A 113.3-dB Dynamic Range 600 Frames/s SPAD X-Ray Detector With Seamless Global Shutter and Time-Encoded Extrapolation Counter

This article presents a 400\ttimes 200 single-photon avalanche diode (SPAD) X-ray detector that supports seamless global shutter operation. The pixel consists of an SPAD with two time-encoded extrapolation counters. For use under low X-ray dose conditions, the pixels and readout circuitry operate in a fully digital manner, avoiding the noise penalty of the readout. Under high X-ray dose conditions, the proposed counter operates in the extrapolation mode and thus achieves a high dynamic range (HDR), while reducing the counter's power consumption. This is achieved by capturing the time of the counter overflow ( T_{\rm OF} ) and expanding the counter depth by the ratio between the integration time ( T_{\rm INT} ) and T_{\rm OF} . To reconstruct T_{\rm OF} , a \phi_{\rm GCLK} signal is distributed during T_{\rm INT} and accumulated from T_{\rm OF} to the end of T_{\rm INT} by reusing the counter. This only requires distribution of the \phi_{\rm GCLK} across the pixel array. Furthermore, seamless global shutter operation is realized through the use of two counters, which achieves a 100% temporal aperture for the X-ray photon. The proposed X-ray detector is implemented in a 1P5M 65-nm CMOS process. To be used for both medical diagnosis and industrial inspection, the pixel pitch is selected as 49.5 \mu\text{m} . The 400\ttimes 200 detector achieves a dynamic range (DR) of 113.3 dB, while consuming only 127.2 mW. Compared with previous X-ray detectors, the proposed detector exhibits a 24.9-dB improvement in DR.