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![Page 1: EEE1012 Introduction to Electrical & Electronics Engineering Chapter 9: Introduction to Electric Machines by Muhazam Mustapha, October 2010.](https://reader030.fdocuments.in/reader030/viewer/2022032708/56649e8e5503460f94b91856/html5/thumbnails/1.jpg)
EEE1012Introduction to Electrical &
Electronics EngineeringChapter 9: Introduction to Electric Machines
by Muhazam Mustapha, October 2010
![Page 2: EEE1012 Introduction to Electrical & Electronics Engineering Chapter 9: Introduction to Electric Machines by Muhazam Mustapha, October 2010.](https://reader030.fdocuments.in/reader030/viewer/2022032708/56649e8e5503460f94b91856/html5/thumbnails/2.jpg)
Learning Outcome
• Be able to theoretically explain the various types of electric motors
• Be able to theoretically explain the various types of electric generators
• Be able to mathematically solve some parameters of DC motors
By the end of this chapter students are expected to:
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Chapter Content
• Electric Machines in General
• DC Machines
• Synchronous Machines
• Induction Machines
![Page 4: EEE1012 Introduction to Electrical & Electronics Engineering Chapter 9: Introduction to Electric Machines by Muhazam Mustapha, October 2010.](https://reader030.fdocuments.in/reader030/viewer/2022032708/56649e8e5503460f94b91856/html5/thumbnails/4.jpg)
Electric Machines
![Page 5: EEE1012 Introduction to Electrical & Electronics Engineering Chapter 9: Introduction to Electric Machines by Muhazam Mustapha, October 2010.](https://reader030.fdocuments.in/reader030/viewer/2022032708/56649e8e5503460f94b91856/html5/thumbnails/5.jpg)
Rotating Machines
• Electromechanical machines are commonly rotational in nature
• The machines require one to be static and the other one to be rotating– Stator: stationary– Rotor: rotating
• Both stator and rotor produce magnetic winding whose field will try to align each other – this produces mechanical motion
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Rotor and Stator
×
·
· ×
RotorStator
Rotor winding
Stator winding
Current going in
Current coming out
Stator Field
Rotor Field
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Commutator Action
Commutator reverses current in coil every half cycle
There can be more than 1 pair of commutators
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Windings
• Two types of magnetic windings:– Armature: the winding connects to load– Field: the winding only to produce field
• Either armature or field winding can be located as rotor or stator
• The location of field and armature determines the type of the machine
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Machine Types (Generator & Motor)
Type Winding Type Location Current Type
DC Armature Rotor DC
Field Stator DCSynchronous Armature Stator AC
Field Rotor DCInduction Primary Stator AC
Secondary Rotor AC
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DC Machines
![Page 11: EEE1012 Introduction to Electrical & Electronics Engineering Chapter 9: Introduction to Electric Machines by Muhazam Mustapha, October 2010.](https://reader030.fdocuments.in/reader030/viewer/2022032708/56649e8e5503460f94b91856/html5/thumbnails/11.jpg)
DC Machines
• DC Machines are hard to construct, but easiest to discuss and analyze
• Hence all our mathematical discussion on machines will be on DC machines
• Other machine type will be covered as theory
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Configurations
Separately Excited
La
Ra
Va
Vf
Rf Lf
Ia
If
• DC Machines can be constructed in a few configurations depending on series or parallel structure or the availability of a second power source
![Page 13: EEE1012 Introduction to Electrical & Electronics Engineering Chapter 9: Introduction to Electric Machines by Muhazam Mustapha, October 2010.](https://reader030.fdocuments.in/reader030/viewer/2022032708/56649e8e5503460f94b91856/html5/thumbnails/13.jpg)
Configurations
Shunt Connected
La
Ra
VaVf
Rf
Lf
Ia
If
Series Connected
La
Ra
Va
Vf
Lf
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Configurations
Short-Shunt Compound
La
Ra
Va
Ia
Shunt Winding
Long-Shunt Compound
La
Ra
Va
Series Winding
Ia
Shunt Winding
Series Winding
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Steady State Equations
La
Ra
VL or Vs
Ia
Eb, ωm
Lf
Rx
Rf
If
• Referring to the following DC machine model, we can deduce some formulas for motor and generator at constant speed
RS
LS
Is
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Steady State Equations
fSa
SSaabL
aam
ab
m
mab
III
RIRIEV
IkIEP
T
kE
• Generator
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Steady State Equations
afs
SsaabL
aam
ab
m
mab
III
RIRIEV
IkIEP
T
kE
• Motor
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Machine Constant
M
pNka 2
• The armature
constant of ka
p = number of magnetic polesN = number of conductors per coilM = number of parallel paths in armature winding
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Conversions
mn 2
60
n = round per minute, r/minωm = radian per second, rad/s
1 horse power = 746 watts
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Synchronous Machines
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Alternator
• Just another word for AC generator
• Normally a permanent magnet or a DC powered electromagnet will be placed at rotor to generate AC current
• Stator would be wound with solenoid that carries the generated energy – there can be more than one windings hence it can generate more than 1 phase of electricity
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Alternator
· ×
××
· ·
N
S
Three Phase
Single Phase
Coils at stator
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Synchronous Motor
• Virtually identical to alternator
• Needs a DC voltage exciter at rotor to start
• Called synchronous because it spins at the same rate as the AC frequency used to drive it
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Induction Machines
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Induction Motor
• The stator part is almost identical to synchronous motor
• AC current (single or multi-phase) will be fed into stator – produces spinning field
• There is no power or permanent magnet placed in the rotor
• Rotor and stator are electrically separated
• Then how mechanical force is applied to the rotor?
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Induction Motor
• Mechanical motion is possible by the induction process that is identical to the one in transformer
• The changes in the magnetic flux from stator will induce current into the rotor winding and causes magnetic attraction or repel between stator and rotor poles
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Induction Motor
• The changes of the magnetic field need to involve the cutting of the rotor coils (Faraday’s Law)
• This cutting is what called ‘slip’ between the rate of stator’s field rotation and the rate of rotor’s spin
• Without the slip induction machine couldn’t work
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Induction Motor
• The ‘slippings’ also means that the rotation of rotor is not in-sync with the stator field rotation rate
• This is the main electrical difference between synchronous machine and induction machine
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Induction Generator
• Makes use of the same induction concept in induction motor – slipping process
• It requires a starting power at rotor to produce magnetic field for the induction process to start
• After that, the power generated by the generator itself will be used to produce the needed rotor magnetic field