PartialAirGapDC

Partial airgap model of a DC machine

Information

This information is part of the Modelica Standard Library maintained by the Modelica Association.

Linear model of the airgap (without saturation effects) of a DC machine, using only equations.
Induced excitation voltage is calculated from der(flux), where flux is defined by excitation inductance times excitation current. If quasiStationary == false, the electrical transients are neglected, i.e., the induced excitation voltage is zero.
Induced armature voltage is calculated from flux times angular velocity.

Parameters (2)

quasiStationary	Value: Type: Boolean Description: No electrical transients if true
turnsRatio	Value: Type: Real Description: Ratio of armature turns over number of turns of the excitation winding

quasiStationary

Value:

Type: Boolean

Description: No electrical transients if true

turnsRatio

Value:

Type: Real

Description: Ratio of armature turns over number of turns of the excitation winding

Outputs (2)

w	Type: AngularVelocity (rad/s) Description: Angular velocity
tauElectrical	Type: Torque (N·m)

Type: AngularVelocity (rad/s)

Description: Angular velocity

tauElectrical

Type: Torque (N·m)

Connectors (6)

	flange	Type: Flange_a
	support	Type: Flange_a Description: Support at which the reaction torque is acting
	pin_ap	Type: PositivePin
	pin_ep	Type: PositivePin
	pin_an	Type: NegativePin
	pin_en	Type: NegativePin

Extended by (1)

AirGapDC

Modelica.Electrical.Machines.BasicMachines.Components

Linear airgap model of a DC machine