Name | Description |
---|---|
Plug | Basic multiphase plug |
PositivePlug | Positive multiphase connector |
NegativePlug | Negative multiphase connector |
TwoPlug | Two plugs with pin-adapter |
OnePort | |
AbsoluteSensor | Partial potential sensor |
RelativeSensor | Partial voltage / current sensor |
Source | Partial voltage / current source |
This multiphase plug contains a vector of m single phase pins. The positive and negative plug are derived from this base connector.
Pin, PositivePin, NegativePin, PositivePlug, NegativePlug
Name | Description |
---|---|
m | number of phases |
Name | Description |
---|---|
m | number of phases |
pin[m] |
The positive plug is based on Plug. Additionally the reference angle is specified in the connector. The time derivative of the reference angle is the actual angular velocity of each quasi stationary voltage and current. The symbol is also designed such way to look different than the negative plug.
Pin, PositivePin, NegativePin, Plug, NegativePlug
Extends from Plug (Basic multiphase plug).
Name | Description |
---|---|
m | number of phases |
Name | Description |
---|---|
m | number of phases |
pin[m] | |
reference |
The negative plug is based on Plug. Additionally the reference angle is specified in the connector. The time derivative of the reference angle is the actual angular velocity of each quasi stationary voltage and current. The symbol is also designed such way to look different than the positive plug.
Pin, PositivePin, NegativePin, Plug, PositivePlug,
Extends from Plug (Basic multiphase plug).
Name | Description |
---|---|
m | number of phases |
Name | Description |
---|---|
m | number of phases |
pin[m] | |
reference |
This partial model uses a positive and negative plug and defines the complex voltage differences as well as the complex currents (into the positive plug). A positive and a negative adapter are used to give easy access to the single pins of both plugs. Additionally, the angular velocity of the quasi stationary system is explicitly defined as variable. This model is mainly intended to be used with graphical representation of user models.
Name | Description |
---|---|
m | Number of phases |
Name | Description |
---|---|
plug_p | Positive quasi stationary multi phase plug |
plug_n | Negative quasi stationary multi phase plug |
Name | Description |
---|---|
m | Number of phases |
Name | Description |
---|---|
plug_p | Positive quasi stationary multi phase plug |
plug_n | Negative quasi stationary multi phase plug |
The absolute sensor partial model relies on the a positive plug to measure the complex potential. Additionally this model contains a proper icon and a definition of the angular velocity.
RelativeSensor, SinglePhase.Interfaces.AbsoluteSensor, SinglePhase.Interfaces.RelativeSensor
Extends from Modelica.Icons.RotationalSensor (Icon representing a round measurement device).
Name | Description |
---|---|
m | number of phases |
Name | Description |
---|---|
plug_p | Positive quasi stationary multi phase plug |
The relative sensor partial model relies on the TwoPlug to measure the complex voltages, currents or power. Additionally this model contains a proper icon and a definition of the angular velocity.
AbsoluteSensor, SinglePhase.Interfaces.AbsoluteSensor, SinglePhase.Interfaces.RelativeSensor
Extends from Modelica.Icons.RotationalSensor (Icon representing a round measurement device), TwoPlug (Two plugs with pin-adapter).
Name | Description |
---|---|
m | Number of phases |
Name | Description |
---|---|
plug_p | Positive quasi stationary multi phase plug |
plug_n | Negative quasi stationary multi phase plug |
y[m] |
The source partial model relies on the TwoPlug and contains a proper icon.
VoltageSource, VariableVoltageSource, CurrentSource, VariableCurrentSource, SinglePhase.Interfaces.Source.
Extends from TwoPlug (Two plugs with pin-adapter).
Name | Description |
---|---|
m | Number of phases |
Name | Description |
---|---|
plug_p | Positive quasi stationary multi phase plug |
plug_n | Negative quasi stationary multi phase plug |