Postfault operation strategy for cascaded H-bridge inverters driving a multiphase motor
DATE:
2024-05
UNIVERSAL IDENTIFIER: http://hdl.handle.net/11093/6872
EDITED VERSION: https://ieeexplore.ieee.org/document/10144607/
DOCUMENT TYPE: article
ABSTRACT
Multiphase motor drives based on a cascaded
H-bridge (CHB) voltage source inverter (VSI) are suitable
for fault-tolerant applications because a damaged H-bridge
can be safely bypassed without interrupting the drive operation. This bypass has the effect of an undesired dclink voltage shortage that multiphase motors can effectively
tolerate if appropriate x-y components are injected in the
stator voltages. These degrees of freedom, which are not
available in three-phase motors, permit to reach higher
speeds without field weakening nor torque oscillations during the fault. However, no specific strategies exploiting this
particular advantage of multilevel multiphase drives have
been proposed so far, albeit resorting to strategies devised
for three-phase VSIs would reduce the drive performance.
This paper proposes a post-fault strategy for multiphase
CHBs with bypassed H-bridges that better uses its dc
link by injecting appropriate x-y components in the modulation reference signals, without altering the α-β ones.
Experimental results, obtained with a five-level five-phase
motor drive, show that the proposed strategy manages to
run the motor at rated speed with negligible torque ripple
when an H-bridge is bypassed. It is also recognized that
the continuous operation in this situation requires using a
circulating-current filter to mitigate the extra stator copper
losses that arise
Files in this item
- Name:
- 2024_lopez_cascade_hbridge.pdf
- Size:
- 2.463Mb
- Format:
- Description:
- Manuscrito aceptado