Name

Default

Units

Description

Modelica ID

$\mathrm{mr}$

$m$

Number of rotor phases

mr

$m$

$3$

Number of stator phases

m

$J_r$

$\mathrm{kg}{m}^2$

Rotor moment of inertia

Jr

Use Support Flange

$\mathrm{false}$

True (checked) means enable stator support flange

useSupport

$J_s$

$\mathrm{kg}{m}^2$

Stator moment of inertia

Js

Use Thermal Port

$\mathrm{false}$

True (checked) means thermal port is enabled

useThermalPort

$p$

Number of pole pairs (Integer)

p

$f_{s\,\mathrm{nom}}$

$\mathrm{Hz}$

Nominal frequency

fsNominal

$T_{s\,\mathrm{oper}}$

$K$

Operational temperature of stator resistance

TsOperational

Effective Stator Turns

$1$

$1$

Effective number of stator turns

effectiveStatorTurns

$T_{r\,\mathrm{oper}}$

$K$

Operational temperature of rotor resistance

TrOperational

Use Turns Ratio

$\mathrm{true}$

Use TurnsRatio or calculate from locked-rotor voltage?

useTurnsRatio

$\mathrm{Turns\; Ratio}$

$1$

$1$

Effective number of stator turns / effective number of rotor turns

TurnsRatio

$V_{s\,\mathrm{nom}}$

$100$

$V$

Nominal stator voltage per phase

VsNominal

$V_{r\,\mathrm{locked}}$

$V$

Locked rotor voltage per phase

VrLockedRotor

Name

Default

Units

Description

Modelica ID

Friction Parameters

Friction loss parameter record

frictionParameters

Stator Core Parameters

Stator core loss parameter record; all parameters refer to stator side

statorCoreParameters

Stray Load Parameters

Stray load loss parameter record

strayLoadParameters

Rotor Core Parameters

Rotor core loss parameter record, all quantities refer to rotor side

rotorCoreParameters

Name

Default

Units

Description

Modelica ID

$R_s$

$0.03$

$\mathrm{\Omega }$

Warm stator resistance per phase

Rs

$T_{s\,\mathrm{ref}}$

$293.15$

$K$

Reference temperature of stator resistance

TsRef

${\mathrm{\alpha }}_s$

$0$

$\frac{1}{K}$

Temperature coefficient of stator resistance at 20 degC

alpha20s

$L_{s\sigma }$

[1]

$H$

Stator stray inductance per phase

Lssigma

$L_{s\,0}$

$L_{s\sigma }$

$H$

Stator zero inductance

Lszero

$L_m$

[2]

$H$

Main field inductance

Lm

$L_{r\sigma }$

[1]

$H$

Rotor stray inductance per phase

Lrsigma

$L_{r\,0}$

$L_{r\sigma }$

$H$

Rotor zero inductance w.r.t. rotor side

Lrzero

$R_r$

$0.04$

$\mathrm{\Omega }$

Warm rotor resistance per phase

Rr

$T_{r\,\mathrm{ref}}$

$293.15$

$K$

Reference temperature of rotor resistance

TrRef

${\mathrm{\alpha }}_r$

$0$

$\frac{1}{K}$

Temperature coefficient of rotor resistance at 20 degC

alpha20r