Johann W. Kolar scite author profile

The demand for lightweight converters with high control performance and low acoustic noise led to an increase in switching frequencies of hard switched two-level low-voltage 3-phase converters over the last years. For high switching frequencies, converter efficiency suffers and can be kept high only by employing cost intensive switch technology such as SiC diodes or CoolMOS switches; therefore, conventional IGBT technology still prevails. In this paper, the alternative of using three-level converters for lowvoltage applications is addressed. The performance and the competitiveness of the three-level T-type converter (3LT 2 C) is analyzed in detail and underlined with a hardware prototype. The 3LT 2 C basically combines the positive aspects of the two-level converter such as low conduction losses, small part count and a simple operation principle with the advantages of the three-level converter such as low switching losses and superior output voltage quality. It is, therefore, considered to be a real alternative to two-level converters for certain low-voltage applications.

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Review of Three-Phase PWM AC–AC Converter Topologies

Kolar

Friedli

Rodríguez

et al. 2011

IEEE Trans. Ind. Electron.

500

244

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The Essence of Three-Phase PFC Rectifier Systems—Part I

Friedli

Hartmann

Kolar

2013

IEEE Trans. Power Electron.

649

228

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Closed Form Solution for Minimum Conduction Loss Modulation of DAB Converters

Krismer

Kolar

2012

IEEE Trans. Power Electron.

512

218

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Johann W. Kolar

An Isolated Three-Port Bidirectional DC-DC Converter With Decoupled Power Flow Management

Design and Implementation of a Highly Efficient Three-Level T-Type Converter for Low-Voltage Applications

Review of Three-Phase PWM AC–AC Converter Topologies

The Essence of Three-Phase PFC Rectifier Systems—Part I

Closed Form Solution for Minimum Conduction Loss Modulation of DAB Converters

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