ET 332a Dc Motors, Generators and Energy Conversion Devices 1 Lesson 12 332a.pptx.
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Transcript of ET 332a Dc Motors, Generators and Energy Conversion Devices 1 Lesson 12 332a.pptx.
![Page 1: ET 332a Dc Motors, Generators and Energy Conversion Devices 1 Lesson 12 332a.pptx.](https://reader037.fdocuments.net/reader037/viewer/2022110100/56649dbe5503460f94ab2115/html5/thumbnails/1.jpg)
LESSON 12 SHUNT CONNECTED DC MOTORS
ET 332aDc Motors, Generators and Energy Conversion Devices
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Lesson 12 332a.pptx
![Page 2: ET 332a Dc Motors, Generators and Energy Conversion Devices 1 Lesson 12 332a.pptx.](https://reader037.fdocuments.net/reader037/viewer/2022110100/56649dbe5503460f94ab2115/html5/thumbnails/2.jpg)
LEARNING OBJECTIVES
After this presentation you will be able to:
Draw the circuit model of a shunt motor and label all parts correctly
Use the shunt motor equations to perform calculations on shunt dc motor operation
Draw and explain how the shunt motor torque speed characteristic affects its operation.
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Lesson 12 332a.pptx
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SHUNT CONNECTED DC MOTORS
Vt
Rc
Rf
Racir
Ea
Load
nTd
IT
If
Ia
Field current supplied from the same source as armature. Field current constant if not modified by rheostat.
Motor circuit model schematic
Motor Model Equations
fTa III Terminal current
armature current
aciraTa RIVE
Motor Speed
eGpGp
a Kk k
En
Gp
aciraT
k
RIVn
Speed proportional to Ea 3
Lesson 12 332a.pptx
![Page 4: ET 332a Dc Motors, Generators and Energy Conversion Devices 1 Lesson 12 332a.pptx.](https://reader037.fdocuments.net/reader037/viewer/2022110100/56649dbe5503460f94ab2115/html5/thumbnails/4.jpg)
SHUNT CONNECTED DC MOTORS
Vt
Rc
Rf
Racir
Ea
Load
nTD
IT
If
Ia
Developed
Torque
aTD IKT
Daa
eme
TIE
PP
Developed Torque
Torque proportional toarmature current
If SI units are used, Ke = KT numerically
Power balance in the armature
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Lesson 12 332a.pptx
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SHUNT MOTOR TORQUE-SPEED CHARACTERISTIC
n
Load torque
RatedSpeed, nr
Speed under load
RatedTorque
nnl
Difference betweenno-load speed and rated is small.
Shunt motor gives almost constant speed for over wide range of mechanical load torques.
50%RatedTorque
25%RatedTorque
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Lesson 12 332a.pptx
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SHUNT MOTOR SPEED EXAMPLE 12-1
Lesson 12 332a.pptx
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Rc = 120 W
Rf = 0
Racir= 0.11 W
Ea
Load
n = 900 rpmTd
IT = 82 A
If
Ia
Vt = 240 V
Find the motor terminal current and the motor speed when the developed torque load is increased by 50% from the initial conditions given.
Calculate the speed regulation for the change in load conditions given above
![Page 7: ET 332a Dc Motors, Generators and Energy Conversion Devices 1 Lesson 12 332a.pptx.](https://reader037.fdocuments.net/reader037/viewer/2022110100/56649dbe5503460f94ab2115/html5/thumbnails/7.jpg)
EXAMPLE 12-1 SOLUTION (1)
Lesson 12 332a.pptx
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Find Ia from the terminal current and the field current
Find Ea
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Lesson 12 332a.pptx
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EXAMPLE 12-1 SOLUTION (2)
Electric power equals electromechanical power in the armature
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EXAMPLE 12-1 SOLUTION (3)
Lesson 12 332a.pptx
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Compute the torque constant to find the new armature current
Compute Ia50 using KT and Td50
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EXAMPLE 12-1 SOLUTION (4)
Lesson 12 332a.pptx
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Find new speed
Remember Ke = KT numerically in SI unit. Constant If means Ke is constant from load 1 to load 2
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EXAMPLE 12-1 SOLUTION (5)
Lesson 12 332a.pptx
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Convert radians/second to rpm to compare with initial speed of 900 rpm
Calculate percentage speed change for a 50% increase in load developed torque. Take900 rpm as the base speed, nb.
Almost constant speed over wideload torque range. Shunt motor considered constant speed motor
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ET 332aDc Motors, Generators and Energy Conversion Devices
Lesson 12 332a.pptx
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END LESSON 12