Research on PWM techniques of five-phase three-level inverter

Song, Qingguo; Zhang, Xiaofeng; Yu, Fei; Zhang, Chengsheng

doi:10.1109/speedam.2006.1649835

Cited by 7 publications

(1 citation statement)

References 6 publications

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“…This gives them a significant advantage in safety-critical applications, such as trains, elevators, cranes, and hospital applications. For supplying the multiphase machines, multiphase power electronics converters are required [ 6 ]. The cyclo-converter is a well-known type of semiconductor converter used for these types of applications [ 7 , 8 , 9 ].…”

Section: Introductionmentioning

confidence: 99%

Practical Implementation of the Indirect Control to the Direct 3 × 5 Matrix Converter Using DSP and Low-Cost FPGA

Prazenica

Resutik

Kascak

2023

Sensors

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The popularity of multiphase drives is increasing due to the growing interest in drives with more than three phases. One promising topology is the multiphase matrix converters, which enable the implementation of a single-stage AC/AC power conversion system with bidirectional power flow capability. In this paper, we present the implementation of indirect control for a practical sample of the direct matrix converter. To reduce the overall cost of the control solution for these types of converters, we utilized low-cost FPGA and DSP. The usage of only DSP itself was not possible due to low number of available PWM output needed for 3 × 5 MxC driving. Another reason is commutation, which must be precise and fast to avoid any hazardous states in the converter. Due to these problems, the authors decided to implement an algorithm of a combination of DSP and FPGA, where FPGA is used for time critical operations. The indirect algorithm treats the converter as two separate parts, the rectifier and the inverter, with the DC-LINK being fictitious. The matrix converter is composed of compact modules, and the entire system is verified. The practical verification demonstrates that matrix converters can produce a wide range of output frequencies and achieve input power factor control. Finally, we compare and review the practical model with the simulation model, examining efficiency and other parameters.

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Section: Introductionmentioning

confidence: 99%

Practical Implementation of the Indirect Control to the Direct 3 × 5 Matrix Converter Using DSP and Low-Cost FPGA

Prazenica

Resutik

Kascak

2023

Sensors

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Enhanced pulsewidth modulation strategy of six-switch converter for single phase online uninterruptible power supply

Gao

Niu

et al. 2013

2013 IEEE ECCE Asia Downunder

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This paper investigates the novel modulation method of six-switch back-to-back converter for the application of an online uninterruptible power supply. With an additional current direction judgment logic and related modulation adjustment, the total modulation index can be increased and consequently the overall losses and the voltage stress across semiconductors will decrease significantly, being much different from other modulation methods of the six-switch converter. Matlab simulation and experimental prototype are constructed to verify the performance of the proposed modulation method.

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Fault-Tolerant DTC Technique for Five-phase Three-Level NPC Inverter-fed Induction Motor Drive with an Open-Phase Fault

Chikondra

Muduli

Behera

2019

2019 IEEE Energy Conversion Congress and Exposition (ECCE)

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Research on PWM techniques of five-phase three-level inverter

Cited by 7 publications

References 6 publications

Practical Implementation of the Indirect Control to the Direct 3 × 5 Matrix Converter Using DSP and Low-Cost FPGA

Practical Implementation of the Indirect Control to the Direct 3 × 5 Matrix Converter Using DSP and Low-Cost FPGA

Enhanced pulsewidth modulation strategy of six-switch converter for single phase online uninterruptible power supply

Fault-Tolerant DTC Technique for Five-phase Three-Level NPC Inverter-fed Induction Motor Drive with an Open-Phase Fault

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