A Real Time Multi-Bit DAC Mismatch Estimation & Correction Technique For Wideband Continuous Time Sigma Delta Modulators

Abstract

Multi-bit continuous time Sigma Delta ($\Sigma\Delta$) modulators are the necessary drivers of modern high speed and low power analog to digital conversion technology. The use of multi-bit quantization in a continuous Time $\Sigma\Delta$ modulator has been limited because nonlinearity in the DAC (Digital to Analog Converter) of a sigma delta modulator translates directly into nonlinearity of the entire modulator, producing a distorted output. Nonlinearity in the DAC modulates the quantization noise into the signal band, thus degrading its performance. It is desired to estimate this non-linearity and apply a correction to nullify its effects. In this paper, a non-invasive background calibration technique is presented for the mismatch estimation and correction of static mismatches in the feedback DAC elements of a continuous time sigma delta modulator. The proposed design can fit into an existing modulator deploying a multi-bit D.AC. It is demonstrated by simulations that the proposed design achieves over 100dB THD performance across 40MHz signal bandwidth for an OSR (Over Sampling Ratio) of 30. The architecture works well even for topologies with achieving very high performance.