Field-Oriented Control and Direct Torque Control for Paralleled VSIs Fed PMSM Drives With Variable Switching Frequencies

@article{Wang2016FieldOrientedCA,
  title={Field-Oriented Control and Direct Torque Control for Paralleled VSIs Fed PMSM Drives With Variable Switching Frequencies},
  author={Zheng Wang and Jian Jhen Chen and M. Cheng and K. Chau},
  journal={IEEE Transactions on Power Electronics},
  year={2016},
  volume={31},
  pages={2417-2428}
}
In this paper, three control schemes with variable switching frequencies are proposed and analyzed for the paralleled voltage source inverters (VSIs) fed permanent magnet synchronous motor (PMSM) drive. The proposed schemes could be applied in the low-speed operation region of high-power drive system, where the frequency modulation index is high. First, the field-oriented control (FOC) with phase-shifted chaotic space vector modulation (SVM) under synchronous frame and the FOC with phase… Expand
Performance Analysis of PMSM Drive with SpaceVector PWM and Sinusoidal PWM fed VSI
Field-oriented control (FOC) of permanent magnet synchronous motor (PMSM) is extensively preferred in high-performance drive systems due to its distinct features like better power factor, highExpand
Performance Analysis of Vector controlled PMSM Drive modulated with Sinusoidal PWM and Space Vector PWM
Permanent Magnet Synchronous Motors (PMSM) are considered as energy efficient motors suitable for modern applications like electric vehicles. Field oriented control or vector control is a superiorExpand
Direct Torque Control of T-NPC Inverters-Fed Double-Stator-Winding PMSM Drives With SVM
This paper studies and proposes the vector space decomposition-based direct torque control (DTC) scheme for the T-type neutral-point-clamping (T-NPC) three-level inverters-fed double-stator-windingExpand
Predictive current control method for dual three‐phase PMSM drives with reduced switching frequency and low‐computation burden
TLDR
This study presents a novel two-step model predictive control method for currents in two-level voltage-source inverters fed dual three-phase permanent magnet synchronous motor drives, aiming at reducing the switching frequency and computation burden of the system. Expand
A Hybrid Direct Torque Control Scheme for Dual Three-Phase PMSM Drives With Improved Operation Performance
TLDR
A novel hybrid DTC scheme is proposed for dual three-phase permanent-magnet synchronous motor (PMSM) drives in this paper, which can achieve fast dynamic response of classical ST-DTC scheme and good steady-state performance of classical SVM-D TC scheme simultaneously. Expand
A Novel Deadbeat Predictive Current Control Scheme for OEW-PMSM Drives
TLDR
This paper proposes a full-order adaptive zero-sequence observer to estimate future ZSC and ZSV, which are able to compensate one-step control delay, and proposes a novel deadbeat predictive current control (DPCC) scheme with alternate sub-hexagonal center pulsewidth modulation strategy to suppress Z SC and torque ripple simultaneously. Expand
Direct Torque Control Scheme for a Four-Level-Inverter Fed Open-End-Winding Induction Motor
TLDR
In this paper, a space vector modulated DTC algorithm for a four-level DTC drive is proposed and is implemented by feeding both ends of an open-end-winding induction motor with two-level inverters. Expand
Direct Torque Control Scheme for a Four-Level-Inverter Fed Open-End-Winding Induction Motor
The main drawbacks of conventional direct torque control (DTC) drives are erratic switching frequency and high torque ripples. The multilevel inverter fed DTC drives are proved to be an alternativeExpand
Discrete Time Control Method for SVM Direct Active Power and Stator Flux Control of PMSG-Based Wind Turbine
TLDR
Simulation results performed in MATLAB/Simulink software show that higher dynamic response with lower active power and the stator flux ripple are achieved with the proposed method. Expand
Remedial Strategies of T-NPC Three-Level Asymmetric Six-Phase PMSM Drives Based on SVM-DTC
TLDR
Novel remedial direct torque control schemes are proposed for open-circuit faults in T-type neutral-point-clamping (T-NPC) three-level asymmetric six-phase permanent-magnet synchronous motor (PMSM) drives and redesigned for the faults in half-bridge switches and NPC switches. Expand
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 32 REFERENCES
Hybrid PWM for High-Power Current-Source-Inverter-Fed Drives With Low Switching Frequency
In this paper, a hybrid pulsewidth modulation (PWM) scheme is proposed to suppress the LC resonance for the high-power current-source inverter (CSI) fed drives with low switching frequency. In CSIExpand
Direct self-control and synchronous pulse techniques for high-power traction inverters in comparison
  • A. Steimel
  • Computer Science
  • IEEE Transactions on Industrial Electronics
  • 2004
TLDR
This paper presents and compares exemplarily the stationary behavior of these two control methods; criteria are inverter peak current, motor harmonic losses, torque ripple, and DC-link harmonics. Expand
Active front-end converter for medium-voltage current-source drives using sequential-sampling synchronous space-vector modulation
TLDR
Computer analysis and experimental work with a TMS320C32 digital-signal-processor-based 5-kVA laboratory prototype validate the excellent results attained by the proposed converter, ensuring a dynamic response totally independent from the operating point, even under regeneration. Expand
Single-phase three-level rectifier and random PWM inverter drives
TLDR
In order to improve the power quality in the single-phase rectifier, a ROM-based (read-only memory) control scheme, based on hysteresis current comparator, region detector, and capacitor compensator, is used to achieve a sinusoidal line current with low current distortion. Expand
Interleaved PWM with discontinuous space-vector modulation
TLDR
This paper describes the effect of interleaved discontinuous space-vector modulation (SVM) in paralleled three- phase systems using three-phase pulsewidth modulation (PWM) rectifiers as an example and uses a SVM without using zero vectors to eliminate the cause of pure zero-sequence current for parallel operation. Expand
Direct torque control of PWM inverter-fed AC motors - a survey
TLDR
A review of recently used direct torque and flux control techniques for voltage inverter-fed induction and permanent-magnet synchronous motors and trends in the DTC-SVM techniques based on neuro-fuzzy logic controllers are presented. Expand
Control of circulating current in two parallel three-phase boost rectifiers
One unique feature in parallel three-phase converters is a potential zero-sequence circulating current. To avoid the circulating current, most present technology uses an isolation approach, such asExpand
Total Flux Minimization Control for Integrated Inter-Phase Inductors in Paralleled, Interleaved Three-Phase Two-Level Voltage-Source Converters With Discontinuous Space-Vector Modulation
This paper presents a control method to minimize the total flux in the integrated interphase inductors of paralleled, interleaved three-phase two-level voltage-source converters (VSCs) usingExpand
Parallel Operation of Full Power Converters in Permanent-Magnet Direct-Drive Wind Power Generation System
  • Rui Li, Dianguo Xu
  • Computer Science, Engineering
  • IEEE Transactions on Industrial Electronics
  • 2013
TLDR
The simulation and experiment results of two parallel full power converters show the feasibility of the proposed theory and control scheme and the fundamental mechanism of ZSCC generation is given. Expand
Continuous and discrete variable-structure controls for parallel three-phase boost rectifier
  • S. Mazumder
  • Mathematics, Computer Science
  • IEEE Transactions on Industrial Electronics
  • 2005
TLDR
It is found that independent control of both of the modules on the DQ axes is not necessary and possible, and control schemes are developed that stabilize the dq axes and limit the zero-axis disturbance by preventing the flow of the pure zero-sequence current. Expand
...
1
2
3
4
...