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A 12-bit compact column-parallel SAR ADC with dynamic power control technique for high-speed CMOS image sensors 被引量:2

A 12-bit compact column-parallel SAR ADC with dynamic power control technique for high-speed CMOS image sensors
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摘要 This paper presents a 12-bit column-parallel successive approximation register analog-to-digital con- verter (SAR ADC) for high-speed CMOS image sensors. A segmented binary-weighted switched capacitor digital- to-analog converter (CDAC) and a staggered structure MOM unit capacitor is used to reduce the ADC area and to make its layout fit double pixel pitches. An electrical field shielding layout method is proposed to eliminate the parasitic capacitance on the top plate of the unit capacitor. A dynamic power control technique is proposed to reduce the power consumption of a single channel during readout. An off-chip foreground digital calibration is adopted to compensate for the nonlinearity due to the mismatch of unit capacitors among the CDAC. The prototype SAR ADC is fabricated in a 0.18 μm 1P5M CIS process. A single SAR ADC occupies 20 × 2020μm2. Sampling at 833 kS/s, the measured differential nonlinearity, integral nonlinearity and effective number of bits of SAR ADC with calibration are 0.9/-1 LSB, 1/-1.1 LSB and 11.24 bits, respectively; the power consumption is only 0.26 mW under a 1.8-W supply and decreases linearly as the frame rate decreases. This paper presents a 12-bit column-parallel successive approximation register analog-to-digital con- verter (SAR ADC) for high-speed CMOS image sensors. A segmented binary-weighted switched capacitor digital- to-analog converter (CDAC) and a staggered structure MOM unit capacitor is used to reduce the ADC area and to make its layout fit double pixel pitches. An electrical field shielding layout method is proposed to eliminate the parasitic capacitance on the top plate of the unit capacitor. A dynamic power control technique is proposed to reduce the power consumption of a single channel during readout. An off-chip foreground digital calibration is adopted to compensate for the nonlinearity due to the mismatch of unit capacitors among the CDAC. The prototype SAR ADC is fabricated in a 0.18 μm 1P5M CIS process. A single SAR ADC occupies 20 × 2020μm2. Sampling at 833 kS/s, the measured differential nonlinearity, integral nonlinearity and effective number of bits of SAR ADC with calibration are 0.9/-1 LSB, 1/-1.1 LSB and 11.24 bits, respectively; the power consumption is only 0.26 mW under a 1.8-W supply and decreases linearly as the frame rate decreases.
出处 《Journal of Semiconductors》 EI CAS CSCD 2014年第10期132-139,共8页 半导体学报(英文版)
基金 Project supported by the National Natural Science Foundation of China(No.61234003) the Special Funds for Major State Basic Research Project of China(No.2011CB932902)
关键词 column-parallel successive approximation register analog-to-digital converter binary-weighted ca- pacitor digital-to-analog converter (CDAC) segmented CDAC dynamic power control comparator noise foreground digital calibration column-parallel successive approximation register analog-to-digital converter binary-weighted ca- pacitor digital-to-analog converter (CDAC) segmented CDAC dynamic power control comparator noise foreground digital calibration
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参考文献12

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