final case class EquivalentBranch(EquivalentEquipment: EquivalentEquipment = null, negativeR12: Double = 0.0, negativeR21: Double = 0.0, negativeX12: Double = 0.0, negativeX21: Double = 0.0, positiveR12: Double = 0.0, positiveR21: Double = 0.0, positiveX12: Double = 0.0, positiveX21: Double = 0.0, r: Double = 0.0, r21: Double = 0.0, x: Double = 0.0, x21: Double = 0.0, zeroR12: Double = 0.0, zeroR21: Double = 0.0, zeroX12: Double = 0.0, zeroX21: Double = 0.0) extends Element with Product with Serializable
The class represents equivalent branches.
In cases where a transformer phase shift is modelled and the EquivalentBranch is spanning the same nodes, the impedance quantities for the EquivalentBranch shall consider the needed phase shift.
- EquivalentEquipment
EquivalentEquipment Reference to the superclass object.
- negativeR12
Negative sequence series resistance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- negativeR21
Negative sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- negativeX12
Negative sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- negativeX21
Negative sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. Usage: EquivalentBranch is a result of network reduction prior to the data exchange.
- positiveR12
Positive sequence series resistance from terminal sequence 1 to terminal sequence 2 . Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- positiveR21
Positive sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- positiveX12
Positive sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- positiveX21
Positive sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- r
Positive sequence series resistance of the reduced branch.
- r21
Resistance from terminal sequence 2 to terminal sequence 1 . Used for steady state power flow. This attribute is optional and represent unbalanced network such as off-nominal phase shifter. If only EquivalentBranch.r is given, then EquivalentBranch.r21 is assumed equal to EquivalentBranch.r. Usage rule : EquivalentBranch is a result of network reduction prior to the data exchange.
- x
Positive sequence series reactance of the reduced branch.
- x21
Reactance from terminal sequence 2 to terminal sequence 1. Used for steady state power flow. This attribute is optional and represents an unbalanced network such as off-nominal phase shifter. If only EquivalentBranch.x is given, then EquivalentBranch.x21 is assumed equal to EquivalentBranch.x. Usage rule: EquivalentBranch is a result of network reduction prior to the data exchange.
- zeroR12
Zero sequence series resistance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- zeroR21
Zero sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- zeroX12
Zero sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- zeroX21
Zero sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
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EquivalentBranch(EquivalentEquipment: EquivalentEquipment = null, negativeR12: Double = 0.0, negativeR21: Double = 0.0, negativeX12: Double = 0.0, negativeX21: Double = 0.0, positiveR12: Double = 0.0, positiveR21: Double = 0.0, positiveX12: Double = 0.0, positiveX21: Double = 0.0, r: Double = 0.0, r21: Double = 0.0, x: Double = 0.0, x21: Double = 0.0, zeroR12: Double = 0.0, zeroR21: Double = 0.0, zeroX12: Double = 0.0, zeroX21: Double = 0.0)
- EquivalentEquipment
EquivalentEquipment Reference to the superclass object.
- negativeR12
Negative sequence series resistance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- negativeR21
Negative sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- negativeX12
Negative sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- negativeX21
Negative sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. Usage: EquivalentBranch is a result of network reduction prior to the data exchange.
- positiveR12
Positive sequence series resistance from terminal sequence 1 to terminal sequence 2 . Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- positiveR21
Positive sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- positiveX12
Positive sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- positiveX21
Positive sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- r
Positive sequence series resistance of the reduced branch.
- r21
Resistance from terminal sequence 2 to terminal sequence 1 . Used for steady state power flow. This attribute is optional and represent unbalanced network such as off-nominal phase shifter. If only EquivalentBranch.r is given, then EquivalentBranch.r21 is assumed equal to EquivalentBranch.r. Usage rule : EquivalentBranch is a result of network reduction prior to the data exchange.
- x
Positive sequence series reactance of the reduced branch.
- x21
Reactance from terminal sequence 2 to terminal sequence 1. Used for steady state power flow. This attribute is optional and represents an unbalanced network such as off-nominal phase shifter. If only EquivalentBranch.x is given, then EquivalentBranch.x21 is assumed equal to EquivalentBranch.x. Usage rule: EquivalentBranch is a result of network reduction prior to the data exchange.
- zeroR12
Zero sequence series resistance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. EquivalentBranch is a result of network reduction prior to the data exchange.
- zeroR21
Zero sequence series resistance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- zeroX12
Zero sequence series reactance from terminal sequence 1 to terminal sequence 2. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
- zeroX21
Zero sequence series reactance from terminal sequence 2 to terminal sequence 1. Used for short circuit data exchange according to IEC 60909. Usage : EquivalentBranch is a result of network reduction prior to the data exchange.
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- val EquivalentEquipment: EquivalentEquipment
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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).
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Emit one XML element.
Emit one XML element.
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The name of the field.
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The value of the field.
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Return a string containing this object as XML.
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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.
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A string with the fields coded in XML
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fieldIndex(name: String): Int
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get(i: Int): AnyRef
Get the value of the field at index
i.Get the value of the field at index
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The value stored in the field, or
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The number of fields in the object definition.
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- val negativeR12: Double
- val negativeR21: Double
- val negativeX12: Double
- val negativeX21: Double
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- val positiveR12: Double
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def
sup: EquivalentEquipment
Return the superclass object.
Return the superclass object.
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- val x: Double
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- val zeroR12: Double
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- val zeroX12: Double
- val zeroX21: Double
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