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Conception et Implémentation d'un Stimulateur Multi-Canal pour les Dispositifs Microfluidiques

This dissertation presents the design and implementation of a 16-channel sinusoidal generator to stimulate microfluidic devices that use electrokinetic forces to manipulate particles. The generator has both, independent frequency and independent amplitude control for each channel. The stimulation system is based upon a CMOS application specific (ASIC) device developed using 0.35μm technology. Several generator techniques were compared based on frequency range, total harmonic distortion (THD), and on-chip area. The best alternative for the microfluidic applications is based in a triangle-to-sine converter and presents a frequency range of 8kHz to 21MHz, an output voltage range of 0V to 3.1VPP , and a maximum THD of 5.11%. The fabricated device, has a foot-print of 1560μm×2030μm. The amplitude of the outputs is extended using an interface card, achieving voltages of 0V to 15VPP . The generator functionality was tested by performing an experimental set-up with particle trapping. The set-up consisted of a mi-cromachined channel with embedded electrodes configured as two electrical ports located at different positions along the channel. By choosing specific amplitude and frequency values from the generator, different particles suspended in a fluid were simultaneously trapped at different ports. The multichannel stimulator presented here can be used in many microfluidic experiments and devices where particle trapping, separation and characterization is desired.

Identiferoai:union.ndltd.org:CCSD/oai:tel.archives-ouvertes.fr:tel-00662414
Date10 October 2011
CreatorsGomez Quiñones, José Isabel
PublisherUniversité de Grenoble
Source SetsCCSD theses-EN-ligne, France
LanguageEnglish
Detected LanguageEnglish
TypePhD thesis

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