An Automatic On-Chip Calibration Technique for Static and Dynamic DAC Error Correction in High-Speed Continuous-Time Delta-Sigma Modulators

Abstract: Calibration is preferred over dynamic element matching (DEM) techniques to correct nonlinearity in digital-to-analog converters (DACs) in high-speed multi-bit continuous-time (CT) delta-sigma modulators (DSMs) to avoid introducing extra excess loop delay. The state-of-the-art calibration techniques, however, involve substantial external control, making it difficult for a complete on-chip realization. In this paper a highly automated on-chip technique for calibrating differential nonlinearity (DNL) and inter-sy… Show more

“…There are two common methods to achieve the linearity requirements in the literature. One is the digital calibration technique [7] which requires accurate measurements of the DAC mismatch errors and storing them [8,9]. The other is the dynamic element matching (DEM) technique, which randomizes and shapes the mismatch error between unit elements of the multi-bit feedback DAC to the high frequencies [10,11].…”

Mismatch error shaping of DAC unit elements in multibit ∆Σ modulators using a novel unified ADC/DAC

“…There are two common methods to achieve the linearity requirements in the literature. One is the digital calibration technique [7] which requires accurate measurements of the DAC mismatch errors and storing them [8,9]. The other is the dynamic element matching (DEM) technique, which randomizes and shapes the mismatch error between unit elements of the multi-bit feedback DAC to the high frequencies [10,11].…”

Mismatch error shaping of DAC unit elements in multibit ∆Σ modulators using a novel unified ADC/DAC

Complexity Reduced LUT-Based DAC Correction in Continuous-Time Delta-Sigma Modulators