Thanks to the inherent redundancy to generate the different output voltage levels, the multilevel active-clamped (MAC) topology presents an important fault-tolerance ability which makes it interesting for several applications. This paper presents an analysis of the fault-tolerance capacity of the MAC converter. Both open-circuit and short-circuit faults are considered, and the analysis is carried out under single-device and two simultaneous device faults. Switching strategies and different hardware modifications to overcome the limitations caused by faults are proposed. Experimental tests with a four-level MAC prototype are presented to validate the analysis
Multilevel converters have been widely used in traction drive systems due to their attractive output...
Modularity and high reliability from redundancy are the two attractive advantages of modular multile...
A resilient fault-tolerant silicon carbide (SiC) three-level power converter topology is introduced ...
Thanks to the inherent redundancy to generate the different output voltage levels, the multilevel a...
Thanks to the inherent redundancy to generate the different output voltage levels, the multilevel ac...
Thanks to the inherent redundancy to generate the different output voltage levels, the multilevel ac...
This paper studies several design issues of the multilevel active-clamped (MAC) topology. Several gu...
Multilevel converter technology has been receiving increasing attention during the last years due to...
This paper presents an efficiency analysis of a recently-published topology, the multilevel-active-c...
In a multi-level inverter (MLI), the switching component number effect on volume and reliability is ...
Abstract- This paper presents a novel multilevel active-clamped converter topology, which is an ext...
A novel fault-tolerant three-level power converter topology, named advanced three-level active T-Typ...
Multilevel inverters (MLIs) are new demanding topologies that have low total harmonic distortion (TH...
Multilevel inverters (MLIs) are used in a variety of industrial applications in high- and medium-vol...
Performance of converters in the event of a fault in the semiconductor devices is very important in ...
Multilevel converters have been widely used in traction drive systems due to their attractive output...
Modularity and high reliability from redundancy are the two attractive advantages of modular multile...
A resilient fault-tolerant silicon carbide (SiC) three-level power converter topology is introduced ...
Thanks to the inherent redundancy to generate the different output voltage levels, the multilevel a...
Thanks to the inherent redundancy to generate the different output voltage levels, the multilevel ac...
Thanks to the inherent redundancy to generate the different output voltage levels, the multilevel ac...
This paper studies several design issues of the multilevel active-clamped (MAC) topology. Several gu...
Multilevel converter technology has been receiving increasing attention during the last years due to...
This paper presents an efficiency analysis of a recently-published topology, the multilevel-active-c...
In a multi-level inverter (MLI), the switching component number effect on volume and reliability is ...
Abstract- This paper presents a novel multilevel active-clamped converter topology, which is an ext...
A novel fault-tolerant three-level power converter topology, named advanced three-level active T-Typ...
Multilevel inverters (MLIs) are new demanding topologies that have low total harmonic distortion (TH...
Multilevel inverters (MLIs) are used in a variety of industrial applications in high- and medium-vol...
Performance of converters in the event of a fault in the semiconductor devices is very important in ...
Multilevel converters have been widely used in traction drive systems due to their attractive output...
Modularity and high reliability from redundancy are the two attractive advantages of modular multile...
A resilient fault-tolerant silicon carbide (SiC) three-level power converter topology is introduced ...