Electrical Machines Mathematical Fundamentals of Machine Topologies
Contents
- Fundamentals
- Maxwell’s Equations
- The Maxwell’s Equations In Differential Form
- The Maxwell’s Equations In Integral Form
- Ampere’s Law (First Maxwell’s Equation In Integral Form)
- Faraday’s Law, Law Of Induction (Second Maxwell’s Equation In
- Integral Form
- Law Of Direction
- The Third Maxwell’s Equation In Integral Form
- The Fourth Maxwell’s Equation In Integral Form
- Examples For The Ampere’s Law (First Maxwell’s Equation In
- Integral Form
Examples For The Faraday’s Law (Second Maxwell’s Equation In Integral Form)
- Definition Of Positive Directions
- Energy, Force , Power
- Complex Phasors
- Star And Delta Connection
- Symmetric Components
- Mutual Inductivity
- Iron Losses
- References For Chapter
- Dc machines
- Principle Construction
- Voltage And Torque Generation, Commutation
- Number Of Pole Pairs, Winding Design
- Main Equations Of The Dc machine
- First Main Equation: Induced Voltage
- Second Main Equation: Torque
- Third Main Equation: Terminal Voltage
- Permanent Magnet Excited Dc machines
- Shunt wound Dc machines
- Series wound Dc machines
- Compound Dc machines
- Generation Of A Variable Terminal Voltage
- Armature Reaction
- Commutation Pole
- References For Chapter
- Electrical Machines Mathematical Fundamentals