Extends from Modelica.Icons.VariantsPackage (Icon for package containing variants).
Name | Description |
---|---|
Yd01 | Transformer Yd1 |
Yd03 | Transformer Yd3 |
Yd05 | Transformer Yd5 |
Yd07 | Transformer Yd7 |
Yd09 | Transformer Yd9 |
Yd11 | Transformer Yd11 |
Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).
Type | Name | Default | Description |
---|---|---|---|
Real | n | Ratio primary voltage (line-to-line) / secondary voltage (line-to-line) | |
Boolean | useThermalPort | false | Enable / disable (=fixed temperatures) thermal port |
Operational temperatures | |||
Temperature | T1Operational | Operational temperature of primary resistance [K] | |
Temperature | T2Operational | Operational temperature of secondary resistance [K] | |
Nominal resistances and inductances | |||
Resistance | R1 | Primary resistance per phase at TRef [Ohm] | |
Temperature | T1Ref | Reference temperature of primary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_1 | Temperature coefficient of primary resistance at 20 degC [1/K] | |
Inductance | L1sigma | Primary stray inductance per phase [H] | |
Resistance | R2 | Secondary resistance per phase at TRef [Ohm] | |
Temperature | T2Ref | Reference temperature of secondary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_2 | Temperature coefficient of secondary resistance at 20 degC [1/K] | |
Inductance | L2sigma | Secondary stray inductance per phase [H] |
Type | Name | Description |
---|---|---|
PositivePlug | plug1 | Primary plug |
NegativePlug | plug2 | Secondary plug |
ThermalPortTransformer | thermalPort | |
NegativePin | starpoint1 |
model Yd01 "Transformer Yd1" extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer( final VectorGroup="Yd01");QuasiStationary.MultiPhase.Basic.Star star1(final m=m); QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint1; QuasiStationary.MultiPhase.Basic.Delta Delta2(final m=m); equationconnect(star1.pin_n, starpoint1); connect(Delta2.plug_p, r2.plug_n); connect(l1sigma.plug_n, core.plug_p1); connect(core.plug_n1, star1.plug_p); connect(core.plug_n2, core.plug_p3); connect(core.plug_n3, Delta2.plug_n); connect(core.plug_p2, l2sigma.plug_p); end Yd01;
Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).
Type | Name | Default | Description |
---|---|---|---|
Real | n | Ratio primary voltage (line-to-line) / secondary voltage (line-to-line) | |
Boolean | useThermalPort | false | Enable / disable (=fixed temperatures) thermal port |
Operational temperatures | |||
Temperature | T1Operational | Operational temperature of primary resistance [K] | |
Temperature | T2Operational | Operational temperature of secondary resistance [K] | |
Nominal resistances and inductances | |||
Resistance | R1 | Primary resistance per phase at TRef [Ohm] | |
Temperature | T1Ref | Reference temperature of primary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_1 | Temperature coefficient of primary resistance at 20 degC [1/K] | |
Inductance | L1sigma | Primary stray inductance per phase [H] | |
Resistance | R2 | Secondary resistance per phase at TRef [Ohm] | |
Temperature | T2Ref | Reference temperature of secondary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_2 | Temperature coefficient of secondary resistance at 20 degC [1/K] | |
Inductance | L2sigma | Secondary stray inductance per phase [H] |
Type | Name | Description |
---|---|---|
PositivePlug | plug1 | Primary plug |
NegativePlug | plug2 | Secondary plug |
ThermalPortTransformer | thermalPort | |
NegativePin | starpoint1 |
model Yd03 "Transformer Yd3" extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer( final VectorGroup="Yd03");QuasiStationary.MultiPhase.Basic.Star star1(final m=m); QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint1; QuasiStationary.MultiPhase.Basic.Delta Delta2(final m=m); QuasiStationary.MultiPhase.Basic.Delta Rot2(final m=m); equationconnect(star1.pin_n, starpoint1); connect(Delta2.plug_n, r2.plug_n); connect(l2sigma.plug_p, Rot2.plug_p); connect(l1sigma.plug_n, core.plug_p1); connect(core.plug_n1, star1.plug_p); connect(core.plug_n2, core.plug_p3); connect(core.plug_p2, Delta2.plug_p); connect(core.plug_n3, Rot2.plug_n); end Yd03;
Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).
Type | Name | Default | Description |
---|---|---|---|
Real | n | Ratio primary voltage (line-to-line) / secondary voltage (line-to-line) | |
Boolean | useThermalPort | false | Enable / disable (=fixed temperatures) thermal port |
Operational temperatures | |||
Temperature | T1Operational | Operational temperature of primary resistance [K] | |
Temperature | T2Operational | Operational temperature of secondary resistance [K] | |
Nominal resistances and inductances | |||
Resistance | R1 | Primary resistance per phase at TRef [Ohm] | |
Temperature | T1Ref | Reference temperature of primary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_1 | Temperature coefficient of primary resistance at 20 degC [1/K] | |
Inductance | L1sigma | Primary stray inductance per phase [H] | |
Resistance | R2 | Secondary resistance per phase at TRef [Ohm] | |
Temperature | T2Ref | Reference temperature of secondary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_2 | Temperature coefficient of secondary resistance at 20 degC [1/K] | |
Inductance | L2sigma | Secondary stray inductance per phase [H] |
Type | Name | Description |
---|---|---|
PositivePlug | plug1 | Primary plug |
NegativePlug | plug2 | Secondary plug |
ThermalPortTransformer | thermalPort | |
NegativePin | starpoint1 |
model Yd05 "Transformer Yd5" extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer( final VectorGroup="Yd05");QuasiStationary.MultiPhase.Basic.Star star1(final m=m); QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint1; QuasiStationary.MultiPhase.Basic.Delta Delta2(final m=m); equationconnect(star1.pin_n, starpoint1); connect(Delta2.plug_n, r2.plug_n); connect(l1sigma.plug_n, core.plug_p1); connect(core.plug_n1, star1.plug_p); connect(core.plug_n2, core.plug_p3); connect(core.plug_n3, l2sigma.plug_p); connect(core.plug_p2, Delta2.plug_p); end Yd05;
Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).
Type | Name | Default | Description |
---|---|---|---|
Real | n | Ratio primary voltage (line-to-line) / secondary voltage (line-to-line) | |
Boolean | useThermalPort | false | Enable / disable (=fixed temperatures) thermal port |
Operational temperatures | |||
Temperature | T1Operational | Operational temperature of primary resistance [K] | |
Temperature | T2Operational | Operational temperature of secondary resistance [K] | |
Nominal resistances and inductances | |||
Resistance | R1 | Primary resistance per phase at TRef [Ohm] | |
Temperature | T1Ref | Reference temperature of primary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_1 | Temperature coefficient of primary resistance at 20 degC [1/K] | |
Inductance | L1sigma | Primary stray inductance per phase [H] | |
Resistance | R2 | Secondary resistance per phase at TRef [Ohm] | |
Temperature | T2Ref | Reference temperature of secondary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_2 | Temperature coefficient of secondary resistance at 20 degC [1/K] | |
Inductance | L2sigma | Secondary stray inductance per phase [H] |
Type | Name | Description |
---|---|---|
PositivePlug | plug1 | Primary plug |
NegativePlug | plug2 | Secondary plug |
ThermalPortTransformer | thermalPort | |
NegativePin | starpoint1 |
model Yd07 "Transformer Yd7" extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer( final VectorGroup="Yd07");QuasiStationary.MultiPhase.Basic.Star star1(final m=m); QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint1; QuasiStationary.MultiPhase.Basic.Delta Delta2(final m=m); equationconnect(star1.pin_n, starpoint1); connect(Delta2.plug_p, r2.plug_n); connect(l1sigma.plug_n, core.plug_p1); connect(core.plug_n1, star1.plug_p); connect(core.plug_n2, core.plug_p3); connect(core.plug_p2, Delta2.plug_n); connect(l2sigma.plug_p, core.plug_n3); end Yd07;
Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).
Type | Name | Default | Description |
---|---|---|---|
Real | n | Ratio primary voltage (line-to-line) / secondary voltage (line-to-line) | |
Boolean | useThermalPort | false | Enable / disable (=fixed temperatures) thermal port |
Operational temperatures | |||
Temperature | T1Operational | Operational temperature of primary resistance [K] | |
Temperature | T2Operational | Operational temperature of secondary resistance [K] | |
Nominal resistances and inductances | |||
Resistance | R1 | Primary resistance per phase at TRef [Ohm] | |
Temperature | T1Ref | Reference temperature of primary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_1 | Temperature coefficient of primary resistance at 20 degC [1/K] | |
Inductance | L1sigma | Primary stray inductance per phase [H] | |
Resistance | R2 | Secondary resistance per phase at TRef [Ohm] | |
Temperature | T2Ref | Reference temperature of secondary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_2 | Temperature coefficient of secondary resistance at 20 degC [1/K] | |
Inductance | L2sigma | Secondary stray inductance per phase [H] |
Type | Name | Description |
---|---|---|
PositivePlug | plug1 | Primary plug |
NegativePlug | plug2 | Secondary plug |
ThermalPortTransformer | thermalPort | |
NegativePin | starpoint1 |
model Yd09 "Transformer Yd9" extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer( final VectorGroup="Yd09");QuasiStationary.MultiPhase.Basic.Star star1(final m=m); QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint1; QuasiStationary.MultiPhase.Basic.Delta Delta2(final m=m); QuasiStationary.MultiPhase.Basic.Delta Rot2(final m=m); equationconnect(star1.pin_n, starpoint1); connect(Rot2.plug_p, l2sigma.plug_p); connect(Delta2.plug_n, r2.plug_n); connect(l1sigma.plug_n, core.plug_p1); connect(core.plug_n1, star1.plug_p); connect(core.plug_n2, core.plug_p3); connect(core.plug_p2, Rot2.plug_n); connect(core.plug_n3, Delta2.plug_p); end Yd09;
Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).
Type | Name | Default | Description |
---|---|---|---|
Real | n | Ratio primary voltage (line-to-line) / secondary voltage (line-to-line) | |
Boolean | useThermalPort | false | Enable / disable (=fixed temperatures) thermal port |
Operational temperatures | |||
Temperature | T1Operational | Operational temperature of primary resistance [K] | |
Temperature | T2Operational | Operational temperature of secondary resistance [K] | |
Nominal resistances and inductances | |||
Resistance | R1 | Primary resistance per phase at TRef [Ohm] | |
Temperature | T1Ref | Reference temperature of primary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_1 | Temperature coefficient of primary resistance at 20 degC [1/K] | |
Inductance | L1sigma | Primary stray inductance per phase [H] | |
Resistance | R2 | Secondary resistance per phase at TRef [Ohm] | |
Temperature | T2Ref | Reference temperature of secondary resistance [K] | |
LinearTemperatureCoefficient20 | alpha20_2 | Temperature coefficient of secondary resistance at 20 degC [1/K] | |
Inductance | L2sigma | Secondary stray inductance per phase [H] |
Type | Name | Description |
---|---|---|
PositivePlug | plug1 | Primary plug |
NegativePlug | plug2 | Secondary plug |
ThermalPortTransformer | thermalPort | |
NegativePin | starpoint1 |
model Yd11 "Transformer Yd11" extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer( final VectorGroup="Yd11");QuasiStationary.MultiPhase.Basic.Star star1(final m=m); QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint1; QuasiStationary.MultiPhase.Basic.Delta Delta2(final m=m); equationconnect(star1.pin_n, starpoint1); connect(Delta2.plug_n, r2.plug_n); connect(l1sigma.plug_n, core.plug_p1); connect(core.plug_n1, star1.plug_p); connect(core.plug_n2, core.plug_p3); connect(core.plug_n3, Delta2.plug_p); connect(core.plug_p2, l2sigma.plug_p); end Yd11;