType	IPtTagNameplateType
0:HasInterface	ObjectType	3:IMachineryItemVendorNameplateType
0:HasInterface	ObjectType	2:IDeviceHealthType
0:HasInterface	ObjectType	2:ISupportInfoType
0:HasInterface	ObjectType	4:IAssetRevisionType
0:HasAddIn	Object	2:Identification		3:MachineryComponentIdentificationType	O


0:HasProperty	Variable	2:DeviceClass	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	2:DeviceManual	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	2:DeviceRevision	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	2:HardwareRevision	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	2:Manufacturer	0:LocalizedText	0:PropertyType	M, RO
0:HasProperty	Variable	2:ManufacturerUri	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	2:Model	0:LocalizedText	0:PropertyType	O, RO
0:HasProperty	Variable	2:ProductCode	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	2:ProductInstanceUri	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	2:RevisionCounter	0:Int32	0:PropertyType	O, RO
0:HasProperty	Variable	2:SerialNumber	0:String	0:PropertyType	M, RO
0:HasProperty	Variable	2:SoftwareRevision	0:String	0:PropertyType	O, RO

0:HasProperty	Variable	3:InitialOperationDate	0:DateTime	0:PropertyType	O, RO
0:HasProperty	Variable	3:MonthOfConstruction	0:Byte	0:PropertyType	O, RO
0:HasProperty	Variable	3:YearOfConstruction	0:UInt16	0:PropertyType	O, RO
0:HasProperty	Variable	2:SoftwareReleaseDate	0:DateTime	0:PropertyType	O, RO
0:HasProperty	Variable	2:PatchIdentifiers	0:String[]	0:PropertyType	O, RO

Applied from IPtTagNameplateType
0:HasProperty	Variable	2:AssetId	0:String	0:PropertyType	O, RW
0:HasProperty	Variable	2:ComponentName	0:LocalizedText	0:PropertyType	O, RW
0:HasProperty	Variable	3:Location	0:String	0:PropertyType	O, RW
0:HasProperty	Variable	Comment	0:LocalizedText	0:PropertyType	O, RW
0:HasProperty	Variable	ContactInformation	0:String	0:PropertyType	O, RW
0:HasProperty	Variable	Function	0:String	0:PropertyType	O, RW

Applied from IDeviceHealthType defined in OPC 10000-100: Device Integration
0:HasComponent	Variable	2:DeviceHealth	2:DeviceHealthEnumeration	0:BaseDataVariableType	O, RO
0:HasComponent	Object	2:DeviceHealthAlarms	0:FolderType		O

Applied from 4:IAssetRevisionType defined in OPC 10000-81: Information Model and Connecting Devices
0:HasProperty	Variable	4:MajorAssetVersion	0:UInt16	0:PropertyType	O
0:HasProperty	Variable	4:MinorAssetVersion	0:UInt16	0:PropertyType	O
0:HasProperty	Variable	4:BuildAssetNumber	0:UInt16	0:PropertyType	O
0:HasProperty	Variable	4:SubBuildAssetNumber	0:UInt16	0:PropertyType	O
0:HasComponent	Method	4:VerifyAsset	Defined in 6.3.3		O

Applied from ISupportInfoType defined in OPC 10000-100: Device Integration
0:HasComponent	Object	2:DeviceTypeImage		0:FolderType	O, RO
0:HasComponent	Object	2:Documentation		0:FolderType	O, RW
0:HasComponent	Object	2:DocumentationFiles		0:FolderType	O
0:HasComponent	Object	2:ImageSet		0:FolderType	O, RW
0:HasComponent	Object	2:ProtocolSupport		0:FolderType	O, RO

Optionally addable CommonAttributesTypes
0:HasComponent	Object	PtAmbientAttributes		PtAmbientAttributesType	O
0:HasComponent	Object	<PtAnalogInputElectricalAttributes>		PtAnalogInputElectricalAttributesType	OP
0:HasComponent	Object	<PtAnalogOutputElectricalAttributes>		PtAnalogOutputElectricalAttributesType	OP
0:HasComponent	Object	PtAuxiliarySupplyAttributes		PtAuxiliarySupplyAttributesType	O
0:HasComponent	Object	PtCertificateAttributes		PtCertificateAttributesType	O
0:HasComponent	Object	PtHardwareAttributes		PtHardwareAttributesType	O
0:HasComponent	Object	<PtDigitalInputElectricalAttributes>		PtDigitalInputElectricalAttributesType	OP
0:HasComponent	Object	<PtDigitalOutputElectricalAttributes>		PtDigitalOutputElectricalAttributesType	OP
0:HasComponent	Object	PtMechanicalStrengthAttributes		PtMechanicalStrengthAttributesType	O
0:HasComponent	Object	PtProtectionClassAttributes		PtProtectionClassAttributesType	O
0:HasComponent	Object	<PtStandardAttributes>		PtStandardAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.1.2 Object Description

All common asset attributes types are defined and described within chapter 7.11.

Note to the optional property 2:DeviceClass applied from IMachineryItemVendorNameplateType defined in OPC 40001-1: OPC UA for Machinery: All asset types of this specification are defined as “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 should also use the DeviceClass “Drive”.

Note to the mandatory properties 2:Manufacturer and 2:SerialNumber: If there are assets where these values cannot be provided the use of a “empty string” is recommended.

7.1.3 InstanceDeclarations of the Subtypes of PtAssetType

The InstanceDeclarations of the subtypes of PtAssetType have a value for the DefaultInstanceBrowseName. The DefaultInstanceBrowseName value defines the recommended BrowseName for instances of the type. Instances use an additional enumeration (BrowseName_01) in the BrowseName. The extension of the BrowseName by XY starts with "01" for the first instance and should be continued accordingly for each further instance ("02", “03"......."10", etc.).

Table 19 – PtAssetType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
0:DefaultInstanceBrowseName	PtAsset_01
	PtAssetMotor_01
	PtAssetMotorRotary_01
	PtAssetMotorLinear_01
	PtAssetDriveIntegratedMotorRotary_01
	PtAssetDriveIntegratedMotorLinear_01
	PtAssetGearMotorRotary_01
	PtAssetGearMotorLinear_01
	PtAssetDriveIntegratedGearMotorRotary_01
	PtAssetDriveIntegratedGearMotorLinear_01
	PtAssetEncoder_01
	PtAssetEncoderRotary_01
	PtAssetEncoderLinear_01
	PtAssetBrake_01
	PtAssetGear_01
	PtAssetTemperatureSensor_01
	PtAssetVibrationSensor_01
	PtAssetEncoderInterfaceModule_01
	PtAssetBleed_01
	PtAssetElectricalBrakingModule_01
	PtAssetDcBusModule_01
	PtAssetInputConverter_01
	PtAssetOutputConverter_01
	PtAssetInputOutputConverter_01
	PtAssetInputFilter_01
	PtAssetInputReactor_01
	PtAssetOutputFilter_01
	PtAssetOutputReactor_01
	PtAssetCommunicationModule_01
	PtAssetControlModule_01
	PtAssetIoModule_01
	PtAssetSafetyModule_01
	PtAssetCooling_01
	PtAssetPrecharge_01
	PtAssetMotorStarter_01
	PtAssetDrive_01
	PtAssetFrequencyConverter_01
	PtAssetVariableSpeedDrive_01
	PtAssetServoDrive_01
	PtAssetContactor_01
	PtAssetElectricOverloadRelay_01
	PtAssetMotorStarter_01
	PtAssetSoftStarter_01
	PtAssetMotorManagementDevice_01

7.2 IPtTagNameplateType InterfaceType ObjectType Definition

7.2.1 Overview

The IPtTagNameplateType is a subtype of the 3:IMachineTagNameplateType defined in OPC 40001-1. It adds additional properties. It is formally defined in Table 20.

Table 20 – IPtTagNameplateType InterfaceType Definition

Attribute	Value
BrowseName	IPtTagNameplateType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the 3:IMachineTagNameplateType defined in OPC 40001-1, i.e. inheriting the InstanceDeclarations of that Node.
0:HasProperty	Variable	Comment	0: LocalizedText	0:PropertyType	O, RW
0:HasProperty	Variable	ContactInformation	0: LocalizedText	0:PropertyType	O, RW
0:HasProperty	Variable	Function	0: LocalizedText	0:PropertyType	O, RW

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag

7.2.2 Object Definition

The Comment property allows user to store any individual additional information.

The ContactInformation property allows the description of the contact point (role, name, department) for this managed asset.

The Function property allows for each device or module within a plant a unique label if necessary for the identification of its function or task.

7.3 Motor / Motor Components related Asset Types

7.3.1 PtAssetMotorType ObjectType Definition

7.3.1.1 Overview

The PtAssetMotorType describes a common base object type for a motor in a powertrain and is formally defined in Table 21. The PtAssetMotorType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 21 – PtAssetMotorType Definition

Attribute	Value
BrowseName	PtAssetMotorType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtBrakeAttributes	PtBrakeAttributesType	O
HasPtAttributes	Object	PtTemperatureSensorAttributes	PtTemperatureSensorAttributesType	O
HasPtAttributes	Object	PtVibrationSensorAttributes	PtVibrationSensorAttributesType	O
HasPtAttributes	Object	PtCoolingAttributes	PtCoolingAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.1.2 Object Description

PtBrakeAttributes are formally defined in chapter 7.8.14.

PtTemperatureSensorAttributes are formally defined in chapter 7.8.15.

PtVibrationSensorAttributes are formally defined in chapter 7.8.16.

PtCoolingAttributes are formally defined in chapter 7.11.8.

7.3.2 PtAssetMotorRotaryType ObjectType Definition

7.3.2.1 Overview

The PtAssetMotorRotaryType describes a rotary electrical motor in a powertrain and is formally defined in Table 22. The PtAssetMotorRotaryType is a subtype of the PtAssetMotorType.

This type definition can be used to model different rotary motor variants. In these variants (e.g., a servomotor), the asset supports further functionalities such as encoder feedback or a brake in addition to the pure motor function.

Table 22 – PtAssetMotorRotaryType Definition

Attribute	Value
BrowseName	PtAssetMotorRotaryType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetMotorType defined in chapter 7.1
HasPtAttributes	Object	PtMotorRotaryAttributes	PtMotorRotaryAttributesType	M
HasPtAttributes	Object	<PtMotorRotaryRatedAttributes>	PtMotorRotaryRatedAttributesType	MP
HasPtAttributes	Object	<PtEncoderRotaryAttributes>	PtEncoderRotaryAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.2.2 Object Description

PtMotorRotaryAttributes are formally defined in chapter 7.8.2.

<PtMotorRotaryRatedAttributes> are formally defined in chapter 7.8.5.

<PtEncoderRotaryAttributes> are formally defined in chapter 7.8.10.

7.3.3 PtAssetMotorLinearType ObjectType Definition

7.3.3.1 Overview

The PtAssetMotorLinearType describes a linear electrical motor in a powertrain and is formally defined in Table 23. The PtAssetMotorLinearType is a subtype of the PtAssetMotorType.

This type definition can be used to model different linear motor variants. In these variants (e.g., a servomotor), the asset supports further functionalities such as encoder feedback or a brake in addition to the pure motor function.

Table 23 – PtAssetMotorLinearType Definition

Attribute	Value
BrowseName	PtAssetMotorLinearType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetMotorType defined in chapter 7.1
HasPtAttributes	Object	PtMotorLinearAttributes	PtMotorLinearAttributesType	M
HasPtAttributes	Object	<PtMotorLinearRatedAttributes>	PtMotorLinearRatedAttributesType	MP
HasPtAttributes	Object	<PtEncoderLinearAttributes>	PtEncoderLinearAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.3.2 Object Description

PtMotorLinearAttributes are formally defined in chapter 7.8.2.

<PtMotorLinearRatedAttributes> are formally defined in chapter 7.8.5.

<PtEncoderLinearAttributes> are formally defined in chapter 7.8.10.

7.3.4 PtAssetDriveIntegratedMotorRotaryType ObjectType Definition

7.3.4.1 Overview

The PtAssetDriveIntegratedMotorRotaryType represents a rotary motor which has an inverter/drive integrated. It is formally defined in Table 24. The PtAssetDriveIntegratedMotorRotaryType is a subtype of the PtAssetMotorRotaryType and therefore has mandatory identification attributes and optional asset attributes.

Table 24 – PtAssetDriveIntegratedMotorRotaryType Definition

Attribute	Value
BrowseName	PtAssetDriveIntegratedMotorRotaryType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetMotorRotaryType defined in chapter 7.3.2
HasPtAttributes	Object	<PtOutputConverterAttributes>	PtOutputConverterAttributesType	OP
HasPtAttributes	Object	PtInputFilterAttributes	PtInputFilterAttributesType	O
HasPtAttributes	Object	PtReactorAttributes	PtReactorAttributesType	O
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	O
HasPtAttributes	Object	PtInputConverterAttributes	PtInputConverterAttributesType	O
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.4.2 Object Description

<PtOutputConverterAttributes> are formally defined in chapter 7.9.6.

PtInputFilterAttributes are formally defined in chapter 7.9.7.

PtReactorAttributes are formally defined in chapter 7.9.5.

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

PtInputConverterAttributes are formally defined in chapter 7.4.5.

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

Note: The Input interface of the PtAssetMotorRotaryType is used to describe the connection to mains for the PtAssetIntegratedMotorRotaryType.

7.3.5 PtAssetDriveIntegratedMotorLinearType ObjectType Definition

7.3.5.1 Overview

The PtAssetDriveIntegratedMotorLinearType represents a rotary motor which has an inverter/drive integrated. It is formally defined in Table 25. The PtAssetDriveIntegratedMotorLinearType is a subtype of the PtAssetMotorLinearType and therefore has mandatory identification attributes and optional asset attributes.

Table 25 – PtAssetDriveIntegratedMotorLinearType Definition

Attribute	Value
BrowseName	PtAssetDriveIntegratedMotorLinearType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetMotorLinearType defined in chapter 7.3.2
HasPtAttributes	Object	<PtOutputConverterAttributes>	PtOutputConverterAttributesType	OP
HasPtAttributes	Object	PtInputFilterAttributes	PtInputFilterAttributesType	O
HasPtAttributes	Object	PtReactorAttributes	PtReactorAttributesType	O
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	O
HasPtAttributes	Object	PtInputConverterAttributes	PtInputConverterAttributesType	O
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.5.2 Object Description

<PtOutputConverterAttributes> are formally defined in chapter 7.9.6.

PtInputFilterAttributes are formally defined in chapter 7.9.7.

PtReactorAttributes are formally defined in chapter 7.9.5.

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

PtInputConverterAttributes are formally defined in chapter 7.4.5.

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

Note: The Input interface of the PtAssetMotorLinearType is used to describe the connection to mains for the PtAssetIntegratedMotorLinearType.

7.3.6 PtAssetGearMotorRotaryType ObjectType Definition

7.3.6.1 Overview

The PtAssetGearMotorRotaryType describes a rotary gear motor in a powertrain and is formally defined in Table 26. A rotary gear motor is a combination of a rotary motor and a gearbox in one asset. It is a subtype of the PtAssetMotorRotaryType with mandatory gear attributes.

Table 26 – PtAssetGearMotorRotaryType Definition

Attribute	Value
BrowseName	PtAssetGearMotorRotaryType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetMotorRotaryType defined in chapter 7.3.2
HasPtAttributes	Object	PtGearAttributes		PtGearAttributesType	M

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.3.6.2 Object Description

PtGearAttributes are formally defined in chapter 7.8.8.

7.3.7 PtAssetGearMotorLinearType ObjectType Definition

7.3.7.1 Overview

The PtAssetGearMotorLinearType describes a linear gear motor in a powertrain and is formally defined in Table 27. A linear gear motor is a combination of a linear motor and a gearbox in one asset. It is a subtype of the PtAssetMotorLinearType with mandatory gear attributes.

Table 27 – PtAssetGearMotorLinearType Definition

Attribute	Value
BrowseName	PtAssetGearMotorLinearType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetMotorLinearType defined in chapter 7.3.2
HasPtAttributes	Object	PtGearAttributes		PtGearAttributesType	M

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.3.7.2 Object Description

PtGearAttributes are formally defined in chapter 7.8.8.

7.3.8 PtAssetDriveIntegratedGearMotorRotaryType ObjectType Definition

7.3.8.1 Overview

The PtAssetDriveIntegratedGearMotorRotaryType represents a rotary gear motor which has an inverter/drive integrated. It is formally defined in Table 28. The PtAssetDriveIntegratedGearMotorRotaryType is a subtype of the PtAssetDriveIntegratedMotorRotaryType and therefore has mandatory identification attributes and optional asset attributes.

Table 28 – PtAssetDriveIntegratedGearMotorRotaryType Definition

Attribute	Value
BrowseName	PtAssetDriveIntegratedGearMotorRotaryType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetDriveIntegratedMotorRotaryType defined in chapter 7.3.4
HasPtAttributes	Object	PtGearAttributes		PtGearAttributesType	M

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.8.2 Object Description

PtGearAttributes are formally defined in chapter 7.8.8.

Note: The Input interface of the PtAssetMotorRotaryType is used to describe the connection to mains for the PtAssetDriveIntegratedMotorRotaryType

7.3.9 PtAssetDriveIntegratedGearMotorLinearType ObjectType Definition

7.3.9.1 Overview

The PtAssetDriveIntegratedGearMotorLinearType represents a linear gear motor which has an inverter/drive integrated. It is formally defined in Table 28. The PtAssetDriveIntegratedGearMotorLinearType is a subtype of the PtAssetDriveIntegratedMotorLinearType and therefore has mandatory identification attributes and optional asset attributes.

Table 29 – PtAssetDriveIntegratedGearMotorLinearType Definition

Attribute	Value
BrowseName	PtAssetDriveIntegratedGearMotorLinearType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetDriveIntegratedMotorLinearType defined in chapter 7.3.5
HasPtAttributes	Object	PtGearAttributes		PtGearAttributesType	M

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.9.2 Object Description

PtGearAttributes are formally defined in chapter 7.8.8.

Note: The Input interface of the PtAssetMotorLinearType is used to describe the connection to mains for the PtAssetDriveIntegratedMotorLinearType

7.3.10 PtAssetEncoderType ObjectType Definition

7.3.10.1 Overview

The PtAssetEncoderType describes a base object type for an encoder as an electro-mechanical device that is operated in a powertrain and is formally defined in Table 30. The PtAssetEncoderType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 30 – PtAssetEncoderType Definition

Attribute	Value
BrowseName	PtAssetEncoderType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtEncoderInterfaceAttributes	PtEncoderInterfaceAttributesType	O
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	O
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.10.2 Object Description

PtEncoderInterfaceAttributes are formally defined in chapter 7.8.13

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

7.3.11 PtAssetEncoderRotaryType ObjectType Definition

7.3.11.1 Overview

The PtAssetEncoderRotaryType describes a rotary encoder as an electro-mechanical device that is operated in a powertrain which converts the linear or angular position of a motion axis to output signals and is formally defined in Table 31. The PtAssetEncoderRotaryType is a subtype of the PtAssetEncoderType.

Table 31 – PtAssetEncoderRotaryType Definition

Attribute	Value
BrowseName	PtAssetEncoderRotaryType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetEncoderType defined in chapter 7.1
HasPtAttributes	Object	PtEncoderRotaryAttributes		PtEncoderRotaryAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.11.2 Object Description

PtEncoderRotaryAttributes are formally defined in chapter 7.8.10.

7.3.12 PtAssetEncoderLinearType ObjectType Definition

7.3.12.1 Overview

The PtAssetEncoderLinearType describes a linear encoder as an electro-mechanical device that is operated in a powertrain which converts the linear or angular position of a motion axis to output signals and is formally defined in Table 32. The PtAssetEncoderLinearType is a subtype of the PtAssetEncoderType.

Table 32 – PtAssetEncoderLinearType Definition

Attribute	Value
BrowseName	PtAssetEncoderLinearType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetEncoderType defined in chapter 7.1
HasPtAttributes	Object	PtEncoderLinearAttributes		PtEncoderLinearAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.12.2 Object Description

PtEncoderLinearAttributes are formally defined in chapter 7.8.11.

7.3.13 PtAssetBrakeType ObjectType Definition

7.3.13.1 Overview

The PtAssetBrakeType describes a brake which is operated in a powertrain capable of reducing the rotor speed or stopping rotation of a motor and is formally defined in Table 33. The PtAssetBrakeType is a subtype of the PtAssetType and therefore has mandatory identification attributes.

Table 33 – PtAssetBrakeType Definition

Attribute	Value
BrowseName	PtAssetBrakeType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtBrakeAttributes		PtBrakeAttributesType	M

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.3.13.2 Object Description

PtBrakeAttributes are formally defined in chapter 7.8.14.

7.3.14 PtAssetGearType ObjectType Definition

7.3.14.1 Overview

The PtAssetGearType describes a gear in a powertrain which transfers and transforms movements, energy and/or forces and is formally defined in Table 34. The PtAssetGearType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 34 – PtAssetGearType Definition

Attribute	Value
BrowseName	PtAssetGearType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtGearAttributes	PtGearAttributesType	M
HasPtAttributes	Object	PtTemperatureSensorAttributes	PtTemperatureSensorAttributesType	O
HasPtAttributes	Object	PtVibrationSensorAttributes	PtVibrationSensorAttributesType	O

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.3.14.2 Object Description

PtGearAttributes are formally defined in chapter 7.8.8.

PtTemperatureSensorAttributes are formally defined in chapter 7.8.15.

PtVibrationSensorAttributes are formally defined in chapter 7.8.16.

7.3.15 PtAssetTemperatureSensorType ObjectType Definition

7.3.15.1 Overview

The PtAssetTemperatureSensorType describes a device designed to respond to temperature providing an electrical signal or mechanical operation and that is operated in a powertrain and is formally defined in Table 35. The PtAssetTemperatureSensorType is a subtype of the PtAssetType and therefore has mandatory identification attributes.

Table 35 – PtAssetTemperatureSensorType Definition

Attribute	Value
BrowseName	PtAssetTemperatureSensorType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtTemperatureSensorAttributes		PtTemperatureSensorAttributesType	M

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.3.15.2 Object Description

PtTemperatureSensorAttributes are formally defined in chapter 7.8.15.

7.3.16 PtAssetVibrationSensorType ObjectType Definition

7.3.16.1 Overview

The PtAssetVibrationSensorType describes a device designed to detect any kind of vibrations and that is operated in a powertrain and is formally defined in Table 36. The PtAssetVibrationSensorType is a subtype of the PtAssetType and therefore has mandatory identification attributes.

Table 36 – PtAssetVibrationSensorType Definition

Attribute	Value
BrowseName	PtAssetVibrationSensorType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtVibrationSensorAttributes		PtVibrationSensorAttributesType	M

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.3.16.2 Object Description

PtVibrationSensorAttributes are formally defined in chapter 7.8.16.

7.4 Drive Components related AssetsTypes

7.4.1 PtAssetEncoderInterfaceModuleType ObjectType Definition

7.4.1.1 Overview

The PtAssetEncoderInterfaceModuleType describes an encoder module that can be added to a drive in order to connect additional encoders to the drive and is formally defined in Table 37. The PtAssetEncoderInterfaceModuleType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 37 – PtAssetEncoderInterfaceModuleType Definition

Attribute	Value
BrowseName	PtAssetEncoderInterfaceModuleType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	<PtEncoderInterfaceAttributes>	PtEncoderInterfaceAttributesType	MP
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.1.2 Object Description

<PtEncoderInterfaceAttributes> are formally defined in chapter 7.8.13.

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

7.4.2 PtAssetBleedType ObjectType Definition

7.4.2.1 Overview

The PtAssetBleedType consumes surplus energy and dissipate that consumed energy in the form of heat and is formally defined in Table 38. Thereby the bleed resistor asset mainly consists out of a high power resistor while the 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.

Table 38 – PtAssetBleedType Definition

Attribute	Value
BrowseName	PtAssetBleedType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtBleedAttributes		PtBleedAttributesType	M

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.4.2.2 Object Description

PtBleedAttributes are formally defined in chapter 7.9.1.

7.4.3 PtAssetElectricalBrakingModuleType ObjectType Definition

7.4.3.1 Overview

The PtAssetElectricalBrakingModuleType represents a specific module which is used for braking and is formally defined in Table 39. Thereby the electrical braking module asset typically contains a high-power resistor and additional electronics to control the energy flow through the resistor or for managing of the braking module. The PtAssetElectricalBrakingModuleType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 39 – PtAssetElectricalBrakingModuleType Definition

Attribute	Value
BrowseName	PtAssetElectricalBrakingModuleType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtBleedAttributes	PtBleedAttributesType	M
HasPtAttributes	Object	PtCoolingAttributes	PtCoolingAttributesType	O
HasPtAttributes	Object	PtDcBusAttributes	PtDcBusAttributesType	O

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.4.3.2 Object Description

PtBleedAttributes are formally defined in chapter 7.9.1.

PtCoolingAttributes are formally defined in chapter 7.11.8.

PtDcBusAttributes is formally defined in chapter 7.9.2.

7.4.4 PtAssetDcBusModuleType ObjectType Definition

7.4.4.1 Overview

The PtAssetDcBusModuleType describes a DC bus module and is formally defined in Table 40. The PtAssetDcBusModuleType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 40 – PtAssetDcBusModuleType Definition

Attribute	Value
BrowseName	PtAssetDcBusModuleType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtDcBusAttributes	PtDcBusAttributesType	M
HasPtAttributes	Object	PtCapacitanceAttributes	PtCapacitanceAttributesType	O

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.4.4.2 Object Description

PtDcBusAttributes are formally defined in chapter 7.9.2.

PtCapacitanceAttributes are formally defined in chapter 7.9.3.

7.4.5 PtAssetInputConverterType ObjectType Definition

7.4.5.1 Overview

The PtAssetInputConverterType describes an input converter in a powertrain and is formally defined in Table 41. The input converter transforms energy from the mains line into the converter DC bus and vice versa if the input converter supports regenerative power functionality. The PtAssetInputConverterType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 41 – PtAssetInputConverterType Definition

Attribute	Value
BrowseName	PtAssetInputConverterType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtInputConverterAttributes	PtInputConverterAttributesType	O
HasPtAttributes	Object	<PtInputInterfaceAttributes>	PtInputInterfaceAttributesType	MP
HasPtAttributes	Object	<PtFuseAttributes>	PtFuseAttributesType	OP
HasPtAttributes	Object	<PtCoolingAttributes>	PtCoolingAttributesType	OP
HasPtAttributes	Object	PtInputFilterAttributes	PtInputFilterAttributesType	O
HasPtAttributes	Object	PtReactorAttributes	PtReactorAttributesType	O
HasPtAttributes	Object	PtDcBusAttributes	PtDcBusAttributesType	O
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	O
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	OP
HasPtAttributes	Object	PtCapacitanceAttributes	PtCapacitanceAttributesType	O
HasPtAttributes	Object	PtBleedAttributes	PtBleedAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.5.2 Object Description

PtInputConverterAttributes are formally defined in chapter 7.9.4.

<PtInputInterfaceAttributes> are formally defined in chapter 7.11.13.

<PtFuseAttributes> are formally defined in chapter 7.11.12.

<PtCoolingAttributes> are formally defined in chapter 7.11.8.

PtInputFilterAttributes are formally defined in chapter 7.9.7.

PtReactorAttributes are formally defined in chapter 7.9.5.

PtDcBusAttributes are formally defined in chapter 7.9.2.

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

PtCapacitanceAttributes are formally defined in chapter 7.9.3.

PtBleedAttributes are formally defined in chapter 7.9.1.

7.4.6 PtAssetOutputConverterType ObjectType Definition

7.4.6.1 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 the converter DC bus into the motor phase system and vice versa. The PtAssetOutputConverterType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 42 – PtAssetOutputConverterType Definition

Attribute	Value
BrowseName	PtAssetOutputConverterType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	<PtOutputConverterAttributes>	PtOutputConverterAttributesType	MP
HasPtAttributes	Object	PtOutputInterfaceAttributes	PtOutputInterfaceAttributesType	M
HasPtAttributes	Object	PtDcBusAttributes	PtDcBusAttributesType	O
HasPtAttributes	Object	<PtEncoderInterfaceAttributes>	PtEncoderInterfaceAttributesType	OP
HasPtAttributes	Object	<PtCoolingAttributes>	PtCoolingAttributesType	OP
HasPtAttributes	Object	<PtOutputFilterAttributes>	PtOutputFilterAttributesType	OP
HasPtAttributes	Object	PtReactorAttributes	PtReactorAttributesType	O
HasPtAttributes	Object	<PtFuseAttributes>	PtFuseAttributesType	OP
HasPtAttributes	Object	<PtFunctionalSafetyAttributes>	PtFunctionalSafetyAttributesType	OP
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	OP
HasPtAttributes	Object	PtCapacitanceAttributes	PtCapacitanceAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.6.2 Object Description

<PtOutputConverterAttributes> are formally defined in chapter 7.9.6.

PtOutputInterfaceAttributes are formally defined in chapter 7.11.14.

PtDcBusAttributes are formally defined in chapter 7.9.2.

<PtEncoderInterfaceAttributes> are formally defined in chapter 7.8.13.

<PtCoolingAttributes> are formally defined in chapter 7.11.8.

<PtOutputFilterAttributes> are formally defined in chapter 7.9.8.

PtReactorAttributes are formally defined in chapter 7.9.5.

<PtFuseAttributes> are formally defined in chapter 7.11.12.

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

PtCapacitanceAttributes are formally defined in chapter 7.9.3.

7.4.7 PtAssetInputOutputConverterType ObjectType Definition

7.4.7.1 Overview

The PtAssetInputOutputConverterType describes an input converter combined with an output converter in one asset. This asset does not execute control functions such as position control, velocity control or torque control. These functions are typically executed by a separate control module. The PtAssetInputOutputConverterType is formally defined in Table 43. The PtAssetInputOutputConverterType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 43 – PtAssetInputOutputConverterType Definition

Attribute	Value
BrowseName	PtAssetInputOutputConverterType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtInputConverterAttributes	PtInputConverterAttributesType	M
HasPtAttributes	Object	PtOutputConverterAttributes	PtOutputConverterAttributesType	M
HasPtAttributes	Object	PtInputInterfaceAttributes	PtInputInterfaceAttributesType	M
HasPtAttributes	Object	PtOutputInterfaceAttributes	PtOutputInterfaceAttributesType	M
HasPtAttributes	Object	PtDcBusAttributes	PtDcBusAttributesType	O
HasPtAttributes	Object	PtInputFilterAttributes	PtInputFilterAttributesType	O
HasPtAttributes	Object	PtOutputFilterAttributes	PtOutputFilterAttributesType	O
HasPtAttributes	Object	<PtEncoderInterfaceAttributes>	PtEncoderInterfaceAttributesType	OP
HasPtAttributes	Object	<PtCoolingAttributes>	PtCoolingAttributesType	OP
HasPtAttributes	Object	<PtReactorAttributes>	PtReactorAttributesType	OP
HasPtAttributes	Object	<PtFuseAttributes>	PtFuseAttributesType	OP
HasPtAttributes	Object	<PtFunctionalSafetyAttributes>	PtFunctionalSafetyAttributesType	OP
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.7.2 Object Description

PtInputConverterAttributes are formally defined in chapter 7.9.4.

PtOutputConverterAttributes are formally defined in chapter 7.9.6.

PtInputInterfaceAttributes are formally defined in chapter 7.11.13.

PtOutputInterfaceAttributes are formally defined in chapter 7.11.14.

PtDcBusAttributes are formally defined in chapter 7.9.2.

PtInputFilterAttributes are formally defined in chapter 7.9.7.

PtOutputFilterAttributes are formally defined in chapter 7.9.8.

<PtEncoderInterfaceAttributes> are formally defined in chapter 7.8.12.

<PtCoolingAttributes> are formally defined in chapter 7.11.8.

<PtReactorAttributes> are formally defined in chapter 7.9.5.

<PtFuseAttributes> are formally defined in chapter 7.11.12.

<PtFunctionalSafetyAttributes> are formally defined in chapter 7.11.17.

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

7.4.8 PtAssetInputFilterType ObjectType Definition

7.4.8.1 Overview

The PtAssetInputFilterType describes an input filter in a powertrain and is formally defined in Table 44. The input filter is intended to be placed on the mains side of the power drive system (PDS) in front of the converter or input converter. Its purpose is to suppress converter harmonics from entering the mains line. The PtAssetInputFilterType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 44 – PtAssetInputFilterType Definition

Attribute	Value
BrowseName	PtAssetInputFilterType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtInputFilterAttributes	PtInputFilterAttributesType	M
HasPtAttributes	Object	PtReactorAttributes	PtReactorAttributesType	O
HasPtAttributes	Object	PtInputInterfaceAttributes	PtInputInterfaceAttributesType	O

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.4.8.2 Object Description

PtInputFilterAttributes are formally defined in chapter 7.9.7.

PtReactorAttributes are formally defined in chapter 7.9.5.

PtInputInterfaceAttributes are formally defined in chapter 7.11.13.

7.4.9 PtAssetInputReactorType ObjectType Definition

7.4.9.1 Overview

The PtAssetInputReactorType describes an input filter realized just of a reactor and is formally defined in Table 45. The input reactor is intended to be placed on the mains side of the powertrain in front of the converter or input converter. Its purpose is to suppress converter harmonics from entering the mains line and support of the converter commutation. The PtAssetInputReactorType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 45 – PtAssetInputReactorType Definition

Attribute	Value
BrowseName	PtAssetInputReactorType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtReactorAttributes	PtReactorAttributesType	M
HasPtAttributes	Object	PtInputInterfaceAttributes	PtInputInterfaceAttributesType	O

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.4.9.2 Object Description

PtReactorAttributes are formally defined in chapter 7.9.5.

PtInputInterfaceAttributes are formally defined in chapter 7.11.13.

7.4.10 PtAssetOutputFilterType ObjectType Definition

7.4.10.1 Overview

The PtAssetOutputFilterType describes an output filter in a powertrain and is formally defined in Table 46. The output filter is intended to be placed on the motor side of the PTS, after the converter or output converter. Its purpose is to suppress converter harmonics from entering the motor. The PtAssetOutputFilterType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 46 – PtAssetOutputFilterType Definition

Attribute	Value
BrowseName	PtAssetOutputFilterType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtOutputFilterAttributes	PtOutputFilterAttributesType	M
HasPtAttributes	Object	PtReactorAttributes	PtReactorAttributesType	O
HasPtAttributes	Object	PtOutputInterfaceAttributes	PtOutputInterfaceAttributesType	O

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.4.10.2 Object Description

PtOutputFilterAttributes are formally defined in chapter 7.9.8.

PtReactorAttributes are formally defined in chapter 7.9.5.

PtOutputInterfaceAttributes are formally defined in chapter 7.11.14.

7.4.11 PtAssetOutputReactorType ObjectType Definition

7.4.11.1 Overview

The PtAssetOutputReactorType describes an output reactor in a powertrain and is formally defined in Table 47. The output reactor is intended to be placed on the motor side of the powertrain, after the converter or output converter. Its purpose is to suppress converter harmonics from entering the motor and to support the converter commutation. The PtAssetOutputReactorType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 47 – PtAssetOutputReactorType Definition

Attribute	Value
BrowseName	PtAssetOutputReactorType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtReactorAttributes	PtReactorAttributesType	M
HasPtAttributes	Object	PtOutputInterfaceAttributes	PtOutputInterfaceAttributesType	O

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.4.11.2 Object Description

PtReactorAttributes are formally defined in chapter 7.9.5.

PtOutputInterfaceAttributes are formally defined in chapter 7.11.14.

7.4.12 PtAssetCommunicationModuleType ObjectType Definition

7.4.12.1 Overview

The PtAssetCommunicationModuleType describes a device as add-in part of an inverter/drive which holds fieldbus and/or Ethernet network communication functionality. In addition, it may also hold other electrical interfaces and is formally defined in Table 48. The PtAssetCommunicationModuleType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 48 – PtAssetCommunicationModuleType Definition

Attribute	Value
BrowseName	PtAssetCommunicationModuleType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	MP
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.12.2 Object Description

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

7.4.13 PtAssetControlModuleType ObjectType Definition

7.4.13.1 Overview

The PtAssetControlModuleType describes a device as part of an inverter/drive which holds the control functionality and mostly is realized by a microcontroller system and is formally defined in Table 49. In addition, it may also hold some electrical interfaces. The PtAssetControlModuleType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 49 – PtAssetControlModuleType Definition

Attribute	Value
BrowseName	PtAssetControlModuleType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	OP
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	O
HasPtAttributes	Object	<PtEncoderInterfaceAttributes>	PtEncoderInterfaceAttributesType	OP

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.4.13.2 Object Description

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

<PtEncoderInterfaceAttributes> are formally defined in chapter 7.8.13.

7.4.14 PtAssetIoModuleType ObjectType Definition

7.4.14.1 Overview

The PtAssetIoModuleType describes a device as part of an inverter/drive which holds input/output (I/O) functionality and electrical interfaces like digital or analog inputs and is formally defined in Table 50. The PtAssetIoModuleType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 50 – PtAssetIoModuleType Definition

Attribute	Value
BrowseName	PtAssetIoModuleType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	<PtEncoderInterfaceAttributes>	PtEncoderInterfaceAttributesType	OP
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.14.2 Object Description

<PtEncoderInterfaceAttributes> are formally defined in chapter 7.8.13.

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

7.4.15 PtAssetSafetyModuleType ObjectType Definition

7.4.15.1 Overview

The PtAssetSafetyModuleType describes a device which holds drive based safety functionality e.g. safe torque off (STO), SS1 (safe stop 1) or SLS (safely limited speed) and is formally defined in Table 51. The module may also hold safety related electrical interfaces (IOs) for controlling and monitoring of the drive-based safety functions. The PtAssetSafetyModuleType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 51 – PtAssetSafetyModuleType Definition

Attribute	Value
BrowseName	PtAssetSafetyModuleType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtFunctionalSafetyAttributes	PtFunctionalSafetyAttributesType	M
HasPtAttributes	Object	<PtEncoderInterfaceAttributes>	PtEncoderInterfaceAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.15.2 Object Description

PtFunctionalSafetyAttributes are formally defined in chapter 7.11.17.

<PtEncoderInterfaceAttributes> are formally defined in chapter 7.8.13.

7.4.16 PtAssetCoolingType ObjectType Definition

7.4.16.1 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 is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 52 – PtAssetCoolingType Definition

Attribute	Value
BrowseName	PtAssetCoolingType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	<PtCoolingAttributes>		PtCoolingAttributesType	MP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.16.2 Object Description

<PtCoolingAttributes> are formally defined in chapter 7.11.8.

7.4.17 PtAssetPrechargeType ObjectType Definition

7.4.17.1 Overview

The PtAssetPrechargeType controls initial charging of a DC bus. It may connect to the mains or it may connect to another voltage source used specifically for DC bus charging. The purpose of the pre-charge is to limit initial charging (inrush) currents to levels that all components can withstand. The PtAssetPrechargeType is formally defined in Table 53. The PtAssetPrechargeType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 53 – PtAssetPrechargeType Definition

Attribute	Value
BrowseName	PtAssetPrechargeType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtPrechargeAttributes	PtPrechargeAttributesType	M
HasPtAttributes	Object	PtInputInterfaceAttributes	PtInputInterfaceAttributesType	M
HasPtAttributes	Object	PtCoolingAttributes	PtCoolingAttributesType	O
HasPtAttributes	Object	<PtFuseAttributes>	PtFuseAttributesType	OP
HasPtAttributes	Object	<PtCommunicationInterfaceAttributes>	PtCommunicationInterfaceAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.4.17.2 Object Description

PtPrechargeAttributes are formally defined in chapter 7.9.9.

PtInputInterfaceAttributes are formally defined in chapter 7.11.13.

PtCoolingAttributes are formally defined in chapter 7.11.8.

<PtFuseAttributes> are formally defined in chapter 7.11.12.

<PtCommunicationInterfaceAttributes> are formally defined in chapter 7.11.7.

7.5 Complete Drive Devices related Asset Types

7.5.1 PtAssetDriveType ObjectType Definition

7.5.1.1 Overview

The PtAssetDriveType describes a drive in a powertrain and is formally defined in Table 54. The PtAssetDriveType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 54 – PtAssetDriveType Definition

Attribute	Value
BrowseName	PtAssetDriveType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.5.1
HasPtAttributes	Object	PtCommunicationInterfaceAttributes	PtCommunicationInterfaceAttributesType	O
HasPtAttributes	Object	PtBleedAttributes	PtBleedAttributesType	O
HasPtAttributes	Object	PtInputConverterAttributes	PtInputConverterAttributesType	O
HasPtAttributes	Object	<PtOutputConverterAttributes>	PtOutputConverterAttributesType	MP
HasPtAttributes	Object	PtInputReactorAttributes	PtReactorAttributesType	O
HasPtAttributes	Object	<PtOutputReactorAttributes>	PtReactorAttributesType	OP
HasPtAttributes	Object	PtInputFilterAttributes	PtInputFilterAttributesType	O
HasPtAttributes	Object	<PtOutputFilterAttributes>	PtOutputFilterAttributesType	OP
HasPtAttributes	Object	PtInputInterfaceAttributes	PtInputInterfaceAttributesType	O
HasPtAttributes	Object	<PtOutputInterfaceAttributes>	PtOutputInterfaceAttributesType	OP
HasPtAttributes	Object	PtSafetyFunctionsAttributes	PtSafetyFunctionsAttributesType	O
HasPtAttributes	Object	PtDcBusAttributes	PtDcBusAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.5.1.2 Object Description

PtBleedAttributes are formally defined in chapter 7.9.1.

PtInputConverterAttributes are formally defined in chapter 7.4.5.

<PtOutputConverterAttributes> are formally defined in chapter 7.4.6.

PtInputReactorAttributes are formally defined in chapter 7.4.9.

<PtOutputReactorAttributes> are formally defined in chapter 7.4.11.

PtInputFilterAttributes are formally defined in chapter 7.4.8.

<PtOutputFilterAttributes> are formally defined in chapter 7.4.10.

PtInputInterfaceAttributes are formally defined in chapter 7.11.13.

<PtOutputInterfaceAttributes> are formally defined in chapter 7.11.14.

PtSafetyFunctionsAttributes are formally defined in chapter 7.11.18.

PtDcBusAttributes are formally defined in chapter 7.9.2. Could be used for stand-alone servo drive (PtInputfilterAttributes) or for a distributed DC bus ServoDriveType (PtDcBusAttributes).

7.5.2 PtAssetFrequencyConverterType ObjectType Definition

7.5.2.1 Overview

The PtAssetFrequencyConverterType describes the most general type of an inverter/drive. Its output might be fixed frequency phase currents or even DC. It is formally defined in Table 55. The PtAssetFrequencyConverterType is a subtype of the PtAssetDriveType and includes all its properties.

Table 55 – PtAssetFrequencyConverterType Definition

Attribute	Value
BrowseName	PtAssetFrequencyConverterType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetDriveType defined in chapter 7.5.1

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.5.3 PtAssetVariableSpeedDriveType ObjectType Definition

7.5.3.1 Overview

The PtAssetVariableSpeedDriveType is an inverter/drive which can operate the motor at various speeds. It is formally defined in in Table 56. The PtAssetVariableSpeedDriveType is a subtype of the PtAssetDriveType and therefore has mandatory identification attributes and optional asset attributes.

Table 56 – PtAssetVariableSpeedDriveType Definition

Attribute	Value
BrowseName	PtAssetVariableSpeedDriveType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetDriveType defined in chapter 7.5.2
HasPtAttributes	Object	<PtEncoderInterfaceAttributes>		PtEncoderInterfaceAttributesType	OP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.5.3.2 Object Description

<PtEncoderInterfaceAttributes> are formally defined in chapter 7.8.13.

7.5.4 PtAssetServoDriveType ObjectType Definition

7.5.4.1 Overview

The PtAssetServoDriveType is an inverter/drive which operates a motor in a closed loop configuration to feature high dynamics and accuracy. It is formally defined in Table 57. The PtAssetServoSpeedDriveType is a subtype of the PtAssetDriveType and therefore has mandatory identification attributes and optional asset attributes.

Table 57 – PtAssetServoDriveType Definition

Attribute	Value
BrowseName	PtAssetServoDriveType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetDriveType defined in chapter 7.5.2
HasPtAttributes	Object	<PtEncoderInterfaceAttributes>		PtEncoderInterfaceAttributesType	MP

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.5.4.2 Object Description

<PtEncoderInterfaceAttributes> are formally defined in chapter 7.8.13.

7.6 Switchgear related Asset Types

7.6.1 PtAssetContactorType ObjectType Definition

7.6.1.1 Overview

The PtAssetContactorType describes a contactor as an electro-mechanical device that is operated in a powertrain and is formally defined in Table 58. The PtAssetContactorType is a subtype of the PtAssetType and therefore has mandatory identification attributes.

Table 58 – PtAssetContactorType Definition

Attribute	Value
BrowseName	PtAssetContactorType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtContactorAttributes		PtContactorAttributesType	M

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.6.1.2 Object Description

PtContactorAttributes are formally defined in chapter 7.10.1.

7.6.2 PtAssetElectricOverloadRelayType ObjectType Definition

7.6.2.1 Overview

The PtAssetElectronicOverloadRelayType describes an overload relay in a powertrain and is formally defined in Table 59. The PtAssetElectronicOverloadRelayType is a subtype of the PtAssetType and therefore has mandatory identification attributes.

Table 59 – PtAssetElectricOverloadRelayType Definition

Attribute	Value
BrowseName	PtAssetElectricOverloadRelayType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtElectronicOverloadRelayAttributes	PtElectronicOverloadRelayAttributesType	M
HasPtAttributes	Object	PtCommunicationInterfaceAttributes	PtCommunicationInterfaceAttributesType	O

Conformance Units

Powertrain Base System

Powertrain Asset Identification

Powertrain Asset Identification Writable Tag

Powertrain Asset Attributes Types

Powertrain Attributes Information

7.6.2.2 Object Description

PtElectronicOverloadRelayAttributes are formally defined in chapter 7.10.2.

PtCommunicationInterfaceAttributes are formally defined in chapter 7.11.7.

7.6.3 PtAssetMotorStarterType ObjectType Definition

7.6.3.1 Overview

The PtAssetMotorStarterType describes a motor starter in a powertrain and is formally defined in Table 60. The PtAssetMotorStarterType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 60 – PtAssetMotorStarterType Definition

Attribute	Value
BrowseName	PtAssetMotorStarterType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtMotorStarterAttributes	PtMotorStarterAttributesType	M
HasPtAttributes	Object	PtCommunicationInterfaceAttributes	PtCommunicationInterfaceAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.6.3.2 Object Description

PtMotorStarterAttributes are formally defined in chapter 7.10.3.

PtCommunicationInterfaceAttributes are formally defined in chapter 7.11.7.

7.6.4 PtAssetSoftStarterType ObjectType Definition

7.6.4.1 Overview

The PtAssetSoftStarterType describes a softstarter in a powertrain and is formally defined in Table 61. The PtAssetSoftStarterType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 61 – PtAssetSoftStarterType Definition

Attribute	Value
BrowseName	PtAssetSoftStarterType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtSoftStarterAttributes	PtSoftStarterAttributesType	M
HasPtAttributes	Object	PtCommunicationInterfaceAttributes	PtCommunicationInterfaceAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.6.4.2 Object Description

PtSoftStarterAttributes are formally defined in chapter 7.10.4.

PtCommunicationInterfaceAttributes are formally defined in chapter 7.11.7.

7.6.5 PtAssetMotorManagementDeviceType ObjectType Definition

7.6.5.1 Overview

The PtAssetMotorManagementDeviceType describes a motor management device in a powertrain and is formally defined in Table 62. The PtAssetMotorManagementDeviceType is a subtype of the PtAssetType and therefore has mandatory identification attributes and optional asset attributes of PtCommonAssetAttributesType.

Table 62 – PtAssetMotorManagementDeviceType Definition

Attribute	Value
BrowseName	PtAssetMotorManagementDeviceType
IsAbstract	False

References	Node Class	BrowseName	TypeDefinition	Other
Subtype of the PtAssetType defined in chapter 7.1
HasPtAttributes	Object	PtMotorManagementDeviceAttributes	PtMotorManagementDeviceAttributesType	M
HasPtAttributes	Object	PtCommunicationInterfaceAttributes	PtCommunicationInterfaceAttributesType	O

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

7.6.5.2 Object Description

PtMotorManagementDeviceAttributes are formally defined in chapter 7.10.5.

PtCommunicationInterfaceAttributes are formally defined in chapter 7.11.7.

7.7 PtAssetAttributesType ObjectType Definition

The PtAssetAttributesType provides asset attributes to the respective asset in a modular manner and is formally defined in Table 63.

Table 63 – PtAssetAttributesType Definition

Attribute	Value
BrowseName	PtAssetAttributesType
IsAbstract	True

References	Node Class	BrowseName	DataType	TypeDefinition
Subtype of the BaseObjectType defined in in OPC Unified Architecture OPC 10000-5
0:HasProperty	Variable	0:DefaultInstanceBrowseName	0:QualifiedName	0:PropertyType
Motor / Motor Components related asset attributes types are a subtype of PtAssetAttributesType
0:HasSubtype	ObjectType	PtMotorAttributesType


0:HasSubtype	ObjectType	PtMotorRatedAttributesType


0:HasSubtype	ObjectType	PtMotorDutyAttributesType
0:HasSubtype	ObjectType	PtGearAttributesType
0:HasSubtype	ObjectType	PtEncoderAttributesType


0:HasSubtype	ObjectType	PtEncoderInterfaceAttributesType
0:HasSubtype	ObjectType	PtEncoderInterfaceProtocolAttributesType
0:HasSubtype	ObjectType	PtBrakeAttributesType
0:HasSubtype	ObjectType	PtTemperatureSensorAttributesType
0:HasSubtype	ObjectType	PtVibrationSensorAttributesType

Drive Components related asset attributes types are a subtype of PtAssetAttributesType
0:HasSubtype	ObjectType	PtBleedAttributesType
0:HasSubtype	ObjectType	PtDcBusAttributesType
0:HasSubtype	ObjectType	PtCapacitanceAttributesType
0:HasSubtype	ObjectType	PtInputConverterAttributesType
0:HasSubtype	ObjectType	PtReactorAttributesType
0:HasSubtype	ObjectType	PtOutputConverterAttributesType
0:HasSubtype	ObjectType	PtInputFilterAttributesType
0:HasSubtype	ObjectType	PtOutputFilterAttributesType
0:HasSubtype	ObjectType	PtPrechargeAttributesType

Switchgear related asset attributes types are a subtype of PtAssetAttributesType
0:HasSubtype	ObjectType	PtContactorAttributesType
0:HasSubtype	ObjectType	PtElectronicOverloadRelayAttributesType
0:HasSubtype	ObjectType	PtMotorStarterAttributesType
0:HasSubtype	ObjectType	PtSoftStarterAttributesType
0:HasSubtype	ObjectType	PtMotorManagementDeviceAttributesType

Common asset attributes type are a subtype of PtAssetAttributesType
0:HasSubtype	ObjectType	PtCommonAssetAttributesType

Conformance Units
Powertrain Base System
Powertrain Asset Identification
Powertrain Asset Identification Writable Tag
Powertrain Asset Attributes Types
Powertrain Attributes Information

The InstanceDeclarations of the subtypes of PtAssetAttributesType have a value for the DefaultInstanceBrowseName defined in Table 64. The DefaultInstanceBrowseName value defines the recommended BrowseName for instances of the type. Instances use an additional enumeration (BrowseName_01) in the BrowseName. The extension of the BrowseName by XY starts with "01" for the first instance and should be continued accordingly for each further instance ("02", “03"......."10", etc.). According to OPC 10000-3 – “AddIn model” the property DefaultInstanceBrowseName is only needed on type level.

Table 64 – PtAssetAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute
0:DefaultInstanceBrowseName	PtAssetAttribute_01
	PtMotorAttributes_01
	PtMotorRotaryAttributes_01
	PtMotorLinearAttributes_01
	PtMotorRatedAttributes_01
	PtMotorRotaryRatedAttributes_01
	PtMotorLinearRatedAttributes_01
	PtMotorDutyAttributes_01
	PtGearAttributes_01
	PtEncoderAttributes_01
	PtEncoderRotaryAttributes_01
	PtEncoderLinearAttributes_01
	PtEncoderInterfaceAttributes_01
	PtEncoderInterfaceProtocolAttributes_01
	PtBrakeAttributes_01
	PtTemperatureSensorAttributes_01
	PtVibrationSensorAttributes_01
	PtBleedAttributes_01
	PtDcBusAttributes_01
	PtCapacitanceAttributes_01
	PtInputConverterAttributes_01
	PtReactorAttributes_01
	PtOutputConverterAttributes_01
	PtInputFilterAttributes_01
	PtOutputFilterAttributes_01
	PtPrechargeAttributes_01
	PtContactorAttributes_01
	PtElectronicOverloadRelayAttributes_01
	PtMotorStarterAttributes_01
	PtSoftStarterAttributes_01
	PtMotorManagementAttributes_01

7.8 Motor / Motor Components related AssetAttributesTypes

7.8.1 PtMotorAttributesType ObjectType Definition

7.8.1.1 Overview

The PtMotorAttributesType provides common asset attributes of a motor and is formally defined in Table 65.

Table 65 – PtMotorAttributesType Definition

Attribute	Value
BrowseName	PtMotorAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasSubtype	ObjectType	PtMotorRotaryAttributesType
0:HasSubtype	ObjectType	PtMotorLinearAttributesType
0:HasComponent	Variable	MotorType	0:UInt16	0:MultiStateValueDiscreteType	O, RO

Conformance Units

Powertrain Attributes Information

7.8.1.2 Object Description

MotorType provides which physical principle is used in the rotor design. The values of the MultiStateValueDiscreteType variable are defined in Table 66 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 66 – PtMotorAttributesType Attribute values for child Nodes

BrowsePath

Value Attribute

Description Attribute

[

{

"Value":0,

"DisplayName":"ASYNCHRONOUS",

"Description":"Asynchronous motor"

{

"Value":1,

"DisplayName":"PM_AC_SYNCHRONOUS",

"Description":"Permanent magnet synchronous motor"

{

"Value":2,

"DisplayName":"PM_AC_SYNCHRONOUS_IRONLESS",

"Description":"Permanent magnet synchronous motor ironless"

{

"Value":3,

"DisplayName":"DC_BRUSHLESS",

"Description":"Brushless DC motor"

{

"Value":4,

"DisplayName":"DC_BRUSHED",

"Description":"Brushed DC motor"

{

"Value":5,

"DisplayName":"PM_STEPPER",

"Description":"Permanent magnet stepper motor"

{

"Value":6,

"DisplayName":"HYBRID_STEPPER",

"Description":"Hybrid stepper motor"

{

"Value":7,

"DisplayName":"SYNC_RELUCTANCE",

"Description":"Synchronous reluctance motor"

}

]

7.8.2 PtMotorRotaryAttributesType ObjectType Definition

7.8.2.1 Overview

The PtMotorRotaryAttributesType provides common asset attributes of a rotary motor and is formally defined in Table 67.

Table 67 – PtMotorRotaryAttributesType Definition

Attribute	Value
BrowseName	PtMotorRotaryAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtMotorAttributesType defined in chapter 7.8.1
0:HasProperty	Variable	MotorPolePairs	0:UInt16	0:PropertyType	O, RO
0:HasComponent	Variable	MotorInertia	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorBackEMF	0:Float	0:AnalogUnitType	O, RO

Conformance Units

Powertrain Attributes Information

7.8.2.2 Object Description

MotorPolePairs provides the number of pole pairs of the fundamental magnetic field in the air gap generated by the stator winding. It is usable to calculate the speed over frequency.

MotorInertia provides the rotor moment of inertia of a rotational motor. The unit of this asset attribute shall be kilogram meter squared [kg m²].

MotorBackEMF provides the back electromotive force of a synchronous motor. It is the voltage induced by the air gap field in the stator winding related to the rotational speed. It is measured at the terminals. The unit of this asset attribute shall be volt per revolutions per minute [V/rpm].

7.8.3 PtMotorLinearAttributesType ObjectType Definition

7.8.3.1 Overview

The PtMotorLinearAttributesType provides common asset attributes of a linear motor and is formally defined in Table 68.

Table 68 – PtMotorLinearAttributesType Definition

Attribute	Value
BrowseName	PtMotorLinearAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtMotorAttributesType defined in chapter 7.8.1
0:HasComponent	Variable	MotorPolePairPitch	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	ForcerWeight	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorBackEMF	0:Float	0:AnalogUnitType	O, RO

Conformance Units

Powertrain Attributes Information

7.8.3.2 Object Description

MotorPolePairPitch provides the distance between two successive magnetic poles of the linear motor. The unit of this asset attribute shall be millimeter [mm].

ForcerWeight provides the weight of the forcer (coil) of the linear motor. The unit of this asset attribute shall be kilogram [kg].

7.8.4 PtMotorRatedAttributesType ObjectType Definition

7.8.4.1 Overview

The PtMotorRatedAttributesType provides common operation modes and related asset attributes of a base motor type and is formally defined in Table 69. These rated asset attributes provide a consistent asset attribute set for a specific operation point of a motor.

Table 69 – PtMotorRatedAttributesType Definition

Attribute	Value
BrowseName	PtMotorRatedAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7

0:HasSubtype	ObjectType	PtMotorRotaryRatedAttributesType
0:HasSubtype	ObjectType	PtMotorLinearRatedAttributesType
0:HasComponent	Object	PtInputInterfaceAttributes		PtInputInterfaceAttributesType	M
0:HasComponent	Object	PtMotorDutyAttributes		PtMotorDutyAttributesType	O
0:HasComponent	Variable	MotorEfficiencyClass	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	MotorCurrentContinuousStall	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorPowerRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorPowerFactor	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorWindingType	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasProperty	Variable	IsCooled	0:Boolean	0:PropertyType	O,RO

Conformance Units
Powertrain Attributes Information

7.8.4.2 Object Description

PtInputInterfaceAttributes is formally defined in chapter 7.11.13.

PtMotorDutyAttributes is formally defined in chapter 7.8.7.

MotorEfficiencyClass provides the efficiency class specified by the IEC 60034-1, IEC 60034-2 and IEC 61800-9-2. The values of the MultiStateValueDiscreteType variable are defined in Table 70 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

MotorCurrentContinuousStall provides the maximum continuous input current that occurs at stall torque and low speed without causing thermal damage. The unit shall be ampere [A].

MotorPowerRated provides the value of the output power specified by the manufacturer at which the motor can be operated continuously under normal conditions without damage or safety risks, or the power intended for normal operation. The unit shall be watt [W].

MotorPowerFactor provides the phase shift between voltage (RMS) and current (RMS), or the ratio of the amount of active power to the apparent power in the rated torque and speed operation point.

MotorWindingType provides how the three (or more) connections of the winding will be connected to the supporting grid. The values of the MultiStateValueDiscreteType variable are defined in Table 70 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 70 – PtMotorRatedAttributesType Attribute values for child Nodes

BrowsePath

Value Attribute

Description Attribute

[

{

"Value":0,

"DisplayName":"IE1",

"Description":"Standard Efficiency"

{

"Value":1,

"DisplayName":"IE2",

"Description":"High Efficiency"

{

"Value":2,

"DisplayName":"IE3",

"Description":"Premium Efficiency"

{

"Value":3,

"DisplayName":"IE4",

"Description":"Super Premium Efficiency"

{

"Value":4,

"DisplayName":"IE5",

"Description":"Ultra Premium Efficiency"

{

"Value":5,

"DisplayName":"IES0",

"Description":"Relative losses are higher than 20 % of the value defined by the RPDS"

{

"Value":6,

"DisplayName":"IES1",

"Description":"Relative losses are within ±20 % of the value defined by the RPDS"

{

"Value":7,

"DisplayName":"IES2",

"Description":"Relative losses are smaller than 20 % of the value defined by the RPDS"

}

]

[
{
"Value": 0,
"DisplayName": "IE1",
"Description": "Standard Efficiency"
},
{
"Value": 1,
"DisplayName": "IE2",
"Description": "High Efficiency"
},
{
"Value": 2,
"DisplayName": "IE3",
"Description": "Premium Efficiency"
},
{
"Value": 3,
"DisplayName": "IE4",
"Description": "Super Premium Efficiency"
},
{
"Value": 4,
"DisplayName": "IE5",
"Description": "Ultra Premium Efficiency"
},
{
"Value": 5,
"DisplayName": "IES0",
"Description": "Relative losses are higher than 20 % of the value defined by the RPDS"
},
{
"Value": 6,
"DisplayName": "IES1",
"Description": "Relative losses are within ±20 % of the value defined by the RPDS"
},
{
"Value": 7,
"DisplayName": "IES2",
"Description": "Relative losses are smaller than 20 % of the value defined by the RPDS"
}
]

IsCooled provides the information if a motor is cooled or not.

7.8.5 PtMotorRotaryRatedAttributesType ObjectType Definition

7.8.5.1 Overview

The PtMotorRotaryRatedAttributesType provides common operation modes and related asset attributes of a rotary motor and is formally defined in Table 71. These rated asset attributes provide a consistent asset attribute set for a specific operation point of a motor.

Table 71 – PtMotorRotaryRatedAttributesType Definition

Attribute	Value
BrowseName	PtMotorRotaryRatedAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtMotorRatedAttributesType defined in chapter 7.8.4

0:HasComponent	Variable	MotorSpeedMax	0:Float	0:AnalogUnitType	M, RO
0:HasComponent	Variable	MotorSpeedRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorTorqueMax	0:Float	0:AnalogUnitType	M, RO
0:HasComponent	Variable	MotorTorqueRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorTorqueContinuousStall	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorTorqueConstant	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.5.2 Object Description

MotorSpeedMax provides the highest supported speed of the motor shaft. A higher speed can damage the motor. The unit shall be revolutions per minute [rpm].

MotorSpeedRated provides the speed that occurs at rated voltage, rated frequency, and rated torque. The unit shall be revolutions per minute [rpm].

MotorTorqueMax provides the maximum supported short-term torque. The unit shall be newton meter [Nm].

MotorTorqueRated provides the torque at rated speed and rated voltage. The unit shall be newton meter [Nm].

MotorTorqueContinuousStall provides the maximum torque a motor can generate continuously at low speed without causing thermal damage. The unit shall be newton meter [Nm].

MotorTorqueConstant provides the ratio of torque to current. It is only usable in the linear range.

7.8.6 PtMotorLinearRatedAttributesType ObjectType Definition

7.8.6.1 Overview

The PtMotorLinearRatedAttributesType provides common operation modes and related asset attributes of a linear motor and is formally defined in Table 72. These rated asset attributes provide a consistent asset attribute set for a specific operation point of a motor.

Table 72 – PtMotorLinearRatedAttributesType Definition

Attribute	Value
BrowseName	PtMotorLinearRatedAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtMotorRatedAttributesType defined in chapter 7.8.4

0:HasComponent	Variable	MotorSpeedMax	0:Float	0:AnalogUnitType	M, RO
0:HasComponent	Variable	MotorSpeedRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorForceMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorForceRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorForceContinuousStall	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	MotorForceConstant	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.6.2 Object Description

MotorSpeedMax provides the highest supported speed of the motor shaft. A higher speed can damage the motor. The unit shall be meter per second [m/s].

MotorSpeedRated provides the speed that occurs at rated voltage, rated frequency, and rated torque. The unit shall be meter per second [m/s].

MotorForceMax provides the maximum supported short-term force. The unit shall be newton [N].

MotorForceRated provides the force at rated speed and rated voltage. The unit shall be newton [N].

MotorForceContinuousStall provides the maximum force a motor can generate continuously at low speed without causing thermal damage. The unit shall be newton [N].

MotorForceConstant provides the ratio of force to current. It is only usable in the linear range.

7.8.7 PtMotorDutyAttributesType ObjectType Definition

7.8.7.1 Overview

The PtMotorDutyAttributesType provides the rated operating mode of a motor and is formally defined in Table 73. It is a description of the load(s) to which the motor is subjected. The duty types are defined in the international standard IEC 60034-1.

In addition to the duty type, information such as the switching cycles per hour and the duty cycle is required to assess the suitability of a machine for an application.

Various PtMotorRatedAttributes variables, like MotorPowerRated, depend on the PtMotorDutyAttributes.

Table 73 – PtMotorDutyAttributesType Definition

Attribute	Value
BrowseName	PtMotorDutyAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7

0:HasComponent	Variable	DutyType	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasProperty	Variable	LoadProfile	0:String[]	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.7.2 Object Description

DutyType provides a rated operating mode of a motor. The duty types are defined in the international standard IEC 60034-1. Some of these duty types can specify the load profile in more detail by means of limit value specifications. The values of the MultiStateValueDiscreteType variable are defined in Table 74 and shall be used. Additional values will be added in the specification. Manufacturer-specific extensions are not foreseen.

Table 74 – PtMotorDutyAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "S1", "Description": "Continuous duty" }, { "Value": 1, "DisplayName": "S2", "Description": "Short-time duty" }, { "Value": 2, "DisplayName": "S3", "Description": "Intermittent periodic duty" }, { "Value": 3, "DisplayName": "S4", "Description": "Intermittent periodic duty with starting" }, { "Value": 4, "DisplayName": "S5", "Description": "Intermittent periodic duty with electric braking" }, { "Value": 5, "DisplayName": "S6", "Description": "Continuous operation with intermittent load" }, { "Value": 6, "DisplayName": "S7", "Description": "Continuous operation periodic duty with electric braking" }, { "Value": 7, "DisplayName": "S8", "Description": "Continuous operation with periodic changes in load and speed" }, { "Value": 8, "DisplayName": "S9", "Description": "Duty with non-periodic load and speed variations" }, { "Value": 9, "DisplayName": "S10", "Description": "Duty with discrete constant loads and speeds" } ]

LoadProfile provides a description for a duty type specific load profile according to IEC 60034-1. The load profiles may be described in a string array e.g. for the duty type S8. Clients should be aware of this. Examples are mentioned in Table 75.

Table 75 – Examples of Duty Type Load Profiles

DutyType	LoadProfile-Example	LoadProfile -Description
S1		Continuous duty
S2	60 min	Short-time duty
S3	25 %	Intermittent periodic duty
S4	25 % Jm = 0,15 kg x m² Jext = 0,7 kg x m²	Intermittent periodic duty with starting
S5	25 % Jm = 0,15 kg x m² Jext = 0,7 kg x m²	Intermittent periodic duty with electric braking
S6	40 %	Continuous operation with intermittent load
S7	Jm = 0,15 kg x m² Jext = 0,7 kg x m²	Continuous operation periodic duty with electric braking
S8	Jm = 0,15 kg x m² Jext = 0,7 kg x m² 16 kW 740 min-1 30 % 40 kW 1460min-1 30 % 25 kW 980 min-1 40 %	Continuous operation with periodic changes in load and speed
S9		Duty with non-periodic load and speed variations
S10	p/dt= 1,1/0,4; 1/0,3; 0,9/0,2; r/0,1 TL = 0,6	Duty with discrete constant loads and speeds

7.8.8 PtGearAttributesType ObjectType Definition

7.8.8.1 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	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	<GearRatio>	0:Float	0:AnalogUnitType	OP, RO
0:HasComponent	Variable	Backlash	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	TorsionalRigidity	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	GearInertia	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	TorqueRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	SpeedRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	AxialForceMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	<Efficiency>	0:Float	0:AnalogUnitType	OP, RO
0:HasComponent	Variable	GearType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	LubricantType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	LubricantInterval	0:Float	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.8.2 Object Description

GearRatio is the ratio of the speed of rotation of the powered gear of a gear train to that of the final or driven gear. In most gear types the gear ratio is a constant value. However, gears exist where the ratio can be changed manually or automatically. To address all types of gears the variable GearRatio is defined as optional placeholder.

Backlash is the play between gear input and output shaft. The unit shall be arcminute [arcmin].

TorsionalRigidity is the torsional stiffness of the input shaft if the output shaft is fixed. The unit shall be newton meter/arcminute [Nm/arcmin].

GearInertia is the total inertia of the gearbox seen by the input shaft. The unit shall be kilogram/square centimeter [kg cm²].

TorqueRated is the output torque that the gearbox can deliver continuously. The unit shall be newton meter [Nm].

SpeedRated is the output speed that the gearbox can deliver continuously. The unit shall be revolutions per minute [rpm].

AxialForceMax is the maximum allowable axial force applied to the output shaft of the gearbox. The unit shall be newton [N].

<Efficiency> is the ratio of output to input power of the gear. The unit shall be percent [%].

GearType provides the type of gear. The values of the MultiStateValueDiscreteType variable are defined in Table 77 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 77 – PtGearAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "PLANETARY_GEAR", "Description": "Gearbox with planetary gears" }, { "Value": 1, "DisplayName": "WORM_GEAR", "Description": "Gearbox with worm gear" }, { "Value": 2, "DisplayName": "SPUR_GEAR", "Description": "Gearbox with spur gears" }, { "Value": 3, "DisplayName": "HARMONIC_DRIVE_GEAR", "Description": "Gearbox with harmonic drive gears" }, { "Value": 4, "DisplayName": "SYNCHRONOUS_BELT", "Description": "Gearbox with synchronous belt" }, { "Value": 5, "DisplayName": "V_BELT", "Description": "Gearbox with V-belt" }, { "Value": 6, "DisplayName": "RACK_AND_PINION", "Description": "Gearbox with rack and pinion" }, { "Value": 7, "DisplayName": "SPINDLE_BALLSCREW", "Description": "Gearbox with spindle and ball screw" }, { "Value": 8, "DisplayName": "SPINDLE_THREAD", "Description": "Gearbox with spindle and thread" } ]
	[ { "Value": 0, "DisplayName": "OTHER", "Description": "Other viscosity grade" }, { "Value": 1, "DisplayName": "ISO_VG_2", "Description": "International Organization for Standardization Viscosity Grade 2" }, { "Value": 2, "DisplayName": "ISO_VG_3", "Description": "International Organization for Standardization Viscosity Grade 3" }, { "Value": 3, "DisplayName": "ISO_VG_5", "Description": "International Organization for Standardization Viscosity Grade 5" }, { "Value": 4, "DisplayName": "ISO_VG_7", "Description": "International Organization for Standardization Viscosity Grade 7" }, { "Value": 5, "DisplayName": "ISO_VG_10", "Description": "International Organization for Standardization Viscosity Grade 10" }, { "Value": 6, "DisplayName": "ISO_VG_15", "Description": "International Organization for Standardization Viscosity Grade 15" }, { "Value": 7, "DisplayName": "ISO_VG_22", "Description": "International Organization for Standardization Viscosity Grade 22" }, { "Value": 8, "DisplayName": "ISO_VG_32", "Description": "International Organization for Standardization Viscosity Grade 32" }, { "Value": 9, "DisplayName": "ISO_VG_46", "Description": "International Organization for Standardization Viscosity Grade 46" }, { "Value": 10, "DisplayName": "ISO_VG_68", "Description": "International Organization for Standardization Viscosity Grade 68" }, { "Value": 11, "DisplayName": "ISO_VG_100", "Description": "International Organization for Standardization Viscosity Grade 100" }, { "Value": 12, "DisplayName": "ISO_VG_150", "Description": "International Organization for Standardization Viscosity Grade 150" }, { "Value": 13, "DisplayName": "ISO_VG_220", "Description": "International Organization for Standardization Viscosity Grade 220" }, { "Value": 14, "DisplayName": "ISO_VG_320", "Description": "International Organization for Standardization Viscosity Grade 320" }, { "Value": 15, "DisplayName": "ISO_VG_460", "Description": "International Organization for Standardization Viscosity Grade 460" }, { "Value": 16, "DisplayName": "ISO_VG_680", "Description": "International Organization for Standardization Viscosity Grade 680" }, { "Value": 17, "DisplayName": "ISO_VG_1000", "Description": "International Organization for Standardization Viscosity Grade 1000" }, { "Value": 18, "DisplayName": "ISO_VG_1500", "Description": "International Organization for Standardization Viscosity Grade 1500" }, { "Value": 19, "DisplayName": "NLGI_000", "Description": "National Lubricating Grease Institute_Class 000" }, { "Value": 20, "DisplayName": "NLGI_00", "Description": "National Lubricating Grease Institute_Class 00" }, { "Value": 21, "DisplayName": "NLGI_0", "Description": "National Lubricating Grease Institute_Class 0" }, { "Value": 22, "DisplayName": "NLGI_1", "Description": "National Lubricating Grease Institute_Class 1" }, { "Value": 23, "DisplayName": "NLGI_2", "Description": "National Lubricating Grease Institute_Class 2" }, { "Value": 24, "DisplayName": "NLGI_3", "Description": "National Lubricating Grease Institute_Class 3" }, { "Value": 25, "DisplayName": "NLGI_4", "Description": "National Lubricating Grease Institute_Class 4" }, { "Value": 26, "DisplayName": "NLGI_5", "Description": "National Lubricating Grease Institute_Class 5" }, { "Value": 27, "DisplayName": "NLGI_6", "Description": "National Lubricating Grease Institute_Class 6" } ]

LubricantType provides the type of gear lubricant. The values of the MultiStateValueDiscreteType variable are defined in Table 77 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

LubricantInterval is the nominal time interval between gear lubrication. The unit shall be days [days].

7.8.9 PtEncoderAttributesType ObjectType Definition

7.8.9.1 Overview

The PtEncoderAttributesType provides the common asset attributes of an encoder and is formally defined in Table 81.

Table 78 – PtEncoderAttributesType Definition

Attribute	Value
BrowseName	PtEncoderAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasSubtype	ObjectType	PtEncoderRotaryAttributesType
0:HasSubtype	ObjectType	PtEncoderLinearAttributesType
0:HasComponent	Variable	EncoderType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	EncoderTechnology	0:UInt16	0:MultiStateValueDiscreteType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.9.2 Object Description

EncoderType provides the type of encoder. The values of the MultiStateValueDiscreteType variable are defined in Table 79 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 79 – PtEncoderAttributesType Attribute values for child

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "ROT_SINGLE_TURN", "Description": "Rotary absolute single-turn" }, { "Value": 1, "DisplayName": "ROT_MULTI_TURN", "Description": "Rotary absolute multi-turn" }, { "Value": 2, "DisplayName": "ROT_INCREMENTAL", "Description": "Rotary incremental" }, { "Value": 3, "DisplayName": "LINEAR_INCREMENTAL", "Description": "Linear incremental" }, { "Value": 4, "DisplayName": "LINEAR_ABSOLUTE", "Description": "Linear absolute" }, { "Value": 5, "DisplayName": "LINEAR_DIST_CODE", "Description": "Linear absolute distance coded" } ]
	[ { "Value": 0, "DisplayName": "OPTICAL", "Description": "Optical encoder" }, { "Value": 1, "DisplayName": "MAGNETIC", "Description": "Magnetic encoder" }, { "Value": 2, "DisplayName": "INDUCTIVE", "Description": "Inductive encoder" }, { "Value": 3, "DisplayName": "CAPACITIVE", "Description": "Capacitive encoder" }, { "Value": 4, "DisplayName": "DRAW_WIRE", "Description": "Encoder with draw wire mechanics" }, { "Value": 5, "DisplayName": "MEASURING_WHEEL", "Description": "Encoder with measuring wheel mechanics" }, { "Value": 6, "DisplayName": "RESOLVER", "Description": "Resolver" } ]

The value of the EncoderType have additional CDD entries which are defined in Table 80.

Table 80 – EncoderType CDD Entries

0:EnumValues	CLASS ID CDD Entry	PROPERTY ID CDD Entry	Value ID CDD Entry
ROT_SINGLE_TURN	0112/2///62683#ACC540	0112/2///62683#ACE267	0112/2///62683#ACH005
ROT_MULTI_TURN	0112/2///62683#ACC540	0112/2///62683#ACE267	0112/2///62683#ACH006
ROT_INCREMENTAL	0112/2///62683#ACC540	0112/2///62683#ACE268	0112/2///62683#ACH319
LINEAR_INCREMENTAL	0112/2///62683#ACC541	0112/2///62683#ACE268	0112/2///62683#ACH319
LINEAR_ABSOLUTE	0112/2///62683#ACC541	0112/2///62683#ACE268	0112/2///62683#ACH318
LINEAR_DIST_CODE	0112/2///62683#ACC541	0112/2///62683#ACE268	0112/2///62683#ACH318

EncoderTechnology provides types of encoder technology. The values of the MultiStateValueDiscreteType variable are defined in Table 79and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

7.8.10 PtEncoderRotaryAttributesType ObjectType Definition

7.8.10.1 Overview

The PtEncoderRotaryAttributesType provides the common asset attributes of an encoder and is formally defined in Table 81.

Table 81 – PtEncoderRotaryAttributesType Definition

Attribute	Value
BrowseName	PtEncoderRotaryAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtEncoderAttributesType defined in chapter 7.8.9
0:HasProperty	Variable	FeedbackResolverPolePairNumber	0:UInt32	0:PropertyType	O, RO
0:HasComponent	Variable	FeedbackResolverExcitationVoltage	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	FeedbackResolverExcitationFrequency	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	FeedbackResolverRatio	0:Float	0:PropertyType	O, RO
0:HasComponent	Variable	EncoderRotarySpeedMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	ResolutionRotaryIncremental	0:UInt32	0:AnalogUnitType	O, RO
0:HasComponent	Variable	ResolutionSingleturnAbsolute	0:UInt32	0:AnalogUnitType	O, RO
0:HasComponent	Variable	ResolutionMultiturnAbsolute	0:UInt32	0:AnalogUnitType	O, RO
0:HasComponent	Variable	EncoderFlangeSize	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	EncoderFlangeType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	EncoderShaftType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	EncoderShaftSize	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.10.2 Object Description

FeedbackResolverPolePairNumber provides the number of pole pairs of the resolver.

FeedbackResolverExcitationVoltage provides the information of the excitation voltage as magnitude of the conversion from polar to rectangular coordinates. The unit shall be volt [V].

FeedbackResolverExcitationFrequency provides the excitation frequency of the system. The unit shall be hertz [Hz].

FeedbackResolverRatio provides the transformation ratio of the resolver. It is the ratio of the output voltage to the input voltage when the output voltage is at maximum magnetic coupling. It is a numerical value.

EncoderRotarySpeedMax provides the maximum value for rotational speed. Unit shall be revolution per minute [1/min].

ResolutionRotaryIncremental provides the number of pulses generated per revolution. The unit shall be pulses per revolution [ppr].

ResolutionSingleturnAbsolute provides the number of discrete positions generated by the encoder as unique angular positions of the shaft within one revolution. For example, 12 bits resolution provide 4096 unique angular position values per revolution. It is a numerical integer value.

ResolutionMultiturnAbsolute provides the total number of revolutions defining the total absolute range of the encoder. For example, 12 bit counts up to 4096 revolutions. It is a numerical integer value.

EncoderFlangeSize indicates on a shaft encoder the mounting diameter of the encoder flange, on a hollow shaft encoder the dimension of the pitch circle / the distance from the fixing point to the shaft center.

EncoderFlangeType defines the mechanical design of the flange relevant for the fixing of the encoder in order to avoid that the encoder rotates with the application shaft. For encoder which do not need a mechanical fixing to the application shaft choose “contactless encoder”, this is commonly the case for kit-encoders or linear encoders. The values of the MultiStateValueDiscreteType variable are defined in Table 82 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 82 – PtEncoderRotaryAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "CONTACTLESS", "Description": "Contactless encoder" }, { "Value": 1, "DisplayName": "SYNCHRO", "Description": "Synchro flange" }, { "Value": 2, "DisplayName": "CLAMPING", "Description": "Clamping flange" }, { "Value": 3, "DisplayName": "HOLLOW_SHAFT", "Description": "Hollow shaft flange" }, { "Value": 4, "DisplayName": "BLIND_HOLLOW", "Description": "Blind hollow shaft flange" }, { "Value": 5, "DisplayName": "SERVO_FLANGE", "Description": "Centered flange mount" }, { "Value": 6, "DisplayName": "FACE_MOUNT", "Description": "Face mount with torque compensator" } ]	Contactless encoder
	[ { "Value": 0, "DisplayName": "THROUGH-HOLLOW", "Description": "Through hollow shaft type" }, { "Value": 1, "DisplayName": "BLIND-HOLLOW", "Description": "Blind hollow shaft type" }, { "Value": 2, "DisplayName": "TAPERED", "Description": "Tapered shaft type" }, { "Value": 3, "DisplayName": "STRAIGHT", "Description": "Straight shaft type" }, { "Value": 4, "DisplayName": "SOLID", "Description": "Solid shaft type" }, { "Value": 5, "DisplayName": "CONE", "Description": "Cone shaft type" } ]

EncoderShaftType mechanical design to connect rotary encoder to a powertrain shaft. The values of the MultiStateValueDiscreteType variable are defined in Table 82shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

The 0:EnumValues for the EncoderShaftType have additional CDD entries references which are defined in Table 83.

Table 83 – EncoderShaftType CDD Entries

SourceBrowsePath

TargetBrowsePath

OTHER

0112/2///62683#ACH474#001

THROUGH-HOLLOW

0112/2///62683#ACH472#001

BLIND-HOLLOW

0112/2///62683#ACH669#001

SOLID

0112/2///62683#ACH471#001

CONE

0112/2///62683#ACH473#001

EncoderShaftSize provides the diameter value of the mounting shaft. The unit shall be millimeter [mm].

7.8.11 PtEncoderLinearAttributesType ObjectType Definition

7.8.11.1 Overview

The PtEncoderLinearAttributesType provides the common asset attributes of an encoder and is formally defined in Table 84.

Table 84 – PtEncoderLinearAttributesType Definition

Attribute	Value
BrowseName	PtEncoderLinearAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtEncoderAttributesType defined in chapter 7.8.9
0:HasProperty	Variable	ResolutionLinearIncremental	0:UInt32	0:PropertyType	O, RO
0:HasComponent	Variable	ResolutionLinearAbsolute	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	RangeLinear	0:UInt32	0:AnalogUnitType	O, RO
0:HasProperty	Variable	EncoderMounting	0:Float	0:PropertyType	O, RO
0:HasComponent	Variable	EncoderReadingDistance	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	EncoderSpeedLinearMax	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.11.2 Object Description

ResolutionLinearIncremental provides the number of pulses generated per linear scale. The unit shall be [1/mm] (pulses per mm).

ResolutionLinearAbsolute provides the number of increments generated per absolute linear scale. Unit shall be [1/mm].

RangeLinear provides the total range of the usable linear scale. The unit shall be [mm].

EncoderMounting provides the distance between two fixing points for the reading head in [mm].

EncoderReadingDistance provides the distance between measure and the reading head in [mm].

EncoderSpeedLinearMax provides the information of the maximum linear encoder speed in [m/s].

7.8.12 PtEncoderInterfaceAttributesType ObjectType Definition

7.8.12.1 Overview

The PtEncoderInterfaceAttributesType provides the common asset attributes of the encoder interface. Those asset attributes describe the protocols and signals that the encoder interface supports. It is formally defined in Table 85.

Table 85 – PtEncoderInterfaceAttributesType Definition

Attribute	Value
BrowseName	PtEncoderInterfaceAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
HasPtAttributes	Object	<PtEncoderInterfaceProtocolAttributes>		PtEncoderInterfaceProtocolAttributesType	OP, RO
HasComponent	Variable	EncoderSignal	0:UInt16	0:MultiStateValueDiscreteType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.12.2 Object Description

PtEncoderInterfaceProtocolAttributes are formally defined in chapter 7.8.13.

EncoderSignal provides encoder signal types for incremental information. The values of the MultiStateValueDiscreteType variable are defined in Table 86 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 86 – PtEncoderInterfaceAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "RS-422_5V_TTL", "Description": "RS-422 (TTL - transistor transistor logic), 5 V signal level" }, { "Value": 1, "DisplayName": "RS-422_5-30V", "Description": "RS-422 signal level depend from entry level 5 V to 30 V" }, { "Value": 2, "DisplayName": "SINCOS_1VPP", "Description": "SinCos, 1 Vss output level" }, { "Value": 3, "DisplayName": "RESOLVER", "Description": "Resolver signal" }, { "Value": 4, "DisplayName": "HTL_PUSH-PULL", "Description": "High threshold logic (HTL), typically voltage ranges from 5 to 30 VDC" }, { "Value": 5, "DisplayName": "RS-485", "Description": "RS-485, signal is transmitted over a Sig+ line and a Sig- line" }, { "Value": 6, "DisplayName": "RS-485_SINCOS", "Description": "RS-485, sin-/cos-signal" }, { "Value": 7, "DisplayName": "RS-485_HTL", "Description": "RS-485, high threshold logic (HTL) signal" }, { "Value": 8, "DisplayName": "RS-485_TTL", "Description": "RS-485, transistor transistor logic (TTL) signal" } ]

7.8.13 PtEncoderInterfaceProtocolAttributesType ObjectType Definition

7.8.13.1 Overview

The PtEncoderInterfaceProtocolAttributesType provides the common asset attributes of the encoder interface protocol and is formally defined in Table 87.

Table 87 – PtEncoderInterfaceProtocolAttributesType Definition

Attribute	Value
BrowseName	PtEncoderInterfaceProtocolAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	EncoderProtocol	0:UInt16	0:MultiStateValueDiscreteType	O, RO

Conformance Units
Powertrain Attributes Information

7.8.13.2 Object Description

EncoderProtocol provides the types of encoder protocols for absolute information and other digital data. The values of the MultiStateValueDiscreteType variable are defined in Table 88 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 88 – PtEncoderInterfaceProtocolAttributesType Attribute values for child Nodes

BrowsePath

Value Attribute

Description Attribute

[

{"Value": 0, "DisplayName": "BISS_C", "Description": "BiSS interface continuous mode"},

{"Value": 1, "DisplayName": "ENDAT_2.1", "Description": "EnDat (encoder data), operating mode 2.1"},

{"Value": 2, "DisplayName": "ENDAT_2.2", "Description": "EnDat (encoder data), operating mode 2.2"},

{"Value": 3, "DisplayName": "ENDAT_3", "Description": "EnDat (encoder data), operating mode 3"},

{"Value": 4, "DisplayName": "HIPERFACE", "Description": "Hiperface"},

{"Value": 5, "DisplayName": "HIPERFACE_DSL", "Description": "Hiperface DSL (digital servo link)"},

{"Value": 6, "DisplayName": "SSI_BINARY", "Description": "Binary synchronous serial output (SSI)"},

{"Value": 7, "DisplayName": "SSI_GRAY_CODE", "Description": "Gray code synchronous serial output (SSI)"},

{"Value": 8, "DisplayName": "SCS_OPEN_LINK", "Description": "Single cable solution (open link)"},

{"Value": 9, "DisplayName": "DRIVE-CLIQ", "Description": "DRIVE-CLiQ"},

{"Value": 10, "DisplayName": "BISS_LINE", "Description": "BiSS Line"},

{"Value": 11, "DisplayName": "FANUC_37BIT_SERIAL_COMM", "Description": "Fanuc 37 bit serial interface"},

{"Value": 12, "DisplayName": "MITSUBISHI_40BIT_SERIAL_COMM", "Description": "Mitsubishi 40 bit serial interface"},

{"Value": 13, "DisplayName": "OMRON/PANASONIC_48BIT_SERIAL_COMM", "Description": "OMRON/Panasonic 48 bit serial interface"},

{"Value": 14, "DisplayName": "YASKAWA_36BIT_SERIAL_COMM", "Description": "Yaskawa 36 bit serial interface"}

]

7.8.14 PtBrakeAttributesType ObjectType Definition

7.8.14.1 Overview

The PtBrakeAttributesType provides the common asset attributes of a brake and is formally defined in Table 89.

Table 89 – PtBrakeAttributesType Definition

Attribute	Value
BrowseName	PtBrakeAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	BrakeType	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasComponent	Variable	BrakeDesignType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	SafetyPropertySupported	0:Boolean	0:PropertyType	O, RO
0:HasComponent	Variable	B10dValue	0:UInt32	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakingEnergySingleEngagementMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeVoltageRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeAccelerationVoltage	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeHoldingVoltage	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeCurrentRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakePowerRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeTurnOnDelay	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeTurnOffDelayAC	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeTurnOffDelayDC	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	BrakeVoltageType	0:String	0:PropertyType	O, RO
0:HasComponent	Variable	BrakeTurnOffType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	BrakingFrequencyOperation	0:Int32	0:PropertyType	O, RO
0:HasProperty	Variable	BrakeRectifierType	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	BrakeInsulationClass	0:String	0:PropertyType	O, RO
0:HasComponent	Variable	BrakeSurroundingAirTemperature	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	BrakeWireTerminalCount	0:Int16	0:PropertyType	O, RO
0:HasComponent	Variable	BrakeTorqueRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeTorqueHolding	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeInertia	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	BrakeWearMaximum	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	BrakeEmergencySwitchOffCount	0:Int16	0:PropertyType	O, RO
0:HasProperty	Variable	BrakeVibrationClass	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	BrakeProtectionMechanicalImpact	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	BrakeDutyType	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	BrakeCoolingMethod	0:String	0:PropertyType	O, RO

Conformance Units

Powertrain Attributes Information

7.8.14.2 Object Type Description

BrakeType provides the design types of brake in a powertrain device. The values of the MultiStateValueDiscreteType variable are defined in Table 90 and shall be used. Additional values will be added in the specification. Manufacturer-specific extensions are not foreseen.

Table 90 – PtBrakeAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "STOPPING", "Description": "Stopping brake type" }, { "Value": 1, "DisplayName": "HOLDING", "Description": "Holding brake type" } ]
	[ { "Value": 0, "DisplayName": "MAGNETIC", "Description": "Slow, prevent or stop the motion using electromagnetic force to apply friction" }, { "Value": 1, "DisplayName": "SPRING", "Description": "A spring continuously presses the friction brake against an armature and decreases, prevent or stop the motion" } ]
	[ { "Value": 0, "DisplayName": "AC", "Description": "AC-operated brake" }, { "Value": 1, "DisplayName": "DC", "Description": "DC-operated brake" }, { "Value": 2, "DisplayName": "AC_DC", "Description": "AC- and DC-operated brake" } ]

BrakeDesignType provides the design types of brake in a powertrain device. The values of the MultiStateValueDiscreteType variable are defined in Table 90and shall be used. Additional values will be added in the specification. Manufacturer-specific extensions are not foreseen.

SafetyPropertySupported provides the information if the brake is defined and used for functional safety applications.

B10dValue represents a similar quantity. According to ISO 13849-1, it indicates the number of switching cycles after which dangerous failures occur in 10 % of the units considered.

BrakingEnergySingleEngagementMax provides the maximum friction energy for a single brake cycle. The unit shall be joule [J].

BrakeVoltageRated provides the rated voltage of the brake. The unit shall be volt [V].

BrakeAccelerationVoltage provides the acceleration voltage of the brake in DC or AC. The unit shall be volt [V].

BrakeHoldingVoltage provides the holding voltage of the brake. The unit shall be volt [V].

BrakeCurrentRated provides the rated current of the brake. The unit shall be ampere [A].

BrakePowerRated provides the rated power of the brake. The unit shall be watt [W].

BrakeTurnOnDelay provides the time delay information until the brake turns on according to t2-time VDE 0580. The unit shall be second [s].

BrakeTurnOffDelayAC provides the time delay information until the brake turns off, according to t1 time VDE 0580, in case of slow/AC-side/free wheel diode switching off. The unit shall be second [s].

BrakeTurnOffDelayDC provides the time delay information until the brake turns off, according to t1 time VDE0580, in case of fast/DC side switching off. The unit shall be second [s].

BrakeVoltageType provides the information with which type of voltage the brake shall be operated.

BrakeTurnOffType provides types of operated brakes. The values of the MultiStateValueDiscreteType variable are defined in Table 90 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

BrakingFrequencyOperation provides the maximum cycles per hour with respect to heating caused by electrical power and friction power and energy. The unit shall be hertz [Hz].

BrakeRectifierType provides the information which rectifier type is used to convert an AC power supply to DC power.

BrakeInsulationClass provides the information to the isolation class of the brake.

BrakeSurroundingAirTemperature provides the information about the maximum surrounding air at the location of the brake. The unit shall be celsius [°C]

BrakeWireTerminalCount provides the number of wire terminals of the brake.

BrakeTorqueRated provides the rated torque of the brake. The unit shall be newton meter [Nm].

BrakeTorqueHolding provides the holding torque of the brake. The unit shall be newton meter [Nm].

BrakeInertia provides the mass moment of inertia of the brake. The unit shall be kilogram meter squared [kg m²].

BrakeWearMaximum provides information on the maximum wear. The unit shall be millimeter [mm].

BrakeEmergencySwitchOffCount provides information about the numbers of emergency stops with friction load.

BrakeVibrationClass provides the vibration class of the brake.

BrakeProtectionMechanicalImpact provides the IK code for Impact protection in accordance with the IEC 62262 standard.

BrakeDutyType provides the type of duty cycle of the brake, e.g. continuous (S1), short-time (S2) or intermittent (S3) operation.

BrakeCoolingMethod provides the information which cooling method is used to cool the brake.

7.8.15 PtTemperatureSensorAttributesType ObjectType Definition

7.8.15.1 Overview

The PtTemperatureSensorAttributesType provides the common asset attributes of a temperature sensor and is formally defined in Table 91.

Table 91 – PtTemperatureSensorAttributesType Definition

Attribute	Value
BrowseName	PtTemperatureSensorAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	TemperatureSensorTechnology	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasProperty	Variable	TemperatureSensorType	0:String	0:PropertyType	O,RO
0:HasComponent	Variable	Accuracy	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	TemperatureMin	0:Float	0:AnalogUnitType	M, RO
0:HasComponent	Variable	TemperatureMax	0:Float	0:AnalogUnitType	M, RO

Conformance Units
Powertrain Attributes Information

7.8.15.2 Object Description

TemperatureSensorTechnology provides the type of the temperature sensor. The values of the MultiStateValueDiscreteType variable are defined in Table 92 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 92 – PtTemperatureSensorAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "THERMOCOUPLE", "Description": "Thermocouple" }, { "Value": 1, "DisplayName": "TEMPERATURE_DEPENDENT_RESITANCE", "Description": "Temperature dependent resistance" }, { "Value": 2, "DisplayName": "KTY", "Description": "Semiconductor temperature tensor" } ]

TemperatureSensorType provides the information of the used type of temperature sensor.

Accuracy at ambient temperature. The unit shall be celcius [°C].

TemperatureMin provides the minimum operating temperature of the sensor. The unit shall be celcius [°C].

TemperatureMax provides the maximum operating temperature of the sensor. The unit shall be celcius [°C].

7.8.16 PtVibrationSensorAttributesType ObjectType Definition

7.8.16.1 Overview

The PtVibrationSensorAttributesType provides the common asset attributes of a vibration sensor and is formally defined in Table 93.

Table 93 – PtVibrationSensorAttributesType Definition

Attribute	Value
BrowseName	PtVibrationSensorAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	MeasuringRange	0:Range	0:BaseDataVariableType	M, RO
0:HasComponent	Variable	FrequencyRange	0:Range	0:BaseDataVariableType	M, RO
HasComponent	Variable	DigitalInputElectricalType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	DigitalOutputElectricalType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	AnalogInputElectricalType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	AnalogOutputElectricalType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	OutputFunction	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	Accuracy	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	Linearity	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OperatingVoltage	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	Resolution	0:Float	0:AnalogUnitType	O, RO

Conformance Units

Powertrain Attributes Information

7.8.16.2 Object Description

MeasuringRange provides the measurement range between the minimum and maximum value. The unit shall be millimeters per square second [mm/s²].

FrequencyRange provides the frequency range between the minimum and maximum value. The unit shall be hertz [Hz].

DigitalInputElectricalType describes the supported digital electrical type of the sensor input. The values of the MultiStateValueDiscreteType variable are defined in Table 94 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 94 – PtVibrationSensorAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "TTL", "Description": "Transistor-transistor logic (0..5 V)" }, { "Value": 1, "DisplayName": "HTL", "Description": "High threshold logic (0..24 V)" }, { "Value": 2, "DisplayName": "PNP", "Description": "PNP transistor type" }, { "Value": 3, "DisplayName": "NPN", "Description": "NPN transistor type" }, { "Value": 4, "DisplayName": "CONFIGURABLE", "Description": "Configurable" }, { "Value": 5, "DisplayName": "PULSE_TRAIN", "Description": "Pulse train" }, { "Value": 6, "DisplayName": "RELAY", "Description": "Electromechanical relay" } ]
	[ { "Value": 0, "DisplayName": "TTL", "Description": "Transistor-transistor logic (0..5 V)" }, { "Value": 1, "DisplayName": "HTL", "Description": "High threshold logic (0..24 V)" }, { "Value": 2, "DisplayName": "PNP", "Description": "PNP transistor type" }, { "Value": 3, "DisplayName": "NPN", "Description": "NPN transistor type" }, { "Value": 4, "DisplayName": "CONFIGURABLE", "Description": "Configurable" }, { "Value": 5, "DisplayName": "PULSE_TRAIN", "Description": "Pulse train" }, { "Value": 6, "DisplayName": "RELAY", "Description": "Electromechanical relay" } ]
	[ { "Value": 0, "DisplayName": "VOLTAGE_0-10V", "Description": "Voltage range 0-10 volt" }, { "Value": 1, "DisplayName": "VOLTAGE_-10-10V", "Description": "Voltage range -10-10 volt" }, { "Value": 2, "DisplayName": "CURRENT_0-20MA", "Description": "Current range 0-20 milliampere" }, { "Value": 3, "DisplayName": "CURRENT_4-20MA", "Description": "Current range 4-20 milliampere" }, { "Value": 4, "DisplayName": "TEMPERATURE_PT1000", "Description": "PT1000 temperature sensor" }, { "Value": 5, "DisplayName": "TEMPERATURE_PT100", "Description": "PT100 temperature sensor" }, { "Value": 6, "DisplayName": "TEMPERATURE_KTY", "Description": "KTY temperature sensor" }, { "Value": 7, "DisplayName": "TEMPERATURE_KTY84", "Description": "KTY84 temperature sensor" }, { "Value": 8, "DisplayName": "TEMPERATURE_PTC", "Description": "PTC temperature sensor" }, { "Value": 9, "DisplayName": "VOLTAGE", "Description": "Other voltage interface" }, { "Value": 10, "DisplayName": "CURRENT", "Description": "Other current interface" }, { "Value": 11, "DisplayName": "TEMPERATURE", "Description": "Other temperature interface" }, { "Value": 12, "DisplayName": "CONFIGURABLE", "Description": "Configurable" } ]
	[ { "Value": 0, "DisplayName": "VOLTAGE_0-10V", "Description": "Voltage range 0-10 volt" }, { "Value": 1, "DisplayName": "VOLTAGE_-10-10V", "Description": "Voltage range -10-10 volt" }, { "Value": 2, "DisplayName": "CURRENT_0-20MA", "Description": "Current range 0-20 milliampere" }, { "Value": 3, "DisplayName": "CURRENT_4-20MA", "Description": "Current range 4-20 milliampere" }, { "Value": 4, "DisplayName": "TEMPERATURE_PT1000", "Description": "PT1000 temperature sensor" }, { "Value": 5, "DisplayName": "TEMPERATURE_PT100", "Description": "PT100 temperature sensor" }, { "Value": 6, "DisplayName": "TEMPERATURE_KTY", "Description": "KTY temperature sensor" }, { "Value": 7, "DisplayName": "TEMPERATURE_KTY84", "Description": "KTY84 temperature sensor" }, { "Value": 8, "DisplayName": "TEMPERATURE_PTC", "Description": "PTC temperature sensor" }, { "Value": 9, "DisplayName": "VOLTAGE", "Description": "Other voltage interface" }, { "Value": 10, "DisplayName": "CURRENT", "Description": "Other current interface" }, { "Value": 11, "DisplayName": "TEMPERATURE", "Description": "Other temperature interface" }, { "Value": 12, "DisplayName": "CONFIGURABLE", "Description": "Configurable" } ]
	[ { "Value": 0, "DisplayName": "ACTIVE_OPEN", "Description": "Active function signal by open output" }, { "Value": 1, "DisplayName": "ACTIVE_CLOSED", "Description": "Active function signal by closed output" } ]

DigitalOutputElectricalType describes the supported digital electrical type of the sensor output. he values of the MultiStateValueDiscreteType variable are defined in Table 94and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

AnalogInputElectricalType describes the supported analog electrical type of the sensor input. The values of the MultiStateValueDiscreteType variable are defined in Table 94and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

AnalogOutputElectricalType describes the supported analog electrical type of the sensor output. The values of the MultiStateValueDiscreteType variable are defined in Table 94 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

OutputFunction provides if the output is normally open or normally closed. he values of the MultiStateValueDiscreteType variable are defined in Table 94and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Accuracy provides the accuracy of the measured acceleration value. The unit shall be millimeters per square second [mm/s²].

Linearity provides an expression of the extent to which the actual measured curve of the vibration sensor departs from the ideal curve. The unit shall be percent [%].

OperatingVoltage specifies the operating voltage range of the vibration sensor. The unit shall be volt [V].

Resolution of the sensor with regards to voltage output in relationship to acceleration input. The unit shall be millivolts per meters per square second [mV/mm/s²].

The attributes of the PtVibrationSensorAttributesType have additional sub-attributes which are defined in Table 95.

Table 95 – PtVibrationSensorAttributesType additional subattributes

BrowsePath	References	NodeClass	BrowseName	DataType	TypeDefinition	Others
MeasuringRange	0:HasProperty	Variable	0:EngineeringUnits	EUInformation	0:PropertyType	M
FrequencyRange	0:HasProperty	Variable	0:EngineeringUnits	EUInformation	0:PropertyType	M

7.9 Drive Components related AssetAttributesTypes

7.9.1 PtBleedAttributesType ObjectType Definition

7.9.1.1 Overview

The PtBleedAttributesType provides rating information about the bleeder resistor and is formally defined in Table 96.

Table 96 – PtBleedAttributesType Definition

Attribute	Value
BrowseName	PtBleedAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	<ResistanceValue>	0:Float	0:AnalogUnitType	OP, RO
0:HasComponent	Variable	PowerRated	0:Float	0:AnalogUnitType	M, RO

Conformance Units

Powertrain Attributes Information

7.9.1.2 Object Description

<ResistanceValue> represents the rated value of the resistance of the resistor device. The unit shall be ohm [Ω].

PowerRated represents the rated power for the braking resistor. The unit shall be kilowatts [kW].

7.9.2 PtDcBusAttributesType ObjectType Definition

7.9.2.1 Overview

The PtDcBusAttributesType provides basic information about the DC bus and is formally defined in Table 97.

Table 97 – PtDcBusAttributesType Definition

Attribute	Value
BrowseName	PtDcBusAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	<DcBusVoltageRated>	0:Float	0:AnalogUnitType	OP, RO
0:HasComponent	Variable	DcBusVoltageRange	0:Range	0:BaseDataVariableType	M, RO

Conformance Units
Powertrain Attributes Information

7.9.2.2 Object Description

<DcBusVoltageRated> is the rated voltage value of the DC bus. The unit shall be volt [V].

DcBusVoltageRange is a range value which describes the voltage range supported by the DC bus. Supported means the range in which the asset can operate/is designed for. Min/Max voltage that electrical components can handle. The unit shall be volt [V].

The attributes of the PtDcBusAttributesType have additional sub-attributes which are defined in Table 98.

Table 98 – PtDcBusAttributesType additional sub-attributes

BrowsePath	References	NodeClass	BrowseName	DataType	TypeDefinition	Others
DcBusVoltageRange	0:HasProperty	Variable	0:EngineeringUnits	EUInformation	0: PropertyType	M

7.9.3 PtCapacitanceAttributesType ObjectType Definition

7.9.3.1 Overview

The PtCapacitanceAttributesType provides basic information about the capacitance and is formally defined in Table 99.

Table 99 – PtCapacitanceAttributesType Definition

Attribute	Value
BrowseName	PtCapacitanceAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	Capacitance	0:Float	0:AnalogUnitType	M, RO

Conformance Units
Powertrain Attributes Information

7.9.3.2 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 [F].

7.9.4 PtInputConverterAttributesType ObjectType Definition

7.9.4.1 Overview

The PtInputConverterAttributesType describes basic information for the input converter of a drive. This converts three-phase AC current or direct current to direct current for the intermediate DC link of the drive and is formally defined in Table 100.

Table 100 – PtInputConverterAttributesType Definition

Attribute	Value
BrowseName	PtInputConverterAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	PowerFactorCorrection	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	<PwmSwitchingFrequency>	0:Float	0:AnalogUnitType	OP, RO
0:HasComponent	Variable	EfficiencyClass	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	InputConverterType	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasComponent	Variable	RegenerativePowerRated	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	RegenerativeFeedbackSupported	0:Boolean	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.9.4.2 Object Description

PowerFactorCorrection for the input converter is an information about the capability of the input converter of having a power factor correction.

<PwmSwitchingFrequency> is the switching frequency of the active input converter. The unit shall be hertz [Hz].

EfficiencyClass contains a description of the input converter efficiency after elimination of the losses. The values of the MultiStateValueDiscreteType variable are defined in Table 101 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 101 – PtInputConverterAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "IE1", "Description": "Standard Efficiency" }, { "Value": 1, "DisplayName": "IE2", "Description": "High Efficiency" }, { "Value": 2, "DisplayName": "IE3", "Description": "Premium Efficiency" }, { "Value": 3, "DisplayName": "IE4", "Description": "Super Premium Efficiency" }, { "Value": 4, "DisplayName": "IE5", "Description": "Ultra Premium Efficiency" }, { "Value": 5, "DisplayName": "IES0", "Description": "Relative losses are higher than 20 % of the value defined by the RPDS" }, { "Value": 6, "DisplayName": "IES1", "Description": "Relative losses are within ±20 % of the value defined by the RPDS" }, { "Value": 7, "DisplayName": "IES2", "Description": "Relative losses are smaller than 20 % of the value defined by the RPDS" } ]
	[ { "Value": 0, "DisplayName": "AC/DC_PASSIVE", "Description": "Passive AC/DC converter" }, { "Value": 1, "DisplayName": "AC/DC_ACTIVE", "Description": "Active AC/DC converter" }, { "Value": 2, "DisplayName": "DC/DC", "Description": "DC/DC converter" } ]

InputConverterType provides the inputs converter type. he values of the MultiStateValueDiscreteType variable are defined in Table 94 and shall be used. Additional values will be added in the specification. Manufacturer-specific extensions are not foreseen.

RegenerativePowerRated contains the value of the nominal regenerative power in kVA units.

RegenerativeFeedbackSupported contains the expression of the fact that the input converter is regenerative or not.

7.9.5 PtReactorAttributesType ObjectType Definition

7.9.5.1 Overview

The PtReactorAttributesType describes the asset attributes of a reactor which is typically used in powertrains for the suppression of harmonics and support of commutation and is formally defined in Table 102.

Table 102 – PtReactorAttributesType Definition

Attribute	Value
BrowseName	PtReactorAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	Inductance	0:Float	0:AnalogUnitType	M, RO

Conformance Units

Powertrain Attributes Information

7.9.5.2 Object Description

Inductance is a parameter of the inductor. The unit shall be henry [H].

7.9.6 PtOutputConverterAttributesType ObjectType Definition

7.9.6.1 Overview

The PtOutputConverterAttributesType describes an information model for the output converter of a drive. This element changes direct electric current to single-phase or polyphase alternating current for controlling a motor or for another frequency converting reason (e.g. for usage in another power supply) and is formally defined in Table 103.

Table 103 – PtOutputConverterAttributesType Definition

Attribute	Value
BrowseName	PtOutputConverterAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	<PwmSwitchingFrequency>	0:Float	0:AnalogUnitType	MP, RO
0:HasComponent	Variable	EfficiencyClass	0:UInt16	0:MultiStateValueDiscreteType	O, RO

Conformance Units

Powertrain Attributes Information

7.9.6.2 Object Description

<PwmSwitchingFrequency> is the switching (between on and off) frequency of the load (power, current, voltage) sent to the motor, by using a Power Width Modulation mechanism. The unit shall be hertz [Hz].

EfficiencyClass contains a description of the input converter efficiency after elimination of the losses. The values of the MultiStateValueDiscreteType variable are defined in Table 104 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 104 – PtOutputConverterAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "IE1", "Description": "Standard Efficiency" }, { "Value": 1, "DisplayName": "IE2", "Description": "High Efficiency" }, { "Value": 2, "DisplayName": "IE3", "Description": "Premium Efficiency" }, { "Value": 3, "DisplayName": "IE4", "Description": "Super Premium Efficiency" }, { "Value": 4, "DisplayName": "IE5", "Description": "Ultra Premium Efficiency" }, { "Value": 5, "DisplayName": "IES0", "Description": "Relative losses are higher than 20 % of the value defined by the RPDS" }, { "Value": 6, "DisplayName": "IES1", "Description": "Relative losses are within ±20 % of the value defined by the RPDS" }, { "Value": 7, "DisplayName": "IES2", "Description": "Relative losses are smaller than 20 % of the value defined by the RPDS" } ]

7.9.7 PtInputFilterAttributesType ObjectType Definition

7.9.7.1 Overview

The PtInputFilterAttributesType provides typical asset attributes for line filter functionality and is formally defined in Table 105.

Table 105 – PtInputFilterAttributesType Definition

Attribute	Value
BrowseName	PtInputFilterAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	LineFilterPowerLoss	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	LineFilterEmcCategory	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	LineFilterEmcClass	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	LineFilterEmcGroup	0:UInt16	0:MultiStateValueDiscreteType	O, RO

Conformance Units
Powertrain Attributes Information

7.9.7.2 Object Description

LineFilterPowerLoss contains the power loss for a 50 Hz line operated with rated current/power. The unit shall be watt [W].

LineFilterEmcCategory refers to the installation of the filter in one of the equipment categories specified by the IEC/EN 61800-3. The values of the MultiStateValueDiscreteType variable are defined in Table 106 and shall be used. Additional values will be added in the specification. Manufacturer-specific extensions are not foreseen.

Table 106 – PtInputFilterAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "OTHER", "Description": "Other" }, { "Value": 1, "DisplayName": "CATEGORY_C1", "Description": "Installed in an equipment of rated voltage less than 1000 V, intended for use in residential premises and establishments directly connected without intermediate transformers to a low-voltage power supply network which supplies buildings used for residential purposes" }, { "Value": 2, "DisplayName": "CATEGORY_C2", "Description": "Installed in an equipment of rated voltage less than 1000 V, which is neither a plug-in device nor a movable device and, when used as described for Category C1, is intended to be installed and commissioned only by a professional" }, { "Value": 3, "DisplayName": "CATEGORY_C3", "Description": "Installed in an equipment of rated voltage less than 1000 V, intended for use in establishments other than those directly connected to a low voltage power supply network which supplies buildings used for residential purposes" }, { "Value": 4, "DisplayName": "CATEGORY_C4", "Description": "Installed in an equipment of rated voltage equal to or above 1000 V, or rated current equal to or above 400 A, or intended for use in complex systems (in Industrial areas or technical areas of any building)" } ]
	[ { "Value": 0, "DisplayName": "CLASS_A", "Description": "Installed in an equipment suitable for use in all locations other than those allocated in residential environments and those directly connected to a low voltage power supply network which supplies buildings used for domestic purposes" }, { "Value": 1, "DisplayName": "CLASS_B", "Description": "Installed in an equipment suitable for use in locations in residential environments and in establishments directly connected to a low voltage power supply network which supplies buildings used for domestic purposes" } ]
	[ { "Value": 0, "DisplayName": "OTHER", "Description": "Other group" }, { "Value": 1, "DisplayName": "GROUP_1", "Description": "Installed in an equipment which is not covered by the one referred to in group 2" }, { "Value": 2, "DisplayName": "GROUP_2", "Description": "Installed in an equipment in which radio-frequency energy in the frequency range 9 kHz to 400 GHz is intentionally generated and used or only used locally, in the form of electromagnetic radiation, inductive and/or capacitive coupling, for the treatment of material, for inspection/analysis purposes, or for transfer of electromagnetic energy" } ]

LineFilterEmcClass refers to the installation of the filter in one of the equipment classes specified by the EN 55011. The values of the MultiStateValueDiscreteType variable are defined in Table 106 and shall be used. Additional values will be added in the specification. Manufacturer-specific extensions are not foreseen.

LineFilterEmcGroup refers to the installation of the filter in one of the equipment groups specified by the EN 55011. The values of the MultiStateValueDiscreteType variable are defined in Table 106 and shall be used. Additional values will be added in the specification. Manufacturer-specific extensions are not foreseen.

7.9.8 PtOutputFilterAttributesType ObjectType Definition

7.9.8.1 Overview

The PtOutputFilterAttributesType provides typical asset attributes for load-side filter functionality and is formally defined in Table 107.

Table 107 – PtOutputFilterAttributesType Definition

Attribute	Value
BrowseName	PtOutputFilterAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	OutputFilterType	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasComponent	Variable	OutputFilterPowerLoss	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.9.8.2 Object Description

OutputFilterType provides the type of output filter in a powertrain. The values of the MultiStateValueDiscreteType variable are defined in Table 108 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 108 – PtOutputFilterAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "SINE_WAVE_FILTER", "Description": "Component is a sine-wave filter" }, { "Value": 1, "DisplayName": "DV_DT_FILTER", "Description": "Component is a dv/dt filter" } ]

OutputFilterPowerLoss contains the power loss for the filter operated with rated current/power. The unit shall be watt [W].

7.9.9 PtPrechargeAttributesType ObjectType Definition

7.9.9.1 Overview

The PtPrechargeAttributesType provides the attributes describing a pre-charge asset and is formally defined in Table 109.

Table 109 – PtPrechargeAttributesType Definition

Attribute	Value
BrowseName	PtPrechargeAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasComponent	Variable	PreChargeType	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasComponent	Variable	PreChargeTime	0:Float	0:AnalogUnitType	O,RO
0:HasComponent	Variable	PreChargeTimeout	0:Float	0:AnalogUnitType	O,RO
0:HasComponent	Variable	PrechargeThreshold	0:Float	0:AnalogUnitType	O,RO
0:HasComponent	Variable	PreChargeMaximumCapacitance	0:Float	0:AnalogUnitType	O,RO
0:HasComponent	Variable	PreChargeCycleTimeLimit	0:Float	0:AnalogUnitType	O,RO

Conformance Units
Powertrain Attributes Information

7.9.9.2 Object Description

PreChargeType defines if the pre-charge applies to AC or DC voltages. The values of the MultiStateValueDiscreteType variable are defined in Table 110 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 110 – PtPrechargeAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "AC/DC", "Description": "AC input, DC output" }, { "Value": 1, "DisplayName": "DC/DC", "Description": "DC input, DC output" } ]

PreChargeTime is the time required to increase pre-charge output voltage from zero to the PreChargeThreshold with a load of PreChargeMaximumCapacitance. The unit shall be seconds [s].

PreChargeThreshold is the pre-charge output voltage where the pre-charge function stops. The unit shall be volts [V].

PreChargeTimeout is the time limit of the pre-charge operation. The pre-charge starts operating when it detects an applied voltage and stops operating after this time regardless of the DC bus voltage. The unit shall be seconds [s].

PreChargeMaximumCapacitance is the maximum DC bus capacitance that can safely be charged and discharged over the PreChargeCycleTimeLimit time. The unit shall be farads [F].

PreChargeCycleTimeLimit is the minimum time period between making connections to the charging source. This time limit may be an average over some longer time period. The unit shall be seconds [s].

Note: The object definitions for PtCapacitanceAttributes differ from the capacitance defined here.

7.10 Switchgear related AssetAttributesTypes

7.10.1 PtContactorAttributesType ObjectType Definition

7.10.1.1 Overview

The PtContactorAttributesType provides the common asset attributes of a contactor and is formally defined in Table 111. Additional attributes can be found in IEC CDD 62683DB.

Table 111 – PtContactorAttributesType Definition

Attribute	Value
BrowseName	PtContactorAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasProperty	Variable	OperationalCurrentAC3At400VRated	0:Float	0:PropertyType	M, RO
0:HasProperty	Variable	NumberofMainContactsNO	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	ControlVoltageAC50HzRangeRated	0:Range	0:PropertyType	M, RO
0:HasProperty	Variable	NumberofAuxiliaryContactsNO	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	NumberofAuxiliaryContactsNC	0:UInt16	0:PropertyType	M, RO

Conformance Units
Powertrain Attributes Information

7.10.1.2 Object Description

All PtContactorAttributesType properties are described in IEC CDD.

The properties of the PtContactorAttributesType have additional references which are defined in Table 112.

Table 112 – PtContactorAttributesType Additional References

SourceBrowsePath	Reference Type	Is Forward	TargetBrowsePath
OperationalCurrentAC3At400VRated	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE434
NumberofMainContactsNO	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE404
ControlVoltageAC50HzRangeRated	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE602
NumberofAuxiliaryContactsNO	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE511
NumberofAuxiliaryContactsNC	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE508

7.10.2 PtElectronicOverloadRelayAttributesType ObjectType Definition

7.10.2.1 Overview

The PtElectronicOverloadRelayAttributesType provides the common asset attributes of a contactor and is formally defined in Table 113. Additional attributes can be found in IEC Common Data Dictionary (CDD) 62683DB.

Table 113 – PtElectronicOverloadRelayAttributesType Definition

Attribute	Value
BrowseName	PtElectronicOverloadRelayAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasProperty	Variable	OverloadCurrentSettingRange	0:Range	0:PropertyType	M, RO
0:HasComponent	Variable	TripClass	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasProperty	Variable	VoltageRated	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	NumberofAuxiliaryContactsNC	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	PhaseLossSensitiveSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	JamDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	StallDetectionSuported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	GroundEarthFaultDetectionSupported	0:Boolean	0:PropertyType	M, RO

Conformance Units
Powertrain Attributes Information

7.10.2.2 Object Description

TripClass provides the classification for thermal protective devices regarding the value of the maximum tripping time in seconds. The values of the MultiStateValueDiscreteType variable are defined in Table 114 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 114 – PtElectronicOverloadRelayAttributesType values for child nodes

BrowsePath

Value Attribute

Description Attribute

[
{
"Value": 0,
"DisplayName": "CLASS_2E",
"Description": "Thermal protection class 2E"
},
{
"Value": 1,
"DisplayName": "CLASS_3E",
"Description": "Thermal protection class 3E"
},
{
"Value": 2,
"DisplayName": "CLASS_5",
"Description": "Thermal protection class 5"
},
{
"Value": 3,
"DisplayName": "CLASS_5E",
"Description": "Thermal protection class 5E"
},
{
"Value": 4,
"DisplayName": "CLASS_10",
"Description": "Thermal protection class 10"
},
{
"Value": 5,
"DisplayName": "CLASS_10A",
"Description": "Thermal protection class 10A"
},
{
"Value": 6,
"DisplayName": "CLASS_10E",
"Description": "Thermal protection class 10E"
},
{
"Value": 7,
"DisplayName": "CLASS_20",
"Description": "Thermal protection class 20"
},
{
"Value": 8,
"DisplayName": "CLASS_20E",
"Description": "Thermal protection class 20E"
},
{
"Value": 9,
"DisplayName": "CLASS_30",
"Description": "Thermal protection class 30"
},
{
"Value": 10,
"DisplayName": "CLASS_30E",
"Description": "Thermal protection class 30E"
},
{
"Value": 11,
"DisplayName": "CLASS_40E",
"Description": "Thermal protection class 40E"
}
]

The 0:EnumValues of the TripClass have additional CDD entries which are defined in Table 125.

Table 115 – TripClass CDD entries

0:EnumValues	CDD entries
CLASS_2E	5:0112/2///62683#ACH020
CLASS_3E	5:0112/2///62683#ACH021
CLASS_5	5:0112/2///62683#ACH022
CLASS_5E	5:0112/2///62683#ACH023
CLASS_10	5:0112/2///62683#ACH024
CLASS_10A	5:0112/2///62683#ACH025
CLASS_10E	5:0112/2///62683#ACH026
CLASS_20	5:0112/2///62683#ACH027
CLASS_20E	5:0112/2///62683#ACH028
CLASS_30	5:0112/2///62683#ACH029
CLASS_30E	5:0112/2///62683#ACH030
CLASS_40E	5:0112/2///62683#ACH031

All other PtElectronicOverloadRelayAttributesType properties are described in IEC Common Data Dictionary (CDD).

The properties of the PtElectronicOverloadRelayAttributesType have additional references which are defined in Table 116.

Table 116 – PtElectronicOverloadRelayAttributesType Additional References

SourceBrowsePath	Reference Type	Is Forward	TargetBrowsePath

OverloadCurrentSettingRange	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE741
TripClass	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE213
VoltageRated	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE457
NumberofAuxiliaryContactsNC	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE508
PhaseLossSensitiveSupported	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE749
JamDetectionSupported	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE222
StallDetectionSuported	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE221
GroundEarthFaultDetectionSupported	0:HasDictionaryEntry	0:True	5:0112/2///62683#ACE220

7.10.3 PtMotorStarterAttributesType ObjectType Definition

7.10.3.1 Overview

The PtMotorStarterAttributesType provides the common asset attributes of a motor starter and is formally defined in Table 117. Additional attributes can be found in IEC CDD 62683DB.

Table 117 – PtMotorStarterAttributesType Definition

Attribute	Value
BrowseName	PtMotorStarterAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasProperty	Variable	OverloadCurrentSettingRange	0:Range	0:PropertyType	M, RO
0:HasComponent	Variable	TripClass	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasProperty	Variable	OperationalCurrentAC3At400VRated	0:Float	0:PropertyType	M, RO
0:HasProperty	Variable	NumberofMainContactsNO	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	ControlVoltageAC50HzRangeRated	0:Range	0:PropertyType	M, RO
0:HasProperty	Variable	NumberofAuxiliaryContactsNO	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	NumberofAuxiliaryContactsNC	0:UInt16	0:PropertyType	M, RO

Conformance Units
Powertrain Attributes Information

7.10.3.2 Object Description

TripClass provides the classification for thermal protective devices regarding the value of the maximum tripping time in seconds. The values of the MultiStateValueDiscreteType variable are defined in Table 118 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 118 – PtMotorStarterAttributesType Values for child nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "CLASS_2E", "Description": "Thermal protection class 2E" }, { "Value": 1, "DisplayName": "CLASS_3E", "Description": "Thermal protection class 3E" }, { "Value": 2, "DisplayName": "CLASS_5", "Description": "Thermal protection class 5" }, { "Value": 3, "DisplayName": "CLASS_5E", "Description": "Thermal protection class 5E" }, { "Value": 4, "DisplayName": "CLASS_10", "Description": "Thermal protection class 10" }, { "Value": 5, "DisplayName": "CLASS_10A", "Description": "Thermal protection class 10A" }, { "Value": 6, "DisplayName": "CLASS_10E", "Description": "Thermal protection class 10E" }, { "Value": 7, "DisplayName": "CLASS_20", "Description": "Thermal protection class 20" }, { "Value": 8, "DisplayName": "CLASS_20E", "Description": "Thermal protection class 20E" }, { "Value": 9, "DisplayName": "CLASS_30", "Description": "Thermal protection class 30" }, { "Value": 10, "DisplayName": "CLASS_30E", "Description": "Thermal protection class 30E" }, { "Value": 11, "DisplayName": "CLASS_40E", "Description": "Thermal protection class 40E" } ]

The 0:EnumValues of the TripClass have additional references to the CDD which are defined in Table 119.

Table 119 – TripClass CDD entries

EnumValue	CDD Entry
CLASS_2E	0112/2///62683#ACH020
CLASS_3E	0112/2///62683#ACH021
CLASS_5	0112/2///62683#ACH022
CLASS_5E	0112/2///62683#ACH023
CLASS_10	0112/2///62683#ACH024
CLASS_10A	0112/2///62683#ACH025
CLASS_10E	0112/2///62683#ACH026
CLASS_20	0112/2///62683#ACH027
CLASS_20E	0112/2///62683#ACH028
CLASS_30	0112/2///62683#ACH029
CLASS_30E	0112/2///62683#ACH030
CLASS_40E	0112/2///62683#ACH031

All other PtMotorStarterAttributesType properties are descripted in IEC Common Data Dictionary (CDD).

The properties of the PtMotorStarterAttributesType have additional references which are defined in Table 120.

Table 120 – PtMotorStarterAttributesType Additional References

SourceBrowsePath	Reference Type	Is Forward	TargetBrowsePath
OverloadCurrentSettingRange	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE741
TripClass	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE213
OperationalCurrentAC3At400VRated	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE434
NumberofMainContactsNO	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE404
ControlVoltageAC50HzRangeRated	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE602
NumberofAuxiliaryContactsNO	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE511
NumberofAuxiliaryContactsNC	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE508

7.10.4 PtSoftStarterAttributesType ObjectType Definition

7.10.4.1 Overview

The PtSoftStarterAttributesType provides the common asset attributes of a soft-starter and is formally defined in Table 121. Additional attributes can be found in IEC CDD 62683DB.

Table 121 – PtSoftStarterAttributesType Definition

Attribute	Value
BrowseName	PtSoftStarterAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasProperty	Variable	IntegratedByPassSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	OperationalCurrent40CRated	0:Float	0:PropertyType	M, RO
0:HasProperty	Variable	OperationalVoltageRangeRated	0:Range	0:PropertyType	M, RO
0:HasProperty	Variable	MotorOverloadProtectionIntegrated	0:Boolean	0:PropertyType	M, RO

Conformance Units
Powertrain Attributes Information

7.10.4.2 Object Description

PtSoftStarterAttributesType properties are descripted in IEC Common Data Dictionary (CDD).

The properties of the PtMotorStarterAttributesType have additional references which are defined in Table 122.

Table 122 – PtSoftStarterAttributesType Additional References

SourceBrowsePath

Reference Type

Is Forward

TargetBrowsePath

IntegratedByPassSupported

0:HasDictionaryEntry

0:True

5:0112/2///62683#ACE212

OperationalCurrent40CRated

0:HasDictionaryEntry

0:True

5:0112/2///62683#ACE430

OperationalVoltageRangeRated

0:HasDictionaryEntry

0:True

5:0112/2///62683#ACE455

MotorOverloadProtectionIntegrated

0:HasDictionaryEntry

0:True

5:0112/2///62683#ACE211

7.10.5 PtMotorManagementDeviceAttributesType ObjectType Definition

7.10.5.1 Overview

The PtMotorManagementDeviceAttributesType provides the common asset attributes of a motor management device and is formally defined in Table 123. Additional attributes can be found in IEC CDD 62683DB.

Table 123 – PtMotorManagmentDeviceAttributesType Definition

Attribute	Value
BrowseName	PtMotorManagementDeviceAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtAssetAttributesType defined in chapter 7.7
0:HasProperty	Variable	OverloadCurrentSettingRange	0:Range	0:PropertyType	M, RO
0:HasComponent	Variable	TripClass	0:UInt16	0:MultiStateValueDiscreteType	M, RO
0:HasProperty	Variable	PhaseLossSensitiveSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	JamDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	StallDetectionSuported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	GroundEarthFaultDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	LoadSheddingSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	OverUnderCurrentDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	OverUnderVoltageDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	CurrentImbalanceDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	PhaseReversalDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	CosPhiVariationDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	VoltageMonitoringSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	UnderPowerDetectionSupported	0:Boolean	0:PropertyType	M, RO
0:HasProperty	Variable	NumberOfPtcThermistorInputs	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	NumberOfAnalogInputs	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	NumberOfDigitalOutputs	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	NumberOfDigitalInputs	0:UInt16	0:PropertyType	M, RO
0:HasProperty	Variable	ControlVoltageAC50HzRangeRated	0:Range	0:PropertyType	M, RO
0:HasProperty	Variable	HMIPortSupported	0:Boolean	0:PropertyType	M, RO

Conformance Units
Powertrain Attributes Information

7.10.5.2 Object Description

TripClass provides the classification for thermal protective devices regarding the value of the maximum tripping time in seconds. The values of the MultiStateValueDiscreteType variable are defined in Table 124 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 124 – PtMotorManagementDeviceAttributesType values for child nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "CLASS_2E", "Description": "Thermal protection class 2E" }, { "Value": 1, "DisplayName": "CLASS_3E", "Description": "Thermal protection class 3E" }, { "Value": 2, "DisplayName": "CLASS_5", "Description": "Thermal protection class 5" }, { "Value": 3, "DisplayName": "CLASS_5E", "Description": "Thermal protection class 5E" }, { "Value": 4, "DisplayName": "CLASS_10", "Description": "Thermal protection class 10" }, { "Value": 5, "DisplayName": "CLASS_10A", "Description": "Thermal protection class 10A" }, { "Value": 6, "DisplayName": "CLASS_10E", "Description": "Thermal protection class 10E" }, { "Value": 7, "DisplayName": "CLASS_20", "Description": "Thermal protection class 20" }, { "Value": 8, "DisplayName": "CLASS_20E", "Description": "Thermal protection class 20E" }, { "Value": 9, "DisplayName": "CLASS_30", "Description": "Thermal protection class 30" }, { "Value": 10, "DisplayName": "CLASS_30E", "Description": "Thermal protection class 30E" }, { "Value": 11, "DisplayName": "CLASS_40E", "Description": "Thermal protection class 40E" } ]

The 0:EnumValues of the TripClass have additional CDD entries which are defined in Table 125.

Table 125 – TripClass CDD entries

0:EnumValues	CDD entries
CLASS_2E	5: 0112/2///62683#ACH020
CLASS_3E	5: 0112/2///62683#ACH021
CLASS_5	5: 0112/2///62683#ACH022
CLASS_5E	5: 0112/2///62683#ACH023
CLASS_10	5: 0112/2///62683#ACH024
CLASS_10A	5: 0112/2///62683#ACH025
CLASS_10E	5: 0112/2///62683#ACH026
CLASS_20	5: 0112/2///62683#ACH027
CLASS_20E	5: 0112/2///62683#ACH028
CLASS_30	5: 0112/2///62683#ACH029
CLASS_30E	5: 0112/2///62683#ACH030
CLASS_40E	5: 0112/2///62683#ACH031

All other PtMotorManagementDeviceAttributesType properties are descripted in IEC Common Data Dictionary (CDD). The properties of the PtMotorManagementDeviceType have additional references which are defined in Table 126.

Table 126 – PtMotorManagementDeviceAttributesType Additional References

SourceBrowsePath	Reference Type	Is Forward	TargetBrowsePath

OverloadCurrentSettingRange	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE741
TripClass	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE213
PhaseLossSensitiveSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE749
JamDetectionSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE222
StallDetectionSuported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE221
GroundEarthFaultDetectionSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE220
LoadSheddingSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE205
OverUnderCurrentDetectionSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE223
OverUnderVoltageDetectionSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE224
CurrentImbalanceDetectionSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE225
PhaseReversalDetectionSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE227
CosPhiVariationDetectionSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE302
VoltageMonitoringSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE301
UnderPowerDetectionSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE303
NumberOfPtcThermistorInputs	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE334
NumberOfAnalogInputs	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE331
NumberOfDigitalOutputs	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE333
NumberOfDigitalInputs	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE332
ControlVoltageAC50HzRangeRated	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE602
HMIPortSupported	0:HasDictionaryEntry	0:True	5: 0112/2///62683#ACE362

7.11 PtCommonAssetAttributesType ObjectType Definition

7.11.1 Overview

The PtCommonAssetAttributesType provides asset attributes that are common and can be applied to the specific asset types and is formally defined in Table 127. All specified attributes (e.g., PtAmbientAttributes) and their properties (e.g., TemperatureRange) refer to the operating environment and not the storage.

Table 127 – PtCommonAssetAttributesType Definition

Attribute	Value
BrowseName	PtCommonAssetAttributesType
IsAbstract	True

References	Node Class	BrowseName	DataType
Subtype of the PtAssetAttributesType defined in chapter 7.7


0:HasSubtype	ObjectType	PtAmbientAttributesType	Defined in chapter 7.11.2
0:HasSubtype	ObjectType	PtAnalogInputElectricalAttributesType	Defined in chapter 7.11.3
0:HasSubtype	ObjectType	PtAnalogOutputElectricalAttributesType	Defined in chapter 7.11.4
0:HasSubtype	ObjectType	PtAuxiliarySupplyAttributesType	Defined in chapter 7.11.5
0:HasSubtype	ObjectType	PtCertificateAttributesType	Defined in chapter 7.11.6
0:HasSubtype	ObjectType	PtCommunicationInterfaceAttributesType	Defined in chapter 7.11.7
0:HasSubtype	ObjectType	PtCoolingAttributesType	Defined in chapter 7.11.8
0:HasSubtype	ObjectType	PtHardwareAttributesType	Defined in chapter 7.11.9
0:HasSubtype	ObjectType	PtDigitalInputElectricalAttributesType	Defined in chapter 7.11.10
0:HasSubtype	ObjectType	PtDigitalOutputElectricalAttributesType	Defined in chapter 7.11.11
0:HasSubtype	ObjectType	PtFuseAttributesType	Defined in chapter 7.11.12
0:HasSubtype	ObjectType	PtInputInterfaceAttributesType	Defined in chapter 7.11.13
0:HasSubtype	ObjectType	PtOutputInterfaceAttributesType	Defined in chapter 7.11.14
0:HasSubtype	ObjectType	PtMechanicalStrengthAttributesType	Defined in chapter 7.11.15
0:HasSubtype	ObjectType	PtProtectionClassAttributesType	Defined in chapter 7.11.16
0:HasSubtype	ObjectType	PtFunctionalSafetyAttributesType	Defined in chapter 7.11.17
0:HasSubtype	ObjectType	PtSafetyFunctionsAttributesType	Defined in chapter 7.11.18
0:HasSubtype	ObjectType	PtStandardAttributesType	Defined in chapter 7.11.19

Conformance Units
Powertrain Attributes Information

The InstanceDeclarations of the subtypes of PtCommonAssetAttributesType have a value for the DefaultInstanceBrowseName defined in Table 128. The DefaultInstanceBrowseName value defines the default BrowseName for instances of the type. According to the OPC 10000-3 – “AddIn model” the property DefaultInstanceBrowseName is only needed on type level.

Table 128 – PtCommonAssetAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute

	PtAmbientAttributes
	PtAnalogInputElectricalAttributes
	PtAnalogOutputElectricalAttributes
	PtAuxiliarySupplyAttributes
	PtCertificateAttributes
	PtCommunicationInterfaceAttributes
	PtCoolingAttributes
	PtHardwareAttributes
	PtDigitalInputElectricalAttributes
	PtDigitalOutputElectricalAttributes
	PtFuseAttributes
	PtInputInterfaceAttributes
	PtOutputInterfaceAttributes
	PtMechanicalStrengthAttributes
	PtProtectionClassAttributes
	PtFunctionalSafetyAttributes
	PtSafetyFunctionsAttributes
	PtStandardAttributes

7.11.2 PtAmbientAttributesType ObjectType Definition

7.11.2.1 Overview

The PtAmbientAttributesType provides related ambient conditions in which the equipment is guaranteed to function and is formally defined in Table 129.

Table 129 – PtAmbientAttributesType Definition

Attribute	Value
BrowseName	PtAmbientAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.5.1
0:HasComponent	Variable	TemperatureMin	0:Float	0:AnalogUnitType	M, RO
0:HasComponent	Variable	TemperatureMax	0:Float	0:AnalogUnitType	M, RO
0:HasComponent	Variable	HumidityMin	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	HumidityMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	PressureMin	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	PressureMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	AltitudeMax	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.2.2 Object Description

TemperatureMin provides the supported minimum temperature value of an asset. The unit shall be celsius [°C].

TemperatureMax provides the supported maximum temperature value of an asset. The unit shall be celsius [°C] without derating.

HumidityMin provides supported minimum humidity value of an asset without condensation conforming to IEC 61800-5-1. The unit shall be percent [%].

HumidityMax provides supported maximum humidity value of an asset without condensation conforming to IEC 61800-5-1. The unit shall be percent [%].

PressureMin indicates the minimum pressure value for which the asset is designed. The unit shall be pascal [PA].

PressureMax indicates the maximum pressure value for which the asset is designed. The unit shall be pascal [PA].

AltitudeMax indicates the maximum altitude value above sea level for which the asset is designed. The unit shall be meter [m] without derating.

7.11.3 PtAnalogInputElectricalAttributesType ObjectType Definition

7.11.3.1 Overview

The PtAnalogInputElectricalAttributesType provides the asset attributes describing the type of digital input and is formally defined in Table 130.

Table 130 – PtAnalogInputElectricalAttributesType Definition

Attribute	Value
BrowseName	PtAnalogInputElectricalAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasProperty	Variable	GalvanicIsolationSupported	0:Boolean	0:PropertyType	O, RO
0:HasComponent	Variable	AnalogInputElectricalType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	InputVoltageRange	0:Range	0:BaseDataVariableType	O, RO
0:HasComponent	Variable	InputCurrentRange	0:Range	0:BaseDataVariableType	O, RO
0:HasProperty	Variable	NumberOfChannels	0:UInt16	0:PropertyType	O, RO
0:HasProperty	Variable	Resolution	0:Int32	0:PropertyType	O, RO
0:HasComponent	Variable	InternalResistance	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.3.2 Object Description

GalvanicIsolationSupported provides the galvanic isolation of an asset.

AnalogInputElectricalType defines the analog input properties including the rated voltage range and/or rated current range. The values of the MultiStateValueDiscreteType variable are defined in Table 131 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 131 – PtAnalogInputElectricalAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "VOLTAGE_0-10V", "Description": "Voltage range 0-10 volt" }, { "Value": 1, "DisplayName": "VOLTAGE_-10-10V", "Description": "Voltage range -10-10 volt" }, { "Value": 2, "DisplayName": "CURRENT_0-20MA", "Description": "Current range 0-20 milliampere" }, { "Value": 3, "DisplayName": "CURRENT_4-20MA", "Description": "Current range 4-20 milliampere" }, { "Value": 4, "DisplayName": "TEMPERATURE_PT1000", "Description": "PT1000 temperature sensor" }, { "Value": 5, "DisplayName": "TEMPERATURE_PT100", "Description": "PT100 temperature sensor" }, { "Value": 6, "DisplayName": "TEMPERATURE_KTY", "Description": "KTY temperature sensor" }, { "Value": 7, "DisplayName": "TEMPERATURE_KTY84", "Description": "KTY84 temperature sensor" }, { "Value": 8, "DisplayName": "TEMPERATURE_PTC", "Description": "PTC temperature sensor" }, { "Value": 9, "DisplayName": "VOLTAGE", "Description": "Other voltage interface" }, { "Value": 10, "DisplayName": "CURRENT", "Description": "Other current interface" }, { "Value": 11, "DisplayName": "TEMPERATURE", "Description": "Other temperature interface" }, { "Value": 12, "DisplayName": "CONFIGURABLE", "Description": "Configurable" } ]

InputVoltageRange provides the range of the input voltage. Preferably this information should be described by means of the AnalogInputElectricalTyp. InputVoltageRange can be used if the MultiStateValueDiscreteType is not applicable. The unit shall be volt [V].

InputCurrentRange provides the range of the input current. Preferably this information should be described by means of the AnalogInputElectricalType. InputCurrentRange can be used if the MultiStateValueDiscreteType is not applicable. The unit shall be ampere [A].

NumberOfChannels provides the number of channels of the analog input representation.

Resolution provides a number of bits (possibly adding the sign bit) for the analog input representation.

InternalResistance provides the size of the internal load resistor. The unit shall be ohm [Ω].

7.11.4 PtAnalogOutputElectricalAttributesType ObjectType Definition

7.11.4.1 Overview

The PtAnalogOutputElectricalAttributesType provides analog output asset attributes and is formally defined in Table 132.

Table 132 – PtAnalogOutputElectricalAttributesType Definition

Attribute	Value
BrowseName	PtAnalogOutputElectricalAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasComponent	Variable	AnalogOutputElectricalType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	NumberOfChannels	0:UInt16	0:PropertyType	O, RO
0:HasComponent	Variable	LoadResistance	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	FrequencyRange	0:Range	0:BaseDataVariableType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.4.2 Object Description

AnalogOutputElectricalType provides the used analog output(s). The values of the MultiStateValueDiscreteType variable are defined in Table 133 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 133 – PtAnalogOutputElectricalAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "VOLTAGE_0-10V", "Description": "Voltage range 0-10 volt" }, { "Value": 1, "DisplayName": "VOLTAGE_-10-10V", "Description": "Voltage range -10-10 volt" }, { "Value": 2, "DisplayName": "CURRENT_0-20MA", "Description": "Current range 0-20 milliampere" }, { "Value": 3, "DisplayName": "CURRENT_4-20MA", "Description": "Current range 4-20 milliampere" }, { "Value": 4, "DisplayName": "TEMPERATURE_PT1000", "Description": "PT1000 temperature sensor" }, { "Value": 5, "DisplayName": "TEMPERATURE_PT100", "Description": "PT100 temperature sensor" }, { "Value": 6, "DisplayName": "TEMPERATURE_KTY", "Description": "KTY temperature sensor" }, { "Value": 7, "DisplayName": "TEMPERATURE_KTY84", "Description": "KTY84 temperature sensor" }, { "Value": 8, "DisplayName": "TEMPERATURE_PTC", "Description": "PTC temperature sensor" }, { "Value": 9, "DisplayName": "VOLTAGE", "Description": "Other voltage interface" }, { "Value": 10, "DisplayName": "CURRENT", "Description": "Other current interface" }, { "Value": 11, "DisplayName": "TEMPERATURE", "Description": "Other temperature interface" }, { "Value": 12, "DisplayName": "CONFIGURABLE", "Description": "Configurable" } ]

NumberOfChannels provides the number of channels of the analog output representation.

LoadResistance provides the minimum value of the load resistance. The unit shall be ohm [Ω].

FrequencyRange provides the range of frequencies usable for the analog output. The unit shall be hertz [Hz].

The attributes of the PtAnalogOutputElectricalAttributesType have additional subattributes which are defined in Table 134.

Table 134 – PtAnalogOutputElectricalAttributesType additional subattributes

BrowsePath	References	NodeClass	BrowseName	DataType	TypeDefinition	Others
FrequencyRange	0:HasProperty	Variable	0:EngineeringUnits	EUInformation	0:PropertyType	M

7.11.5 PtAuxiliarySupplyAttributesType ObjectType Definition

7.11.5.1 Overview

The PtAuxiliarySupplyAttributesType provides the asset attributes describing the electrical data for control electronics and is formally defined in Table 135.

Table 135 – PtAuxiliarySupplyAttributesType Definition

Attribute	Value
BrowseName	PtAuxiliarySupplyAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasComponent	Variable	SupplyVoltageDc	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	SupplyVoltageAc	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	CurrentMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	FuseProtectionCurrentMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	PowerConsumptionMax	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.5.2 Object Description

SupplyVoltageDc provides the external supply voltage DC for the information electronics. The unit shall be volt [V].

SupplyVoltageAc provides the external supply voltage AC for the information electronics. The unit shall be volt [V].

CurrentMax provides the maximum input current which may occur for the rated input voltage. The unit shall be ampere [A].

FuseProtectionCurrentMax provides the information to the maximum fuse protection. The unit shall be ampere [A].

PowerConsumptionMax provides the information to the maximum power loss of the asset. The unit shall be watt [W].

7.11.6 PtCertificateAttributesType ObjectType Definition

7.11.6.1 Overview

The PtCertificateAttributesType provides the list of all supported certificates and is formally defined in Table 136.

Table 136 – PtCertificateAttributesType Definition

Attribute	Value
BrowseName	PtCertificateAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasProperty	Variable	Certificates	0:String[]	0:PropertyType	O, RO

Conformance Units

Powertrain Attributes Information

7.11.6.2 Object Description

Certificates provides all supported certificates of a powertrain asset. Examples are:

CE – Conformité Européenne

UL – Underwriters Laboratories

DoE – Department of Energy

CCC – China Compulsory Certificate

CEL – China Energy Label

UKCA – UK Conformity Assessment

ISI – Indian Standard Institute

7.11.7 PtCommunicationInterfaceAttributesType ObjectType Definition

7.11.7.1 Overview

The PtCommunicationInterfaceAttributesType provides information about a communication interface and is formally defined in Table 137.

Table 137 – PtCommunicationInterfaceAttributesType Definition

Attribute	Value
BrowseName	PtCommunicationInterfaceAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasComponent	Variable	ProtocolTypes	0:UInt16[]	0:MultiStateValueDiscreteType	M, RO
0:HasComponent	Variable	ProfileTypes	0:UInt16[]	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	SafetyProtocolTypes	0:UInt16[]	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	CommunicationSpeed	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	NumberOfPorts	0:UInt16	0:PropertyType	O, RO

Conformance Units

Powertrain Attributes Information

7.11.7.2 Object Description

ProtocolTypes provides the information to the supported communication features, fieldbus interface or protocols. The values of the MultiStateValueDiscreteType variable are defined in Table 138 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 138 – PtCommunicationInterfaceAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "ETHERCAT", "Description": "Ethernet for control automation technology for real-time systems" }, { "Value": 1, "DisplayName": "PROFINET", "Description": "Process field network for real-time systems" }, { "Value": 2, "DisplayName": "PROFINET_RT", "Description": "PROFINET class A, class B realtime communication" }, { "Value": 3, "DisplayName": "PROFINET_IRT", "Description": "PROFINET class C isochronous realtime communication" }, { "Value": 4, "DisplayName": "ETHERNET_IP", "Description": "Ethernet Industrial Protocol for real time system" }, { "Value": 5, "DisplayName": "PROFIBUS", "Description": "Process field bus" }, { "Value": 6, "DisplayName": "PROFIBUS_DP", "Description": "Process field bus distributed peripherals" }, { "Value": 7, "DisplayName": "PROFIBUS_PA", "Description": "Process field bus process automation" }, { "Value": 8, "DisplayName": "SERCOS", "Description": "Serial realtime communication system" }, { "Value": 9, "DisplayName": "SERCOS_III_SERCOS_II", "Description": "Serial realtime communication system III / II" }, { "Value": 10, "DisplayName": "CC_LINK", "Description": "Control & communications fieldbus" }, { "Value": 11, "DisplayName": "CANOPEN", "Description": "Control area network – open communications protocol" }, { "Value": 12, "DisplayName": "IO_LINK", "Description": "Simple communications protocol, short distances, bi-directional, digital and point-to-point" }, { "Value": 13, "DisplayName": "MODBUS", "Description": "Communications protocol over serial lines or via ethernet" }, { "Value": 14, "DisplayName": "MODBUS_TCP", "Description": "Modbus over TCP/IP" }, { "Value": 15, "DisplayName": "MODBUS_RTU", "Description": "Modbus over serial lines" }, { "Value": 16, "DisplayName": "DEVICENET", "Description": "DeviceNet - digital, multi-drop fieldbus protocol" }, { "Value": 17, "DisplayName": "POWERLINK", "Description": "Ethernet powerlink" }, { "Value": 18, "DisplayName": "OPC_UA", "Description": "OPC Unified Architecture" }, { "Value": 19, "DisplayName": "MQTT", "Description": "Message queuing telemetry transport (MQTT)" }, { "Value": 20, "DisplayName": "INTERBUS", "Description": "Interbus" }, { "Value": 21, "DisplayName": "AS-I", "Description": "AS-I" }, { "Value": 22, "DisplayName": " CC_Link_IE_TSN", "Description": "CC-Link IE TSN" }, { "Value": 23, "DisplayName": " CC_Link_IE_FIELD", "Description": "CC-Link IE Field Network" }, { "Value": 24, "DisplayName": " CC_Link_IE_FIELD_BASIC", "Description": "CC-Link IE Field Network Basic" } ]
	[ { "Value": 0, "DisplayName": "CIA_402", "Description": "CANopen device profile for drives and motion control" }, { "Value": 1, "DisplayName": "PROFIDRIVE", "Description": "PROFIdrive is the modular, manufacturer-independent device profile for drive devices from Profibus & Profinet International" }, { "Value": 2, "DisplayName": "PROFIENERGY", "Description": "PROFIenergy is a profile for energy management in production plants" }, { "Value": 3, "DisplayName": "COE", "Description": "CANopen over EtherCAT" }, { "Value": 4, "DisplayName": "SOE", "Description": "Servo Drive Profile over EtherCAT" }, { "Value": 5, "DisplayName": "CIP_MOTION", "Description": "CIP motion technology provides application profiles that allow position, speed and torque loops to be set within a drive" }, { "Value": 6, "DisplayName": "SERCOS", "Description": "Serial Real-time Communication System" } ]
	[ { "Value": 0, "DisplayName": "FF-SIS", "Description": "Fieldbus Foundation Safety Instrumented Systems" }, { "Value": 1, "DisplayName": "CIP_SAFTEY", "Description": "Common Industrial Protocol Safety" }, { "Value": 2, "DisplayName": "PROFISAFE", "Description": "Process field safety" }, { "Value": 3, "DisplayName": "INTERBUS_SAFETY", "Description": "INTERBUS Safety" }, { "Value": 4, "DisplayName": "CC-Link_SAFETY", "Description": "CC-Link Safety" }, { "Value": 5, "DisplayName": "FAIL_SAFE_OVER_ETHERCAT_", "Description": "FailSafe over EtherCAT (FSoE)" }, { "Value": 6, "DisplayName": "ETHERNET_POWERLINK_SAFTETY", "Description": "Ethernet POWERLINK Safety" }, { "Value": 7, "DisplayName": "EPASAFETY", "Description": "EPASafety" }, { "Value": 8, "DisplayName": "RAPIENET_SAFETY", "Description": "RAPIEnet Safety" }, { "Value": 9, "DisplayName": "SAFETYNET_P", "Description": "SafetyNET p" }, { "Value": 10, "DisplayName": "OPENSAFETY", "Description": "openSAFETY" } ]

The 0:EnumValues of the FieldbusProtocolCategoryEnumeration have additional CDD entries which are defined inTable 139.

Table 139 – SafetyProtocolTypes CDD Entries

EnumValue	CDD Entry
ETHERCAT	5:0112/2///62683#ACH652#001
PROFINET	5:0112/2///62683#ACH663#001
ETHERNET_IP	5:0112/2///62683#ACH654#001
PROFIBUS	5:0112/2///62683#ACH506#001
SERCOS	5:0112/2///62683#ACH666#001
CC_LINK	5:0112/2///62683#ACH649#001
CANOPEN	5:0112/2///62683#ACH505#001
MODBUS	5:0112/2///62683#ACH569#001
DEVICENET	5:0112/2///62683#ACH507#001
POWERLINK	5:0112/2///62683#ACH653#001
OPC_UA	5:0112/2///62683#ACH662#001
MQTT	5:0112/2///62683#ACH661#001
INTERBUS	5:0112/2///62683#ACH657#001
AS-I	5:0112/2///62683#ACH508#001

ProfileTypes provides the information to the supported profiles. The values of the MultiStateValueDiscreteType variable are defined in Table 138 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

SafetyProtocolTypes provides the information to the supported functional safety protocol type. The values of the MultiStateValueDiscreteType variable are defined in Table 138 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

CommunicationSpeed provides the maximum supported bandwidth of the communication interface. The unit shall be bits per second [bps].

NumberOfPorts provides the number of physical ports of the communication interface.

7.11.8 PtCoolingAttributesType ObjectType Definition

7.11.8.1 Overview

The PtCoolingAttributesType provides information about the cooling type of the equipment and is formally defined in Table 140.

Table 140 – PtCoolingAttributesType Definition

Attribute	Value
BrowseName	PtCoolingAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasComponent	Variable	CoolingMethod	0:UInt16	0:MultiStateValueDiscreteType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.8.2 Object Description

CoolingMethod provides the cooling method of an equipment. The values of the MultiStateValueDiscreteType variable are defined in Table 141 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 141 – PtCoolingAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "AIR_COOLED_STATIC", "Description": "Cooled by just free ventilation openings" }, { "Value": 1, "DisplayName": "AIR_COOLED_FORCED", "Description": "Cooled using a fan" }, { "Value": 2, "DisplayName": "LIQUID_COOLED", "Description": "Cooled using liquid" } ]

7.11.9 PtHardwareAttributesType ObjectType Definition

7.11.9.1 Overview

The PtHardwareAttributesType provides the information to the physical values and dimensions of an asset and is formally defined in Table 142.

Table 142 – PtHardwareAttributesType Definition

Attribute	Value
BrowseName	PtHardwareAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasComponent	Variable	Length	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	Width	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	Height	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	Weight	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	FrameSizeCoding	0:String[]	0:PropertyType	O, RO
0:HasComponent	Variable	NoiseLevel	Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	HeatDissipationPower	Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.9.2 Object Description

Length provides the physical length of an asset. The unit shall be millimeter [mm].

Width provides the physical width of an asset. The unit shall be millimeter [mm].

Height provides the physical height of an asset. The unit shall be millimeter [mm].

Weight provides the physical weight of an asset. The unit shall be kilogram [kg].

FrameSizeCoding provides the producer’s specific name for the enclosure size (e.g. motor size 56-400 [IEC 60072] or NEMA 56C [National Electrical Manufacturer's Association]).

NoiseLevel represents the maximum noise created by the asset. The unit shall be decibel [dB].

HeatDissipationPower represents the heat dissipation expected for the maximum load. The unit shall be kilowatts [kW].

7.11.10 PtDigitalInputElectricalAttributesType ObjectType Definition

7.11.10.1 Overview

The PtDigitalInputElectricalAttributesType provides the asset attributes describing the type of digital input and is formally defined in Table 143.

Table 143 – PtDigitalInputElectricalAttributesType Definition

Attribute	Value
BrowseName	PtDigitalInputElectricalAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasComponent	Variable	DigitalInputElectricalType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	SafetyPropertySupported	0:Boolean	0:PropertyType	O, RO
0:HasProperty	Variable	NumberOfChannels	0:UInt16	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.10.2 Object Description

DigitalInputElectricalType provides the used digital input(s). The values of the MultiStateValueDiscreteType variable are defined in Table 144 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 144 – PtDigitalInputElectricalAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 1, "DisplayName": "TTL", "Description": "Transistor-transistor logic (0..5 V)" }, { "Value": 2, "DisplayName": "HTL", "Description": "High threshold logic (0..24 V)" }, { "Value": 3, "DisplayName": "PNP", "Description": "PNP transistor type" }, { "Value": 4, "DisplayName": "NPN", "Description": "NPN transistor type" }, { "Value": 5, "DisplayName": "CONFIGURABLE", "Description": "Configurable" }, { "Value": 6, "DisplayName": "PULSE_TRAIN", "Description": "Pulse train" }, { "Value": 7, "DisplayName": "RELAY", "Description": "Electromechanical relay" } ]

SafetyPropertySupported true if the digital input has a safety property.

NumberOfChannels provides the number of channels of the digital input.

7.11.11 PtDigitalOutputElectricalAttributesType ObjectType Definition

7.11.11.1 Overview

The PtDigitalOutputElectricalAttributesType provides asset attribute describing the type of digital output and is formally defined in Table 145.

Table 145 – PtDigitalOutputElectricalAttributesType Definition

Attribute	Value
BrowseName	PtDigitalOutputElectricalAttributesType
I89IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.5.1
0:HasComponent	Variable	DigitalOutputElectricalType	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	SafetyPropertySupported	Boolean	0:PropertyType	O, RO
0:HasComponent	Variable	OutputCurrentMax	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	NumberOfChannels	0:UInt16	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.11.2 Object Decription

DigitalOutputElectricalType provides the used digital output(s). The values of the MultiStateValueDiscreteType variable are defined in Table 146 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 146 – PtDigitalOutputElectricalAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 1, "DisplayName": "TTL", "Description": "Transistor-transistor logic (0..5 V)" }, { "Value": 2, "DisplayName": "HTL", "Description": "High threshold logic (0..24 V)" }, { "Value": 3, "DisplayName": "PNP", "Description": "PNP transistor type" }, { "Value": 4, "DisplayName": "NPN", "Description": "NPN transistor type" }, { "Value": 5, "DisplayName": "CONFIGURABLE", "Description": "Configurable" }, { "Value": 6, "DisplayName": "PULSE_TRAIN", "Description": "Pulse train" }, { "Value": 7, "DisplayName": "RELAY", "Description": "Electromechanical relay" } ]

SafetyPropertySupported true if the digital output has a safety property.

OutputCurrentMax provides the information to the total output current limitation. The unit shall be ampere [A].

NumberOfChannels provides the number of channels of the digital output.

7.11.12 PtFuseAttributesType ObjectType Definition

7.11.12.1 Overview

The PtFuseAttributesType provides the asset attributes describing a fuse and is formally defined in Table 147.

Table 147 – PtFuseAttributesType Definition

Attribute	Value
BrowseName	PtFuseAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.5.1
0:HasProperty	Variable	FuseIdentificationType	0:String	0:PropertyType	O, RO
0:HasComponent	Variable	CurrentRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	VoltageRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	FuseElementSpeedMarking	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	BreakingCapacity	0:Float	0:AnalogUnitType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.12.2 Object Description

FuseIdentificationType provides the information regarding the type of the fuse (e.g. part number).

CurrentRated provides the current carrying capacity of a fuse. The unit shall be ampere [A].

VoltageRated provides the maximum open circuit voltage in which a fuse can be used, yet safely interrupt an overcurrent. The unit shall be volt [V].

FuseElementSpeedMarking provides the marking of the corresponding speed of a fuse. The values of the MultiStateValueDiscreteType variable are defined in Table 148 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 148 – PtFuseAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "FF", "Description": "Very fast acting" }, { "Value": 1, "DisplayName": "F", "Description": "Fast acting" }, { "Value": 2, "DisplayName": "M", "Description": "Medium acting" }, { "Value": 3, "DisplayName": "T", "Description": "Slow acting" }, { "Value": 4, "DisplayName": "TT", "Description": "Very slow acting" }, { "Value": 5, "DisplayName": "AR", "Description": "Partial-range breaking capacity (short-circuit protection only)" }, { "Value": 6, "DisplayName": "GR", "Description": "Full-range breaking capacity (overload and short-circuit protection)" }, { "Value": 7, "DisplayName": "GS", "Description": "Full-range breaking capacity (overload and short-circuit protection)" }, { "Value": 8, "DisplayName": "GRL", "Description": "Full-range breaking capacity (overload and short-circuit protection)" }, { "Value": 9, "DisplayName": "GG", "Description": "Full-range breaking capacity (overload and short-circuit protection) for general applications" }, { "Value": 10, "DisplayName": "GL", "Description": "Full-range breaking capacity (overload and short-circuit protection) for general applications" }, { "Value": 11, "DisplayName": "GF", "Description": "Full-range breaking capacity (overload and short-circuit protection) for general applications" }, { "Value": 12, "DisplayName": "AM", "Description": "Partial-range breaking capacity (short-circuit protection only) for the protection of motor circuits" }, { "Value": 13, "DisplayName": "GM", "Description": "Full-range breaking capacity (overload and short-circuit protection) for the protection of motor circuits" }, { "Value": 14, "DisplayName": "GPV", "Description": "Protection of solar photovoltaic arrays" }, { "Value": 15, "DisplayName": "GB", "Description": "Full-range breaking capacity (overload and short-circuit protection) robust for mining application" }, { "Value": 16, "DisplayName": "GTR", "Description": "Full-range breaking capacity (overload and short-circuit protection) for protection of transformers" }, { "Value": 17, "DisplayName": "GN", "Description": "North American general purpose for protection of conductors" }, { "Value": 18, "DisplayName": "GD", "Description": "North American general purpose, time delay" } ]

BreakingCapacity provides the maximum approved current which the fuse can safely interrupt at rated voltage. The unit shall be volt [V].

7.11.13 PtInputInterfaceAttributesType ObjectType Definition

7.11.13.1 Overview

The PtInputInterfaceAttributesType provides the generic set of asset attributes of an input interface of a device belonging to a powertrain, in terms of electrical measures ratings and maximal values. This attribute type is used for assets connected to the mains and for an electrical motor asset as an input interface description. The asset attributes describing the interface to the mains line – electric energy converter that changes single-phase or polyphase alternating electric currents to unidirectional direct electric current (non-regenerative) and optionally also direct electric current to single-phase or polyphase alternating electric currents (regenerative). The PtInputInterfaceAttributesType is formally defined in Table 149.

Table 149 – PtInputInterfaceAttributesType Definition

Attribute	Value
BrowseName	PtInputInterfaceAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.5.1
0:HasComponent	Variable	InputVoltageRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	InputVoltageMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	InputVoltageRange	0:Range	0:BaseDataVariableType	O, RO
0:HasComponent	Variable	InputFrequencyRangeRated	0:Range	0:BaseDataVariableType	O, RO
0:HasComponent	Variable	InputFrequencyMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	InputCurrentMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	InputCurrentRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	InputPowerMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	InputPowerRated	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	NumberOfInputPhases	0:Byte	0:PropertyType	M, RO

Conformance Units
Powertrain Attributes Information

7.11.13.2 Object Description

InputVoltageRated provides the rated value of the voltage at the input interface. The unit shall be volt [V].

InputVoltageMax provides the maximum value of the voltage at the input interface. The unit shall be volt [V].

InputVoltageRange provides the value range of the voltage at the input interface. The unit shall be volt [V]

InputFrequencyRangeRated provides the rated value range of the frequency at the input interface. The unit shall be hertz [Hz].

InputFrequencyMax provides the maximum value of the frequency at the input interface. The unit shall be hertz [Hz].

InputCurrentMax provides the maximum value of the current at the input interface. The unit shall be ampere [A].

InputCurrentRated provides the rated value of the current at the input interface. The unit shall be ampere [A].

InputPowerMax provides the maximum value of the power at the input interface. The unit shall be watt [W].

InputPowerRated provides the value of the rated power at the input interface. The unit shall be watt [W].

NumberOfInputPhases contains the description of the number of phases.

7.11.14 PtOutputInterfaceAttributesType ObjectType Definition

7.11.14.1 Overview

The PtOutputInterfaceAttributesType provides the asset attributes specific to a general output interface of a device belonging to a powertrain in terms of electrical measures, ratings and maximal values and is formally defined in Table 150.

Table 150 – PtOutputInterfaceAttributesType Definition

Attribute	Value
BrowseName	PtOutputInterfaceAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.5.1
0:HasComponent	Variable	InputVoltageRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	InputCurrentRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OutputVoltageMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OutputVoltageRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OutputVoltageRange	0:Range	0:BaseDataVariableType	O, RO
0:HasComponent	Variable	OutputFrequencyMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OutputFrequencyRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OutputCurrentMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OutputCurrentRated	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OutputPowerMax	0:Float	0:AnalogUnitType	O, RO
0:HasComponent	Variable	OutputPowerRated	0:Float	0:AnalogUnitType	O, RO
0:HasProperty	Variable	NumberOfOutputPhases	0:Byte	0:PropertyType	M, RO

Conformance Units
Powertrain Attributes Information

7.11.14.2 Object Description

InputVoltageRated provides the rated value of the input DC voltage of a stand-alone PtAssetOutputConverter. The unit shall be volt [V].

InputCurrentRated provides the rated value of the input DC current of a stand-alone PtAssetOutputConverter. The unit shall be ampere [A].

OutputVoltageMax provides the maximum value of the output voltage. The variable indicates the upper limit of the normal operating point. The unit shall be volt [V].

OutputVoltageRated provides the value of the rated output voltage. The unit shall be volt [V].

OutputVoltageRange provides the value range of the output voltage. The unit shall be volt [V].

OutputFrequencyMax provides the maximum value of the frequency. The unit shall be hertz [Hz].

OutputFrequencyRated provides the value of the rated frequency. The unit shall be hertz [Hz].

OutputCurrentMax provides the maximum value of the current. The unit shall be ampere [A].

OutputCurrentRated provides the value of the rated current. The unit shall be ampere [A].

OutputPowerMax provides the maximum value of the output power. The unit shall be watt [W].

OutputPowerRated provides the value of the rated current. The unit shall be watt [W].

NumberOfOutputPhases refers to the number of phases of the voltage which the output interface is capable of supporting.

7.11.15 PtMechanicalStrengthAttributesType ObjectType Definition

7.11.15.1 Overview

The PtMechanicalStrengthAttributesType provides asset attributes describing the mechanical strength during operation and is formally defined in Table 151.

Table 151 – PtMechanicalStrengthAttributesType Definition

Attribute	Value
BrowseName	PtMechanicalStrengthAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasProperty	Variable	Shock	0:String[]	0:PropertyType	O, RO
0:HasProperty	Variable	Vibration	0:String[]	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.15.2 Object Desciption

Shock provides the information to the shock resistance properties. A considerable number of standards exist with regard to the assessment of machine shock. Example:

Shock resistance according to EN 60068-2-27: ≤ 100 g (981 m/s²)

IEC 60068-2-27:2008 - Half-sine of 15 or 5 g peak amplitude and a duration of 11 or 30 msec.

Vibration provides the information to the vibration severity. A considerable number of standards exist with regard to the assessment of machine vibrations; the following list does not claim to be exhaustive:

Vibration resistance according to EN 60068-2-6 at 5Hz – 2kHz: ≤ 10 g (98.1 m/s2)

DIN ISO 5348 - Mechanical vibration and shock - Mechanical mounting of accelerometers

DIN ISO 10816 - Mechanical vibration - Evaluation of machine vibration by measurements on non-rotating parts

DIN ISO 7919-3 - Mechanical vibration - Evaluation of machine vibration by measurements on rotating shafts

DIN ISO 20816-1 - Mechanical vibration - Measurement and evaluation of machine vibration

7.11.16 PtProtectionClassAttributesType ObjectType Definition

7.11.16.1 Overview

The PtProtectionClassAttributesType provides the asset attributes describing the protection class and is formally defined in Table 152.

Table 152 – PtProtectionClassAttributesType Definition

Attribute	Value
BrowseName	PtProtectionClassAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasComponent	Variable	IpClass	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	ExClass	0:String	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.16.2 Object Description

IpClass provides the degree of protection provided by the enclosure (according to DIN EN 60529). The values of the MultiStateValueDiscreteType variable are defined in Table 153 and shall be used. The values 0-199 are reserved for future extensions of this specification. The values 200-299 shall be used for vendor-specific extensions of this variable.

Table 153 – PtProtectionClassAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "IP00", "Description": "non-protected / non-protected" }, { "Value": 1, "DisplayName": "IP01", "Description": "non-protected / vertically dripping" }, { "Value": 2, "DisplayName": "IP02", "Description": "non-protected / dripping (15° tilted)" }, { "Value": 3, "DisplayName": "IP10", "Description": "≥ 50 mm diameter / non-protected" }, { "Value": 4, "DisplayName": "IP11", "Description": "≥ 50 mm diameter / vertically dripping" }, { "Value": 5, "DisplayName": "IP12", "Description": "≥ 50 mm diameter / dripping (15° tilted)" }, { "Value": 6, "DisplayName": "IP20", "Description": "≥ 12,5 mm diameter / non-protected" }, { "Value": 7, "DisplayName": "IP21", "Description": "≥ 12,5 mm diameter / vertically dripping" }, { "Value": 8, "DisplayName": "IP22", "Description": "≥ 12,5 mm diameter / dripping (15° tilted)" }, { "Value": 9, "DisplayName": "IP30", "Description": "≥ 2,5 mm diameter / non-protected" }, { "Value": 10, "DisplayName": "IP31", "Description": "≥ 2,5 mm diameter / vertically dripping" }, { "Value": 11, "DisplayName": "IP32", "Description": "≥ 2,5 mm diameter / dripping (15° tilted)" }, { "Value": 12, "DisplayName": "IP33", "Description": "≥ 2,5 mm diameter / spraying" }, { "Value": 13, "DisplayName": "IP40", "Description": "≥ 1,0 mm diameter / non-protected" }, { "Value": 14, "DisplayName": "IP41", "Description": "≥ 1,0 mm diameter / vertically dripping" }, { "Value": 15, "DisplayName": "IP42", "Description": "≥ 1,0 mm diameter / dripping (15° tilted)" }, { "Value": 16, "DisplayName": "IP43", "Description": "≥ 1,0 mm diameter / spraying" }, { "Value": 17, "DisplayName": "IP44", "Description": "≥ 1,0 mm diameter / splashing" }, { "Value": 18, "DisplayName": "IP45", "Description": "≥ 1,0 mm diameter / jetting" }, { "Value": 19, "DisplayName": "IP50", "Description": "dust-protected / non-protected" }, { "Value": 20, "DisplayName": "IP51", "Description": "dust-protected / vertically dripping" }, { "Value": 21, "DisplayName": "IP52", "Description": "dust-protected / dripping (15° tilted)" }, { "Value": 22, "DisplayName": "IP53", "Description": "dust-protected / spraying" }, { "Value": 23, "DisplayName": "IP54", "Description": "dust-protected / splashing" }, { "Value": 24, "DisplayName": "IP55", "Description": "dust-protected / jetting" }, { "Value": 25, "DisplayName": "IP56", "Description": "dust-protected / powerful jetting" }, { "Value": 26, "DisplayName": "IP57", "Description": "dust-protected / temporary immersion" }, { "Value": 27, "DisplayName": "IP58", "Description": "dust-protected / continuous immersion" }, { "Value": 28, "DisplayName": "IP60", "Description": "dust-tight / non-protected" }, { "Value": 29, "DisplayName": "IP61", "Description": "dust-tight / vertically dripping" }, { "Value": 30, "DisplayName": "IP62", "Description": "dust-tight / dripping (15° tilted)" }, { "Value": 31, "DisplayName": "IP63", "Description": "dust-tight / spraying" }, { "Value": 32, "DisplayName": "IP64", "Description": "dust-tight / splashing" }, { "Value": 33, "DisplayName": "IP65", "Description": "dust-tight / jetting" }, { "Value": 34, "DisplayName": "IP66", "Description": "dust-tight / powerful jetting" }, { "Value": 35, "DisplayName": "IP67", "Description": "dust-tight / temporary immersion" }, { "Value": 36, "DisplayName": "IP68", "Description": "dust-tight / continuous immersion" }, { "Value": 37, "DisplayName": "IP69", "Description": "dust-tight / high pressure and temperature water jet" }, { "Value": 38, "DisplayName": "IPX1", "Description": "not defined / vertically dripping" }, { "Value": 39, "DisplayName": "IPX2", "Description": "not defined / dripping (15° tilted)" }, { "Value": 40, "DisplayName": "IPX3", "Description": "not defined / spraying" }, { "Value": 41, "DisplayName": "IPX4", "Description": "not defined / splashing" }, { "Value": 42, "DisplayName": "IPX5", "Description": "not defined / jetting" }, { "Value": 43, "DisplayName": "IPX6", "Description": "not defined / powerful jetting" }, { "Value": 44, "DisplayName": "IPX7", "Description": "not defined / temporary immersion" }, { "Value": 45, "DisplayName": "IPX8", "Description": "not defined / continuous immersion" }, { "Value": 46, "DisplayName": "IP1X", "Description": "≥ 50 mm diameter / not defined" }, { "Value": 47, "DisplayName": "IP2X", "Description": "≥ 12,5 mm diameter / not defined" }, { "Value": 48, "DisplayName": "IP3X", "Description": "≥ 2,5 mm diameter / not defined" }, { "Value": 49, "DisplayName": "IP4X", "Description": "≥ 1,0 mm diameter / not defined" }, { "Value": 50, "DisplayName": "IP5X", "Description": "dust-protected / not defined" }, { "Value": 51, "DisplayName": "IP6X", "Description": "dust-tight / not defined" } ]

The ExClass provides the information to the type of explosive protection (according to DIN EN IEC 60079-0). Value examples:

Ex ta (Protection by enclosure Ex t, Category 1 EPL a, very high level of protection)

Ex eb (Increased safety Ex e, Category 2 EPL b, high level of protection)

Ex ic (Intrinsic safety Ex i, Category 3 EPL c, normal level of protection)

7.11.17 PtFunctionalSafetyAttributesType ObjectType Definition

7.11.17.1 Overview

The PtFunctionalSafetyAttributesType provides the asset attributes describing the various safety functions, certifications and safety transport protocols and is formally defined in Table 154.

Table 154 – PtFunctionalSafetyAttributesType Definition

Attribute	Value
BrowseName	PtFunctionalSafetyAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
HasPtAttributes	Object	<SafetyFunctionsAttributes>		PtSafetyFunctionsAttributesType	OP, RO
0:HasProperty	Variable	SafetyAssessor	0:String	0:PropertyType	O, RO
0:HasProperty	Variable	SafetyTransportProtocols	0:String[]	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.17.2 Object Description

<SafetyFunctionsAttributes> provides the information to safety functions, standards, safety integrity level (SIL), performance level,safety category and is formally defined in chapter 7.11.18.

SafetyAssessor provides the information to the existing assessor certificates. Examples are:

SGS Société Générale de Surveillance SA.

TÜV

DEKRA

SafetyTransportProtocols provides the information to the supported safety transport protocols. Value examples are:

FF-SIS

CIP Safety

PROFIsafe

INTERBUS Safety

CC-Link Safety

Fail Safe over EtherCAT (FSoE)

Ethernet POWERLINK Safety

EPASafety

RAPIEnet Safety

SafetyNET p

7.11.18 PtSafetyFunctionsAttributesType ObjectType Definition

7.11.18.1 Overview

The PtSafetyFunctionsAttributesType provides the asset attributes describing the safety functions, standards, safety integrity level (SIL), safety performance level and safety category and is formally defined in Table 155.

Table 155 – PtSafetyFunctionsAttributesType Definition

Attribute	Value
BrowseName	PtSafetyFunctionsAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.5.1
0:HasComponent	Variable	SafetyFunctions	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasProperty	Variable	SafetyStandards	0:String[]	0:PropertyType	O, RO
0:HasComponent	Variable	FunctionalSafetySilLevel	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	FunctionalSafetyPerformanceLevel	0:UInt16	0:MultiStateValueDiscreteType	O, RO
0:HasComponent	Variable	FunctionalSafetyCategory	0:UInt16	0:MultiStateValueDiscreteType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.18.2 Object Description

SafetyFunctions provides the supported safety functions. The values of the MultiStateValueDiscreteType variable are defined in Table 156 and shall be used. Additional values will be added in the specification. Manufacturer-specific extensions are not foreseen.

Table 156 – PtSafetyFunctionsAttributesType Attribute values for child Nodes

BrowsePath	Value Attribute	Description Attribute
	[ { "Value": 0, "DisplayName": "STO", "Description": "Safe torque off" }, { "Value": 1, "DisplayName": "SS1", "Description": "Safe stop 1" }, { "Value": 2, "DisplayName": "SS2", "Description": "Safe stop 2" }, { "Value": 3, "DisplayName": "SOS", "Description": "Safe operating stop" }, { "Value": 4, "DisplayName": "SLS", "Description": "Safely limited speed" }, { "Value": 5, "DisplayName": "SSM", "Description": "Safe speed monitor" }, { "Value": 6, "DisplayName": "SSR", "Description": "Safe speed range" }, { "Value": 7, "DisplayName": "SLP", "Description": "Safe limited position" }, { "Value": 8, "DisplayName": "SP", "Description": "Safe position" }, { "Value": 9, "DisplayName": "SDI", "Description": "Safe direction" }, { "Value": 10, "DisplayName": "SBC", "Description": "Safe brake control" }, { "Value": 11, "DisplayName": "SBT", "Description": "Safe brake test" }, { "Value": 12, "DisplayName": "S-DI", "Description": "Safe digital input" }, { "Value": 13, "DisplayName": "S-DO", "Description": "Safe digital output" }, { "Value": 14, "DisplayName": "S-AI", "Description": "Safe analog input" }, { "Value": 15, "DisplayName": "S-AO", "Description": "Safe analog output" } ]
	[ { "Value": 0, "DisplayName": "SIL_1", "Description": "Safety integrity level 1" }, { "Value": 1, "DisplayName": "SIL_2", "Description": "Safety integrity level 2" }, { "Value": 2, "DisplayName": "SIL_3", "Description": "Safety integrity level 3" }, { "Value": 3, "DisplayName": "SIL_4", "Description": "Safety integrity level 4" } ]
	[ { "Value": 0, "DisplayName": "PLA", "Description": "Performance level a" }, { "Value": 1, "DisplayName": "PLB", "Description": "Performance level b" }, { "Value": 2, "DisplayName": "PLC", "Description": "Performance level c" }, { "Value": 3, "DisplayName": "PLD", "Description": "Performance level d" }, { "Value": 4, "DisplayName": "PLE", "Description": "Performance level e" } ]
	[ { "Value": 0, "DisplayName": "CAT_B", "Description": "Category B" }, { "Value": 1, "DisplayName": "CAT_1", "Description": "Category 1" }, { "Value": 2, "DisplayName": "CAT_2", "Description": "Category 2" }, { "Value": 3, "DisplayName": "CAT_3", "Description": "Category 3" }, { "Value": 4, "DisplayName": "CAT_4", "Description": "Category 4" } ]

SafetyStandards provides the supported safety standards. Examples are:

IEC 61800-5

IEC 61508

FunctionalSafetySilLevel provides the information to the supported safety integrity level (SIL) according to IEC 61508 standard. The values of the MultiStateValueDiscreteType variable are defined Table 156 and shall be used. Additional values are added in the specification in according to the standard. Manufacturer-specific extensions are not foreseen.

FunctionalSafetyPerformanceLevel provides the value used to define the ability of safety-related parts of control systems to perform a safety function under foreseeable conditions. The values of the MultiStateValueDiscreteType variable are defined in Table 156and shall be used. Additional values are added in the specification in according to the EN ISO 13849 standard. Manufacturer-specific extensions are not foreseen.

FunctionalSafetyCategory provides the information to the existing functional safety category. The values of the MultiStateValueDiscreteType variable are defined in Table 156 and shall be used. Additional values are added in the specification in according to the ISO 13849-1 standard. Manufacturer-specific extensions are not foreseen.

7.11.19 PtStandardAttributesType ObjectType Definition

7.11.19.1 Overview

The PtStandardAttributesType provides the asset attributes of all supported standards and is formally defined in Table 157.

Table 157 – PtStandardAttributesType Definition

Attribute	Value
BrowseName	PtStandardAttributesType
IsAbstract	False

References	Node Class	BrowseName	DataType	TypeDefinition	Other
Subtype of the PtCommonAssetAttributesType defined in chapter 7.11
0:HasProperty	Variable	Standards	0:String[]	0:PropertyType	O, RO

Conformance Units
Powertrain Attributes Information

7.11.19.2 Object Description

Standards provides all supported standards of a powertrain asset. Examples are:

DIN EN 61800

EN 63000:2018

EN ISO 13849