M
Marco Liserre
Researcher at University of Kiel
Publications - 696
Citations - 40149
Marco Liserre is an academic researcher from University of Kiel. The author has contributed to research in topics: Power electronics & Transformer. The author has an hindex of 76, co-authored 604 publications receiving 33175 citations. Previous affiliations of Marco Liserre include Aalborg University & University of Bari.
Papers
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A passivity-based multilevel active rectifier with adaptive compensation for traction applications
TL;DR: In this article, the use of a passivity-based controller for a single-phase multilevel H-bridge rectifier suitable for traction applications is investigated, which achieves stability, unity power factor, good balancing between the two DC links, and satisfactory behavior even in the presence of load changes.
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A Comparative Analysis of Real-Time Algorithms for Power Signal Decomposition in Multiple Synchronous Reference Frames
TL;DR: In this paper, a rigorous analysis of the performance of these implementations has been carried out and complete tests have been performed to evaluate the computational burden, the frequency domain response, and the tolerance to low frequency amplitude variations.
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Modified Discontinuous PWM for Size Reduction of the Circulating Current Filter in Parallel Interleaved Converters
Ghanshyamsinh Gohil,Ramkrishan Maheshwari,Lorand Bede,Tamas Kerekes,Remus Teodorescu,Marco Liserre,Frede Blaabjerg +6 more
TL;DR: In this article, a modified discontinuous pulsewidth modulation (DPWM) scheme was proposed to reduce the maximum value of the flux linkage and the core losses in the circulating current filter.
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IGBT Junction Temperature Measurement via Peak Gate Current
TL;DR: In this article, an electrical method for junction temperature measurement of MOS-gated power semiconductor devices is presented, which involves detecting the peak voltage over the external gate resistor of an insulated-gate bipolar transistor or mosfet during turn-on.
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A novel three-phase single-stage distributed power inverter
TL;DR: In this article, a three-phase, DC/AC converter suitable for distributed power applications is proposed, which consists of three DC/DC boost converters with a common point and operating as a 3-phase inverter with intrinsic step-up capability.