A 4.6-μm, 127-dB Dynamic Range, Ultra-Low Power Stacked Digital Pixel Sensor With Overlapped Triple Quantization

Paper

A 4.6-μm, 127-dB Dynamic Range, Ultra-Low Power Stacked Digital Pixel Sensor With Overlapped Triple Quantization

2022 June

Authors Rimon Ikeno, Kazuya Mori, Masayuki Uno, Ken Miyauchi,Toshiyuki Isozaki, Isao Takayanagi, Junichi Nakamura, Shou-Gwo Wuu, Lyle Bainbridge*, Andrew Berkovich*, Song Chen*,Ramakrishna Chilukuri*, Wei Gao*, Tsung-Hsun Tsai* and Chiao Liu*
*Meta Inc.

IEEE Transactions on Electron Devices
https://ieeexplore.ieee.org/document/9684032

This article presents a global shutter (GS), stacked digital pixel sensor (DPS) to meet the ultra-low power, ultra high dynamic range (HDR) requirements for battery-powered, always-on mobile computer vision (CV) applications. The 4.6 μm DPS pixel is partitioned into two layers; a dual conversion gain (CG) pixel with a backside-illuminated photodiode (PD) on the top layer and an in-pixel ADC circuit with 10 bit SRAM on the bottom layer. A Cu-to-Cu hybrid-bonding (HB) technology is used to connect the two layers via pixel-level interconnect. The sensor features an overlapped triple quantization (3Q) scheme that performs a time-to-saturation (TTS) quantization and the dual-CG linear ADC mode sequentially in the same frame and extends the dynamic range (DR) with a small number of ADC bits. The DPS with a 512 x 512 pixel array has achieved an ultra-HDR of 127 dB and low power consumption of 5.75 mW at 30 frames per second. The nonlinear conversion characteristics of the TTS mode provide an equivalent full well capacity (FWC) of 9000 ke⁻, while the high CG linear ADC mode realizes a low noise floor of 4.2 e⁻.