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Inverter Voltage Vectors and the Corresponding Flux Variation in Time Δt IV. CONTROL OF STATOR FLUX-LINKAGE SPACE VECTOR MAGNITUDE
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Direct Torque Control (DTC) of AC drives is considered one of the most interesting high dynamic response motor control strategies nowadays. Permanent Magnet Synchronous Motors (PMSM) are now replacing Induction Motors (IM) in a variety of applications due to their valuable advantages like increased efficiency and compact size. The combination of DT...
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... means that the stator flux linkage space vector moves by Δ in the direction of the applied stator voltage vector, Fig. 1. ...
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... select the suitable voltage vectors needed to control the magnitude of the stator flux space vector, the voltage space vector plane (D-Q plane) or (α-β plane) is divided into six sectors K(1) through K(6), Fig. 1., such that, ...
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... response, torque ripples, flux response, flux ripples, speed response, DQ flux, and switching pattern for "2-L, N.Z.V.V" Table are shown in Fig. 10 from a f. Torque response, torque ripples, flux response, flux ripples, speed response, DQ flux, and switching pattern for "2-L, 1.Z.V.V" "Table are shown in Fig.11 from a f. Table "Table.5 Speed Response of Table (5.2) "2-L, No Z..V.V" Time "sec" Flux Ripples Of Table (5.3) "2-L,1.Z.V.V" Time "sec" 1.Z.V.V" Table comes in the ...
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... response, torque ripples, flux response, flux ripples, speed response, DQ flux, and switching pattern for "2-L, N.Z.V.V" Table are shown in Fig. 10 from a f. Torque response, torque ripples, flux response, flux ripples, speed response, DQ flux, and switching pattern for "2-L, 1.Z.V.V" "Table are shown in Fig.11 from a f. ...
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