Multipurpose error calibration of pipeline analog‐to‐digital converters using decision points of the residue curve in sub‐analog‐to‐digital converters

Abstract

SummaryA new mechanism of digital background calibration in pipeline analog‐to‐digital converters (ADCs) is expressed. The presented technique calibrates various errors like capacitor mismatch, finite DC gain of the amplifier, third‐order nonlinearity, and fifth‐order nonlinearity, so it is called multipurpose. In this method, the error coefficients are identified by estimation of the output code of the decision points in the voltage transfer characteristic (VTC) of the pipeline stages. To achieve sufficient decision points in the VTCs of the pipeline stages, one threshold level of one comparator of the sub‐ADC is shifted, and then the digital output is calibrated by capturing the error coefficients. The digital logic of this method is simple and does not require special analog circuits. The introduced calibration mechanism is evaluated for the first five stages of a 12‐bit 100 MS/s pipeline ADC. The required time for the calibration is 1.5 ms. By applying this method, the signal‐to‐noise and distortion ratio (SNDR) and spurious‐free dynamic range (SFDR) in order are enhanced from 46.44 and 50.53 dB to 69.92 and 74.04 dB, respectively.