Time-over-threshold processing implementation for silicon detectors with large capacitances

2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC) Pub Date : 2012-10-01 DOI:10.1109/NSSMIC.2012.6551232

K. Kasinski, R. Kleczek, P. Grybos, R. Szczygiel

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引用次数: 4

Abstract

Modern High Energy Physics experiments require more functionality from the multichannel readout circuits which in conjunction with strict limits on power consumption, area occupation and low noise performance set new requirements in the analog front-end electronics design. We discuss the applicability issues and design challenges of a constant-current discharge time-over-threshold (ToT) processing chain for readout of the large capacitance silicon strip detectors. The conclusions are based on measurement results of two prototype ASICs: TOTOl, TOT02. The revealed non-idealities and issues have been identified and are briefly presented in this paper. Moreover, an idea for charge amplifiaction, measurement and timestamping is proposed as a possible remedy for presented matters. This conception uses two cascaded amplifiers and exploits advantages of two different feedback circuits to eliminate the negative impact of a large detector capacitance on the performance of ToT processing while keeping the power consumption at low level.

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大电容硅探测器的超阈时间处理实现

现代高能物理实验需要多通道读出电路的更多功能，同时严格限制功耗，面积占用和低噪声性能，这对模拟前端电子设计提出了新的要求。我们讨论了用于大电容硅带探测器读出的恒流放电超阈值处理链的适用性问题和设计挑战。这些结论是基于TOTOl、toto02两个原型asic的测试结果得出的。揭示的不理想和问题已经确定，并简要介绍了在本文中。此外，还提出了电荷放大、测量和时间戳的想法，作为对所提出问题的可能补救措施。该概念使用两个级联放大器，并利用两种不同反馈电路的优势，以消除大检测器电容对ToT处理性能的负面影响，同时保持低功耗。

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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2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC)

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