Conceptual design of the detection chain for the X-IFU on Athena

Space Telescopes and Instrumentation 2020: Ultraviolet to Gamma Ray Pub Date : 2020-12-13 DOI:10.1117/12.2563628

H. Geoffray, S. Bandler, W. Doriese, M. Kirivanta, D. PRELE, L. Ravera, A. Argan, M. Barbera, J. Kuur, B. Leeuwen, H. Weers, R. Hoogeveen, J. Herder, S. Smith, J. Adams, J. Chervenak, M. Durkin, C. Reintsema, J. Ullom, Y. Parot, D. Barret, C. Macculi, L. Piro, F. Brachet, A. Ledot, B. Jackson

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引用次数: 3

Abstract

CNES (French Space Agency) is in charge of the development of the X-IFU instrument for Athena. The main sensor array detection chain sub-system of the X-IFU instrument is one of the major sub-subsystem of the instrument, as the main contributor to the performance. This sub-system involves major partners of the X-IFU instrument, e.g GFSC, SRON, VTT, APC, and IRAP. The purpose of this paper is to present the baseline of the definition of the X-IFU detection chain in the frame at end of phase A/beginning of phase B. The readout is based on Time Domain Multiplexing (TDM). There are strong design issues which couple the different sub-components of the detection chain (the main sensor array, the cold electronics stages, and the warm electronics). The detection chain environment (thermal, mechanical and EMI/EMC environment) also requires a transverse analysis. This paper focuses on those aspects while providing design description of the sub-components of the detection chain.

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雅典娜号上X-IFU探测链的概念设计

法国航天局(CNES)负责为雅典娜开发X-IFU仪器。X-IFU仪器的主传感器阵列检测链子系统是仪器的主要子子系统之一，是仪器性能的主要贡献者。该子系统涉及X-IFU仪器的主要合作伙伴，如GFSC、SRON、VTT、APC和IRAP。本文的目的是在相位A结束/相位b开始的帧中给出X-IFU检测链定义的基线。读出基于时域复用(TDM)。有很强的设计问题耦合检测链的不同子组件(主传感器阵列，冷电子阶段和热电子)。检测链环境(热、机械和EMI/EMC环境)也需要横向分析。本文对这些方面进行了重点研究，并给出了检测链各子组件的设计描述。

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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Space Telescopes and Instrumentation 2020: Ultraviolet to Gamma Ray

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