First test results of the HGCAL concentrator ASICs: ECON-T and ECON-D

Davide Braga,Szymon Kulis,Ralph Wickwire,Bram Feas,Jon Wilson,Paul Rubinov,Jyoti Babbar,Mike Hammer,Matteo Lupi,Jingbo Ye,Alpana Shenai,Duje Coko,Cristinel Gingu,Pedro Leitao,James Hoff,Davide Ceresa,Chinar Syal,Yulun Miao,Paulo Moreira,Xiaoran Wang,Neha Kharwadkar,Datao Gong,Alex Campbell,Rui De Oliveira,Di Guo,Cristina Mantilla-Suarez,Jeffrey Prinzie,Dongxu Yang,Paul Jozef Leroux,Gianmario Bergamin,James Hirschauer,Bhim Bam,Grace Cummings,Pamela Klabbers,Simone Scarfì,Daniel Noonan

doi:10.1088/1748-0221/19/03/c03050

First test results of the HGCAL concentrator ASICs: ECON-T and ECON-D

Davide Braga, Szymon Kulis + Show 34 more

https://doi.org/10.1088/1748-0221/19/03/c03050

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Journal: Journal of Instrumentation	Publication Date: Mar 1, 2024
License type: iop-standard

#Data Acquisition Path #Single Event Effect + Show 8 more

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Abstract

With over 6 million channels, the High Granularity Calorimeter for the CMS HL-LHC upgrade presents a unique data transmission challenge. The ECON ASICs provide a critical stage of on-detector data compression and selection for the trigger path (ECON-T) and data acquisition path (ECON-D) of the HGCAL. The ASICs, fabricated in 65 nm CMOS, are radiation tolerant up to 200 Mrad and require low power consumption: < 2.5 mW/sensor-channel per chip. We report on the first functionality and radiation tests for the ECON-D-P1 full-functionality prototype. We present a comparison of single event effect (SEE) cross sections measured for different methods of triple modular redundancy using test results from the ECON-T-P1 full-functionality prototype.

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