2020 IEEE Symposium on VLSI Circuits 2020
DOI: 10.1109/vlsicircuits18222.2020.9162831
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A 2D-SPAD Array and Read-Out AFE for Next-Generation Solid-State LiDAR

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Cited by 4 publications
(5 citation statements)
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“…Fig. 13 2 chip system proposed by [19] quirement and minimizes the hardware cost. [16] achieves 200 m distance measurement for the first time, owing to the ADC-based waveform accumulation and custom SPAD integration.…”
Section: -Chip Approachmentioning
confidence: 99%
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“…Fig. 13 2 chip system proposed by [19] quirement and minimizes the hardware cost. [16] achieves 200 m distance measurement for the first time, owing to the ADC-based waveform accumulation and custom SPAD integration.…”
Section: -Chip Approachmentioning
confidence: 99%
“…Since the RX scanning mechanisms are much larger than those of the TX due to the larger aperture ratio, this posed a significant challenge when downscaling the LiDAR size. [19] proposed an in-sensor scanning method in which RX raster scanning is performed within the 2D SPAD array (Fig. 13), thus eliminating the need for RX scanning machinery.…”
Section: D Spad Array Approachmentioning
confidence: 99%
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“…Short and well-defined dead-time is required in applications with high dynamic range (e.g., automotive Light Detection and Ranging -LiDAR [10]), high-count rate (e.g., Optical Wireless Communication -OWC [11], Quantum Key Distribution -QKD [12]), and high number of collected photons (e.g., fluorescence lifetime spectroscopy, optical time-domain reflectometry through Time-Correlate Single-Photon Counting -TCSPC [13]). In high dynamic range applications, short dead-times are important to increase the maximum count rate before saturation, but, at the same time, single-photon sensitivity is required for detecting very dim optical signals.…”
Section: Introductionmentioning
confidence: 99%
“…To reduce the overall measurement time, high repetition rate lasers and detector with short dead-times are required. In [10] it is demonstrated that long dead-times are equivalent to a reduction of detection efficiency, proportionally to the laser repetition rate (i.e., the faster the repetition rate the higher the efficiency loss for a given dead-time), and consequently an increase of the measurement duration to achieve a given precision. In [17] fast TCSPC measurements are achieved by precisely matching the SPAD dead-time with the laser period, to avoid the so-called pile-up effect.…”
Section: Introductionmentioning
confidence: 99%