Ion Boldea scite author profile

Hybrid and electric vehicle technology has seen rapid development in recent years. The motor and the generator are at the heart of the vehicle drive and energy system and often utilize expensive rare-earth permanent magnet (PM) material. This paper reviews and addresses the research work that has been carried out to reduce the amount of rare-earth material that is used while maintaining the high efficiency and performance that rare-earth PM machines offer. These new machines can use either less rare-earth PM material, weaker ferrite magnets, or no magnets; and they need to meet the high performance that the more usual interior PM synchronous motor with sintered neodymium-iron-boron magnets provides. These machines can take the form of PM-assisted synchronous reluctance machines, induction machines, switched reluctance machines, wound rotor synchronous machines (claw pole or biaxially excited), doublesaliency machines with ac or dc stator current control, or brushless dc multiple-phase reluctance machines.

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Active Flux Concept for Motion-Sensorless Unified AC Drives

Boldea

Paicu

Andreescu

2008

IEEE Trans. Power Electron.

307

169

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Frequency Response Analysis of Current Controllers for Selective Harmonic Compensation in Active Power Filters

Lascu

Asiminoaei

Boldea

et al. 2009

IEEE Trans. Ind. Electron.

287

165

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This paper compares four current control structures for selective harmonic compensation in active power filters. All controllers under scrutiny perform the harmonic compensation by using arrays of resonant controllers, one for the fundamental and one for each harmonic of interest, in order to achieve zero phase shift and unity gain in the closed-loop transfer function for selected harmonics. The complete current controller is the superposition of all individual harmonic controllers and may be implemented in various reference frames. The analysis is focused on the comparison of harmonic and total closed-loop transfer functions for each controller. Analytical similarities and differences between schemes in terms of frequency response characteristics are emphasized. It is concluded that three of them have identical harmonic behavior despite the fact that their implementation is significantly different. It emerges that the fourth one has superior behavior and robustness and can stably work at higher frequencies than the others. Theoretical findings and analysis are supported by comparative experimental results on a 7-kVA laboratory setup. The highest harmonic frequency that can be stably compensated with each control method has been determined, indicating significant differences in the control performance.

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The Induction Machines Design Handbook

Boldea¹,

Nasar

2018

111

156

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A modified direct torque control for induction motor sensorless drive

Lascu

Boldea

Blaabjerg

2000

IEEE Trans. on Ind. Applicat.

485

146

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Linear electric actuators and generators

Boldea

Nasar

1999

IEEE Trans. On energy Conversion

367

150

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Linear electric actuators and generators (LEAGs) are electromagnetic devices which develop directly short-travel progressive (or oscillatory) linear motion. Machine tool sliding tables, pen recorders, and free piston power machines are typical industrial applications for LEAGs. Their recent revival in applications in compressors, pumps, electromagnetic valve actuators, active shock absorbers, vibrators, etc. prompts this review, which presents main LEAGs configurations. their principles of operations. comparative performance evaluation, motion control and existing as well as potential applications.

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Ion Boldea

The Induction Machine Handbook

High Performance Current Controller for Selective Harmonic Compensation in Active Power Filters

Automotive Electric Propulsion Systems With Reduced or No Permanent Magnets: An Overview

Active Flux Concept for Motion-Sensorless Unified AC Drives

Frequency Response Analysis of Current Controllers for Selective Harmonic Compensation in Active Power Filters

The Induction Machines Design Handbook

A modified direct torque control for induction motor sensorless drive

Linear electric actuators and generators

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