A CMOS Flash LiDAR Sensor With In-Pixel Zoom Histogramming Time-to-Digital Converters

This article presents a solid-state flash light detection and ranging (LiDAR) sensor with an in-pixel zoom histogramming time-to-digital converter (hTDC). The proposed zoom hTDC combines two different conversion techniques such as the direct time-of-flight (ToF) and indirect ToF (iToF), realizing a two-step coarse-fine TDC architecture based on a single 10-b histogramming-bit (H_b) time-gated event/linear up-down counter (UDC). A 6-b time-bit (T_b) coarse TDC is implemented with a successive approximation (SA) algorithm in that the ToF value is found out by the binary search manner, dramatically reducing the number of memories from (Formula presented) to T_b + H_b. The UDC is utilized for counting the single-photon avalanche diode (SPAD) events for calculating the histogram in the coarse SA-hTDC mode, while it is reconfigured to the up-counter for estimating the phase difference which is taken by a ratio of linear counts between adjacent coarse bins in the fine iToF mode. Fabricated in a 110-nm CIS process, the prototype flash LiDAR sensor with a 100 × 76 pixel array demonstrates a 20-fps depth imaging acquisition in indoor environments. A 10-fps depth imaging at outdoor environments up to 10-m range consumes 154.5 mW. The maximum detectable range of 50 m is measured, and the depth resolutions of both to-digital converters (TDCs) are given by 150 and 9 cm, respectively, under an infrared (IR) emitter with a peak power of 75 W and a duty cycle of 0.08%.