AirGapDC

Linear airgap model of a DC machine

    AirGapDC

Library

Modelica/Electrical/Machines/BasicMachines/Components

Description

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.
Induced armature voltage is calculated from flux times angular velocity.

Parameters

AirGapDC_0

NameLabelDescriptionData TypeValid Values

mo_quasiStationary

quasiStationary

No electrical transients if true

Scalar

true
false

mo_turnsRatio

turnsRatio

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

Scalar

mo_Le

Le

Excitation inductance

Scalar

AirGapDC_1

NameLabelDescriptionData TypeValid Values

mo_w

w

w

Structure

mo_w/fixed

fixed

Cell of scalars

true
false

mo_w/start

start

Cell of scalars

mo_vei

vei

vei

Structure

mo_vei/fixed

fixed

Cell of scalars

true
false

mo_vei/start

start

Cell of scalars

mo_ie

ie

ie

Structure

mo_ie/fixed

fixed

Cell of scalars

true
false

mo_ie/start

start

Cell of scalars

mo_psi_e

psi_e

psi_e

Structure

mo_psi_e/fixed

fixed

Cell of scalars

true
false

mo_psi_e/start

start

Cell of scalars

mo_vai

vai

vai

Structure

mo_vai/fixed

fixed

Cell of scalars

true
false

mo_vai/start

start

Cell of scalars

mo_ia

ia

ia

Structure

mo_ia/fixed

fixed

Cell of scalars

true
false

mo_ia/start

start

Cell of scalars

mo_tauElectrical

tauElectrical

tauElectrical

Structure

mo_tauElectrical/fixed

fixed

Cell of scalars

true
false

mo_tauElectrical/start

start

Cell of scalars

Ports

NameTypeDescriptionIO TypeNumber

flange

implicit

input

1

support

implicit

Support at which the reaction torque is acting

input

2

pin_ap

implicit

input

3

pin_ep

implicit

input

4

pin_an

implicit

output

1

pin_en

implicit

output

2