Analysis of Model Predictive Current-Controlled Permanent Magnet Synchronous Motor Drives with Inaccurate DC Bus Voltage Measurement

Wang, Wei; Lu, Zhixiang

doi:10.3390/en13020353

Cited by 8 publications

(2 citation statements)

References 40 publications

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“…Over the years, considerable research has been conducted in control engineering, leading to the development of various control techniques aimed at improving system performance, stability, and robustness. Some notable control techniques adopted in the literature include proportional-integral-derivative (PID) control [2], model predictive control (MPC) [3], adaptive control [4], sliding mode control (SMC) [5], fuzzy logic control (FLC) [6], H-infinity control [7] and fractional-order control. Within this array of control techniques, FOC has emerged as a promising and innovative approach that departs from the traditional integer-order control paradigms.…”

Section: Literature Reviewmentioning

confidence: 99%

Fractional PID Controller for Voltage-Lift Converters

Martinez-Patiño,

Perez-Pinal,

Soriano-Sánchez

et al. 2023

Fractal Fract

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Voltage-lift is a widely used technique in DC–DC converters to step-up output voltage levels. Several traditional and advanced control techniques applicable to power electronic converters (PEC) have been reported and utilized for voltage-lift applications. Similarly, in recent years the implementation of fractional-order controllers (FOC) in PEC applications has gained interest, aiming to improve system performance, and has been validated in basic converter topologies. Following this trend, this work presents an FOC for a voltage-lift converter, requiring only output voltage feedback. A third-order non-minimal phase system is selected for experimentation to verify FOC implementations for more complex PEC configurations. A simple, straightforward design and approximation methodology for the FOC is proposed. Step-by-step development of the FOC, numerical and practical results on a 50 W voltage-lift converter are reported. The results show that PEC transient and steady-state responses can be enhanced using FOC controllers when compared with classical linear controllers. Extended applications of FOC for improved performance in power conversion is also discussed.

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Section: Literature Reviewmentioning

confidence: 99%

Fractional PID Controller for Voltage-Lift Converters

Martinez-Patiño,

Perez-Pinal,

Soriano-Sánchez

et al. 2023

Fractal Fract

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“…However, in engineering practice, it is found that when the combined power supply system operates normally, a sudden change in the servo system load will cause undervoltage, overvoltage and harmonic oscillation to the bus voltage, which will, in turn, cause the system's power supply voltage to be unstable and affect the normal operation of the system [9]- [11]. Some scholars have studied and analyzed the influence of power supply quality on electrical equipment.…”

Section: Introductionmentioning

confidence: 99%

DC Bus Voltage Influence and Stabilization Technology Under Servo Loading for Aerospace Combined Power Supply

et al. 2022

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In order to obtain high specific power, high specific capacity and highly reliable power supply, a combined power supply system is often used. As one of the main loads to the combined power supply system, the servo system can adjust the trajectory and attitude of the aerospace vehicles in real-time. However, a sudden change of the load to the servo system can have adverse effects on the DC bus voltage output, which will reduce the performance of the electrical equipment on the aerospace vehicles. Firstly, this paper theoretically deduces and analyzes the influence of servo loading conditions on the DC bus voltage of aerospace combined power supply. Secondly, in the field of aerospace combined power system, the mechanism of regulating DC bus voltage by combining bidirectional DC-DC converter and ultracapacitor is proposed, and its effectiveness and enforceability are verified by simulation and experiment. Finally, aiming at the strong nonlinear and time-varying characteristics of bidirectional DC-DC converter, a fuzzy predictive control algorithm which can effectively adjust the DC bus voltage is proposed, and a good regulation control effect is achieved.INDEX TERMS Aerospace combined power supply system, bidirectional DC-DC converter, DC bus voltage stabilization technology, fuzzy predictive control, Kalman filtering.

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Sensorless Control of Synchronous Reluctance Motor Based on Active Flux Vector and Extended Kalman Filter

Cebeci¹,

Yaşa

2022

J. Electr. Eng. Technol.

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Analysis of Model Predictive Current-Controlled Permanent Magnet Synchronous Motor Drives with Inaccurate DC Bus Voltage Measurement

Cited by 8 publications

References 40 publications

Fractional PID Controller for Voltage-Lift Converters

Fractional PID Controller for Voltage-Lift Converters

DC Bus Voltage Influence and Stabilization Technology Under Servo Loading for Aerospace Combined Power Supply

Sensorless Control of Synchronous Reluctance Motor Based on Active Flux Vector and Extended Kalman Filter

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