final case class SynchronousMachine(RotatingMachine: RotatingMachine = null, aVRToManualLag: Double = 0.0, aVRToManualLead: Double = 0.0, baseQ: Double = 0.0, condenserP: Double = 0.0, coolantCondition: Double = 0.0, coolantType: String = null, earthing: Boolean = false, earthingStarPointR: Double = 0.0, earthingStarPointX: Double = 0.0, ikk: Double = 0.0, manualToAVR: Double = 0.0, maxQ: Double = 0.0, maxU: Double = 0.0, minQ: Double = 0.0, minU: Double = 0.0, mu: Double = 0.0, operatingMode: String = null, qPercent: Double = 0.0, r: Double = 0.0, r0: Double = 0.0, r2: Double = 0.0, referencePriority: Int = 0, satDirectSubtransX: Double = 0.0, satDirectSyncX: Double = 0.0, satDirectTransX: Double = 0.0, shortCircuitRotorType: String = null, type: String = null, voltageRegulationRange: Double = 0.0, x0: Double = 0.0, x2: Double = 0.0, InitialReactiveCapabilityCurve: String = null, PrimeMovers: List[String] = null, ReactiveCapabilityCurves: List[String] = null, SynchronousMachineDynamics: String = null) extends Element with Product with Serializable
An electromechanical device that operates with shaft rotating synchronously with the network.
It is a single machine operating either as a generator or synchronous condenser or pump.
- RotatingMachine
RotatingMachine Reference to the superclass object.
- aVRToManualLag
Time delay required when switching from Automatic Voltage Regulation (AVR) to Manual for a lagging MVAr violation.
- aVRToManualLead
Time delay required when switching from Automatic Voltage Regulation (AVR) to Manual for a leading MVAr violation.
- baseQ
Default base reactive power value. This value represents the initial reactive power that can be used by any application function.
- condenserP
Active power consumed when in condenser mode operation.
- coolantCondition
Temperature or pressure of coolant medium.
- coolantType
Method of cooling the machine.
- earthing
Indicates whether or not the generator is earthed. Used for short circuit data exchange according to IEC 60909.
- earthingStarPointR
Generator star point earthing resistance (Re). Used for short circuit data exchange according to IEC 60909.
- earthingStarPointX
Generator star point earthing reactance (Xe). Used for short circuit data exchange according to IEC 60909.
- ikk
Steady-state short-circuit current (in A for the profile) of generator with compound excitation during 3-phase short circuit.
- Ikk=0: Generator with no compound excitation.
- Ikk<>0: Generator with compound excitation. Ikk is used to calculate the minimum steady-state short-circuit current for generators with compound excitation. (4.6.1.2 in IEC 60909-0:2001). Used only for single fed short circuit on a generator. (4.3.4.2. in IEC 60909-0:2001).
- manualToAVR
Time delay required when switching from Manual to Automatic Voltage Regulation. This value is used in the accelerating power reference frame for powerflow solutions.
- maxQ
Maximum reactive power limit. This is the maximum (nameplate) limit for the unit.
- maxU
Maximum voltage limit for the unit.
- minQ
Minimum reactive power limit for the unit.
- minU
Minimum voltage limit for the unit.
- mu
Factor to calculate the breaking current (Section 4.5.2.1 in IEC 60909-0). Used only for single fed short circuit on a generator (Section 4.3.4.2. in IEC 60909-0).
- operatingMode
Current mode of operation.
- qPercent
Part of the coordinated reactive control that comes from this machine. The attribute is used as a participation factor not necessarily summing up to 100% for the participating devices in the control.
- r
Equivalent resistance (RG) of generator. RG is considered for the calculation of all currents, except for the calculation of the peak current ip. Used for short circuit data exchange according to IEC 60909.
- r0
Zero sequence resistance of the synchronous machine.
- r2
Negative sequence resistance.
- referencePriority
Priority of unit for use as powerflow voltage phase angle reference bus selection. 0 = don t care (default) 1 = highest priority. 2 is less than 1 and so on.
- satDirectSubtransX
Direct-axis subtransient reactance saturated, also known as Xd"sat.
- satDirectSyncX
Direct-axes saturated synchronous reactance (xdsat); reciprocal of short-circuit ration. Used for short circuit data exchange, only for single fed short circuit on a generator. (4.3.4.2. in IEC 60909-0:2001).
- satDirectTransX
Saturated Direct-axis transient reactance. The attribute is primarily used for short circuit calculations according to ANSI.
- shortCircuitRotorType
Type of rotor, used by short circuit applications, only for single fed short circuit according to IEC 60909.
- type
Modes that this synchronous machine can operate in.
- voltageRegulationRange
Range of generator voltage regulation (PG in IEC 60909-0) used for calculation of the impedance correction factor KG defined in IEC 60909-0. This attribute is used to describe the operating voltage of the generating unit.
- x0
Zero sequence reactance of the synchronous machine.
- x2
Negative sequence reactance.
- InitialReactiveCapabilityCurve
ReactiveCapabilityCurve The default reactive capability curve for use by a synchronous machine.
- PrimeMovers
PrimeMover Prime movers that drive this SynchronousMachine.
- ReactiveCapabilityCurves
ReactiveCapabilityCurve All available reactive capability curves for this synchronous machine.
- SynchronousMachineDynamics
SynchronousMachineDynamics Synchronous machine dynamics model used to describe dynamic behaviour of this synchronous machine.
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Instance Constructors
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new
SynchronousMachine(RotatingMachine: RotatingMachine = null, aVRToManualLag: Double = 0.0, aVRToManualLead: Double = 0.0, baseQ: Double = 0.0, condenserP: Double = 0.0, coolantCondition: Double = 0.0, coolantType: String = null, earthing: Boolean = false, earthingStarPointR: Double = 0.0, earthingStarPointX: Double = 0.0, ikk: Double = 0.0, manualToAVR: Double = 0.0, maxQ: Double = 0.0, maxU: Double = 0.0, minQ: Double = 0.0, minU: Double = 0.0, mu: Double = 0.0, operatingMode: String = null, qPercent: Double = 0.0, r: Double = 0.0, r0: Double = 0.0, r2: Double = 0.0, referencePriority: Int = 0, satDirectSubtransX: Double = 0.0, satDirectSyncX: Double = 0.0, satDirectTransX: Double = 0.0, shortCircuitRotorType: String = null, type: String = null, voltageRegulationRange: Double = 0.0, x0: Double = 0.0, x2: Double = 0.0, InitialReactiveCapabilityCurve: String = null, PrimeMovers: List[String] = null, ReactiveCapabilityCurves: List[String] = null, SynchronousMachineDynamics: String = null)
- RotatingMachine
RotatingMachine Reference to the superclass object.
- aVRToManualLag
Time delay required when switching from Automatic Voltage Regulation (AVR) to Manual for a lagging MVAr violation.
- aVRToManualLead
Time delay required when switching from Automatic Voltage Regulation (AVR) to Manual for a leading MVAr violation.
- baseQ
Default base reactive power value. This value represents the initial reactive power that can be used by any application function.
- condenserP
Active power consumed when in condenser mode operation.
- coolantCondition
Temperature or pressure of coolant medium.
- coolantType
Method of cooling the machine.
- earthing
Indicates whether or not the generator is earthed. Used for short circuit data exchange according to IEC 60909.
- earthingStarPointR
Generator star point earthing resistance (Re). Used for short circuit data exchange according to IEC 60909.
- earthingStarPointX
Generator star point earthing reactance (Xe). Used for short circuit data exchange according to IEC 60909.
- ikk
Steady-state short-circuit current (in A for the profile) of generator with compound excitation during 3-phase short circuit.
- Ikk=0: Generator with no compound excitation.
- Ikk<>0: Generator with compound excitation. Ikk is used to calculate the minimum steady-state short-circuit current for generators with compound excitation. (4.6.1.2 in IEC 60909-0:2001). Used only for single fed short circuit on a generator. (4.3.4.2. in IEC 60909-0:2001).
- manualToAVR
Time delay required when switching from Manual to Automatic Voltage Regulation. This value is used in the accelerating power reference frame for powerflow solutions.
- maxQ
Maximum reactive power limit. This is the maximum (nameplate) limit for the unit.
- maxU
Maximum voltage limit for the unit.
- minQ
Minimum reactive power limit for the unit.
- minU
Minimum voltage limit for the unit.
- mu
Factor to calculate the breaking current (Section 4.5.2.1 in IEC 60909-0). Used only for single fed short circuit on a generator (Section 4.3.4.2. in IEC 60909-0).
- operatingMode
Current mode of operation.
- qPercent
Part of the coordinated reactive control that comes from this machine. The attribute is used as a participation factor not necessarily summing up to 100% for the participating devices in the control.
- r
Equivalent resistance (RG) of generator. RG is considered for the calculation of all currents, except for the calculation of the peak current ip. Used for short circuit data exchange according to IEC 60909.
- r0
Zero sequence resistance of the synchronous machine.
- r2
Negative sequence resistance.
- referencePriority
Priority of unit for use as powerflow voltage phase angle reference bus selection. 0 = don t care (default) 1 = highest priority. 2 is less than 1 and so on.
- satDirectSubtransX
Direct-axis subtransient reactance saturated, also known as Xd"sat.
- satDirectSyncX
Direct-axes saturated synchronous reactance (xdsat); reciprocal of short-circuit ration. Used for short circuit data exchange, only for single fed short circuit on a generator. (4.3.4.2. in IEC 60909-0:2001).
- satDirectTransX
Saturated Direct-axis transient reactance. The attribute is primarily used for short circuit calculations according to ANSI.
- shortCircuitRotorType
Type of rotor, used by short circuit applications, only for single fed short circuit according to IEC 60909.
- type
Modes that this synchronous machine can operate in.
- voltageRegulationRange
Range of generator voltage regulation (PG in IEC 60909-0) used for calculation of the impedance correction factor KG defined in IEC 60909-0. This attribute is used to describe the operating voltage of the generating unit.
- x0
Zero sequence reactance of the synchronous machine.
- x2
Negative sequence reactance.
- InitialReactiveCapabilityCurve
ReactiveCapabilityCurve The default reactive capability curve for use by a synchronous machine.
- PrimeMovers
PrimeMover Prime movers that drive this SynchronousMachine.
- ReactiveCapabilityCurves
ReactiveCapabilityCurve All available reactive capability curves for this synchronous machine.
- SynchronousMachineDynamics
SynchronousMachineDynamics Synchronous machine dynamics model used to describe dynamic behaviour of this synchronous machine.
Value Members
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final
def
!=(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
final
def
##(): Int
- Definition Classes
- AnyRef → Any
-
final
def
==(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- val InitialReactiveCapabilityCurve: String
- val PrimeMovers: List[String]
- val ReactiveCapabilityCurves: List[String]
- val RotatingMachine: RotatingMachine
- val SynchronousMachineDynamics: String
- val aVRToManualLag: Double
- val aVRToManualLead: Double
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def
about: Boolean
Flag for rdf:about elements.
Flag for rdf:about elements.
- returns
trueif this is an rdf:about element,falseotherwise.
- Definition Classes
- Element
-
def
anyNull: Boolean
- Definition Classes
- Row
-
def
apply(i: Int): Any
- Definition Classes
- Row
-
final
def
asInstanceOf[T0]: T0
- Definition Classes
- Any
- val baseQ: Double
-
def
baseclass: String
This class name.
-
val
bitfields: Array[Int]
Valid fields bitmap.
Valid fields bitmap.
One (1) in a bit position means that field was found in parsing, zero means it has an indeterminate value. Field order is specified by the fields array.
For classes constructed manually, we initially fill this in with the worst case scenario. ToDo: this won't work for classes with more than 128 fields (so far none).
- Definition Classes
- Element
-
def
classes: Seq[String]
This class and the hierarchical list of classes this class derives from.
This class and the hierarchical list of classes this class derives from.
- returns
the list of classes without the package prefixes.
- Definition Classes
- Element
-
def
clone(): AnyRef
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws( ... ) @native() @HotSpotIntrinsicCandidate()
- val condenserP: Double
- val coolantCondition: Double
- val coolantType: String
-
def
copy(): Row
Return a copy of this object as a Row.
Return a copy of this object as a Row.
Creates a clone of this object for use in Row manipulations.
- returns
The copy of the object.
- Definition Classes
- SynchronousMachine → Row
- val earthing: Boolean
- val earthingStarPointR: Double
- val earthingStarPointX: Double
-
def
emit_attribute(field: String, value: Any)(implicit clz: String, s: StringBuilder): Unit
Emit one XML attribute.
Emit one XML attribute.
- field
The name of the field.
- value
The value of the field.
- clz
The class name (e.g. ACLineSegment) of this element
- s
The builder to write into.
- Definition Classes
- Element
<cim:Location.CoordinateSystem rdf:resource="#wgs84"/>
Example: -
def
emit_element(field: String, value: Any)(implicit clz: String, s: StringBuilder): Unit
Emit one XML element.
Emit one XML element.
- field
The name of the field.
- value
The value of the field.
- clz
The class name (e.g. ACLineSegment) of this element
- s
The builder to write into.
- Definition Classes
- Element
<cim:IdentifiedObject.name>WGS 84</cim:IdentifiedObject.name>
Example: -
final
def
eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
-
def
equals(o: Any): Boolean
- Definition Classes
- Row → AnyRef → Any
-
def
export: String
Return a string containing this object as XML.
Return a string containing this object as XML.
- returns
The XML corresponding to this object.
- Definition Classes
- SynchronousMachine → Element
-
def
export_fields: String
Return a string containing the fields of this object suitable for inclusion in an XML object.
Return a string containing the fields of this object suitable for inclusion in an XML object.
- returns
A string with the fields coded in XML
- Definition Classes
- SynchronousMachine → Element
-
def
fieldIndex(name: String): Int
- Definition Classes
- Row
-
def
get(i: Int): AnyRef
Get the value of the field at index
i.Get the value of the field at index
i.- i
The index of the field desired.
- returns
The value stored in the field, or
nullif none.
- Definition Classes
- Element → Row
-
def
getAs[T](fieldName: String): T
- Definition Classes
- Row
-
def
getAs[T](i: Int): T
- Definition Classes
- Row
-
def
getBoolean(i: Int): Boolean
- Definition Classes
- Row
-
def
getByte(i: Int): Byte
- Definition Classes
- Row
-
final
def
getClass(): Class[_]
- Definition Classes
- AnyRef → Any
- Annotations
- @native() @HotSpotIntrinsicCandidate()
-
def
getDate(i: Int): Date
- Definition Classes
- Row
-
def
getDecimal(i: Int): BigDecimal
- Definition Classes
- Row
-
def
getDouble(i: Int): Double
- Definition Classes
- Row
-
def
getFloat(i: Int): Float
- Definition Classes
- Row
-
def
getInstant(i: Int): Instant
- Definition Classes
- Row
-
def
getInt(i: Int): Int
- Definition Classes
- Row
-
def
getJavaMap[K, V](i: Int): Map[K, V]
- Definition Classes
- Row
-
def
getList[T](i: Int): List[T]
- Definition Classes
- Row
-
def
getLocalDate(i: Int): LocalDate
- Definition Classes
- Row
-
def
getLong(i: Int): Long
- Definition Classes
- Row
-
def
getMap[K, V](i: Int): Map[K, V]
- Definition Classes
- Row
-
def
getSeq[T](i: Int): Seq[T]
- Definition Classes
- Row
-
def
getShort(i: Int): Short
- Definition Classes
- Row
-
def
getString(i: Int): String
- Definition Classes
- Row
-
def
getStruct(i: Int): Row
- Definition Classes
- Row
-
def
getTimestamp(i: Int): Timestamp
- Definition Classes
- Row
-
def
getValuesMap[T](fieldNames: Seq[String]): Map[String, T]
- Definition Classes
- Row
-
def
hashCode(): Int
- Definition Classes
- Row → AnyRef → Any
-
def
id: String
Return the unique ID for the object, the mRID for IdentifiedObject derived classes.
Return the unique ID for the object, the mRID for IdentifiedObject derived classes.
- returns
The object ID.
- Definition Classes
- Element
- val ikk: Double
-
final
def
isInstanceOf[T0]: Boolean
- Definition Classes
- Any
-
def
isNullAt(i: Int): Boolean
- Definition Classes
- Row
-
def
json: String
- Definition Classes
- Row
- Annotations
- @Unstable()
-
def
length: Int
The number of fields in the object definition.
The number of fields in the object definition.
- returns
The number of defined fields for use in Row manipulations.
- Definition Classes
- Element → Row
- val manualToAVR: Double
-
def
mask(position: Int): Boolean
Is a field present predicate.
Is a field present predicate.
Determines if the field at the given position was encountered while parsing.
- position
the field position in the fields array
- returns
trueif the field was parsed,falseotherwise.
- Definition Classes
- Element
- val maxQ: Double
- val maxU: Double
- val minQ: Double
- val minU: Double
-
def
mkString(start: String, sep: String, end: String): String
- Definition Classes
- Row
-
def
mkString(sep: String): String
- Definition Classes
- Row
-
def
mkString: String
- Definition Classes
- Row
- val mu: Double
-
final
def
ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
-
final
def
notify(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native() @HotSpotIntrinsicCandidate()
-
final
def
notifyAll(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native() @HotSpotIntrinsicCandidate()
- val operatingMode: String
-
def
prettyJson: String
- Definition Classes
- Row
- Annotations
- @Unstable()
- val qPercent: Double
- val r: Double
- val r0: Double
- val r2: Double
- val referencePriority: Int
- val satDirectSubtransX: Double
- val satDirectSyncX: Double
- val satDirectTransX: Double
-
def
schema: StructType
- Definition Classes
- Row
- val shortCircuitRotorType: String
-
def
size: Int
- Definition Classes
- Row
-
def
sup: RotatingMachine
Return the superclass object.
Return the superclass object.
- returns
The typed superclass nested object.
- Definition Classes
- SynchronousMachine → Element
-
final
def
synchronized[T0](arg0: ⇒ T0): T0
- Definition Classes
- AnyRef
-
def
toSeq: Seq[Any]
- Definition Classes
- Row
-
def
toString(): String
- Definition Classes
- Row → AnyRef → Any
- val type: String
- val voltageRegulationRange: Double
-
final
def
wait(arg0: Long, arg1: Int): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
-
final
def
wait(arg0: Long): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... ) @native()
-
final
def
wait(): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
- val x0: Double
- val x2: Double
Deprecated Value Members
-
def
finalize(): Unit
- Attributes
- protected[lang]
- Definition Classes
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- Annotations
- @throws( classOf[java.lang.Throwable] ) @Deprecated @deprecated
- Deprecated
(Since version ) see corresponding Javadoc for more information.