1_LECTURE_Induction Motor.ppt
Transcript of 1_LECTURE_Induction Motor.ppt
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Induction Motor
(Asynchronous Motor)
ELECTRICAL MACHINES
PRESENTED BY
AMIT VERMA
LECTURER EE DEPTT
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Contents
Overview of Three-Phase Induction Motor
Construction
Principle of Operation
Equivalent Circuit
Power Flow, Losses and Efficiency
Torque-Speed Characteristics
Speed Control
Overview of Single-Phase Induction Motor
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Overview of Three-Phase Induction
Motor
Induction motors are used worldwide in many
residential, commercial, industrial, and utility
applications.
Induction Motors transform electrical energy intomechanical energy.
It can be part of a pump or fan, or connected to some
other form of mechanical equipment such as a winder,
conveyor, or mixer.
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Introduction
General aspects
A induction machine can be used as either a induction
generator or a induction motor.
Induction motors are popularly used in the industry Focus on three-phase induction motor
Main features: cheap and low maintenance
Main disadvantages: speed control is not easy
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Construction
The three basic parts of an AC motor are the rotor, stator,and enclosure.
The stator and the rotor are electrical circuits that perform aselectromagnets.
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Squirrel Cage Rotor
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Construction (Stator construction)
The stator is the stationary electrical part of the motor.
The stator core of a National Electrical Manufacturers Association(NEMA) motor is made up of several hundred thin laminations.
Stator laminations are stacked togetherforming a hollow cylinder.Coils of insulated wireare inserted into slots of the stator core.
Electromagnetism is the principle behind motor operation. Each
grouping of coils, together with the steel core it surrounds, form anelectromagnet. The stator windingsare connected directlyto thepower source.
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Construction (Rotor construction)
The rotor is the rotating part of the electromagnetic
circuit.
It can be found in two types:
Squirrel cage
Wound rotor
However, the most common type of rotor is the
squirrel cage rotor.
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Induction motor types:
Squirrel cage type:
Rotor winding is composed of copper bars embedded in
the rotor slots and shorted at both end by end ringsSimple, low cost, robust, low maintenance
Wound rotor type:
Rotor winding is wound by wires. The winding terminalscan be connected to external circuits through slip ringsand brushes.
Easy to control speed, more expensive.
Construction (Rotor construction)
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Construction (Rotor construction)
Wound Rotor
Squirrel-Cage Rotor
/rotor winding
Short circuits all
rotor bars.
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Construction (Enclosure)
The enclosure consists of a frame (or yoke) and two endbrackets (or bearing housings). The stator is mountedinside the frame. The rotor fits inside the stator with aslight air gap separating it from the stator. There is NOdirect physical connection between the rotor and thestator.
Stator
Rotor
Air gap
The enclosure also protects the electricaland operating parts of the motor from
harmful effects of the environment in whichthe motor operates. Bearings, mounted onthe shaft, support the rotor and allow it toturn. A fan, also mounted on the shaft, isused on the motor shown below for cooling.
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Construction (Enclosure)
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Nameplate
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Rotating Magnetic Field
When a 3 phase statorwinding is connectedto a 3 phasevoltage supply, 3 phase currentwill flow in the windings,which also will induced3 phase flux in the stator.
These flux will rotate at a speed called a SynchronousSpeed, n
s
. The flux is called as Rotating magnetic Field
Synchronous speed: speed of rotating flux
Where; p = is the number of poles, and
f = the frequency of supply
p
fns
120
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AC Machine Stator
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Axis of phase a
a
a
-90 -40 10 60 110 160 210 260-1
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1
Fa
Space angle (theta) in degrees
t0
t01
t12
t2
a
MMF Due to a phase current
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1 Cycle
Amp
timet0
t1 t2 t3 t4
t01 t12Currents in different phases of AC Machine
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Slip Ring Rotor
The rotor contains windings similar to stator.
The connections from rotor are brought out using slip rings that
are rotating with the rotor and carbon brushes that are static.
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Slip and Rotor Speed
1. Slip s
The rotor speed of an Induction machine is different from thespeed of Rotating magnetic field. The % difference of the speed
is called slip.
Where; ns = synchronous speed (rpm)
nr= mechanical speed of rotor (rpm)
under normal operating conditions, s= 0.01 ~ 0.05, which is
very small and the actual speed is very close to synchronous
speed.
Note that : s is not negligible
)1( snnOR
n
nns sr
s
rs
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Slip and Rotor Speed
Rotor Speed
When the rotor move at rotor speed, nr (rps), the stator flux will
circulate the rotor conductor at a speed of (ns-nr) per second.
Hence, the frequency of the rotor is written as:
Where; s= slip
f = supply frequency
sf
pnnf rsr
)(
fsfiii
iipnn
f
nnRotorAt
ipn
f
nstatorAt
Note
r
rsr
p
f
rs
s
p
f
s
.:)()(
).....(120
)(
:
).....(120
:
:
120
120
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Principle of Operation
Torque producing mechanismWhen a 3 phase stator winding is connected to a 3
phase voltage supply, 3 phase currentwill flow in thewindings, hence the stator is energized.
A rotating flux is produced in the air gap. The flux induces a voltage Ea in the rotor winding (like atransformer).
The induced voltage produces rotor current, if rotor
circuit is closed.The rotor current interacts with the flux , producing
torque. The rotor rotates in the direction of the rotatingflux.
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Direction of Rotor Rotates
Q: How to change the direction of
rotation?
A: Change the phase sequence of the
power supply.
E i l t Ci it f I d ti
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Conventional equivalent circuit
Note:
Never use three-phase equivalent circuit. Always use per-
phase equivalent circuit. The equivalent circuit always bases on the Y connection
regardless of the actual connection of the motor.
Induction machine equivalent circuit is very similar to the
single-phase equivalent circuit of transformer. It is
composed of stator circuit and rotor circuit
Equivalent Circuit of Induction
Machines
E i l t Ci it f I d ti
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Step1 Rotor winding is open(The rotor will not rotate)
Note: the frequency of E2is the same as that of E1since the rotor is at
standstill. At standstill s=1.
Equivalent Circuit of Induction
Machines
f f
E i l t Ci it f I d ti
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Equivalent Circuit of Induction
Machines
E i l t Ci it f I d ti
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Equivalent Circuit of Induction
Machines
Step2 Rotor winding is shorted
(Under normal operating conditions, the rotor winding is shorted. The slip is s)
Note:
the frequency of E2isfr=sfbecause rotor is rotating.
f fr
E i l t Ci it f I d ti
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Step3 Eliminatef2
Keep the rotor current same:
Equivalent Circuit of Induction
Machines
E i l t Ci it f I d ti
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Step 4 Referred to the stator side
Note: X2and R2will be given or measured. In practice, we do not
have to calculate them from above equations.
Always refer the rotor side parameters to stator side.
Rcrepresents core loss, which is the core loss of stator side.
Equivalent Circuit of Induction
Machines
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Equivalent Circuit of Induction
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IEEE recommended equivalent circuit
Note: can be separated into 2 PARTS
Purpose :
to obtain the developed mechanical
Equivalent Circuit of Induction
Machines
I1 1
R1
X
mX
'
2X
'
2R
s
sR
1'21V
s
R2
ssRR
sR )1(2
22
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Efficiency
WattxWhpxPIVP
otherwise
PPPPPP
givenarePif
PP
out
ssin
mo
lossesino
losses
in
out
746746cos3
,
,
%100
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Torque-Equation
Torque, can be derived from power equationin term ofmechanical power or electrical power.
nPTHence
sradn
whereTPPower
260,
)/(60
2,,
r
oo
r
m
m
n
PTTorqueOutput
n
P
TTorqueMechanical
Thus
2
60,
2
60,
,
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Torque-Equation
22
2
)'()'(
'
602
)(3
1,
RsRs
R
s
s
stXXRR
R
n
VT
sTorqueStarting
22
2
max
22max
)'()(
1
6022
)(3
)'()('
Rssss
s
Rs
R
XXRRnVT
XRRs
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Speed Control
There are 3 types of speed control of 3 phaseinduction machines
i. Varying rotor resistance
ii. Varying supply voltage
iii. Varying supply voltage and supply frequency
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Varying rotor resistance
For wound rotor only Speed is decreasing
Constant maximum
torque
The speedatwhich maxtorqueoccurs changes
Disadvantages:
large speed regulation
Power loss in Rext reduce the efficiency
T
ns~nNL
T
nr1nr2nr3 n
nr1
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Varying supply voltage
Maximum torquechanges
The speed which at max
torque occurs is constant
(at max torque, XR=RR/s
Relatively simple methoduses power electronics
circuit for voltage controller
Suitable for fan type load
Disadvantages : Large speed regulationsince
~ ns
T
ns~nNL
T
nr1nr2nr3n
nr1>nr2 > nr3
V1
V2
V3
V1
>V2
>V3
V
decreasing
Varying supply voltage and supply
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The best methodsince
supply voltage and supply
frequency is varied to keepV
/fconstant Maintain speed regulation
uses power electronics
circuit for frequency andvoltage controller
Constant maximum torque
Varying supply voltage and supply
frequency
T
nNL1
T
nr1nr2nr3 n
f
decreasing
nNL2nNL3