Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz

Transformers: primary D / secondary ziag-zag

Information


This package contains transformers primary D connected / secondary d connected in all possbile vector groups.

Extends from Modelica.Icons.VariantsPackage (Icon for package containing variants).

Package Content

NameDescription
Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz00 Dz00 Transformer Dz0
Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz02 Dz02 Transformer Dz2
Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz04 Dz04 Transformer Dz4
Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz06 Dz06 Transformer Dz6
Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz08 Dz08 Transformer Dz8
Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz10 Dz10 Transformer Dz10


Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz00 Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz00

Transformer Dz0

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz00

Information


Transformer Dz0

Typical parameters see: PartialBasicTransformer

Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).

Parameters

TypeNameDefaultDescription
Realn Ratio primary voltage (line-to-line) / secondary voltage (line-to-line)
BooleanuseThermalPortfalseEnable / disable (=fixed temperatures) thermal port
Operational temperatures
TemperatureT1Operational Operational temperature of primary resistance [K]
TemperatureT2Operational Operational temperature of secondary resistance [K]
Nominal resistances and inductances
ResistanceR1 Primary resistance per phase at TRef [Ohm]
TemperatureT1Ref Reference temperature of primary resistance [K]
LinearTemperatureCoefficient20alpha20_1 Temperature coefficient of primary resistance at 20 degC [1/K]
InductanceL1sigma Primary stray inductance per phase [H]
ResistanceR2 Secondary resistance per phase at TRef [Ohm]
TemperatureT2Ref Reference temperature of secondary resistance [K]
LinearTemperatureCoefficient20alpha20_2 Temperature coefficient of secondary resistance at 20 degC [1/K]
InductanceL2sigma Secondary stray inductance per phase [H]

Connectors

TypeNameDescription
PositivePlugplug1Primary plug
NegativePlugplug2Secondary plug
ThermalPortTransformerthermalPort 
NegativePinstarpoint2 

Modelica definition

model Dz00 "Transformer Dz0"

  extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer(
      final VectorGroup="Dz00");
  QuasiStationary.MultiPhase.Basic.Star star2(final m=m);
  QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint2;
  QuasiStationary.MultiPhase.Basic.Delta Rot21(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Rot22(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Delta1(final m=m);
equation 
  connect(star2.pin_n,starpoint2);
  connect(r1.plug_p, Delta1.plug_p);
  connect(l1sigma.plug_n, core.plug_p1);
  connect(Delta1.plug_n, core.plug_n1);
  connect(core.plug_p2, Rot21.plug_n);
  connect(core.plug_p3, Rot21.plug_p);
  connect(l2sigma.plug_p, Rot22.plug_p);
  connect(Rot22.plug_n, core.plug_n2);
  connect(core.plug_n3, star2.plug_p);
end Dz00;

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz02 Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz02

Transformer Dz2

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz02

Information


Transformer Dz2

Typical parameters see: PartialBasicTransformer

Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).

Parameters

TypeNameDefaultDescription
Realn Ratio primary voltage (line-to-line) / secondary voltage (line-to-line)
BooleanuseThermalPortfalseEnable / disable (=fixed temperatures) thermal port
Operational temperatures
TemperatureT1Operational Operational temperature of primary resistance [K]
TemperatureT2Operational Operational temperature of secondary resistance [K]
Nominal resistances and inductances
ResistanceR1 Primary resistance per phase at TRef [Ohm]
TemperatureT1Ref Reference temperature of primary resistance [K]
LinearTemperatureCoefficient20alpha20_1 Temperature coefficient of primary resistance at 20 degC [1/K]
InductanceL1sigma Primary stray inductance per phase [H]
ResistanceR2 Secondary resistance per phase at TRef [Ohm]
TemperatureT2Ref Reference temperature of secondary resistance [K]
LinearTemperatureCoefficient20alpha20_2 Temperature coefficient of secondary resistance at 20 degC [1/K]
InductanceL2sigma Secondary stray inductance per phase [H]

Connectors

TypeNameDescription
PositivePlugplug1Primary plug
NegativePlugplug2Secondary plug
ThermalPortTransformerthermalPort 
NegativePinstarpoint2 

Modelica definition

model Dz02 "Transformer Dz2"

  extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer(
      final VectorGroup="Dz02");
  QuasiStationary.MultiPhase.Basic.Star star2(final m=m);
  QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint2;
  QuasiStationary.MultiPhase.Basic.Delta Rot21(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Rot22(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Delta1(final m=m);
equation 
  connect(star2.pin_n,starpoint2);
  connect(r1.plug_p, Delta1.plug_p);
  connect(l1sigma.plug_n, core.plug_p1);
  connect(Delta1.plug_n, core.plug_n1);
  connect(core.plug_p2, Rot21.plug_p);
  connect(core.plug_p3, Rot21.plug_n);
  connect(l2sigma.plug_p, Rot22.plug_p);
  connect(Rot22.plug_n, core.plug_n2);
  connect(core.plug_n3, star2.plug_p);
end Dz02;

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz04 Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz04

Transformer Dz4

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz04

Information


Transformer Dz4

Typical parameters see: PartialBasicTransformer

Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).

Parameters

TypeNameDefaultDescription
Realn Ratio primary voltage (line-to-line) / secondary voltage (line-to-line)
BooleanuseThermalPortfalseEnable / disable (=fixed temperatures) thermal port
Operational temperatures
TemperatureT1Operational Operational temperature of primary resistance [K]
TemperatureT2Operational Operational temperature of secondary resistance [K]
Nominal resistances and inductances
ResistanceR1 Primary resistance per phase at TRef [Ohm]
TemperatureT1Ref Reference temperature of primary resistance [K]
LinearTemperatureCoefficient20alpha20_1 Temperature coefficient of primary resistance at 20 degC [1/K]
InductanceL1sigma Primary stray inductance per phase [H]
ResistanceR2 Secondary resistance per phase at TRef [Ohm]
TemperatureT2Ref Reference temperature of secondary resistance [K]
LinearTemperatureCoefficient20alpha20_2 Temperature coefficient of secondary resistance at 20 degC [1/K]
InductanceL2sigma Secondary stray inductance per phase [H]

Connectors

TypeNameDescription
PositivePlugplug1Primary plug
NegativePlugplug2Secondary plug
ThermalPortTransformerthermalPort 
NegativePinstarpoint2 

Modelica definition

model Dz04 "Transformer Dz4"

  extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer(
      final VectorGroup="Dz04");
  QuasiStationary.MultiPhase.Basic.Star star2(final m=m);
  QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint2;
  QuasiStationary.MultiPhase.Basic.Delta Rot21(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Delta1(final m=m);
equation 
  connect(star2.pin_n,starpoint2);
  connect(r1.plug_p, Delta1.plug_p);
  connect(l1sigma.plug_n, core.plug_p1);
  connect(Delta1.plug_n, core.plug_n1);
  connect(core.plug_p2, Rot21.plug_n);
  connect(core.plug_p3, Rot21.plug_p);
  connect(l2sigma.plug_p, core.plug_n2);
  connect(core.plug_n3, star2.plug_p);
end Dz04;

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz06 Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz06

Transformer Dz6

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz06

Information


Transformer Dz6

Typical parameters see: PartialBasicTransformer

Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).

Parameters

TypeNameDefaultDescription
Realn Ratio primary voltage (line-to-line) / secondary voltage (line-to-line)
BooleanuseThermalPortfalseEnable / disable (=fixed temperatures) thermal port
Operational temperatures
TemperatureT1Operational Operational temperature of primary resistance [K]
TemperatureT2Operational Operational temperature of secondary resistance [K]
Nominal resistances and inductances
ResistanceR1 Primary resistance per phase at TRef [Ohm]
TemperatureT1Ref Reference temperature of primary resistance [K]
LinearTemperatureCoefficient20alpha20_1 Temperature coefficient of primary resistance at 20 degC [1/K]
InductanceL1sigma Primary stray inductance per phase [H]
ResistanceR2 Secondary resistance per phase at TRef [Ohm]
TemperatureT2Ref Reference temperature of secondary resistance [K]
LinearTemperatureCoefficient20alpha20_2 Temperature coefficient of secondary resistance at 20 degC [1/K]
InductanceL2sigma Secondary stray inductance per phase [H]

Connectors

TypeNameDescription
PositivePlugplug1Primary plug
NegativePlugplug2Secondary plug
ThermalPortTransformerthermalPort 
NegativePinstarpoint2 

Modelica definition

model Dz06 "Transformer Dz6"

  extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer(
      final VectorGroup="Dz06");
  QuasiStationary.MultiPhase.Basic.Star star2(final m=m);
  QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint2;
  QuasiStationary.MultiPhase.Basic.Delta Rot21(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Delta1(final m=m);
equation 
  connect(star2.pin_n,starpoint2);
  connect(r1.plug_p, Delta1.plug_p);
  connect(l1sigma.plug_n, core.plug_p1);
  connect(Delta1.plug_n, core.plug_n1);
  connect(core.plug_p2, Rot21.plug_p);
  connect(core.plug_p3, Rot21.plug_n);
  connect(core.plug_n3, star2.plug_p);
  connect(l2sigma.plug_p, core.plug_n2);
end Dz06;

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz08 Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz08

Transformer Dz8

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz08

Information


Transformer Dz8

Typical parameters see: PartialBasicTransformer

Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).

Parameters

TypeNameDefaultDescription
Realn Ratio primary voltage (line-to-line) / secondary voltage (line-to-line)
BooleanuseThermalPortfalseEnable / disable (=fixed temperatures) thermal port
Operational temperatures
TemperatureT1Operational Operational temperature of primary resistance [K]
TemperatureT2Operational Operational temperature of secondary resistance [K]
Nominal resistances and inductances
ResistanceR1 Primary resistance per phase at TRef [Ohm]
TemperatureT1Ref Reference temperature of primary resistance [K]
LinearTemperatureCoefficient20alpha20_1 Temperature coefficient of primary resistance at 20 degC [1/K]
InductanceL1sigma Primary stray inductance per phase [H]
ResistanceR2 Secondary resistance per phase at TRef [Ohm]
TemperatureT2Ref Reference temperature of secondary resistance [K]
LinearTemperatureCoefficient20alpha20_2 Temperature coefficient of secondary resistance at 20 degC [1/K]
InductanceL2sigma Secondary stray inductance per phase [H]

Connectors

TypeNameDescription
PositivePlugplug1Primary plug
NegativePlugplug2Secondary plug
ThermalPortTransformerthermalPort 
NegativePinstarpoint2 

Modelica definition

model Dz08 "Transformer Dz8"

  extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer(
      final VectorGroup="Dz08");
  QuasiStationary.MultiPhase.Basic.Star star2(final m=m);
  QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint2;
  QuasiStationary.MultiPhase.Basic.Delta Rot21(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Rot22(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Delta1(final m=m);
equation 
  connect(star2.pin_n,starpoint2);
  connect(r1.plug_p, Delta1.plug_p);
  connect(l1sigma.plug_n, core.plug_p1);
  connect(Delta1.plug_n, core.plug_n1);
  connect(core.plug_p2, Rot21.plug_n);
  connect(core.plug_p3, Rot21.plug_p);
  connect(core.plug_n3, star2.plug_p);
  connect(l2sigma.plug_p, Rot22.plug_n);
  connect(Rot22.plug_p, core.plug_n2);
end Dz08;

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz10 Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz10

Transformer Dz10

Modelica.Electrical.QuasiStationary.Machines.BasicMachines.Transformers.Dz.Dz10

Information


Transformer Dz10

Typical parameters see: PartialBasicTransformer

Extends from QuasiStationary.Machines.Interfaces.PartialBasicTransformer (Partial model of threephase transformer).

Parameters

TypeNameDefaultDescription
Realn Ratio primary voltage (line-to-line) / secondary voltage (line-to-line)
BooleanuseThermalPortfalseEnable / disable (=fixed temperatures) thermal port
Operational temperatures
TemperatureT1Operational Operational temperature of primary resistance [K]
TemperatureT2Operational Operational temperature of secondary resistance [K]
Nominal resistances and inductances
ResistanceR1 Primary resistance per phase at TRef [Ohm]
TemperatureT1Ref Reference temperature of primary resistance [K]
LinearTemperatureCoefficient20alpha20_1 Temperature coefficient of primary resistance at 20 degC [1/K]
InductanceL1sigma Primary stray inductance per phase [H]
ResistanceR2 Secondary resistance per phase at TRef [Ohm]
TemperatureT2Ref Reference temperature of secondary resistance [K]
LinearTemperatureCoefficient20alpha20_2 Temperature coefficient of secondary resistance at 20 degC [1/K]
InductanceL2sigma Secondary stray inductance per phase [H]

Connectors

TypeNameDescription
PositivePlugplug1Primary plug
NegativePlugplug2Secondary plug
ThermalPortTransformerthermalPort 
NegativePinstarpoint2 

Modelica definition

model Dz10 "Transformer Dz10"

  extends QuasiStationary.Machines.Interfaces.PartialBasicTransformer(
      final VectorGroup="Dz10");
  QuasiStationary.MultiPhase.Basic.Star star2(final m=m);
  QuasiStationary.SinglePhase.Interfaces.NegativePin starpoint2;
  QuasiStationary.MultiPhase.Basic.Delta Rot21(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Rot22(final m=m);
  QuasiStationary.MultiPhase.Basic.Delta Delta1(final m=m);
equation 
  connect(star2.pin_n,starpoint2);
  connect(r1.plug_p, Delta1.plug_p);
  connect(l1sigma.plug_n, core.plug_p1);
  connect(Delta1.plug_n, core.plug_n1);
  connect(core.plug_p2, Rot21.plug_p);
  connect(core.plug_p3, Rot21.plug_n);
  connect(core.plug_n3, star2.plug_p);
  connect(l2sigma.plug_p, Rot22.plug_n);
  connect(Rot22.plug_p, core.plug_n2);
end Dz10;

Automatically generated Fri Nov 12 16:29:40 2010.