Electrical Machines Mathematical Fundamentals Of Machine Topologies
content
- the basics
- Maxwell’s Equations
- Maxwell’s equations in differential form
- Maxwell’s equations in integral form
- Ampere’s Law (Maxwell’s first equation in integral form)
- Faraday’s law, the law of induction (the second Maxwell’s equation Chapter
- Chapter: The Law of Direction Chapter
- Maxwell’s fourth equation in integral form
- Examples of Ampere’s law (Maxwell’s first equation in
- integral form
- Examples of Faraday’s Law (Maxwell’s Second Equation in Integral Form)
- determination of positive directions
- energy, strength, power
- Complex indicators
- star and delta connections
- Symmetric components
- Mutual induction
- iron loss
- Chapter link
- DC machine
- Construction principle
- Voltage and torque generation, switching
- pole pairs, winding design
- Basic equations of direct current machine
- First fundamental equation: induced voltage
- Second fundamental equation: torque
- Third fundamental equation: Terminal voltage
- permanent magnet DC excitation machine
- DC machines with shunt winding
- series DC motor complex DC machines
- Variable terminal voltage output
- anchor response
- switch pole
- links per chapter
- Electric motors Mathematical basis
- Rotating Field Theory
- Rotating Field Machine Stator
- downloading
- Variable Rotational Magnetomotive Force
- winding ratio
- Current Charge and Flux Density
- basic knowledge
- The current load is evenly distributed in the area
- current load concentrated in the center of each slot
- The current load is distributed to each slot opening
- Location of airspace
- Induced voltage and slippage
- torque and power
- references for chapters
- induction machines
- structure and equivalent circuit diagram
- resistors and inductors
- Phase resistance
- Main Choke
- leakage inductance
- Harmonic Leakage
- slot leak
- Exhaust at the end of the furnace
- functional characteristics
- Oh Land diagram (stator current location diagram)
- torque and power
- Moment as a function of slip
- The mathematical basis of electric machines
- series resistance in the rotor circuit
- open-loop speed control options
- Change Slide (Increase).
- change power frequency
- Change the number of pole pairs
- star delta switch
- induction machine
- links per chapter
- synchronous machines
- equivalent circuit and vector diagram
- species
- high-speed generator with cylindrical rotor
- salient column generator
- Operation on a fixed network
- conversion to the electric network
- torque generation
- areas of activity
- operational limitations
- Quarantine operation
- Load Characteristics
- control function
- salient pole synchronous motor
- links per chapter
- Permanent magnet-excited rotating field machines
- Electric machines Basics of mathematics
- rotor construction
- starter motor
- Surface mount electronically commutated induction motor
- magnet
- basic knowledge of Brushless DC Motor Synchronously Excited Permanent Magnets
- EC
- car
- Calculation of operating characteristics; permanent magnet excitation
- machine with a hidden magnet
- links per chapter
- main features
- links per chapter
- Small machines for single-phase operation
- Basics
- universal engine
- single-phase induction machines
- Single-phase operation of a three-phase induction machine
- Split-phase single-phase asynchronous motor
- shielded pole (polarized) motor
- links per chapter
- Fundamentals of dynamic work
- Fundamental laws of dynamics, equations of motion
- translation request
- Electric machines Basics of mathematics
- Translational/rotational movement
- rotational motion
- stability
- Moment of Inertia Issue
- Hollow Cylinder Inertia
- single pass
- guesses
- Spin/rotate (like a gear train)
- Rotation/Motion (e.g. lifting applications) Chapter
- Strength and Energy
- slow shift
- basic knowledge
- first example Chapter
- The Second Example
Description
Download the free PDF eBook on Mathematical Fundamentals of Electric Machine Topology by Dieter Gerling, available under Books on Electric Machines
