Design Calculation, Working Principle & Design Example
Industrial Course for Professional Engineer
Tips Engineer Zone
Why Choose this Online Induction Motor Design calculation Course?
Affordable, well-structured and high-quality e-learning study materials
Engaging tutorial videos, materials from the industry-leading experts
Opportunity to study in a user-friendly, advanced online learning platform
Access the course content on mobile, tablet, or desktop from anywhere, anytime
Excellent career advancement opportunities
24/7 student support via email.
Entry Requirement
This course is available to all learners of all academic backgrounds.
Learners should be aged 18 or over to undertake the qualification.
Certification:
After completion the course successfully
Career Path
This Online Course is a useful qualification to possess, especially to people with careers in:Engineer - Design & Developments
Power System Design Engineer
High voltage - Production Engineer
Top companies Provide Employment to Engineer.
ABB, Siemens, GE, Bharat Bijlee, TATA motor, GE etc
Note - you will get in This Online course Pdf EBook + Assignment + Videos Lecturer + Excel Sheets+E - Certificate
13. Induction Motor Course Design Calculation, Working Principle & Design Example Online advance Course
Content
Chapters Pages
Module – 1 what is Induction Motor ……………………….……4
a. Synchronous Speed ………………………………………….…5
b. Rotating Magnetic Field ……………………………………....6
Module -2 Working Principle of Induction Motor …………….7
a. Frequency of Rotor Current or EMF……………………………9
b. Construction of Induction Motor…………………………….10
Module -3 Torque Slip Characteristic of an Induction Motor…..16
A. Torque Speed Characteristic of an Induction Motor…………….19
Module -4 Induction Motor Design Parameter – Formula, Calculation & Example……21
A. Induction Motor Design Output Equation……………………….…................….21
B. SPECIFIC MAGNETIC LOADING (BAV) …………………………………....22
C. SPECIFIC ELECTRIC LOADING (AC) ………………………………….….…..22
D. FACTORS AFFECTING SIZE OF MACHINE ……………………………….…23
G. EFFICIENCY AND POWER FACTOR……………………………………....…26
H. EFFICIENCY AND POWER FACTOR…………………………………….....…26
I. PERIPHERAL VELOCITY (V)………………………………………...................27
J. STATOR WINDING DESIGN……………………………………………........…27
K. Stator slot design……………………………………………………………...…. 28
M. Size of stator slots……………………………………………………………….. 29
N. Length of mean turn of stator winding...………………………………………... 30
O. Stator teeth design …………………………………………………………….....30
P. Depth of stator core…………………………………………………………..…… 30
c. Comparison of Phase wound and Squirrel cage rotor IM………………….........15
A. Induction Motor Design Output Equation…………………………............….21
E. CHOICE OF SP. MAGNETIC LOADING (BAV) ……………………….........23
F. CHOICE OF SP. ELECTRIC LOADING (AC) ………………………….....….24
L. No of Stator Slot ……………………………………………………………..…29
Module -5 Design A Induction Motor Example ……………………………….....31
About ………………………………………………………………………………......….37