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

<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].

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

<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

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

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].

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

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

EfficiencyClass

0:EnumValues

[ { "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" } ]

InputConverterType

0:EnumValues

[ { "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.

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

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

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

<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

EfficiencyClass

0:EnumValues

[ { "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" } ]

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

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

LineFilterEmcCategory

0:EnumValues

[ { "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)" } ]

LineFilterEmcClass

0:EnumValues

[ { "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" } ]

LineFilterEmcGroup

0:EnumValues

[ { "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.

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

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

OutputFilterType

0:EnumValues

[ { "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].

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

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

PreChargeType

0:EnumValues

[ { "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.