MightyPix at the LHCb Mighty Tracker — verification of an HV-CMOS pixel chip's digital readout

S. Scherl, N. Striebig, K. Hennessy, I. Perić, E. Vilella
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Abstract

MightyPix is a high voltage complementary metal-oxide-semiconductor (HV-CMOS) active pixel sensor, currently being developed for the Mighty Tracker, an upgrade proposed for LHCb in anticipation of the High Luminosity LHC. To ensure that MightyPix will be able to handle the particle hit rates at the Mighty Tracker, which are expected to reach 17 MHz/cm2, simulations of the chip's digital readout mechanism were performed. Using simulated particle hits the chip's performance within the LHCb environment is characterised. For this, a behavioural model of the first prototype, MightyPix1, representing the analogue pixel matrix, together with the synthesised digital logic is used. Simulation results show the MightyPix1 readout mechanism having an efficiency over 99 % up to 20 MHz/cm2. The bottleneck was found to be the speed at which the hits are read out. This yielded new design ideas to improve the readout for MightyPix2, leading to an efficiency of over 99 % up to 30 MHz/cm2.
LHCb Mighty Tracker 的 MightyPix--验证 HV-CMOS 像素芯片的数字读数
MightyPix是一种高压互补金属氧化物半导体(HV-CMOS)有源像素传感器,目前正在为Mighty Tracker开发。为了确保MightyPix能够处理Mighty Tracker的粒子撞击率(预计将达到17 MHz/cm2),我们对芯片的数字读出机制进行了模拟。通过模拟粒子撞击,对芯片在大型强子对撞机环境中的性能进行了鉴定。为此,使用了代表模拟像素矩阵的第一个原型 MightyPix1 的行为模型以及合成的数字逻辑。模拟结果显示,MightyPix1 读出机制在 20 MHz/cm2 时的效率超过 99%。结果发现,瓶颈在于读出命中率的速度。由此产生了新的设计思路,改进了 MightyPix2 的读出机制,使其在 30 MHz/cm2 时的效率超过 99%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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