光电二极管传感器阵列读出集成电路中每个检测器单元格的噪声和功率效率源从动器

2021 International Conference on Advances in Technology, Management & Education (ICATME) Pub Date : 2021-01-08 DOI:10.1109/ICATME50232.2021.9732758

Manik, V. Niranjan, R. Saxena

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引用次数: 1

摘要

本文提出了一种用于读出集成电路(ROIC)的接口电路，采用源随动器每检测器(SFD)单元格和电流镜像集成(CMI)，以获得高性能和较低的电路复杂度。就复杂性而言，SFD单元电池是一个很好的选择，因为它只有三个晶体管，复杂性更低。SFD是用于高密度和低功耗roic的简单接口拓扑。SFD单元格的缺点是检测器偏置电压不稳定，使其非线性，增加了输出端的噪声系数。本文提出了结合两个基本单元细胞的接口方法。为了降低输出端的噪声系数，SFD与电流镜像集成单元相连。结果表明，与传统的单晶单晶电池相比，噪声性能提高了约98.93%。仿真结果表明，该电路的功耗降低18.18%。模拟/计算采用了Cadence 180纳米技术。

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Noise and Power efficient source follower per detector unit cell for readout integrated circuits of photodiode sensor arrays

In this work, an interface circuit for readout integrated circuit (ROIC) has been proposed employing source follower per detector (SFD) unit cell and current mirror integration (CMI) in order to have high performance with less circuit complexity. In terms of complexity, SFD unit cell is a good choice because it has three only transistors and less complexity. SFD is a simple interface topology for high density and low power ROICs. The SFD unit cell has disadvantage of instable detector bias voltage that makes it non-linear and increases the noise factor at the output side. The interfaced approach has been proposed here to combine the two basic unit cells. To reduce the noise factor at the output side here SFD is interfaced with the current mirror integration unit cell. It is shown here that the noise performance improves by about 98.93% with respect to the conventional SFD unit cell. The proposed circuit shows 18.18% degradation in power after simulation. Cadence 180 nm technologies have been used for the simulations/calculations.

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2021 International Conference on Advances in Technology, Management & Education (ICATME)

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