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Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

Date post: 26-Mar-2015
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Tm ax S=0 s N s S=1 TL N m =0 Td V s1 V s V s2 > > 1 2 Tst Tst1 Tst2 Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage Td IM AC Variable Voltage Sources Vs Stator air gap rotor I i I m Ir’ Xs X r R s R r’/s P i Po I s=Ir’ Vs 2 ' 2 ' 2 ' 3 r s r s s s r d X X S R R S V R T
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Page 1: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

Tmax

S=0sNs

S=1

TL

Nm =0

Td

Vs1Vs Vs2> >

12

Tst

Tst1

Tst2

Stator Voltage Control

Controlling Induction Motor Speed by Adjusting The Stator Voltage Td

IMAC

VariableVoltageSources

Vs

Stator airgap

rotor

Ii

Im Ir’

Xs Xr’Rs

Rr’/s

PiPo

Is=Ir’

Vs

2'

2'

2'3

rsr

ss

srd

XXS

RRS

VRT

Page 2: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

Frequency Voltage Control

Controlling Induction Motor Speed by Adjusting The Frequency Stator Voltage Td

IM

ACVariableVoltageSources

Vs

f

Stator Airgap

rotor

Ii

Im Ir’

Xs Xr’Rs

Rr’/s

PiPo

Is=Ir’

Vsf

Tmax

S=0S=1

TL

m =0

Td

< <

1 2

TstTst1

Tst2

s

fsS=0fs1fs2

S=0

fs2 fsfs1

2'

2'

2'3

rsr

ss

srd

XXSR

RS

VRT

Page 3: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

If the frequency is increased above its rated value, the flux and torque would decrease. If the synchronous speed corresponding to the rated frequency is call the base speed b, the synchronous speed at any other

frequency becomes:bs

And : b

m

b

mbS

1

The motor torque :

2'

2'

2'3

rsr

ss

srd

XXS

RRS

VRT

2'

2'

2'3

rsr

sb

srd

XXSR

RS

VRT

Page 4: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

If Rs is negligible, the maximum torque at the base speed as :

'2

2

3

rsb

smb XXS

VT

And the maximum torque at any other frequency is :

2

2

'2

3

s

rsbm

V

XXST

At this maximum torque, slip S is : ''

rs

rm XX

RS

Normalizing :

'2

2

3

rsb

smb XXS

VT

2

2

'2

3

s

rsbm

V

XXST

2

1

mb

m

T

T

And mbm TT 2

Page 5: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

Example :A three-phase , 11.2 kW, 1750 rpm, 460 V, 60 Hz, four pole, Y-connected induction motor has the following parameters : Rs = 0.1Rr’ = 0.38Xs = 1.14Xr’ = 1.71and Xm = 33.2If the breakdown torque requiretment is 35 Nm, Calculate : a) the frequency of supply voltage, b) speed of motor at the maximum torque

Solution :

Input voltage per-phase :

voltVs 2653

460

sradxxfb /3776014.322 Base frequency :

Nmxx

x

N

PT

m

omb 11.61

175014.32

1120060

2

60

NmTm 35

Base Torque :

Motor Torque :

a) the frequency of supply voltage :

2

1

mb

m

T

T321.1

35

11.61

m

mb

T

T

Page 6: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

Synchronous speed at this frequency is :

bs sradxs /01.498377321.1 or

rpmx

xNN bs 65.4755

2

01.49860

So, the supply frequency is : HzxNp

fb

Ss 52.158

120

65.47554

120

b) speed of motor at the maximum torque :

At this maximum torque, slip Sm is : ''

rs

rm XX

RS

Rr’ = 0.38, Xs = 1.14, Xr’ = 1.71and

101.071.114.1321.1

38.0

mS

So,

rpmSNN Sm 4275)101.01(65.4755)1(

or,

Page 7: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

CONTROLLING INDUCTION MOTOR SPEED USING ROTOR RESISTANCE (Rotor Voltage Control)

Equation of Speed-Torque :

2'

2'

2'3

rsr

ss

srd

XXSR

RS

VRT

rs

sd R

SVT

'

3 2

In a wound rotor induction motor, an external

three-phase resistor may be connected to its slip rings,

Three-phasesupply

Rotor

Stator

RX

RX

RX

Page 8: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

These resistors Rx are used to control motor starting and stopping anywhere from reduced voltage motors of low horsepower up to large motor applications such as materials handling, mine hoists, cranes etc.

The most common applications are:

AC Wound Rotor Induction Motors – where the resistor is wired into the motor secondary slip rings and provides a soft start as resistance is removed in steps.

AC Squirrel Cage Motors – where the resistor is used as a ballast for soft starting also known as reduced voltage starting.

DC Series Wound Motors – where the current limiting resistor is wired to the field to control motor current, since torque is directly proportional to current, for starting and stopping.

Page 9: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

The developed torque may be varying the resistance Rx

The torque-speed characteristic for variations in rotor resistance

This method increase the starting torque while limiting the starting current.The wound rotor induction motor are widely used in applications requiring frequent starting and braking with large motor torque (crane, hoists, etc)

Page 10: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

The three-phase resistor may be replaced by a three-phase diode rectifier and a DC chopper. The inductor Ld acts as a current source Id and the DC chopper varies the effective resistance:

)1( kRRe

Where k is duty cycle of DC chopper

The speed can controlled by varying the duty cycle k, (slip power)

Three-phasesupply

Rotor

Stator D1

D2

D3

D6D4

D5

GTOR Vdc

Id

Ld

Vd

Page 11: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

The slip power in the rotor circuit may be returned to the supply by replacing the DC converter and resistance R with a three-phase full converter (inverter)

Three-phasesupply

Rotor

Stator D1

D2

D3

D6D4

D5

Id

Ld

Vd

T2

T5

T4

T3T1

T6

Vdc

Transformer Na:Nb

Diode rectifierControlled rectifier/

inverter

Slip Power

Page 12: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

Example:A three-phase induction motor, 460, 60Hz, six-pole, Y connected, wound rotor that speed is controlled by slip power such as shown in Figure below. The motor parameters are Rs=0.041 , Rr’=0.044 , Xs=0.29 , Xr’=0.44 and Xm=6.1 . The turn ratio of the rotor to stator winding is nm=Nr/Ns=0.9. The inductance Ld is very large and its current Id has negligible ripple.

The value of Rs, Rr’, Xs and Xr’ for equivalent circuit can be considered negligible compared with the effective impedance of Ld. The no-load of motor is negligible. The losses of rectifier and Dc chopper are also negligible. The load torque, which is proportional to speed square is 750 Nm at 1175 rpm.(a) If the motor has to operate with a minimum speed of 800 rpm, determine the resistance R, if the desired speed is 1050 rpm, (b) Calculate the inductor current Id.(c) The duty cycle k of the DC chopper.(d)The voltage Vd.(e)The efficiency.(f)The power factor of input line of the motor.

Page 13: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

voltVs 58.2653

460

6p

sradx /377602 sradxs /66.1256/3772

The equivalent circuit :

Page 14: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

The dc voltage at the rectifier output is :

)1( kRIRIV dedd

mss

rsr nVSN

NVSE

and

For a three-phase rectifier, relates Er and Vd as :

rrd EExV 3394.2265.1

Using : mss

rsr nVSN

NVSE

msd nVSV 3394.2

If Pr is the slip power, air gap power is :S

PP rg

Developed power is : S

SPS

S

PPPP rrrgd

)1(3)(3)(3

Page 15: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

Because the total slip power is 3Pr = Vd Id and mLd TP

So, )1()1(

STTS

IVSP mLmL

ddd

Substituting Vd from msd nVSV 3394.2 In equation Pd above, so

: Solving for Id gives :

ms

sLd nV

TI

3394.2

Which indicates that the inductor current is independent of the speed.

From equation : )1( kRIRIV dedd and equation :msd nVSV 3394.2

So, msd nVSkRI 3394.2)1(

Which gives :

ms

d

nVS

kRIS

3394.2

)1(

Page 16: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

The speed can be found from equation :

ms

d

nVS

kRIS

3394.2

)1( as :

ms

dssm nV

kRIS

3394.2

)1(1)1(

2)3394.2(

)1(1

ms

sLsm nV

kRT

Which shows that for a fixed duty cycle, the speed decrease with load torque. By varying k from 0 to 1, the speed can be varied from minimum value to s

sradm /77.8330/180

From torque equation :2

mvL KT

Nmx 67.3471175

800750

2

Page 17: Stator Voltage Control Controlling Induction Motor Speed by Adjusting The Stator Voltage.

From equation :ms

sLd nV

TI

3394.2

The corresponding inductor current is :

Axx

xId 13.78

9.058.2653394.2

66.12567.347

The speed is minimum when the duty-cycle k is zero and equation :

ms

dssm nV

kRIS

3394.2

)1(1)1(

)9.058.2653394.2

13.781(66.12577.83

xx

R

And : 3856.2R


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