Add to ORKGA novel fault-tolerant three-level power converter topology, named advanced three-level active T-Type (A3L-ATT) converter, is introduced to increase the reliability of multilevel power converters used in safety-critical applications. This new fault-tolerant multilevel power converter is derived from the conventional T-Type converter topology. The topology has significantly improved the fault-tolerant capability under any open circuit or certain short-circuit faults in the semiconductor devices. In addition, under healthy condition, the redundant phase leg can be utilized to share overload current with other main legs, which enhances the overload capability of the converter. The conduction losses in the original outer devices can be reduced ...
Multilevel converter technology has been receiving increasing attention during the last years due to...
Given the importance of power converter safety operation in several fields (electric traction, renew...
This paper proposes a fault-tolerant control strategy for a T-type three-level inverter when an open...
A novel fault-tolerant three-level power converter topology, named advanced three-level active T-Typ...
he performance of a novel three-phase four-leg fault-tolerant T-type inverter topology is introduced...
The number of safety-critical loads in electric power areas have been increasing drastically in the ...
A resilient fault-tolerant silicon carbide (SiC) three-level power converter topology is introduced ...
This paper proposes a novel active T-type three-level converter concept with fault-tolerant control....
The performance of a novel three-phase four-leg fault-tolerant T-Type inverter topology is presented...
Fault-tolerant power converters play a critical role in the transportation electrification. However,...
Fault tolerance plays a critical role for power electronic systems in safety-critical applications s...
Three-level T-type inverters have lower total harmonic distortion in output voltage, higher power de...
Reliability of multilevel power converters has received increased attention over the past few years,...
This paper proposes a new diagnosis method of an open-switch fault and fault-tolerant control strate...
Performance of converters in the event of a fault in the semiconductor devices is very important in ...
Multilevel converter technology has been receiving increasing attention during the last years due to...
Given the importance of power converter safety operation in several fields (electric traction, renew...
This paper proposes a fault-tolerant control strategy for a T-type three-level inverter when an open...
A novel fault-tolerant three-level power converter topology, named advanced three-level active T-Typ...
he performance of a novel three-phase four-leg fault-tolerant T-type inverter topology is introduced...
The number of safety-critical loads in electric power areas have been increasing drastically in the ...
A resilient fault-tolerant silicon carbide (SiC) three-level power converter topology is introduced ...
This paper proposes a novel active T-type three-level converter concept with fault-tolerant control....
The performance of a novel three-phase four-leg fault-tolerant T-Type inverter topology is presented...
Fault-tolerant power converters play a critical role in the transportation electrification. However,...
Fault tolerance plays a critical role for power electronic systems in safety-critical applications s...
Three-level T-type inverters have lower total harmonic distortion in output voltage, higher power de...
Reliability of multilevel power converters has received increased attention over the past few years,...
This paper proposes a new diagnosis method of an open-switch fault and fault-tolerant control strate...
Performance of converters in the event of a fault in the semiconductor devices is very important in ...
Multilevel converter technology has been receiving increasing attention during the last years due to...
Given the importance of power converter safety operation in several fields (electric traction, renew...
This paper proposes a fault-tolerant control strategy for a T-type three-level inverter when an open...