Journal ArticleDOI
Optimal Torque Control of Synchronous Machines Based on Finite-Element Analysis
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TLDR
Simulation and practical results show that the torque is controlled effectively in the entire speed range using this generic method, which relies on machine-specific data from FE analysis and therefore includes nonlinear effects such as saturation and cross coupling.Abstract:
Synchronous machines that are optimally designed using finite-element (FE) software, and control of such machines using powerful digital signal processors (DSPs), are commonplace today. With field-orientated control, the maximum-torque-per-ampere control strategy for unsaturated voltage conditions (below the base speed) is well known; the field-weakening strategy, however, could be rather complicated. In this paper, a straightforward torque control strategy for the entire speed range is proposed and demonstrated. Practical implementation of the method is very simple since the calculations are done offline in an automated process and are therefore removed from the load of the DSP. The process relies on machine-specific data from FE analysis and therefore includes nonlinear effects such as saturation and cross coupling. Simulation and practical results for a permanent-magnet and a reluctance synchronous machine show that the torque is controlled effectively in the entire speed range using this generic method.read more
Citations
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Journal ArticleDOI
Permanent-Magnet Optimization in Permanent-Magnet-Assisted Synchronous Reluctance Motor for a Wide Constant-Power Speed Range
TL;DR: The influence of PM volume (flux level) on the motor performance, although lamination geometry and stack length are kept fixed, is analyzed, based on a finite-element (FE) analysis.
Journal ArticleDOI
Modeling and Parametric Design of Permanent-Magnet AC Machines Using Computationally Efficient Finite-Element Analysis
TL;DR: The CE-FEA method is presented and applied to a parametric design study for an interior-permanent-magnet machine and significant reduction of simulation times is achieved, permitting a comprehensive search of large design spaces for optimization purposes.
Journal ArticleDOI
Maximum-Torque-Per-Ampere Operation of Anisotropic Synchronous Permanent-Magnet Motors Based on Extremum Seeking Control
TL;DR: A theoretical analysis of a maximum-torque-per-ampere control strategy based on the extremum seeking control working principle is presented, which provides useful insights for the definition of a systematic and quantitative design procedure.
Journal ArticleDOI
Optimal Design of Permanent Magnet Motors to Improve Field-Weakening Performances in Variable Speed Drives
TL;DR: The principle of pulse width modulation is used for the harmonic reduction in the design process of two motors allowing a simple vector control even at field-weakening region for high speeds.
Journal ArticleDOI
Fast Computation of Electromagnetic Vibrations in Electrical Machines via Field Reconstruction Method and Knowledge of Mechanical Impulse Response
TL;DR: The method proposed in this paper uses finite-element analysis in order to extract the impulse responses that are used in calculating the vibration in a three-phase permanent-magnet synchronous machine.
References
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Journal ArticleDOI
Model Predictive Direct Torque Control—Part I: Concept, Algorithm, and Analysis
TL;DR: A novel model predictive control scheme is proposed that keeps the motor torque, the stator flux, and (if present) the inverter's neutral point potential within given hysteresis bounds while minimizing the switching frequency of the inverters.
Journal ArticleDOI
Wide-speed operation of interior permanent magnet synchronous motors with high-performance current regulator
TL;DR: In this paper, the current vector control algorithm of an interior permanent magnet synchronous (IPM) motor for constant power operation over the base speed is proposed, which can be applied to applications requiring wide-speed operation.
Journal ArticleDOI
A novel direct torque controlled interior permanent magnet synchronous machine drive with low ripple in flux and torque and fixed switching frequency
TL;DR: A modified direct torque control (DTC) scheme for interior permanent magnet synchronous machine (IPMSM) is investigated in this article, which features in very low flux and torque ripple and almost fixed switching frequency.
Proceedings ArticleDOI
A direct torque controlled interior permanent magnet synchronous motor drive incorporating field weakening
TL;DR: A new control scheme is presented for the wide speed range operation of interior permanent magnet synchronous motor (PMSM) drives, where both torque and stator flux linkage are directly controlled.
Journal ArticleDOI
Model Predictive Direct Torque Control—Part II: Implementation and Experimental Evaluation
TL;DR: The model predictive direct torque control algorithm is embedded in the control software environment of ABB's ACS6000 medium-voltage drive, and experimental results are provided which verify the advantageous features of MPDTC in terms of average inverter switching frequency reduction.
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