Processing math: 100%
A 1920 - 1080 Array 2-D/3-D Image Sensor With 3--s Row-Time Single-Slope ADC and 100-MHz Demodulated PPD Locked-In Pixel | IEEE Journals & Magazine | IEEE Xplore

A 1920 \times 1080 Array 2-D/3-D Image Sensor With 3- \mu s Row-Time Single-Slope ADC and 100-MHz Demodulated PPD Locked-In Pixel


Abstract:

This article presents a 1920 \times 1080 array 2-D/3-D image sensor with 3- \mu s row-time single-slope ADC (SSADC) and 100-MHz demodulated locked-in pixel. To obta...Show More

Abstract:

This article presents a 1920 \times 1080 array 2-D/3-D image sensor with 3- \mu s row-time single-slope ADC (SSADC) and 100-MHz demodulated locked-in pixel. To obtain reliable depth information, a backside-illuminated 6 \times 6 \mu m pinned photodiode (PPD) pixel with high built-in electric field is used to accelerate charge transfer. Storage diodes (SDs) are designed to collect demodulated electrons for correlated double sampling (CDS) readout. The two-tap pixel and differential multiplexing readout architecture realize both image modes (2-D and 3-D) working with full-HD resolution. To overcome the limitation of quantization speed in conventional structures, we introduce a 4-bit time-to-digital converter (TDC) into the 8-bit SSADC for residual information quantization, achieving 3- \mu s row-time and 12-bit readout accuracy. In addition, we have proposed a detection and correction circuit in the data stitching process, which resolves error code problem. The common-mode output of two different taps is removed through full differential readout for the background light (BGL) canceling. A prototype chip is fabricated in a 110-nm backside illumination CMOS image sensor (BSI CIS) process. The designed PPD enabled a low depth noise of under 0.43% over the range of 0.3–1.5 m, with a modulation frequency of 100 MHz. By adopting the high-speed SSADC, the 2-D and 3-D frame rates achieve 300 and 60 frames/s, respectively.
Published in: IEEE Journal of Solid-State Circuits ( Early Access )
Page(s): 1 - 12
Date of Publication: 06 November 2024

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