We present the prototype of a time-to-digital (TDC)ASIC for the upgrade of the ATLAS Monitored Drift Tube (MDT)detector for high-luminosity LHC operation. This ASIC is based on a previously submitted demonstrator ASIC designed for timing performance evaluation, and includes all features necessary for the various operation modes, as well as the migration to the TSMC 130 nm CMOS technology. We present the TDC design with the emphasis on added features and performance optimization. Tests of the timing performance demonstrate that this ASIC meets the design specifications. The TDC has a bin size of about 780 ps, and a timing bin variations within ±40 ps for all 24 channels with leading and trailing edge digitization, while the power consumption has been limited to 250 mW, corresponding to a consumption of about 5.2 mW per edge measurement.
Liang, Y., Wang, J., Xiao, X., Pipino, A., Guo, Y., An, Q., et al. (2019). Design and performance of a TDC ASIC for the upgrade of the ATLAS Monitored Drift Tube detector. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT, 939, 10-15 [10.1016/j.nima.2019.05.050].
Design and performance of a TDC ASIC for the upgrade of the ATLAS Monitored Drift Tube detector
Pipino A.;Baschirotto A.;de Matteis M.;Resta F.;
2019
Abstract
We present the prototype of a time-to-digital (TDC)ASIC for the upgrade of the ATLAS Monitored Drift Tube (MDT)detector for high-luminosity LHC operation. This ASIC is based on a previously submitted demonstrator ASIC designed for timing performance evaluation, and includes all features necessary for the various operation modes, as well as the migration to the TSMC 130 nm CMOS technology. We present the TDC design with the emphasis on added features and performance optimization. Tests of the timing performance demonstrate that this ASIC meets the design specifications. The TDC has a bin size of about 780 ps, and a timing bin variations within ±40 ps for all 24 channels with leading and trailing edge digitization, while the power consumption has been limited to 250 mW, corresponding to a consumption of about 5.2 mW per edge measurement.
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