Enhanced direct torque control and predictive torque control strategies of an open-End winding induction motor drive to eliminate common-mode voltage and weighting factors

Direct torque control (DTC) and predictive torque control (PTC) strategies emerged as powerful tools for speed control of variable frequency drives (VFD). The limitations in classical DTC and PTC are: higher ripple in torque, flux, variable switching frequency, and higher common-mode voltage (CMV)....

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Bibliographic Details
Published in:IET power electronics 2019-07, Vol.12 (8), p.1986-1997
Main Authors: V Praveen Kumar, Kunisetti, Kumar, Thippiripati Vinay
Format: Article
Language:English
Subjects:
classical PTC
common‐mode voltage
electromagnetic interference
enhanced direct torque control
equal DC‐link voltages
induction motor drives
induction motors
invertors
machine control
machine windings
modified cost function‐based PTC strategy
OEWIM drive
open‐end winding induction motor drive
predictive torque control strategies
PWM invertors
real‐time interface controller
Research Article
shaft voltages
shafts
speed control
three‐level output voltage
torque control
variable frequency drives
variable speed drives
variable switching frequency
weighting factors
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Summary:Direct torque control (DTC) and predictive torque control (PTC) strategies emerged as powerful tools for speed control of variable frequency drives (VFD). The limitations in classical DTC and PTC are: higher ripple in torque, flux, variable switching frequency, and higher common-mode voltage (CMV). High dv/dt and CMV results in shaft voltages, bearing currents, malfunction of power electronic devices and electromagnetic interference (EMI). To eliminate the CMVs and also to reduce the switching frequency, voltage vector selection-based DTC and PTC strategies are introduced to an open-end winding induction motor (OEWIM) drive. Another limitation of classical PTC is cumbersome tuning of weighting factors. To address this limitation, modified cost function-based PTC strategy has been developed to eliminate weighting factors. OEWIM drive operates with dual inverter configuration and the two inverters are operated with equal DC-link voltages; therefore, it delivers three-level output voltage. This article introduces various DTC and PTC strategies to an OEWIM drive to reduce torque, flux ripples, switching frequency, elimination of CMV, and weighting factors. The effectiveness of proposed DTC and PTC strategies is tested by dspace-1104 real-time interface controller and comparing the obtained results with classical DTC and PTC.
ISSN:1755-4535
1755-4543
1755-4543
DOI:10.1049/iet-pel.2018.5599