A 10 Gbps Driver/Receiver ASIC and Optical Modules for Particle Physics   Experiments

Xing Huang (1; 2); Datao Gong (1); Suen Hou (3); Guangming Huang; (2); Chonghan Liu (1); Tiankuan Liu (1); Ming Qi (4); Hanhan Sun (1; 2),; Quan Sun (5); Li Zhang (1; 2); Wei Zhang (1; 2); Xiandong Zhao (6); and; Jingbo Ye (1) ((1) Southern Methodist University; Dallas; TX; USA. (2); Central China Normal University; Wuhan; Hubei; China. (3) Academia Sinica,; Nangang; Taipei; Taiwan. (4) Nanjing University; Nanjing; Jiangsu; China. (5); Fermi National Accelerator Laboratory; Batavia; IL; USA. (6) Washington; University in St. Louis; 1 Brookings Dr; St. Louis; MO; USA. )

arXiv:2010.16069·physics.ins-det·September 1, 2021

A 10 Gbps Driver/Receiver ASIC and Optical Modules for Particle Physics Experiments

Xing Huang (1, 2), Datao Gong (1), Suen Hou (3), Guangming Huang, (2), Chonghan Liu (1), Tiankuan Liu (1), Ming Qi (4), Hanhan Sun (1, 2),, Quan Sun (5), Li Zhang (1, 2), Wei Zhang (1, 2), Xiandong Zhao (6), and, Jingbo Ye (1) ((1) Southern Methodist University, Dallas, TX

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TL;DR

This paper introduces a 10 Gbps ASIC (DLAS10) and three optical modules designed for particle physics experiments, demonstrating high-speed data transmission with low power consumption and passing eye diagram tests.

Contribution

The paper presents a novel 65 nm CMOS ASIC and integrated optical modules capable of 10 Gbps data rates, with detailed design, fabrication, and testing results for particle physics applications.

Findings

01

DLAS10 operates reliably at 10 Gbps with eye diagrams passing the mask.

02

The modules achieve low jitter and high sensitivity suitable for particle physics experiments.

03

Power consumption per channel is optimized for high-speed optical data transmission.

Abstract

We present the design and test results of a Drivers and Limiting AmplifierS ASIC operating at 10 Gbps (DLAS10) and three Miniature Optical Transmitter/Receiver/Transceiver modules (MTx+, MRx+, and MTRx+) based on DLAS10. DLAS10 can drive two Transmitter Optical Sub-Assemblies (TOSAs) of Vertical Cavity Surface Emitting Lasers (VCSELs), receive the signals from two Receiver Optical Sub-Assemblies (ROSAs) that have no embedded limiting amplifiers, or drive a VCSEL TOSA and receive the signal from a ROSA, respectively. Each channel of DLAS10 consists of an input Continuous Time Linear Equalizer (CTLE), a four-stage limiting amplifier (LA), and an output driver. The LA amplifies the signals of variable levels to a stable swing. The output driver drives VCSELs or impedance-controlled traces. DLAS10 is fabricated in a 65 nm CMOS technology. The die is 1 mm x 1 mm. DLAS10 is packaged in a 4 mm…

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Taxonomy

TopicsSemiconductor Lasers and Optical Devices · Advancements in PLL and VCO Technologies · Photonic and Optical Devices