서로 다른 임계압력을 가지는 디지털 밸브가 설치된 제어라인을 이용한 3진 유체분배기A Ternary Microfluidic Multiplexer using Control Lines with Digital Valves of Different Threshold Pressures
We present a ternary microfluidic multiplexer unit, capable to address three flow channels using a pair of control lines with two different threshold pressure valves. The previous binary multiplexer unit addresses only two flow channels using a pair of control line with identical threshold pressure valves, thus addressing 2n/2 flow channels using n control lines. The present ternary multiplexer addressing three flow channels using a pair of control lines, however, is capable to address 3n/2 flow channels using n control lines with two different threshold pressure valves. In the experimental study, we characterized the threshold pressure and the response time of the valves used in the ternary multiplexer. From the experimental observation, we also verified that the present ternary multiplexer unit could be operated by two equivalent valve operating conditions: the different static pressures and dynamic pressures at different duty ratio. And then, 3 × 3 well array stacking ternary multiplexers in serial is addressed in cross and plus patterns, thus demonstrating the individual flow channel addressing capability of the ternary multiplexer. Thus, the present ternary multiplexer reduces the number of control lines for addressing flow channels, achieving the high well control efficiency required for simple and compact microfluidic systems.