Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse

2*m pulse rectifier bridge

Information

This package includes multi phase bridge rectifiers. The number of phases, m, determines the number of pulses, 2*m. The examples show uncontrolled and controlled rectifiers with constant and variable firing angle.

Extends from Modelica.Icons.ExamplesPackage (Icon for packages containing runnable examples).

Package Content

Name Description
Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.DiodeBridge2mPulse DiodeBridge2mPulse 2*m pulse diode rectifier bridge with resistive load
Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.HalfControlledBridge2mPulse HalfControlledBridge2mPulse 2*m pulse half controlled rectifier bridge with resistive load
Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_R ThyristorBridge2mPulse_R 2*m pulse thyristor rectifier bridge with resistive load
Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RL ThyristorBridge2mPulse_RL 2*m pulse thyristor rectifier bridge with R-L load
Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RLV ThyristorBridge2mPulse_RLV 2*m pulse thyristor rectifier bridge with R-L load and voltage
Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RLV_Characteristic ThyristorBridge2mPulse_RLV_Characteristic Characteristic of 2*m pulse thyristor rectifier bridge with R-L load and voltage
Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_DC_Drive ThyristorBridge2mPulse_DC_Drive 2*m pulse thyristor bridge feeding a DC drive

Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.DiodeBridge2mPulse Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.DiodeBridge2mPulse

2*m pulse diode rectifier bridge with resistive load

Information

This example shows an uncontrolled 2*m pulse diode bridge rectifier with resistive load, where m is the number of phases.

2*m pulse diode bridge example, where m is the number of phases.

Plot current currentSensor.i, average current meanCurrent.y, voltage voltageSensor.v and average voltage meanVoltage.v.

Extends from Modelica.Icons.Example (Icon for runnable examples).

Parameters

NameDescription
mNumber of phases
VrmsRMS supply voltage [V]
fFrequency [Hz]
RLoad resistance [Ohm]

Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.HalfControlledBridge2mPulse Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.HalfControlledBridge2mPulse

2*m pulse half controlled rectifier bridge with resistive load

Information

This example shows a half controlled 2*m pulse bridge rectifier with resistive load, where m is the number of phases. In case of resistive load the half controlled bridge shows the same output voltage as the full controlled bridge.

Plot current currentSensor.i, average current meanCurrent.y, voltage voltageSensor.v and average voltage meanVoltage.v.

Extends from Modelica.Icons.Example (Icon for runnable examples).

Parameters

NameDescription
mNumber of phases
VrmsRMS supply voltage [V]
fFrequency [Hz]
constantFiringAngleFiring angle [rad]
RLoad resistance [Ohm]

Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_R Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_R

2*m pulse thyristor rectifier bridge with resistive load

Information

This example shows a full controlled 2*m pulse bridge rectifier with resistive load, where m is the number of phases. In case of resistive load the full controlled bridge shows the same output voltage as the half controlled bridge.

Plot current currentSensor.i, average current meanCurrent.y, voltage voltageSensor.v and average voltage meanVoltage.v.

Extends from ExampleTemplates.ThyristorBridge2mPulse (Template of 2*m pulse bridge thyristor rectifier), Modelica.Icons.Example (Icon for runnable examples).

Parameters

NameDescription
mNumber of phases
VrmsRMS supply voltage [V]
fFrequency [Hz]
constantFiringAngleFiring angle [rad]
RLoad resistance [Ohm]

Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RL Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RL

2*m pulse thyristor rectifier bridge with R-L load

Information

This example shows a full controlled 2*m pulse bridge rectifier with R-L load, where m is the number of phases.

Plot current currentSensor.i, average current meanCurrent.y, voltage voltageSensor.v and average voltage meanVoltage.v.

Extends from ExampleTemplates.ThyristorBridge2mPulse (Template of 2*m pulse bridge thyristor rectifier), Modelica.Icons.Example (Icon for runnable examples).

Parameters

NameDescription
mNumber of phases
VrmsRMS supply voltage [V]
fFrequency [Hz]
constantFiringAngleFiring angle [rad]
RLoad resistance [Ohm]
LLoad resistance [H]

Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RLV Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RLV

2*m pulse thyristor rectifier bridge with R-L load and voltage

Information

This example shows a full controlled 2*m pulse bridge rectifier with R-L load including DC voltage source, where m is the number of phases. The additional DC voltage source in this example enables negative average load voltages.

Plot current currentSensor.i, average current meanCurrent.y, voltage voltageSensor.v and average voltage meanVoltage.v.

Extends from ExampleTemplates.ThyristorBridge2mPulse (Template of 2*m pulse bridge thyristor rectifier), Modelica.Icons.Example (Icon for runnable examples).

Parameters

NameDescription
mNumber of phases
VrmsRMS supply voltage [V]
fFrequency [Hz]
constantFiringAngleFiring angle [rad]
RLoad resistance [Ohm]
LLoad resistance [H]
VDCDC load offset voltage [V]

Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RLV_Characteristic Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RLV_Characteristic

Characteristic of 2*m pulse thyristor rectifier bridge with R-L load and voltage

Information

This example shows a full controlled 2*m pulse bridge rectifier with R-L load including DC voltage source, where m is the number of phases. The additional DC voltage source in this example enables negative average load voltages.

Plot average voltage meanVoltage.v versus firingAngle pulse2m.firingAngle to see control characteristic of this type of rectifier with R-L load including active voltage.

Extends from ExampleTemplates.ThyristorBridge2mPulse (Template of 2*m pulse bridge thyristor rectifier), Modelica.Icons.Example (Icon for runnable examples).

Parameters

NameDescription
mNumber of phases
VrmsRMS supply voltage [V]
fFrequency [Hz]
Vdi0Ideal max. DC voltage [V]
RLoad resistance [Ohm]
LLoad resistance [H]
VDCDC load offset voltage [V]

Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_DC_Drive Modelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_DC_Drive

2*m pulse thyristor bridge feeding a DC drive

Information

In this example a PM excited DC machine is started with nominal torque at nominal speed. After 5 seconds, load torque is reduced to zero over a period of additional 10 seconds. At 15 seconds, the machine is operating at no load.

Plot current currentSensor.i, average current meanCurrent.y, voltage voltageSensor.v and average voltage meanVoltage.v.

Extends from Modelica.Icons.Example (Icon for runnable examples).

Parameters

NameDescription
mNumber of phases
VrmsRMS supply voltage [V]
fFrequency [Hz]
SMainsMains short circuit apparent power [V.A]
lamdaMainsMains short circuit power factor
LdSmoothing inductance [H]
dcpmDataData record of PM excited DC machine
Automatically generated Thu Dec 19 17:19:58 2019.