C. Agapopoulou, P. Dinaucourt, A. Dragone, D. Gong, C. de La Taille, N. Makovec, B. Markovic, G. Martin-Chassard, C. Milke, M. Morenas, L. Ruckman, S. Sacerdoti, A. Schwartzman, N. Seguin-Moreau, L. Serin, D. Su, J. Ye
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引用次数: 6
摘要
摘要:ALTIROC由HGTD合作设计和表征,属于大型强子对撞机(LHC)用于高亮度-LHC升级的读出asic家族。ALTIROC1是一款采用CMOS 130 nm设计的25通道ASIC,用于读取ATLAS HGTD探测器的1.3 mm x 1.3 mm低增益雪崩二极管(LGAD)的5 x 5矩阵。传感器及其读出电子器件的目标组合时间分辨率从35ps /命中(初始)到70ps /命中(运行寿命结束)。每个ASIC通道集成了一个RF前置放大器,随后是一个高速鉴别器和两个tdc,用于到达时间和超过阈值的测量,以及一个本地存储器。该前端必须具有极低的抖动噪声,同时保持每个通道低于4.5 mW的具有挑战性的功耗。本次会议总结了ASIC的架构,与仿真相比的测量性能,以及HEP实验的要求。
ALTIROC 1, a 25 ps time resolution ASIC for the ATLAS High Granularity Timing Detector
1 Abstract—Designed and characterized by the HGTD collaboration, ALTIROC belongs to the family of readout ASICs used at the Large Hadron Collider (LHC) for the High Luminosity-LHC upgrade. ALTIROC1 is a 25-channel ASIC designed in CMOS 130 nm to read out the 5 x 5 matrix of 1.3 mm x 1.3 mm Low Gain Avalanche Diodes (LGAD) of the ATLAS HGTD detector. The targeted combined time resolution of the sensor and its readout electronics from 35 ps/hit (initial) to 70 ps/hit (end of operational lifetime). Each ASIC channel integrates an RF preamplifier followed by a high speed discriminator and two TDCs for Time-of-Arrival and Time-Over-Threshold measurements as well as a local memory. This front-end must exhibit an extremely low jitter noise while keeping a challenging power consumption of less than 4.5 mW per channel. This conference proceeding summarizes the ASIC's architecture, its measured performances compared to simulation, along with the requirements for the HEP experiments.
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