Details
Title
Mottet, Raphaël Johannes Charles
Sciper ID
205833
Publications
An Analytical Model for the Prediction of the Maximum Output Voltage Reachable with an Ultra-high Voltage Flyback Converter Driving Capacitive Ac[...]
Control Strategy for the Discharge Phase of an Ultra-High Voltage (>7kV) Bi-Directional Flyback Converter Driving Capacitive Actuators
Critical Parasitic Elements of Coupled Inductors for Ultra-High Voltage Flyback Converters Used to Drive Capacitive Actuators
DEA Self-discharge Characterization for Low Duty Cycle Applications
High voltage switch for compact bidirectional dc-dc converter driving dielectric electroactive polymer actuators
Schmitt trigger-based control strategy for the discharge phase of an ultra-high-voltage bidirectional flyback
Towards an ultra-high voltage gain, compact, and energy recovering Flyback DC/DC Converter
Ultra-High-Voltage (7-kV) Bidirectional Flyback Converter Used to Drive Capacitive Actuators
Ultra-high voltage, compact and energy recovering electronics for dielectric elastomer actuators
Control Strategy for the Discharge Phase of an Ultra-High Voltage (>7kV) Bi-Directional Flyback Converter Driving Capacitive Actuators
Critical Parasitic Elements of Coupled Inductors for Ultra-High Voltage Flyback Converters Used to Drive Capacitive Actuators
DEA Self-discharge Characterization for Low Duty Cycle Applications
High voltage switch for compact bidirectional dc-dc converter driving dielectric electroactive polymer actuators
Schmitt trigger-based control strategy for the discharge phase of an ultra-high-voltage bidirectional flyback
Towards an ultra-high voltage gain, compact, and energy recovering Flyback DC/DC Converter
Ultra-High-Voltage (7-kV) Bidirectional Flyback Converter Used to Drive Capacitive Actuators
Ultra-high voltage, compact and energy recovering electronics for dielectric elastomer actuators
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