Kehl Florian, Cretu Vlad F, Willis Peter A
NASA Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA 91109, USA.
Innovation Cluster Space and Aviation (UZH Space Hub), Air Force Center, University of Zurich, 8600 Dübendorf, Switzerland.
HardwareX. 2021 Sep 17;10:e00229. doi: 10.1016/j.ohx.2021.e00229. eCollection 2021 Oct.
Here we describe a completely integrated and customizable microfluidic control and sensing architecture that can be readily implemented for laboratory or portable chemical or biological control and sensing applications. The compact platform enables control of 32 solenoid valves, a multitude of pumps and motors, a thermo-electric controller, a pressure controller, and a high voltage power supply. It also features two temperature probe interfaces, one relative humidity and ambient temperature sensor, two pressure sensors, and interfaces to an electrical conductivity sensor, flow sensor, and a bubble detector. The platform can be controlled via an onboard microcontroller and requires no proprietary software.
在此,我们描述了一种完全集成且可定制的微流体控制与传感架构,该架构可轻松应用于实验室或便携式化学或生物控制与传感应用。这个紧凑的平台能够控制32个电磁阀、多个泵和电机、一个热电控制器、一个压力控制器以及一个高压电源。它还具备两个温度探头接口、一个相对湿度和环境温度传感器、两个压力传感器,以及与电导率传感器、流量传感器和气泡探测器的接口。该平台可通过板载微控制器进行控制,无需专有软件。
