Continuous Compensation of Binary-Weighted DAC Nonlinearities in Bandpass Delta-Sigma Modulators

We present a novel calibration technique to compensate for DAC element mismatches in bandpass multibit delta-sigma (DeltaSigma) modulators. The proposed technique is purely digital and requires only a minor modification to the modulator loop. It is compatible with binary weighted element DACs and the storage requirements for the calibrated coefficients increases only linearly with the number of quantizer bits. The calibration is performed without breaking the loop, which allows continuous tracking of environmental drifts. Simulation results show a peak signal to noise and distortion ratio (SNDR) of 68 dB after calibration for a DAC with plusmn1% mismatches, a sinusoid input signal near 1/4 of the sampling frequency and an oversampling ratio of only 10. Those results represent a 26 dB improvement over the non-calibrated case while being within 2 dB of an ideal-DAC case.