25–29 May 2026
La Biodola - Isola d'Elba (Italy)
Europe/Rome timezone
Deadline for submission of Conference Records and TNS manuscripts extended to July 6, 2026.

162 A Timing Measurement Prototype for LGAD Using the LATRIC ASIC

28 May 2026, 10:58
2m
Maria Luisa Room (Hotel Hermitage)

Maria Luisa Room

Hotel Hermitage

Mini Oral Front-End Electronics, Fast Digitizers, Fast Transfer Links & Networks Mini Orals

Speaker

Xiongbo Yan (Institute of High Energy Physics)

Description

This paper presents the design and characterization of a readout prototype for Low-Gain Avalanche Diode (LGAD) sensors. Aimed at applications requiring excellent timing resolution, such as particle tracking in future high-energy physics experiments, the prototype addresses the key challenge of processing LGAD signals with fast rise times and moderate gain. The dedicated system integrates two application-specific integrated circuits (ASICs), named LATRIC0 (LGAD Timing Readout Integrated Circuit), on a compact printed circuit board. LATRIC0 is a single channel timing measurement chip that integrates a low-noise, high-bandwidth front-end amplifier, a fast comparator, and a high-precision time-to-digital converter (TDC). LGAD pixels with a size of 2.5 mm*2.5 mm are wire bonded on the board. Initial bench-top testing using a pulsed laser demonstrates that a coincident hit timing resolution of ~25 ps between two LATRIC chips, corresponding to a single LGAD+LATRIC timing resolution of ~17 ps. These results validate a scalable and cost-effective readout architecture and confirm its strong potential for integration into large-area LGAD-based timing detector systems.

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Author

Xiongbo Yan (Institute of High Energy Physics)

Co-authors

Chuanye Wang (Nanjing University) Dr Huaishen LI (IHEP) Jingbo Ye (Institute of High Energy Physics Chinese Academy of Sciences) Ms Mei Zhao (Institute of High Energy Physics) Prof. Qi Yan (Institute of High Energy Physics) Xiaoting Li (IHEP) Prof. Zheng Wang (Institute of High Energy Physics)

Presentation materials