SMMA
MOTOR & MOTION COLLEGE
Motor
Fundamentals for Appliance Engineers Course Outline
Specifying
issues such as performance, size, cost, efficiency, reliability,
noise, environment and electronic controls.
I.
Fundamental Concepts and Terminology
A.
Electricity
B. Mechanics
C. Magnetism
D. Permanent Magnets
E. Steels
F. Electromagnetic Torque
A.
Configurations
B. Insulation
C. Bearings
D. Shafts
A.
PMDC Brush Type
1.
Permanent Magnet Field
2. Commutation
3. Performance
4. Thermal Properties
5. Velocity Profiles
6. Non-symmetrical Structures
G. Applications
B.
Hollow Rotor PMDC Motor
C.
Brushless PMDC Motor
1.
Operation
2.
Wye and Delta Connections
3. Thermal Considerations
D.
Series Connected Wound Field Motor
1.
Flux Plots
E.
Shunt Connected Wound Field Motor
F.
Compound Connected Wound Field Motor
G.
Electromagnetic Interference
H.
Step Motors
1.Variable
Reluctance
2.
Permanent Magnet
3.
Hybrid
4.
Performance
I.
Switched Reluctance Motors
1.Performance
IV.
Alternating
Current Motors
A.
Principle of Induction
B. Polyphase Induction Motors
C. Single Phase Motors
D. Split Phase Motors
1.
Performance
E.
Capacitor Start MotorMotors
1.
Performance
F.
Permanent Split Capacitor Motors
1.
Performance
G.
Shaded Pole Motors
1.
Performance
V.
Motor
Noise
A.
Permanent Magnet Motors
B. Switched Reluctance Motors
C. AC Induction Motors
VI.
A
Basic Discussion of Motor Control Systems
A.
Speed Control
B. Pulse Width Modulation
C. Feedback Devices
VII.
Summary
Instructor:
William H. Yeadon, P.E.
Yeadon Energy Systems Inc. Iron River, Mich.
Mr. Yeadon has over 37 years experience in the electric motor
industry including work in design and development, production,
quality assurance and engineering management. Prior to starting
his consulting firm in 1993, he worked at A.O. Smith, Warner Electric
and Barber-Colman Co., Motor Div.
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