Quasi-Two-Level Converter for overvoltage mitigation in medium voltage drives

Quasi-Two-Level Converter for overvoltage mitigation in medium voltage drives

This work focuses on a Quasi-Two-Level (Q2L) converter topology for medium voltage drives (MVDs). It targets applications where the drive and the motor are connected via a long cable. In such systems a dv/dt filter is usually placed between the drive and motor to increase the rise time of inverter o...

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Bibliographic Details
Published in:2018 International Power Electronics Conference (IPEC-Niigata 2018 -ECCE Asia) pp. 488 - 494
Main Authors: Bertoldi, F., Pathmanathan, M., Kanchan, R. S., Spiliotis, K., Driesen, J.
Format: Conference Proceeding
Language:English
Published: IEEJ Industry Application Society 01-05-2018
Subjects:
Cable insulation
Capacitance
Capacitors
dv/dt
Integrated circuit modeling
Load modeling
Long cable phenomena
overvoltage mitigation
quasi-Two-Level
Reflection
reflection wave
Voltage control
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Summary:This work focuses on a Quasi-Two-Level (Q2L) converter topology for medium voltage drives (MVDs). It targets applications where the drive and the motor are connected via a long cable. In such systems a dv/dt filter is usually placed between the drive and motor to increase the rise time of inverter output voltage pulses, and thereby reduce the motor terminal overvoltage. The Q2L converter allows for an intrinsic reduction in the motor terminal overvoltage by dividing the voltage transitions in the inverter output voltage waveform into multiple smaller steps. Simulation results obtained with a distributed parameter cable model are presented, which show that the Q2L converter can offer lower converter capacitor energy and reduced dv/dt filter component values for a given motor terminal overvoltage requirement compared to the 5LANPC, a conventional MVD topology, at the cost of worse WTHD and efficiency.
DOI:10.23919/IPEC.2018.8507745