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Piezoelectrically Actuated Fast Mechanical Switch for MVDC Protection

Chunmeng Xu, Tushar Damle, Matthew Bosworth, Dionne Soto, Rachit Agarwal, Michael Steurer, Lukas Graber

2020IEEE Transactions on Power Delivery31 citationsDOI

Abstract

Medium voltage direct current (MVDC) power systems are in their early phase of development, but the lack of efficient and reliable DC circuit breakers is currently one of the most significant bottlenecks for widespread adoption of MVDC applications. Compared to protection devices in high voltage direct current (HVDC) systems, MVDC circuit breakers are expected to interrupt fault currents with higher rates of rise in more power-dense and more controllable structures. A hybrid approach with a piezoelectrically actuated fast mechanical switch in parallel to a solid-state circuit breaker is expected to meet the above requirements. A prototype of a 15 kV-class piezoelectrically actuated fast mechanical switch is presented in this paper. The prototype demonstrates an actuator opening time of 1 ms, a breakdown voltage of over 20 kV, and a continuous current rating of 500 A. After integrating the fast mechanical switch into a hybrid circuit breaker testbed, the fast mechanical switch was able to open within 1.5 ms and the fault was cleared within 5 ms. Therefore, piezoelectrically actuated fast mechanical switches can enable fast, reliable and controllable protection for various MVDC systems like electric ships, electric aircraft and microgrids that integrate distributed energy resources.

Topics & Concepts

Circuit breakerOvervoltageDisconnectorEngineeringElectrical engineeringInterrupterFault (geology)TestbedInterruptVoltageActuatorHigh voltageElectric power systemDirect currentMechanical energyPower (physics)MicrocontrollerPhysicsQuantum mechanicsGeologyAerospace engineeringSeismologyHVDC Systems and Fault ProtectionElectrical Fault Detection and ProtectionThermal Analysis in Power Transmission
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