This paper presents performance investigation of advanced space vector modulation (ASVM) based DTC strategies. The sequences in ASVM comprises of ‘n-b-a-b’ or ‘n-a-b-a’ and ‘n-a-b-a’ or ‘n-b-a-b’ are used respectively for each 30° sub-sector, where n is null vector and ‘a’ and ‘b’ are active voltage vectors. The number of active voltage vectors switching and null voltage vectors switching is different between SVM and ASVM strategies which has significant effect on flux and torque ripple of DTC. The effect of switching sequences of SVM and ASVM on the flux ripple of both d-axis and q-axis for DTC of induction motor is presented. The proposed strategies are simulated and experimental investigation is carried by using Opal-RT real-time digital simulator (Op-RTDS) and the performance results are compared.