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SM Reluctance Rotor

Synchronous induction machine with reluctance rotor and damper cage

 

Description

Connections

Parameters

Modelica Standard Library

Description

The SM Reluctance Rotor component models a three phase synchronous induction machine with reluctance rotor and damper cage. The resistance and stray inductance of the stator is modeled directly in stator phases, then using space phasor transformation. The resistance and stray inductance of the rotor's squirrel cage is modeled in two axis of the rotor-fixed coordinate system. They are connected via a rotor-fixed Air Gap model.

The following losses are modeled:

• 

heat losses in the temperature dependent stator winding resistances

• 

optional, when enabled: heat losses in the temperature dependent damper cage resistances

• 

friction losses

• 

core losses (only eddy current losses, no hysteresis losses)

• 

stray load losses

Whether a damper cage is present or not, can be selected with Boolean parameter useDamperCage (default = true).

Connections

Name

Description

Modelica ID

flange

Shaft

flange

ir

Damper cage currents

ir

idqdr

Damper space phasor current / rotor fixed frame

idq_dr

plugsn

Negative stator plug

plug_sn

plugsp

Positive stator plug

plug_sp

support

Support at which the reaction torque is acting

support

thermalPort

 

thermalPort

Parameters

General Parameters

Name

Default

Units

Description

Modelica ID

fs,nom

50

Hz

Nominal frequency

fsNominal

Jr

0.29

kgm2

Rotor moment of inertia

Jr

Js

Jr

kgm2

Stator moment of inertia

Js

p

2

 

Number of pole pairs (Integer)

p

Tr,oper

293.15

K

Operational temperature of (optional) damper cage

TrOperational

Ts,oper

293.15

K

Operational temperature of stator resistance

TsOperational

Use Support Flange

false

 

True (checked) means stator support is enabled

useSupport

Use Thermal Port

false

 

True (checked) means heat port is enabled

useThermalPort

Friction Losses

Name

Default

Units

Description

Modelica ID

Pref

0

W

Reference friction losses

PRef

ωref

ωnom

rads

Reference angular velocity

wRef

pω

2

V

Exponent of friction

power_w

See Friction for details of the friction loss model.

Stator Core Losses

Name

Default

Units

Description

Modelica ID

Pref

0

W

Reference rotor core losses

PRef

Vref

 

V

Reference RMS voltage

VRef

ωref

2πfs,nom

rads

Reference angular velocity

wRef

See Core for details of the core loss model.

Stray Load Losses

Name

Default

Units

Description

Modelica ID

Iref

Ianom

W

Reference RMS current

IRef

Pref

0

W

Reference friction losses

PRef

ωref

ωnom

rads

Reference angular velocity

wRef

pω

1

V

Exponent of stray load loss

power_w

See Stray Load for details of the stray load loss model.

Nominal Resistances And Inductances Parameters

Name

Default

Units

Description

Modelica ID

αr

0

1K

Temperature coefficient of damper resistances in d- and q-axis

alpha20r

αs

0

1K

Temperature coefficient of stator resistance at 20 degC

alpha20s

Lmd

1.45πfs,nom

H

Main field inductance in d-axis

Lmd

Lmq

0.45πfs,nom

H

Main field inductance in q-axis

Lmq

Lrσd

0.0025πfs,nom

H

Damper stray inductance in d-axis

Lrsigmad

Lrσq

Lrσd

H

Damper stray inductance in q-axis

Lrsigmaq

Lsσ

0.05πfs,nom

H

Stator stray inductance per phase

Lssigma

Ls0

Lsσ

H

Stator zero sequence inductance

Lszero

Rrd

0.04

Ω

Damper resistance in d-axis at TRef

Rrd

Rrq

Rrd

Ω

Damper resistance in q-axis at TRef

Rrq

Rs

0.03

Ω

Warm damper resistance in q-axis

Rs

Tr,ref

293.15

K

Reference temperature of damper resistances in d- and q-axis

TrRef

Ts,ref

293.15

K

Reference temperature of stator resistance

TsRef

Use Damper Cage

false

 

True (checked) means damper cage is enabled

useDamperCage

Modelica Standard Library

The component described in this topic is from the Modelica Standard Library. To view the original documentation, which includes author and copyright information, click here.

See Also

Electrical Library

Electrical Machines

Synchronous Induction Machines