Go to DBLP homepageA 128×128 CMOS SPAD Receiver for 500Mbps Free Space Optical Communication with Column-wise Decoding and Fast Spot Tracking
Abstract: This work presents a 128×128 pixel array receiver based on single-photon avalanche diode (SPAD) for free space optical communication (FSOC). Each pixel incorporates an active quenching circuit and a delay-time-adjusting circuit to reduce the afterpulsing effect and the dead time. To address the challenge of high-speed transmission of massive data in a large-format SPAD array, a column-wise decoding circuit with reduced bus parasitic capacitance and voltage-sensitive discrimination is proposed, which significantly reduces the latency of data transmission. Additionally, the receiver includes cluster engines with highly parallelized computation capabilities for tracking the central addresses of a laser spot. The chip has been designed using a 130nm CMOS technology. Simulation results of the receiver indicate that a bit error rate (BER) of 3 × 10−4 can be achieved at 500Mbps with a sensitivity of -41dBm, under random NRZOOK bitstreams. Furthermore, the chip demonstrates 100% accuracy in tracking the laser spot at a rate of 100kHz during 1000 transceiver simulations.
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