ACDCConverterDCTerminal
A DC electrical connection point at the AC/DC converter. The AC/DC converter is electrically connected also to the AC side. The AC connection is inherited from the AC conducting equipment in the same way as any other AC equipment. The AC/DC converter DC terminal is separate from generic DC terminal to restrict the connection with the AC side to AC/DC converter and so that no other DC conducting equipment can be connected to the AC side.
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URI |
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CIM standard (perspective) |
IEC61970 (Grid) |
Slots
| Name | Cardinality | Type | Description |
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1 |
A DC converter terminal belong to an DC converter. |
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1 |
Dataset containing the data objects. |
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0..1 |
Represents the normal network polarity condition. Depending on the converter configuration the value shall be set as follows: - For a monopole with two converter terminals use DCPolarityKind “positive” and “negative”. - For a bi-pole or symmetric monopole with three converter terminals use DCPolarityKind “positive”, “middle” and “negative”. |
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0..1 |
The bus name marker used to name the bus (topological node). |
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0..1 |
The DC connectivity node to which this DC base terminal connects with zero impedance. |
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0..1 |
See association end Terminal.TopologicalNode. |
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0..1 |
The single CIM data object in the appropriate dataset context. |
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0..1 |
The aliasName is free text human readable name of the object alternative to IdentifiedObject.name. It may be non unique and may not correlate to a naming hierarchy. The attribute aliasName is retained because of backwards compatibility between CIM relases. It is however recommended to replace aliasName with the Name class as aliasName is planned for retirement at a future time. |
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0..1 |
The connected status is related to a bus-branch model and the topological node to terminal relation. True implies the terminal is connected to the related topological node and false implies it is not. In a bus-branch model, the connected status is used to tell if equipment is disconnected without having to change the connectivity described by the topological node to terminal relation. A valid case is that conducting equipment can be connected in one end and open in the other. In particular for an AC line segment, where the reactive line charging can be significant, this is a relevant case. |
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0..1 |
The description is a free human readable text describing or naming the object. It may be non unique and may not correlate to a naming hierarchy. |
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0..1 |
Master resource identifier issued by a model authority. The mRID is unique within an exchange context. Global uniqueness is easily achieved by using a UUID, as specified in RFC 4122, for the mRID. The use of UUID is strongly recommended. For CIMXML data files in RDF syntax conforming to IEC 61970-552, the mRID is mapped to rdf:ID or rdf:about attributes that identify CIM object elements. |
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0..1 |
The name is any free human readable and possibly non unique text naming the object. |
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0..1 |
The orientation of the terminal connections for a multiple terminal conducting equipment. The sequence numbering starts with 1 and additional terminals should follow in increasing order. The first terminal is the "starting point" for a two terminal branch. |
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0..* |
The diagram objects that are associated with the domain object. |
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0..* |
Measurements associated with this terminal defining where the measurement is placed in the network topology. It may be used, for instance, to capture the sensor position, such as a voltage transformer (PT) at a busbar or a current transformer (CT) at the bar between a breaker and an isolator. |
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0..* |
All names of this identified object. |
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0..* |
The operational limit sets at the terminal. |
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0..* |
Data objects registered. |
aliasName
The aliasName is free text human readable name of the object alternative to IdentifiedObject.name. It may be non unique and may not correlate to a naming hierarchy. The attribute aliasName is retained because of backwards compatibility between CIM relases. It is however recommended to replace aliasName with the Name class as aliasName is planned for retirement at a future time.
URI |
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Cardinality |
0..1 |
Type |
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Inherited from |
BusNameMarker
The bus name marker used to name the bus (topological node).
URI |
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|---|---|
Cardinality |
0..1 |
Type |
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Inherited from |
connected
The connected status is related to a bus-branch model and the topological node to terminal relation. True implies the terminal is connected to the related topological node and false implies it is not. In a bus-branch model, the connected status is used to tell if equipment is disconnected without having to change the connectivity described by the topological node to terminal relation. A valid case is that conducting equipment can be connected in one end and open in the other. In particular for an AC line segment, where the reactive line charging can be significant, this is a relevant case.
URI |
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Cardinality |
0..1 |
Type |
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Inherited from |
DCConductingEquipment
A DC converter terminal belong to an DC converter.
URI |
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|---|---|
Cardinality |
1 |
Type |
DCNode
The DC connectivity node to which this DC base terminal connects with zero impedance.
URI |
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Cardinality |
0..1 |
Type |
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Inherited from |
DCTopologicalNode
See association end Terminal.TopologicalNode.
URI |
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Cardinality |
0..1 |
Type |
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Inherited from |
description
The description is a free human readable text describing or naming the object. It may be non unique and may not correlate to a naming hierarchy.
URI |
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|---|---|
Cardinality |
0..1 |
Type |
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Inherited from |
DiagramObjects
The diagram objects that are associated with the domain object.
URI |
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Cardinality |
0..* |
Type |
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Inherited from |
InstanceSet
Dataset containing the data objects.
URI |
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|---|---|
Cardinality |
1 |
Type |
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Inherited from |
Measurements
Measurements associated with this terminal defining where the measurement is placed in the network topology. It may be used, for instance, to capture the sensor position, such as a voltage transformer (PT) at a busbar or a current transformer (CT) at the bar between a breaker and an isolator.
URI |
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|---|---|
Cardinality |
0..* |
Type |
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Inherited from |
mRID
Master resource identifier issued by a model authority. The mRID is unique within an exchange context. Global uniqueness is easily achieved by using a UUID, as specified in RFC 4122, for the mRID. The use of UUID is strongly recommended. For CIMXML data files in RDF syntax conforming to IEC 61970-552, the mRID is mapped to rdf:ID or rdf:about attributes that identify CIM object elements.
URI |
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Cardinality |
0..1 |
Type |
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Inherited from |
name
The name is any free human readable and possibly non unique text naming the object.
URI |
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|---|---|
Cardinality |
0..1 |
Type |
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Inherited from |
Names
All names of this identified object.
URI |
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Cardinality |
0..* |
Type |
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Inherited from |
OperationalLimitSet
The operational limit sets at the terminal.
URI |
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Cardinality |
0..* |
Type |
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Inherited from |
polarity
Represents the normal network polarity condition. Depending on the converter configuration the value shall be set as follows: - For a monopole with two converter terminals use DCPolarityKind “positive” and “negative”. - For a bi-pole or symmetric monopole with three converter terminals use DCPolarityKind “positive”, “middle” and “negative”.
URI |
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|---|---|
Cardinality |
0..1 |
Type |
PropertiesCIMDataObject
The single CIM data object in the appropriate dataset context.
URI |
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|---|---|
Cardinality |
0..1 |
Type |
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Inherited from |
sequenceNumber
The orientation of the terminal connections for a multiple terminal conducting equipment. The sequence numbering starts with 1 and additional terminals should follow in increasing order. The first terminal is the "starting point" for a two terminal branch.
URI |
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|---|---|
Cardinality |
0..1 |
Type |
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Inherited from |