Publication
The demand for high-quality and high-speed imaging has increased. Column-parallel ≥14b A/D conversion is one of the major approaches to meet these requirements in CMOS image sensors (CIS). Oversampling ADCs such as incremental delta-sigma (I-ΔΣ) ADCs are the solution for a high-resolution ADC having tolerance of analog component errors. Oversampling reduces input temporal noise as well as the quantization error of the ADC itself [1]. However, an I-ΔΣ ADC is also classified as a slow ADC because it requires exponential conversion time to get higher bit resolution. To reduce conversion time, there are two alternative methods: 1) higher-order modulation, and 2) two-step conversion such as an extended-counting technique [2]. In this paper, the extended-counting (EC) method is used since a high-order structure requires more complex hardware and greater power consumption [1,2]. For a general two-step ADC, coarse conversion restricts the total ADC resolution since it determines accuracy of the residue. However, an EC ADC overcomes the accuracy limitation, since the I-ΔΣ can improve its precision through oversampling. Moreover, oversampling also suppresses the noise of the pixel's source follower. Our 14b EC ADC is a blend of a 1 st -order I-ΔΣ ADC and a cyclic ADC to simultaneously get high resolution and high speed.
Jijun He, Xiaowei Zhang, Jian Wu, Ye Tian