高精度乒乓式自动归零锁定荧光光度传感器

Vahid Khojasteh Lazarjan;Marie-Ève Crochetière;Mehdi Noormohammadi Khiarak;Saeed Ghaneei Aarani;Seyedeh Nazila Hosseini;Gabriel Gagnon-Turcotte;Pierre Marquet;Benoit Gosselin
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摘要

本文介绍了一种高精度 CMOS 荧光光度传感器,它采用了基于开关偏置和乒乓自动归零技术的新型锁相放大方案。CMOS 传感器包括两个光电二极管和一个工作频率为 1 kHz 的锁相放大器 (LIA)。LIA 包括一个采用新型开关偏压乒乓自动归零方案的差分低噪声放大器、一个自动相位校准器、一个可编程增益放大器、一个带通滤波器、一个混频器和一个输出低通滤波器。该设计采用 0.18-µm CMOS 工艺制造,测量结果表明,LIA 能够以 42 dB 的动态储备检索噪声输入信号,而 1.8 V 电源电压的功耗仅为 0.7 mW。测量结果表明,LIA 可以检测从 8 nW 到 24 µW 的各种入射光功率。拟议的设计封装在 3D 打印外壳中,可进行实时体外生物标记检测。该流动平台使用 LED 和光纤将激发光传送到样品并获取荧光信号。用在 PBS 中稀释的珠子溶液进行的实验表明,传感器的灵敏度为 1:100 k。用标记了膜染料的 NIH3T3 小鼠细胞进行的体外实验结果表明,原型能够检测不同密度的细胞培养物。便携式原型包括光学滤波器和一块 30 mm × 36 mm × 30 mm 的小型印刷电路板,封装在 3D 打印外壳内,功耗为 36.7 mW,重量为 120 g。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High Precision Ping-Pong Auto-Zeroed Lock-in Fluorescence Photometry Sensor
This paper presents a high-precision CMOS fluorescence photometry sensor using a novel lock-in amplification scheme based on switched-biasing and ping-pong auto-zeroing techniques. The CMOS sensor includes two photodiodes and a lock-in amplifier (LIA) operating at 1 kHz. The LIA comprises a differential low-noise amplifier using a novel switched-biasing ping-pong auto-zeroed scheme, an automatic phase aligner, a programmable gain amplifier, a band-pass filter, a mixer, and an output low-pass filter. The design is fabricated in 0.18-µm CMOS process, and the measurement shows that the LIA can retrieve noisy input signals with a dynamic reserve of 42 dB, while consuming only 0.7 mW from a 1.8 V supply voltage. The measured results show that the LIA can detect a wide range of incident light power from 8 nW to 24 µW. The proposed design is encapsulated in a 3D-printed housing allowing for real-time in vitro biomarker detection. This ambulatory platform uses an LED and a fiber optic to convey the excitation light to the sample and retrieve the fluorescence signal. Experiments with a beads solution diluted in PBS demonstrate that the sensor has a sensitivity of 1:100 k. Experimental results obtained in vitro with NIH3T3 mouse cells tagged with membrane dye show the ability of the prototype to detect different densities of cell culture. The portable prototype, which includes optical filters and a small 30 mm × 36 mm × 30 mm printed circuit board enclosed inside the 3D-printed housing, consumes 36.7 mW and weighs 120 g.
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