A Thermal Cycler based on Solid-state Active Heat Pump and PID Control Algorithm toward Biomedical Applications

Loc Xuan Pham, T. Bui, T. D. Chu
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Abstract

The demand for a compact, easy-to-use and precise thermal cycler is always extremely high in biomedical field due to the decisive role of temperature in determining the accuracy of many biomedical applications. In this study, a new design of thermal cycler is proposed to improve the ease of manipulation as well as production process while maintaining the required accuracy of temperature handling. Specifically, a semiconductor component called Peltier is utilized as the main heat generation source in this work, which offers an operation range of 15-80°C. As Peltier has already been mass produced in the market and gained its popularity by appearing in many home appliances, the production cost and time could be minimized. Additionally, by applying the PID control algorithm, the accuracy of the proposed system could be maintained (maximum variation within 1°C in case of Isothermal Amplification and 2°C in case of Temperature Cycling Amplification) as compared with other thermal cyclers with sophisticated heating technology. The thermal cycler proposed in this work is expected to be further developed to be integrated into the microfluidic chip for rapid virus detection applications.
基于固态主动热泵和PID控制算法的生物医学应用热循环器
由于温度在确定许多生物医学应用的准确性方面起着决定性作用,因此对紧凑,易于使用和精确的热循环器的需求在生物医学领域总是非常高。在本研究中,提出了一种新的热循环器设计,以提高操作的便利性和生产过程,同时保持所需的温度处理精度。具体来说,在这项工作中,一个名为Peltier的半导体组件被用作主要的发热源,它提供了15-80°C的工作范围。由于Peltier已经在市场上大量生产,并在许多家电产品中得到了普及,因此可以最大限度地降低生产成本和时间。此外,与其他具有复杂加热技术的热循环器相比,通过应用PID控制算法可以保持系统的精度(等温放大时最大变化在1°C以内,温度循环放大时最大变化在2°C以内)。本工作提出的热循环器有望进一步发展,以集成到微流控芯片中,用于快速检测病毒。
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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