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A CMOS self-powered front-end archit...

Colomer-Farrarons, Jordi.

A CMOS self-powered front-end architecture for subcutaneous event-detector devices :three-electrodes amperometric biosensor approach /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
杜威分類號:	610.28/4
書名/作者:	A CMOS self-powered front-end architecture for subcutaneous event-detector devices : : three-electrodes amperometric biosensor approach // Jordi Colomer-Farrarons, Pere Lluís Miribel-Català.
作者:	Colomer-Farrarons, Jordi.
其他作者:	Miribel-Català, Pere Lluís.
出版者:	Dordrecht : : Springer,, c2011.
面頁冊數:	xi, 163 p. : : ill. ;; 24 cm.
標題:	Biosensors.
標題:	Metal oxide semiconductors, Complementary.
ISBN:	9789400706859 (hbk.) :
ISBN:	9400706855 (hbk.)
ISBN:	9789400706866 (eISBN)
ISBN:	9400706863 (eISBN)
書目註:	Includes bibliographical references.
內容註:	Energy Harvesting in Human and Non-Human Activities -- BioSensors -- Circuits for Three Electrodes BioSensors -- Energy Harvesting (Multi Harvesting Power Chip) : Multi Harvesting Power Chip (MHPC) -- Solar and Inductive Power Harvesting -- Piezoelectric Harvesting -- Biomedical Integrated Instrumentation : General Introduction to Biomedical Instrumentation -- Electrochemical Biosensors -- Potentiostat (Sensor Instrumentation) -- Low-Frequency Lock-In Amplifier -- Biotelemetry for Implanted Devices -- CMOS Front-End Architecture for In-Vivo Biomedical Subcutaneous Detection Devices : Front-End General Architecture -- Prototypes Design and Results.
摘要、提要註:	"A CMOS Self-Powered Front-End Architecture for Subcutaneous Event-Detector Devices presents the conception and prototype realization of a Self-Powered architecture for subcutaneous detector devices. The architecture is designed to work as a true/false (event detector) or threshold level alarm of some substances, ions, etc. that are detected through a three-electrodes amperometric BioSensor approach. The device is conceived as a Low-Power subcutaneous implantable application powered by an inductive link, one emitter antenna at the external side of the skin and the receiver antenna under the skin. The sensor is controlled with a Potentiostat circuit and then, a post-processing unit detects the desired levels and activates the transmission via a backscattering method and the inductive link. All the instrumentation, except the power module, is implemented in the so called BioChip. Following the idea of the powering link to harvest energy of the magnetic induced link at the implanted device, a Multi-Harvesting Power Chip (MHPC) has been also designed"--Book jacket.

A CMOS self-powered front-end architecture for subcutaneous event-detector devices :three-electrodes amperometric biosensor approach /
Colomer-Farrarons, Jordi.

A CMOS self-powered front-end architecture for subcutaneous event-detector devices :three-electrodes amperometric biosensor approach /Jordi Colomer-Farrarons, Pere Lluís Miribel-Català. - Dordrecht :Springer,c2011. - xi, 163 p. :ill. ;24 cm.

Includes bibliographical references.

Energy Harvesting in Human and Non-Human Activities -- BioSensors -- Circuits for Three Electrodes BioSensors -- Energy Harvesting (Multi Harvesting Power Chip) : Multi Harvesting Power Chip (MHPC) -- Solar and Inductive Power Harvesting -- Piezoelectric Harvesting -- Biomedical Integrated Instrumentation : General Introduction to Biomedical Instrumentation -- Electrochemical Biosensors -- Potentiostat (Sensor Instrumentation) -- Low-Frequency Lock-In Amplifier -- Biotelemetry for Implanted Devices -- CMOS Front-End Architecture for In-Vivo Biomedical Subcutaneous Detection Devices : Front-End General Architecture -- Prototypes Design and Results.

"A CMOS Self-Powered Front-End Architecture for Subcutaneous Event-Detector Devices presents the conception and prototype realization of a Self-Powered architecture for subcutaneous detector devices. The architecture is designed to work as a true/false (event detector) or threshold level alarm of some substances, ions, etc. that are detected through a three-electrodes amperometric BioSensor approach. The device is conceived as a Low-Power subcutaneous implantable application powered by an inductive link, one emitter antenna at the external side of the skin and the receiver antenna under the skin. The sensor is controlled with a Potentiostat circuit and then, a post-processing unit detects the desired levels and activates the transmission via a backscattering method and the inductive link. All the instrumentation, except the power module, is implemented in the so called BioChip. Following the idea of the powering link to harvest energy of the magnetic induced link at the implanted device, a Multi-Harvesting Power Chip (MHPC) has been also designed"--Book jacket.

ISBN: 9789400706859 (hbk.) :NTD 3,948

LCCN: 2011922058

Nat. Bib. Agency Control No.: 101599955DNLMSubjects--Topical Terms:

366908
Biosensors.

LC Class. No.: R857.B54 / C65 2011

Dewey Class. No.: 610.28/4

A CMOS self-powered front-end architecture for subcutaneous event-detector devices :three-electrodes amperometric biosensor approach /
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