HL-LHC ATLAS条形端盖母线带设计

F. Carrió, J. Bernabeu, V. Cindro, A. Gorišek
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引用次数: 0

摘要

ATLAS ii阶段升级将用一个新的全硅内部跟踪器(ITk)取代内部探测器,以适应高亮度LHC (HL-LHC)预期的辐射损伤和轨迹密度。用于HL-LHC的全硅ITk由5个筒状层和多个小半径正向磁盘的像素探测器和最外层4个筒状层和每侧6个端盖磁盘的条带跟踪探测器组成。这一贡献提出了柔性电路(总线磁带)的设计,用于条带检测器的端帽区域的局部支撑结构,称为花瓣。总线磁带为所有车载子系统提供通用业务的电气接口,包括电源、控制和数据接口。与花瓣外部服务的连接是通过使用光纤和铜线的结构末端(EoS)卡进行的。该母线带采用聚酰亚胺和粘性卡普顿薄膜制成2层印刷电路板,总厚度为185 μm,总长度为60 cm。布局设计的重点是实现良好的信号和功率完整性,同时保持低质量和低热阻。在2021年至2022年期间,总共需要768个端盖总线磁带,以生产384个花瓣和6,912个模块,其中每个端盖磁盘将由32个花瓣组成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of Bus Tapes for the ATLAS Strip End-Cap at the HL-LHC
The ATLAS Phase-II Upgrade will replace the Inner detector with a new all-silicon Inner Tracker (ITk) to accommodate the radiation damage and track density expected at the High-Luminosity LHC (HL-LHC). The all-silicon ITk for the HL-LHC consists of a pixel detector with 5 barrel layers and multiple forward disks at a small radius, and a strip tracking detector at the outermost part with 4 barrel layers and 6-end-cap disks on each side. This contribution presents the design of the flexible circuit (bus tape) for the local support structures of the end-cap region of the strip detector, called petals. The bus tapes provide the electrical interface to common services for all the on-board subsystems including power, control and data interfaces. Connections to external services outside of the petals are carried out through the End-of-Structure (EoS) card using optical fibres and copper wires. The bus tapes are manufactured as a 2-layer printed circuit board using polyimide and adhesive Kapton films, with a total thickness of 185 μm and a total length of 60 cm. The layout design has been focused on achieving good signal and power integrity while keeping low mass and low thermal resistance. A total of 768 end-cap bus tapes are needed between 2021 and 2022 for the production of 384 petals with 6,912 modules, where each end-cap disk will consist of 32 petals.
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