SynchronousMachineTimeConstantReactance

Value Members

1. final def !=(arg0: Any): Boolean

   

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2. final def ##(): Int

   

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3. final def ==(arg0: Any): Boolean

   

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4. def SynchronousMachineDetailed: SynchronousMachineDetailed

   

   Return the superclass object.

   Return the superclass object.

   returns

   The typed superclass nested object.

5. def about: Boolean

   

   Flag for rdf:about elements.

   Flag for rdf:about elements.

   returns

   true if this is an rdf:about element, false otherwise.

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6. def anyNull: Boolean

   

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7. def apply(i: Int): Any

   

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8. final def asInstanceOf[T0]: T0

   

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9. var 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 96 fields (so far none).

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10. def clone(): AnyRef

    

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    protected[java.lang]

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    @throws( ... )

11. 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

    SynchronousMachineTimeConstantReactance → Element → Row

12. 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

    Example:

    1. <cim:Location.CoordinateSystem rdf:resource="#wgs84"/>

13. 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

    Example:

    1. <cim:IdentifiedObject.name>WGS 84</cim:IdentifiedObject.name>

14. final def eq(arg0: AnyRef): Boolean

    

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15. def equals(o: Any): Boolean

    

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16. 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

    SynchronousMachineTimeConstantReactance → Element

17. 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 fileds coded in XML

    Definition Classes

    SynchronousMachineTimeConstantReactance → Element

18. def fieldIndex(name: String): Int

    

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19. def finalize(): Unit

    

    Attributes

    protected[java.lang]

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    @throws( classOf[java.lang.Throwable] )

20. 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 null if none.

    Definition Classes

    SynchronousMachineTimeConstantReactance → Element → Row

21. def getAs[T](fieldName: String): T

    

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22. def getAs[T](i: Int): T

    

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23. def getBoolean(i: Int): Boolean

    

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24. def getByte(i: Int): Byte

    

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25. final def getClass(): Class[_]

    

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26. def getDate(i: Int): Date

    

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27. def getDecimal(i: Int): BigDecimal

    

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28. def getDouble(i: Int): Double

    

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29. def getFloat(i: Int): Float

    

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30. def getInt(i: Int): Int

    

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31. def getJavaMap[K, V](i: Int): Map[K, V]

    

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32. def getList[T](i: Int): List[T]

    

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33. def getLong(i: Int): Long

    

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34. def getMap[K, V](i: Int): Map[K, V]

    

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35. def getSeq[T](i: Int): Seq[T]

    

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36. def getShort(i: Int): Short

    

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37. def getString(i: Int): String

    

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38. def getStruct(i: Int): Row

    

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39. def getTimestamp(i: Int): Timestamp

    

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40. def getValuesMap[T](fieldNames: Seq[String]): Map[String, T]

    

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41. def hashCode(): Int

    

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    Row → AnyRef → Any

42. 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

43. final def isInstanceOf[T0]: Boolean

    

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44. def isNullAt(i: Int): Boolean

    

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45. val ks: Double

    

    Saturation loading correction factor (Ks) (>= 0).

    Saturation loading correction factor (Ks) (>= 0). Used only by type J model. Typical value = 0.

46. 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

    SynchronousMachineTimeConstantReactance → Element → Row

47. 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

    true if the field was parsed, false otherwise.

    Definition Classes

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48. def mkString(start: String, sep: String, end: String): String

    

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49. def mkString(sep: String): String

    

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50. def mkString: String

    

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51. val modelType: String

    

    Type of synchronous machine model used in dynamic simulation applications.

52. final def ne(arg0: AnyRef): Boolean

    

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53. final def notify(): Unit

    

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54. final def notifyAll(): Unit

    

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55. val rotorType: String

    

    Type of rotor on physical machine.

56. def schema: StructType

    

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57. def size: Int

    

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58. val sup: SynchronousMachineDetailed

    

    SynchronousMachineDetailed Reference to the superclass object.

    SynchronousMachineDetailed Reference to the superclass object.

    Definition Classes

    SynchronousMachineTimeConstantReactance → Element

59. final def synchronized[T0](arg0: ⇒ T0): T0

    

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60. val tc: Double

    

    Damping time constant for �Canay� reactance (>= 0).

    Damping time constant for �Canay� reactance (>= 0). Typical value = 0.

61. def toSeq: Seq[Any]

    

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62. def toString(): String

    

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63. val tpdo: Double

    

    Direct-axis transient rotor time constant (T'do) (> SynchronousMachineTimeConstantReactance.tppdo).

    Direct-axis transient rotor time constant (T'do) (> SynchronousMachineTimeConstantReactance.tppdo). Typical value = 5.

64. val tppdo: Double

    

    Direct-axis subtransient rotor time constant (T''do) (> 0).

    Direct-axis subtransient rotor time constant (T''do) (> 0). Typical value = 0,03.

65. val tppqo: Double

    

    Quadrature-axis subtransient rotor time constant (T''qo) (> 0).

    Quadrature-axis subtransient rotor time constant (T''qo) (> 0). Typical value = 0,03.

66. val tpqo: Double

    

    Quadrature-axis transient rotor time constant (T'qo) (> SynchronousMachineTimeConstantReactance.tppqo).

    Quadrature-axis transient rotor time constant (T'qo) (> SynchronousMachineTimeConstantReactance.tppqo). Typical value = 0,5.

67. final def wait(): Unit

    

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    @throws( ... )

68. final def wait(arg0: Long, arg1: Int): Unit

    

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    @throws( ... )

69. final def wait(arg0: Long): Unit

    

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70. val xDirectSubtrans: Double

    

    Direct-axis subtransient reactance (unsaturated) (X''d) (> RotatingMachineDynamics.statorLeakageReactance).

    Direct-axis subtransient reactance (unsaturated) (X''d) (> RotatingMachineDynamics.statorLeakageReactance). Typical value = 0,2.

71. val xDirectSync: Double

    

    Direct-axis synchronous reactance (Xd) (>= SynchronousMachineTimeConstantReactance.xDirectTrans).

    Direct-axis synchronous reactance (Xd) (>= SynchronousMachineTimeConstantReactance.xDirectTrans). The quotient of a sustained value of that AC component of armature voltage that is produced by the total direct-axis flux due to direct-axis armature current and the value of the AC component of this current, the machine running at rated speed. Typical value = 1,8.

72. val xDirectTrans: Double

    

    Direct-axis transient reactance (unsaturated) (X'd) (>= SynchronousMachineTimeConstantReactance.xDirectSubtrans).

    Direct-axis transient reactance (unsaturated) (X'd) (>= SynchronousMachineTimeConstantReactance.xDirectSubtrans). Typical value = 0,5.

73. val xQuadSubtrans: Double

    

    Quadrature-axis subtransient reactance (X''q) (> RotatingMachineDynamics.statorLeakageReactance).

    Quadrature-axis subtransient reactance (X''q) (> RotatingMachineDynamics.statorLeakageReactance). Typical value = 0,2.

74. val xQuadSync: Double

    

    Quadrature-axis synchronous reactance (Xq) (>= SynchronousMachineTimeConstantReactance.xQuadTrans).

    Quadrature-axis synchronous reactance (Xq) (>= SynchronousMachineTimeConstantReactance.xQuadTrans). The ratio of the component of reactive armature voltage, due to the quadrature-axis component of armature current, to this component of current, under steady state conditions and at rated frequency. Typical value = 1,6.

75. val xQuadTrans: Double

    

    Quadrature-axis transient reactance (X'q) (>= SynchronousMachineTimeConstantReactance.xQuadSubtrans).

    Quadrature-axis transient reactance (X'q) (>= SynchronousMachineTimeConstantReactance.xQuadSubtrans). Typical value = 0,3.