The reliability of bidirectional dc-dc converters is a critical issue in many applications where the power flows from or to energy storage systems regularly, such as automotive applications and standalone power systems. This paper addresses dual active bridge converters faulty operation and proposes a fault detection method. © 2012 IEEE
The modular multilevel converters are vulnerable to DC side faults, which are severe that can destru...
The demands of power electronics with high power capability have increased in the last decades. Thes...
The use of DC for primary power distribution has the potential to bring significant design, cost and...
Failures in power semi-conductors of a dual active bridge converter are characterised considering op...
This paper presents DC fault analysis for a dual active bridge DC/DC converter which comprises of tw...
A new fault diagnostic method is presented in this paper for bidirectional half-bridge DC-DC convert...
International audienceThis paper proposes a new Unified Switch Fault Diagnosis (UFD) approach for tw...
Recently, the power supply network with energy storage devices such as battery has been focused. Thi...
Les convertisseurs DC-DC suscitent un intérêt considérable en raison de leur puissance élevée et de ...
This paper presents an open-circuit fault detection method and its tolerant control strategy for a P...
This work proposes fault-tolerant schemes for open-transistor faults applied to three-phase dual act...
A power converter is needed in almost all kinds of renewable energy systems and drive systems. It is...
International audienceDue to the low and unregulated voltage generated by fuel cells, power electron...
Fast isolation and detection of DC faults is currently a limiting factor in high power DC transmissi...
Fault-tolerant methods have been recognized for improving the reliability of multi-phase bidirection...
The modular multilevel converters are vulnerable to DC side faults, which are severe that can destru...
The demands of power electronics with high power capability have increased in the last decades. Thes...
The use of DC for primary power distribution has the potential to bring significant design, cost and...
Failures in power semi-conductors of a dual active bridge converter are characterised considering op...
This paper presents DC fault analysis for a dual active bridge DC/DC converter which comprises of tw...
A new fault diagnostic method is presented in this paper for bidirectional half-bridge DC-DC convert...
International audienceThis paper proposes a new Unified Switch Fault Diagnosis (UFD) approach for tw...
Recently, the power supply network with energy storage devices such as battery has been focused. Thi...
Les convertisseurs DC-DC suscitent un intérêt considérable en raison de leur puissance élevée et de ...
This paper presents an open-circuit fault detection method and its tolerant control strategy for a P...
This work proposes fault-tolerant schemes for open-transistor faults applied to three-phase dual act...
A power converter is needed in almost all kinds of renewable energy systems and drive systems. It is...
International audienceDue to the low and unregulated voltage generated by fuel cells, power electron...
Fast isolation and detection of DC faults is currently a limiting factor in high power DC transmissi...
Fault-tolerant methods have been recognized for improving the reliability of multi-phase bidirection...
The modular multilevel converters are vulnerable to DC side faults, which are severe that can destru...
The demands of power electronics with high power capability have increased in the last decades. Thes...
The use of DC for primary power distribution has the potential to bring significant design, cost and...
DOI
Add to ORKG