final case class CsConverter(ACDCConverter: ACDCConverter = null, alpha: Double = 0.0, gamma: Double = 0.0, maxAlpha: Double = 0.0, maxGamma: Double = 0.0, maxIdc: Double = 0.0, minAlpha: Double = 0.0, minGamma: Double = 0.0, minIdc: Double = 0.0, operatingMode: String = null, pPccControl: String = null, ratedIdc: Double = 0.0, targetAlpha: Double = 0.0, targetGamma: Double = 0.0, targetIdc: Double = 0.0, CSCDynamics: String = null) extends Element with Product with Serializable
DC side of the current source converter (CSC).
The firing angle controls the dc voltage at the converter, both for rectifier and inverter. The difference between the dc voltages of the rectifier and inverter determines the dc current. The extinction angle is used to limit the dc voltage at the inverter, if needed, and is not used in active power control. The firing angle, transformer tap position and number of connected filters are the primary means to control a current source dc line. Higher level controls are built on top, e.g. dc voltage, dc current and active power. From a steady state perspective it is sufficient to specify the wanted active power transfer (ACDCConverter.targetPpcc) and the control functions will set the dc voltage, dc current, firing angle, transformer tap position and number of connected filters to meet this. Therefore attributes targetAlpha and targetGamma are not applicable in this case. The reactive power consumed by the converter is a function of the firing angle, transformer tap position and number of connected filter, which can be approximated with half of the active power. The losses is a function of the dc voltage and dc current. The attributes minAlpha and maxAlpha define the range of firing angles for rectifier operation between which no discrete tap changer action takes place. The range is typically 10-18 degrees. The attributes minGamma and maxGamma define the range of extinction angles for inverter operation between which no discrete tap changer action takes place. The range is typically 17-20 degrees.
- ACDCConverter
ACDCConverter Reference to the superclass object.
- alpha
Firing angle that determines the dc voltage at the converter dc terminal. Typical value between 10 degrees and 18 degrees for a rectifier. It is converter’s state variable, result from power flow. The attribute shall be a positive value.
- gamma
Extinction angle. It is used to limit the dc voltage at the inverter if needed. Typical value between 17 degrees and 20 degrees for an inverter. It is converter’s state variable, result from power flow. The attribute shall be a positive value.
- maxAlpha
Maximum firing angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- maxGamma
Maximum extinction angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- maxIdc
The maximum direct current (Id) on the DC side at which the converter should operate. It is converter’s configuration data use in power flow. The attribute shall be a positive value.
- minAlpha
Minimum firing angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- minGamma
Minimum extinction angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- minIdc
The minimum direct current (Id) on the DC side at which the converter should operate. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- operatingMode
Indicates whether the DC pole is operating as an inverter or as a rectifier. It is converter’s control variable used in power flow.
- pPccControl
Kind of active power control.
- ratedIdc
Rated converter DC current, also called IdN. The attribute shall be a positive value. It is converter’s configuration data used in power flow.
- targetAlpha
Target firing angle. It is converter’s control variable used in power flow. It is only applicable for rectifier if continuous tap changer control is used. Allowed values are within the range minAlpha<=targetAlpha<=maxAlpha. The attribute shall be a positive value.
- targetGamma
Target extinction angle. It is converter’s control variable used in power flow. It is only applicable for inverter if continuous tap changer control is used. Allowed values are within the range minGamma<=targetGamma<=maxGamma. The attribute shall be a positive value.
- targetIdc
DC current target value. It is converter’s control variable used in power flow. The attribute shall be a positive value.
- CSCDynamics
CSCDynamics Current source converter dynamics model used to describe dynamic behaviour of this converter.
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new
CsConverter(ACDCConverter: ACDCConverter = null, alpha: Double = 0.0, gamma: Double = 0.0, maxAlpha: Double = 0.0, maxGamma: Double = 0.0, maxIdc: Double = 0.0, minAlpha: Double = 0.0, minGamma: Double = 0.0, minIdc: Double = 0.0, operatingMode: String = null, pPccControl: String = null, ratedIdc: Double = 0.0, targetAlpha: Double = 0.0, targetGamma: Double = 0.0, targetIdc: Double = 0.0, CSCDynamics: String = null)
- ACDCConverter
ACDCConverter Reference to the superclass object.
- alpha
Firing angle that determines the dc voltage at the converter dc terminal. Typical value between 10 degrees and 18 degrees for a rectifier. It is converter’s state variable, result from power flow. The attribute shall be a positive value.
- gamma
Extinction angle. It is used to limit the dc voltage at the inverter if needed. Typical value between 17 degrees and 20 degrees for an inverter. It is converter’s state variable, result from power flow. The attribute shall be a positive value.
- maxAlpha
Maximum firing angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- maxGamma
Maximum extinction angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- maxIdc
The maximum direct current (Id) on the DC side at which the converter should operate. It is converter’s configuration data use in power flow. The attribute shall be a positive value.
- minAlpha
Minimum firing angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- minGamma
Minimum extinction angle. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- minIdc
The minimum direct current (Id) on the DC side at which the converter should operate. It is converter’s configuration data used in power flow. The attribute shall be a positive value.
- operatingMode
Indicates whether the DC pole is operating as an inverter or as a rectifier. It is converter’s control variable used in power flow.
- pPccControl
Kind of active power control.
- ratedIdc
Rated converter DC current, also called IdN. The attribute shall be a positive value. It is converter’s configuration data used in power flow.
- targetAlpha
Target firing angle. It is converter’s control variable used in power flow. It is only applicable for rectifier if continuous tap changer control is used. Allowed values are within the range minAlpha<=targetAlpha<=maxAlpha. The attribute shall be a positive value.
- targetGamma
Target extinction angle. It is converter’s control variable used in power flow. It is only applicable for inverter if continuous tap changer control is used. Allowed values are within the range minGamma<=targetGamma<=maxGamma. The attribute shall be a positive value.
- targetIdc
DC current target value. It is converter’s control variable used in power flow. The attribute shall be a positive value.
- CSCDynamics
CSCDynamics Current source converter dynamics model used to describe dynamic behaviour of this converter.
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- val ACDCConverter: ACDCConverter
- val CSCDynamics: String
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def
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Flag for rdf:about elements.
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- val alpha: Double
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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).
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- CsConverter → Row
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def
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Emit one XML attribute.
Emit one XML attribute.
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Emit one XML element.
Emit one XML element.
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The value of the field.
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Return a string containing this object as XML.
Return a string containing this object as XML.
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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.
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def
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- val gamma: Double
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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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Is a field present predicate.
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- val maxAlpha: Double
- val maxGamma: Double
- val maxIdc: Double
- val minAlpha: Double
- val minGamma: Double
- val minIdc: Double
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- val operatingMode: String
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sup: ACDCConverter
Return the superclass object.
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- val targetAlpha: Double
- val targetGamma: Double
- val targetIdc: Double
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