Electrical Machines And Drives A Space Vector Theory Approach Monographs — In Electrical And Electronic Engineering Exclusive
The ultimate realization of Space Vector Theory is found within modern power electronic drive controls. By treating the machine parameters as manipulable vectors, engineers have unlocked unprecedented dynamic performance.
This is the theoretical heart of the book, developing the space-vector framework from first principles. The chapter covers:
This monograph remains an indispensable asset for power electronics designers, control systems engineers, and postgraduate researchers. It successfully distills complex electromagnetic fields into highly actionable, digitally programmable control strategies. The ultimate realization of Space Vector Theory is
stands as a definitive cornerstone in modern power electronics literature. Published within the prestigious Monographs in Electrical and Electronic Engineering series, this advanced text bridges the gap between theoretical electromagnetic field physics and practical digital control systems.
[idiq]=[cosθsinθ−sinθcosθ][iαiβ]the 2 by 1 column matrix; i sub d, i sub q end-matrix; equals the 2 by 2 matrix; Row 1: Column 1: cosine theta, Column 2: sine theta; Row 2: Column 1: negative sine theta, Column 2: cosine theta end-matrix; the 2 by 1 column matrix; i sub alpha, i sub beta end-matrix; The chapter covers: This monograph remains an indispensable
An inverter with six switches has 8 possible switching states (6 active vectors, 2 zero vectors). The book shows how the machine's stator voltage vector jumps between these discrete points. Control theory then becomes the art of these vectors over a switching period to synthesize the desired rotating voltage vector. This is the foundation of Space Vector Pulse Width Modulation (SVPWM) , which offers 15% higher DC bus utilization compared to Sinusoidal PWM.
This monograph-style treatment uses space vector theory as the unifying mathematical language to analyze and design modern electrical machines and drives. It bridges electromagnetic modeling, converter topology, and advanced control to enable both practical engineering solutions and research innovation. It bridges electromagnetic modeling
To eliminate the time-varying sinusoidal nature of these vectors during steady-state operation, the Park Transformation rotates the reference frame at an arbitrary angular velocity