Title :
Micro Electro Thermo Fluidic (METF) liquid microprocessor
Author :
Kaartinen, Niilo
Author_Institution :
Fuilogic Syst. OY, Espoo, Finland
Abstract :
A liquid microprocessor concept based on a new actuator principle is introduced for a true automation of liquid handling in chemical analysis. Silicon microvalves do not satisfy the requirements of an absolute leaktightness, a zero functional dead volume, particle tolerance and reliability providing unlimited working life which requirements are met with Micro Electro Thermo Fluidic (METF) valves. Other beneficial features are no moving part reliability, very small size in comparison to flow resistance, noncontact sensing of valve position. METF actuator principle is a phase change between liquid and solid within the controlled liquid itself, thus requiring extra costs, a special heat sink. Liquid microprocessor architecture utilizes partition of functions for reliable integration. The five logic positions of METE valves form a “microcode” for simple programming of liquid processing steps. Hydraulic liquid dispensing in METF liquid processor eliminates surface tension errors and makes possible nanoliter liquid processing. The high reliability of hermetic liquid processing functions and inherent sensing and control of each METE step opens a true miniaturization and automation potential for chemical and biochemical analysis
Keywords :
chemical analysis; chemical sensors; electrohydraulic control equipment; flow control; fluidic devices; heat sinks; microactuators; micropumps; temperature control; valves; MEMS; absolute leaktightness; biochemical analysis; chemical analysis; electroforming; heat sink; hermetic liquid processing functions; hydraulic liquid dispensing; inherent sensing; liquid channel; liquid handling automation; liquid microprocessor concept; liquid switching gate; liquid-solid phase change; mechanisation; micro electro thermo fluidic valve; microcode; micropumps; microvalves; miniaturization; nanolitre liquid processing; noncontact sensing; particle tolerance; reliability; simple programming; thermally controlled; valve logic; valve position; zero functional dead volume; Actuators; Automation; Chemical analysis; Fluidic microsystems; Logic programming; Microfluidics; Microprocessors; Microvalves; Silicon; Valves;
Conference_Titel :
Micro Electro Mechanical Systems, 1996, MEMS '96, Proceedings. An Investigation of Micro Structures, Sensors, Actuators, Machines and Systems. IEEE, The Ninth Annual International Workshop on
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-2985-6
DOI :
10.1109/MEMSYS.1996.494014
