DC-signal injection for stator-resistance estimation in symmetrical six-phase induction motors under open-phase fault
DATE:
2023-06
UNIVERSAL IDENTIFIER: http://hdl.handle.net/11093/7182
EDITED VERSION: https://ieeexplore.ieee.org/document/9841441/
UNESCO SUBJECT: 3307 Tecnología Electrónica
DOCUMENT TYPE: article
ABSTRACT
Multiphase machines are often chosen due to their
enhanced fault tolerance. Six-phase ones are especially convenient
because they may be fed by off-the-shelf three-phase converters.
In particular, those with symmetrical windings offer superior
postfault capabilities. On the other hand, estimation of the stator
resistance is important for purposes such as thermal monitoring
and preserving control performance. Resistance estimation by dcsignal injection provides low sensitivity to parameter deviations
compared with other techniques. It has previously been shown
that the dc signal can be added in the non-torque-producing (xy) plane of a six-phase machine to avoid the torque disturbances
that typically arise in three-phase machines. However, extending
this method to the case of an open-phase fault (OPF) is not
straightforward, because of the associated current restrictions.
This paper addresses dc-signal injection in a symmetrical sixphase induction motor with an OPF. It is shown that, in contrast
to healthy operation, the postfault dc injection should be carefully
performed so that minimum copper loss, peak phase current
and zero-sequence braking torque are achieved. A solution that
attains optimum performance in all these aspects simultaneously
is proposed. Adapted controller and resistance estimation are
also presented. Experimental results confirm the theory