The StandbyModeTransitionDataType holds information which might change when the device is in a transition state to an Energy Saving Mode.

Table 39 – StandbyModeTransitionDataType Structure

Name

Type

Description

StandbyModeTransitionDataType

Structure

IDDestination

0:Byte

Mode ID of destination Energy Saving Mode.

CurrentTimeToDestination

0:Duration

Time needed to reach the mode IDDestination. Shall be a “Worst case” value if ongoing (dynamic) time value is not supported. Shall be 0 if destination Energy Saving Mode is reached.

CurrentTimeToOperate

0:Duration

Time needed to reach „Ready to operate“ if the Energy Saving Mode is not regularly terminated. The server might update the value after reaching the destination state as long as the TimeMinLengthOfStay of the destination state is not reached.

EnergyConsumptionToDestination

0:Float

Energy consumption for actual transition. Shall be 0 if not in a transition state.

Its representation in the AddressSpace is defined in Table 40.

Table 40 – StandbyModeTransitionDataType Definition

Attribute

Value

BrowseName

StandbyModeTransitionDataType

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Structure type defined in [OPC 10000-3]

Figure 12 shows how CurrentTimeToOperate varies in dependence of TimeToPause and TimeMinLengthOfStay of the destination Energy Saving Mode during and immediately after the transition.

The relationship of RegularTimeToOperate and CurrentTimeToOperate during a mode transition shall follow the specification defined by PROFIenergy (See [PE CAP], figure 14).

xxxx

image016.jpg

Figure 12 – RegularTimeToOperate vs. CurrentTimeToOperate

The EnergyStateInformationDataType holds information specific to a certain state which also does not change if the device is in transition state. The members shall have the values characterizing the current state and shall be changed only in case of a transition to a different state.

Table 41 – EnergyStateInformationDataType Structure

Name

Type

Description

EnergyStateInformationDataType

Structure

IDSource

0:Byte

Mode ID of current Energy Saving Mode.

IDDestination

0:Byte

Mode ID of destination Energy Saving Mode.

RegularTimeToOperate

0:Duration

Time needed to reach „Ready to operate“ if the Energy Saving Mode is regularly terminated. Shall be 0 if IDSource is equal to 0xFF (The StandbyManagementStatus Variable has the value “Ready to operate”).

ModePowerConsumption

0:Float

Power consumption in actual state.

Its representation in the AddressSpace is defined in Table 42

Table 42 – EnergyStateInformationDataType Definition

Attribute

Value

BrowseName

EnergyStateInformationDataType

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Structure type defined in [OPC 10000-3]

If the StandbyManagementStatus Variable of the EnergyStandbyManagementType Object has the value 2 (“Ready to operate”), IDSource and IDDestination shall be equal and have the value 0xFF.

If this StandbyManagementStatus Variable has the value 0 (“Energy saving disabled”), IDSource and IDDestination shall be equal and have the value 0xF0.

If this StandbyManagementStatus Variable has the value 4 (“Energy saving mode”), IDSource and IDDestination shall be equal and have the value of the ID Property of the EnergySavingModeType Object representing the current Energy Saving Mode.

If this StandbyManagementStatus Variable has the value 3 (“Moving to energy saving mode”) and if the previous value was 2 (“Ready to operate”), IDSource shall have the value 0xFF and IDDestination shall have the value of the ID Property of the EnergySavingModeType Object representing the destination Energy Saving Mode.

If this StandbyManagementStatus Variable has the value 3 (“Moving to energy saving mode”) and if the previous value was 4 (“Energy saving mode”, the state transition takes place between two Energy Saving Modes), IDSource shall be the value of the ID Property of the EnergySavingModeType Object representing the source Energy Saving Mode. IDDestination shall have the value of the ID Property of the EnergySavingModeType Object representing the destination Energy Saving Mode.

If this StandbyManagementStatus Variable has the value 5 (“Moving to ready to operate”), IDDestination shall have the value 0xFF. IDSource shall have the value of the ID Property of the EnergySavingModeType Object representing the source Energy Saving Mode.

This structure contains the PROFIenergy version implemented by the device.

Table 43 – PeVersionDataType Structure

Name

Type

Description

PeVersionDataType

Structure

MajorVersion

0:Byte

MinorVersion

0:Byte

Revision

0:Byte

Its representation in the AddressSpace is defined in Table 44.

Table 44 – PeVersionDataType Definition

Attribute

Value

BrowseName

PeVersionDataType

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Structure type defined in [OPC 10000-3]

This structure can also be seen as L1, L2, L3.

Table 45 – AcPeDataType Structure

Name

Type

Description

AcPeDataType

Structure

A

0:Float

Phase a-n

B

0:Float

Phase b-n

C

0:Float

Phase c-n

Its representation in the AddressSpace is defined in Table 46.

Table 46 – PeVersionDataType Definition

Attribute

Value

BrowseName

PeVersionDataType

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Structure type defined in [OPC 10000-3]

This structure can also be seen as L1L2, L2L3, L3L1.

Table 47 – AcPpDataType Structure

Name

Type

Description

AcPpDataType

Structure

A_b

0:Float

Phase a-b

B_c

0:Float

Phase b-c

C_a

0:Float

Phase c-a

Its representation in the AddressSpace is defined in Table 48

Table 48 – AcPpDataType Definition

Attribute

Value

BrowseName

AcPpDataType

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Structure type defined in [OPC 10000-3]

This enumeration defines the possible values for the PeClass Property of the PeServiceAccessPointType. The enumeration is defined in Table 49.

Table 49 – PeClassEnumeration Items

Name

Value

Description

PE_CLASS1

0

The PE Entity supports Standby Management functionality.

PE_CLASS2

1

The PE Entity supports Energy Measurement functionality.

PE_CLASS3

2

The PE Entity supports both Standby Management and Energy Measurement functionality.

Its representation in the AddressSpace is defined in Table 50.

Table 50 – PeClassEnumeration Definition

Attribute

Value

BrowseName

PeClassEnumeration

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Enumeration type defined in [OPC 10000-5]

0:HasProperty

Variable

0:EnumValues

0:EnumValueType []

0:PropertyType

This enumeration defines the possible values for the PeSubclass Property of the PeServiceAccessPointType. The enumeration is defined in Table 51.

Table 51 – PeSubclassEnumeration Items

Name

Value

Description

PE_SUBCLASS1

0

The PE Entity does not support a Standby Management disabled state.

PE_SUBCLASS2

1

The PE Entity supports a Standby Management disabled state.

Its representation in the AddressSpace is defined in Table 52.

Table 52 – PeSubclassEnumeration Definition

Attribute

Value

BrowseName

PeSubclassEnumeration

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Enumeration type defined in [OPC 10000-5]

0:HasProperty

Variable

0:EnumValues

0:EnumValueType []

0:PropertyType

This enumeration defines the possible values for the AccuracyDomain Property of the MeasurementValueType. The enumeration is defined in Table 53.

Table 53 – AccuracyDomainEnumeration Items

Name

Value

Description

ACCURACY_DOMAIN_RESERVED

0

Reserved.

ACCURACY_DOMAIN_PERCENT_FULL_SCALE

1

The accuracy is given as percent of the full-scale reading.

ACCURACY_DOMAIN_PERCENT_ACTUAL_READING

2

The accuracy is given as percent of the actual reading.

ACCURACY_DOMAIN_IEC

3

The accuracy is given according to IEC 61557-12.

ACCURACY_DOMAIN_EN

4

The accuracy is given as specified in the EN 50470-3, Chapter 8.

Its representation in the AddressSpace is defined in Table 54.

Table 54 – AccuracyDomainEnumeration Definition

Attribute

Value

BrowseName

AccuracyDomainEnumeration

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Enumeration type defined in [OPC 10000-5]

0:HasProperty

Variable

0:EnumValues

0:EnumValueType []

0:PropertyType

This enumeration defines the possible values for the AccuracyClass Property of the MeasurementValueType. The enumeration is defined in Table 55.

Table 55 – AccuracyClassEnumeration Items

Name

Value

Description

ACCURACY_CLASS_0

0

Reserved.

ACCURACY_CLASS_1

1

.

ACCURACY_CLASS_2

2

ACCURACY_CLASS_3

3

ACCURACY_CLASS_4

4

ACCURACY_CLASS_5

5

ACCURACY_CLASS_6

6

Meaning of value depends on AccuracyDomain variable value.

ACCURACY_CLASS_7

7

See Table 36, Table 37 and Table 38.

ACCURACY_CLASS_8

8

ACCURACY_CLASS_9

9

ACCURACY_CLASS_10

10

ACCURACY_CLASS_11

11

ACCURACY_CLASS_12

12

ACCURACY_CLASS_13

13

ACCURACY_CLASS_14

14

ACCURACY_CLASS_15

15

Its representation in the AddressSpace is defined in Table 56.

Table 56 – AccuracyClassEnumeration Definition

Attribute

Value

BrowseName

AccuracyClassEnumeration

IsAbstract

False

References

NodeClass

BrowseName

DataType

TypeDefinition

Other

Subtype of the Enumeration type defined in [OPC 10000-5]

0:HasProperty

Variable

0:EnumValues

0:EnumValueType []

0:PropertyType