Peter Vas’s " Electrical Machines and Drives: A Space-Vector Theory Approach
- Scalar control (V/f) is shown as a low-performance special case.
- Field-Oriented Control (FOC) : Using space vectors, FOC is derived naturally by aligning the current space vector with the rotor flux. The monograph demystifies the decoupling of torque and flux—a breakthrough that made AC drives perform like separately excited DC machines.
- Direct Torque Control (DTC) : A faster, hysteresis-based alternative also benefits from space vector interpretation.
. Peter Vas’s monograph is highly regarded because it bridges the gap between pure electromagnetic theory and practical implementation:
Module IV: DC Machines
While the focus is AC, the text often uses the DC machine as a benchmark.
The book's primary contribution is the application of space-vector theory to describe the transient and steady-state behavior of electrical machines. Key technical features include:
Educational Utility: It is aimed at senior undergraduate and graduate students, teachers, and industrial researchers requiring deep insights into machine simulation and operation.
is a foundational monograph in the Monographs in Electrical and Electronic Engineering series, authored by Peter Vas. It provides a comprehensive, unified mathematical framework for analyzing both the steady-state and transient performance of modern electrical machines and variable-speed drives. Core Concept: Space Vector Theory
Practical Applications: Where the Theory Shows Up in Real Hardware
Let us trace a concrete example: controlling a 50 kW interior permanent magnet synchronous motor (IPMSM) for an electric forklift.
Electrical Machines And Drives A Space Vector Theory Approach Monographs In Electrical And Electronic Engineering [2026]
Peter Vas’s " Electrical Machines and Drives: A Space-Vector Theory Approach
- Scalar control (V/f) is shown as a low-performance special case.
- Field-Oriented Control (FOC) : Using space vectors, FOC is derived naturally by aligning the current space vector with the rotor flux. The monograph demystifies the decoupling of torque and flux—a breakthrough that made AC drives perform like separately excited DC machines.
- Direct Torque Control (DTC) : A faster, hysteresis-based alternative also benefits from space vector interpretation.
. Peter Vas’s monograph is highly regarded because it bridges the gap between pure electromagnetic theory and practical implementation: Peter Vas’s " Electrical Machines and Drives: A
Module IV: DC Machines
While the focus is AC, the text often uses the DC machine as a benchmark. Scalar control (V/f) is shown as a low-performance
The book's primary contribution is the application of space-vector theory to describe the transient and steady-state behavior of electrical machines. Key technical features include: Peter Vas’s " Electrical Machines and Drives: A
Educational Utility: It is aimed at senior undergraduate and graduate students, teachers, and industrial researchers requiring deep insights into machine simulation and operation.
is a foundational monograph in the Monographs in Electrical and Electronic Engineering series, authored by Peter Vas. It provides a comprehensive, unified mathematical framework for analyzing both the steady-state and transient performance of modern electrical machines and variable-speed drives. Core Concept: Space Vector Theory
Practical Applications: Where the Theory Shows Up in Real Hardware
Let us trace a concrete example: controlling a 50 kW interior permanent magnet synchronous motor (IPMSM) for an electric forklift.