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Lecture 24 - EE743Lecture 24 - EE743
3-Phase Induction Machines
Torque Speed characteristics
Professor: Ali KeyhaniProfessor: Ali Keyhani
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Importance of T-speed characteristics
s Torque speed characteristic of a motor is important from
the point of view of its applications to specific situations.
To calculate the torque produced by the machine, first, we
compute the motor power. The motor power, or the
mechanical power supplied to the load is
The electrical power inputted to the machine can be
calculated from the eq. circuit given below
lossesinem PPP =
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Importance of T-speed characteristics
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Machine Torque
s Power dissipated is
s Motor power Pem is
s Motor torque can be calculated from
{ }
+==s
RRIIVP
'2
1
2
1*
111 3~~
Re3
extrotor RRR
XaX
RaR
+==
=
2
22'
2
22'
2
( ) ( )'212
1221
2
1 33 RRIRaRIP +=+=
( ) 21'2
'21
'2
1
2
1
133 IR
s
sRR
s
RRIPem
=
+
+=
memem TP =2
1'2
13IR
s
sT
m
em
=
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Machine Torque
s Since Tm can be written as
s Substituting for I1 in equation (3), we will have
( )ssyncm = 1
2
1
'23 I
s
RT
sync
em
=
( )
2'
21
2'2
1
2
12
1
XXs
RR
VI
++
+
=
( )2'212'
21
2
1
'
23
XXs
RR
Vs
RTsync
em
++
+=
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Power calculations
s Figure 2 shows the plot of equation (3) for the values of slip
from zero to unity. In Fig.1 . This
corresponds to the normal range of the speed of an induction
motor from starting (m=0, s=1) to the synchronous speed (m=
sync, s=0)
( )extRRaR += 22'
2
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smax and Tmax calculation
s To find smax first set derivative of (4) with respect to s
equal to zero.
s Which will results in
s substituting smax in (4) will result in Tmax
0=ds
dTm
( )2'2121
'2
max
XXR
Rs
++=
( )
+++
=2'
21211
2
max2
3
XXRR
VT
sync
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Torque-speed characteristic
s Equation (5) shows that the slip at which the maximum torque
occurs is proportional to the rotor resistance. Equation (6) shows
that the maximum torque is independent of the rotor resistance
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Torque-speed characteristic
s Case 1: sync and m are rotating in the same direction and
sync is rotating faster than m.
s Case 2: sync and m are rotating in the same direction and sync is rotating slower than m.
s Case 3: sync and m are rotating in different directions.
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Torque-speed characteristic. Case 1.
s Case 1: sync and m are rotating in the same direction and
sync is rotating faster than m. This case is the normal operation of the induction machine. Machine
operates as a motor. Note also in equation (7) sync and m are inthe same direction and the slip is positive for motor operation
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Torque-speed characteristic. Case 2.
s Case 2: sync and m are rotating in the same direction and
sync is rotating slower than m. If the speed of the machine is increased beyond its synchronous
speed by an external prime motor, but still rotated in the same
direction as the stator field, the slip will be negative (s
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Torque-speed characteristic. Case 3.
s Case 3: sync and m are rotating in different directions. Suppose an induction motor is operating under normal conditions at
the same value of positive slip in stable region (0
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Example 1
s On no-load a 3-phase delta-connected induction motor
takes 6.8A and 390W at 220V line to line. R1=0.1/phase,friction and windage losses are 120W. Determine Xm,and
Rm
of the motor equivalent circuit.
AII linephase 926.33
8.6
3===
LLphase VVV == 220 WRI phasephase 54.12 =
m
phase
RVWlossesCore
2
46.8854.13120390 ===
== 14.54746.88
2202
mR ==
110828.1
1 3
m
mR
G
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Example 1
=== 11084.17
220
926.3 3
V
IY mm
=== 1
10746.17
1 322mm
mm GYXB = 35.56mX
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Example 2
s The motor of the previous example take 30A and 480W at
36V line-to-line, when the rotor is blocked. Determine the
complete equivalent circuit of the motor. Assume that
X1=X2.
( ) eqeqeq XRZXX ==
==+ 0.2533.0
3/30
36 22
22'21
( )( )
eqRRR ===+ 533.03/30
3/4802
'21
== 433.01.0 '21 RsoR
== 12
21eqX
XX
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Example 3
s An induction motor has an output of 30kW at =0.86. Forthis operating condition Pcoil,1=Pcoil,2=Pcore=Prot.Determine the slip
3,
0
inP
PEff=
WEff
PPin 884,34
86.0
000,3003, ===
WPloss 884,4000,30884,343, ==
M
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Example 3
WPPPPP rotcoreRAG 663,33'20=+++=
3,
3,'2
AG
R
P
Ps = WP
R221,1
4884,4
'2
==
%6.3036.0663,33
221,1ors ==
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Example 4
s A wound rotor six-pole 60Hz ind. motor has R2=0.8 andruns at 1152 rpm (s=0.04) at a given load. The load torque
remains constant at all speeds. How much resistance must
be inserted in the rotor circuit to change the speed to 960
rpm (s=0.2). Neglect the motor leakage reactance, X1 and
X2.
The air gap power function is:
( )2'212'
21
21
'2
'2
2'2 33
XXs
RR
V
s
R
s
RIPg
++
+
=
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Example 4
s If (see eq. circuit ), the voltage, current,
air-gap power, and torque conditions remain the same, i.e
tconssR tan
'2 =
..
'
2 ConstTthenConstsR ==
2.004.0
''2
'2 insertRRR +=
=== 2.38.0)8.0(504.0
2.0 '2
'2
' RRRinsert
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Example 5
s A 400V, 3-phase WYE connected motor has
, and
using the approx. eq. circuit. Determine the max.
electromagnetic power, Pd
( ) phasejZ /2.16.01 += ( ) phasejZ /3.15.0'2 +=
( )2'212'
21
1
21
1'2
XXs
RR
V
ZZ
VI
++
+
=+
= VV 2313
4001 ==
( ) 22
'2
5.25.0
6.0
231
+
+
=
s
I
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Example 5
( ) ( )sfunctionIRs
sPsRIPP ggd =
===2'
2'2
'2
2'2
11
CBss
ssAPd
++
=2
2
( )
( )( )Bs
CBss
ssA
CBss
sA
ds
dPd +++
++
== 221022
2
2155.0
max=
dPats
( )( )
WCBss
ssAP
s
phased 962,6
155.0
22
2
max,, =++
==
WP phased 886,20962,633max,, ==