Title :
A planar micropump utilizing thermopneumatic actuation and in-plane flap valves
Author :
Zimmermann, S. ; Frank, J.A. ; Liepmann, D. ; Pisano, Albert P.
Author_Institution :
Berkeley Sensor & Actuator Center, California Univ., Berkeley, CA, USA
Abstract :
The micropump presented in this paper demonstrates advancements made both in performance and fabrication over most existing mechanical micropumps. The pump is planar and fabricated using a wafer-level, four-mask process, making it attractive for integration into micro total-analysis systems. Its design utilizes thermopneumatic actuation and two in-plane flap valves with fluidic-resistance ratios greater than 1300 to reach maximum pressures of 16 kPa and maximum flow rates of 9 μL/min at an average power consumption of 180 mW (20% duty cycle, 10 Hz). Pressures as high as 20.2 kPa were achieved at an average power consumption of 200 mW (20% duty cycle, 5 Hz). This performance is better than most micropumps utilizing in-plane or out-of-plane valves.
Keywords :
masks; microactuators; microfluidics; micropumps; microvalves; pneumatic actuators; 10 Hz; 16 kPa; 180 mW; 20.2 kPa; 200 mW; 5 Hz; flow rate; fluidic-resistance ratios; inplane flap valves; mask process; micro total analysis systems; planar micropump; power consumption; thermopneumatic actuation; Drug delivery; Energy consumption; Fabrication; Heat pumps; Heating; Micropumps; Pistons; Platinum; Valves; Wafer bonding;
Conference_Titel :
Micro Electro Mechanical Systems, 2004. 17th IEEE International Conference on. (MEMS)
Print_ISBN :
0-7803-8265-X
DOI :
10.1109/MEMS.2004.1290622
