Space vector based Dithered Sigma Delta Modulator for two-level inverter to suppress the harmonic spikes

This paper proposes a Space Vector based Dithered Sigma Delta modulation scheme for three phase 2-level voltage source inverters. In the proposed scheme the instantaneous reference voltage space vector is synthesized by dithered sigma delta analog-to-digital converter. The spurious harmonic spikes at the output of the Sigma Delta Modulator with regular input are eliminated by introducing a dithered sequence in the Dithered Sigma Delta Modulator. The switching frequency of dithered sigma delta converter varies randomly resulting in the spreading of power spectrum of the inverter. The minimum pulse width of the output pulse train is the sampling time period, which prevents the inverter from missing switching operations. In the present work, the quantizer in the sigma delta converter uses the principle of Vector Quantization instead of conventional scalar quantizer. In this study the space vectors are represented in the 60° coordinate system to reduce the computational complexity compared to the conventional Cartesian coordinate system. Experimental results of proposed scheme are compared with Space Vector based Sigma Delta Modulator, SVPWM scheme and Random PWM scheme.