Title :
A field-programmable pin-constrained digital microfluidic biochip
Author :
Grissom, Daniel ; Brisk, Philip
Author_Institution :
Dept. of Comput. Sci. & Eng., Univ. of California, Riverside, Riverside, CA, USA
fDate :
May 29 2013-June 7 2013
Abstract :
As digital microfluidic biochips (DMFBs) have matured over the last decade, efforts have been made to 1.) reduce the cost, and 2.) produce general-purpose chips. While work done to generalize DMFBs typically depends on the flexibility of individually controlled electrodes, such devices have high wiring complexity, which requires costly multi-layer printed circuit boards (PCBs). In contrast, pin-constrained DMFBs reduce the wiring complexity, but reduce the flexibility of droplet coordination. We present a field-programmable pin-constrained DMFB that leverages the cost-savings of pin-constrained designs, but is general-purpose, rather than assay-specific. We show that with just a few more pins than the state-of-the-art pin-constrained designs, we can execute arbitrary assays almost as fast as the most recent general-purpose DMFB designs.
Keywords :
biomedical electrodes; biomedical electronics; lab-on-a-chip; microelectrodes; microfluidics; cost reduction; droplet coordination flexibility reduction; field-programmable pin-constrained DMFB; field-programmable pin-constrained digital microfluidic biochip; general-purpose DMFB design; general-purpose chips; multilayer PCB; multilayer printed circuit boards; pin-constrained design; wiring complexity; Arrays; Electrodes; Microfluidics; Pins; Reservoirs; Routing; Topology; Digital Microfluidic Biochip (DMFB); Field-Programmable; Laboratory-on-Chip (LoC); Pin-Constrained;
Conference_Titel :
Design Automation Conference (DAC), 2013 50th ACM/EDAC/IEEE
Conference_Location :
Austin, TX
