辐射能量测量集成电路原型,带有异步电流脉冲复位块,可在 28 纳米 CMOS 中进行模数转换

P. Kaczmarczyk, P. Kmon
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引用次数: 0

摘要

本文介绍了一种以 28 纳米 CMOS 工艺制造的辐射能量测量集成电路(REMIC)原型。该芯片采用单光子计数(SPC)模式,包含 100 个像素,尺寸为 50 μm × 50 μm。其设计目的是利用异步模数转换进行精确的能量测量。所提出的结构允许在每个像素中独立执行快速信号处理和入射光子的精确能量测量,并占用较小的像素面积。集成电路 (IC) 的尺寸为 1.1 毫米 × 1.1 毫米,目前正在进行初步测量。本文重点介绍了用于减少每个记录通道的工艺变化的方法。
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A prototype Radiation Energy Measuring Integrated Circuit with an asynchronous current-pulse reset block providing analog-to-digital conversion in 28 nm CMOS
In this paper we introduce a prototype Radiation Energy Measuring Integrated Circuit (REMIC) fabricated in a 28 nm CMOS process. The chip operates in a single-photon counting (SPC) mode and contains 100 pixels with a size of 50 μm × 50 μm. It is designed for precise energy measurements using asynchronous analogue-to-digital conversion. The proposed architecture allows both fast signal processing and precise energy measurement of incoming photons to be performed independently in each pixel, occupying a small pixel area. The integrated circuit (IC) has dimensions of 1.1 mm × 1.1 mm and is currently undergoing preliminary measurements. The paper focuses on the methodology used to mitigate process variations in each of the recording channels.
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