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Design and Control of Electrical Motor Drives
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Dear Colleagues, I am very happy to have this Special Issue of the journal Energies on the topic of Design and Control of Electrical Motor Drives published. Electrical motor drives are widely used in the industry, automation, transportation, and home appliances. Indeed, rolling mills, machine tools, high-speed trains, subway systems, elevators, electric vehicles, air conditioners, all depend on electrical motor drives.However, the production of effective and practical motors and drives requires flexibility in the regulation of current, torque, flux, acceleration, position, and speed. Without proper modeling, drive, and control, these motor drive systems cannot function effectively.To address these issues, we need to focus on the design, modeling, drive, and control of different types of motors, such as induction motors, permanent magnet synchronous motors, brushless DC motors, DC motors, synchronous reluctance motors, switched reluctance motors, flux-switching motors, linear motors, and step motors.Therefore, relevant research topics in this field of study include modeling electrical motor drives, both in transient and in steady-state, and designing control methods based on novel control strategies (e.g., PI controllers, fuzzy logic controllers, neural network controllers, predictive controllers, adaptive controllers, nonlinear controllers, etc.), with particular attention to transient responses, load disturbances, fault tolerance, and multi-motor drive techniques. This Special Issue include original contributions regarding recent developments and ideas in motor design, motor drive, and motor control. The topics include motor design, field-oriented control, torque control, reliability improvement, advanced controllers for motor drive systems, DSP-based sensorless motor drive systems, high-performance motor drive systems, high-efficiency motor drive systems, and practical applications of motor drive systems. I want to sincerely thank authors, reviewers, and staff members for their time and efforts. Prof. Dr. Tian-Hua Liu Guest Editor
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Keywords
- AC motor drives
- asymmetric five-segment switching
- backstepping control
- current control
- current deviation
- current harmonic reduction
- DC motor control
- delta connections
- digital signal processor
- digital-signal processor
- extension theory
- fault-tolerant control
- feedback current control
- feedforward torque control
- field-excited flux-switching motor
- FPGA control
- grey wolf optimization
- high-frequency injection
- high-speed motor
- induction motor
- inverse optimal control
- IPMSM
- line current spectrum feature
- low inductance permanent magnet motor
- Lyapunov stability theorem
- modal current control
- motor drive
- n/a
- nonlinear control
- Optimal Control
- permanent magnet motor
- permanent-magnet synchronous motor
- predictive controller
- predictive speed controller
- rotor position observer
- sensorless drive
- Sieved-Pollaczek polynomials neural network
- singular system
- smart fault diagnosis
- star-delta starting
- state derivative feedback
- state derivative space (SDS) system
- SVPWM
- SVPWM ASIC
- synchronous reluctance motor
- Technology, engineering, agriculture
- Technology: general issues
- three-level neutral-point clamped inverters
- torque ripple reduction
- torque ripples and loss minimization
- variable-frequency drive
- wide-adjustable speed
Links
DOI: 10.3390/books978-3-0365-2571-6Editions