Dynamics of Saturated Electric Machines
Springer-Verlag New York Inc.
978-1-4613-8935-4 (ISBN)
1 Introduction.- 2 Magnetic Circuits.- 2.1 Analogies Between Electric and Magnetic Circuits.- 2.2 Permeances in Magnetic Circuits.- 2.3 Sources in Magnetic Circuits.- 2.4 Force and Torque.- 2.5 Magnetic Equivalent Circuits of Electromagnetic Devices.- 2.6 Magnetic Equivalent Circuit Solution Procedure.- 3 Winding Transform Matrices.- 3.1 Winding Topology Matrix.- 3.2 Number of Turns per Coil Matrix.- 3.3 Coil Currents Matrix.- 3.4 Slot Ampere-Turns Matrix.- 3.5 Tooth Magnetomotive Force Matrix.- 3.6 Magnetomotive Force Transform Matrix w?.- 3.7 Coil Flux Matrix.- 3.8 Number of Turns per Elementary Phase Matrix.- 3.9 Elementary Phase Flux Matrix.- 3.10 Flux Transform Matrix w?.- 3.11 Summary of Winding Transform Matrices.- 3.12 Squirrel Cage Connection Matrices.- 4 Extended System of Machine Algebraic Equations.- 4.1 Squirrel Cage Induction Machine — A Simple Model.- 4.2 Squirrel Cage Induction Machine — A Complex Model.- 4.3 Wound Rotor Synchronous Machine.- 4.4 Permanent Magnet Synchronous Machine.- 4.5 Stepper and Switched Reluctance Motor.- 4.6 Shaded Pole Induction Motor.- 5 Machine System of Differential Equations and Complete System of Algebraic Equations.- 5.1 Stator Differential Equations of an A.C. Machine.- 5.2 Rotor Differential Equations of an A.C. Machine.- 6 Unique System of Machine Equations.- 6.1 Influence of Series-Added Impedance.- 6.2 k-Winding, n-Limb Transformer.- 6.3 Induction Machine — a Simple Model.- 6.4 Squirrel Cage Induction Machine — a Complex Model.- 6.5 Wound Rotor Synchronous Machine.- 6.6 Permanent Magnet Synchronous Machine.- 6.7 Step and Switched Reluctance Motor.- 6.8 Shaded Pole Induction Machine.- 6.9 Initial Conditions Definition.- Appendix I - Matrix Operators.- Appendix II - Vector and Matrix Differentiation.-Appendix III - Applications.- III.1. Squirrel Cage Induction Machine.- III.1.1 Starting Characteristics of the Basic Machine.- III.1.2 Basic Machine with Additional Inertia on the Shaft.- III.1.3 Basic Machine with a Decreased Number of Rotor Slots and an Additional Inertia on the Shaft.- III.1.4 Basic Machine with Linear B-H Curve and Additional Inertia.- III.1.5 Wye-Connected Basic Machine with Additional Inertia.- III.1.6 Reversing of the Basic Machine with Additional Inertia.- III.1.7 Basic Machine with Blocked Rotor.- III. 1.8 Basic Machine with Full Pitch Stator Winding and Additional Inertia.- III.1.9 Wye-Connected Basic Machine with 4/6 Winding Pitch.- III.1.10 Basic Machine with Unskewed Rotor and Additional Inertia.- III.1.11 Unsymmetric Connection of the Basic Machine.- III.1.12 Basic Machine in Steinmetz Connection.- III.1.13 Basic Machine with Additional Inertia Fed from a Six-Step Voltage Source Inverter.- III.1.14 Wye-Connected Basic Machine with Additional Inertia Fed from a Six-Step Voltage Source Inverter.- III.1.15 Basic Machine with Additional Inertia Fed from a Current Source.- III.1.16 Capacitor Braking of the Basic Machine.- III.1.17 D.C. Current Braking of the Basic Machine.- III.2. Permanent Magnet Synchronous Machine.- III.2.1 Starting of the Basic Machine without Permanent Magnets.- III.2.2 Starting of the Basic Machine.- III.2.3 Loading of the Basic Machine.- III.2.4 Heavy Loading — Loss of Synchronism.
Zusatzinfo | XIII, 445 p. |
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Verlagsort | New York, NY |
Sprache | englisch |
Maße | 155 x 235 mm |
Themenwelt | Informatik ► Theorie / Studium ► Künstliche Intelligenz / Robotik |
Technik ► Elektrotechnik / Energietechnik | |
ISBN-10 | 1-4613-8935-6 / 1461389356 |
ISBN-13 | 978-1-4613-8935-4 / 9781461389354 |
Zustand | Neuware |
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