A 240 × 160 3D-Stacked SPAD dToF Image Sensor With Rolling Shutter and In-Pixel Histogram for Mobile Devices

Chao Zhang;Ning Zhang;Zhijie Ma;Letian Wang;Yu Qin;Jieyang Jia;Kai Zang
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引用次数: 23

Abstract

A 240 $\times$ 160 single-photon avalanche diode (SPAD) sensor integrated with a 3D-stacked 65nm/65nm CMOS technology is reported for direct time-of-flight (dToF) 3D imaging in mobile devices. The top tier is occupied by backside illuminated SPADs with 16 $\mu {\mathrm{ m}}$ pitch and 49.7% fill-factor. The SPADS consists of multiple 16 $\times$ 16 SPADs top groups, in which each of 8 $\times$ 8 SPADs sub-group shares a 10-bit, 97.65ps and 100ns range time-to-digital converter (TDC) in a quad-partition rolling shutter mode. During the exposure of each rolling stage, partial histogramming readout (PHR) approach is implemented to compress photon events to in-pixel histograms. Since the fine histograms is incomplete, for the first time we propose histogram distortion correction (HDC) algorithm to solve the linearity discontinuity at the coarse bin edges. With this algorithm, depth measurement up to 9.5m achieves an accuracy of 1cm and precision of 9mm in office lighting condition. Outdoor measurement with 10 klux sunlight achieves a maximum distance detection of 4m at 20 fps, using a VCSEL laser with the average power of 90 mW and peak power of 15 W.
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用于移动设备的具有滚动快门和像素内直方图的240×160三维堆叠SPAD dToF图像传感器
报道了一种与3D堆叠65nm/65nm CMOS技术集成的240$\times$160单光子雪崩二极管(SPAD)传感器,用于移动设备中的直接飞行时间(dToF)3D成像。顶层由背面照明SPAD占据,间距为16$\mu{\mathrm{m}}$,填充系数为49.7%。SPADS由多个16$\times$16 SPAD顶组组成,其中每个8$\times$8 SPAD子组在四分区滚动快门模式下共享一个10位、97.65ps和100ns范围的时间-数字转换器(TDC)。在每个滚动阶段的曝光期间,实现部分直方图读出(PHR)方法以将光子事件压缩为像素内直方图。由于精细直方图是不完整的,我们首次提出了直方图失真校正(HDC)算法来解决粗仓边缘的线性不连续问题。利用该算法,在办公室照明条件下,深度测量可达9.5米,精度可达1厘米,精度可达9毫米。使用平均功率为90mW、峰值功率为15W的VCSEL激光器,在10klux阳光的室外测量中,以每秒20帧的速度实现了4m的最大距离检测。
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