A Modular, Direct Time-of-Flight Depth Sensor in 45/65-nm 3-D-Stacked CMOS Technology

Authors
Ximenes, Augusto RonchiniPadmanabhan, PreethiLee, Myung-JaeYamashita, YuichiroYaung, Dun-NianCharbon, Edoardo
Issue Date
2019-11
Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
Citation
IEEE JOURNAL OF SOLID-STATE CIRCUITS, v.54, no.11, pp.3203 - 3214
Abstract
This article introduces a modular, direct time-of-flight (TOF) depth sensor. Each module is digitally synthesized and features a 2 $\times $ (8 $\times $ 8) single-photon avalanche diode (SPAD) pixel array, an edge-sensitive decision tree, a shared time-to-digital converter (TDC), 21-bit per-pixel memory, and in-locus data processing. Each module operates autonomously, by internal data acquisition, management, and storage, being periodically read out by an external access. The prototype was fabricated in a TSMC 3-D-stacked 45/65-nm CMOS technology, featuring backside illumination (BSI) SPAD detectors on the top tier, and readout circuit on the bottom tier. The sensor was characterized by single-point measurements, in two different modes of resolution and range. In low-resolution mode, a maximum of 300-m and 80-cm accuracy was recorded; on the other hand, in high-resolution mode, the maximum range and accuracy were 150 m and 7 cm, respectively. The module was also used in a flexible scanning light detection and ranging (LiDAR) system, where a 256 $\times $ 256 depth map, with millimeter precision, was obtained. A laser signature based on pulse-position modulation (PPM) is also proposed, achieving a maximum of 28-dB interference reduction.
Keywords
CAMERA; CAMERA; Decision trees; Laser radar; Delays; CMOS technology; Distance measurement; Interference; Depth sensor; interference reduction; laser signature; light detection and ranging (LiDAR); ranging imaging; single-photon avalanche diode (SPAD); 3-D-stacking; time-of-flight (TOF) imaging
ISSN
0018-9200
URI
https://pubs.kist.re.kr/handle/201004/119404
DOI
10.1109/JSSC.2019.2938412
Appears in Collections:
KIST Article > 2019
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