In this chapter we review the architecture of a non-invasive, continuous blood glucose monitoring system, based on dielectric spectroscopy. In particular we design the electrical circuit, the schematic and the PCB of a mixed signal system working in a frequency range 1 MHz – 160 MHz, where the best performances in terms of electrical changes in the blood can be achieved. The proposed architecture allows to acquire easily the dependence on frequency for both amplitude and phase of the dielectric constant from which the glucose levels in blood is estimated.

Design of a Blood Glucose Sensor based on Impedance Spectroscopy / Marani, Roberto; Gelao, Gennaro; Perri, Anna Gina. - STAMPA. - (2013), pp. 53-68.

Design of a Blood Glucose Sensor based on Impedance Spectroscopy

Roberto Marani;Gennaro Gelao;Anna Gina Perri
2013-01-01

Abstract

In this chapter we review the architecture of a non-invasive, continuous blood glucose monitoring system, based on dielectric spectroscopy. In particular we design the electrical circuit, the schematic and the PCB of a mixed signal system working in a frequency range 1 MHz – 160 MHz, where the best performances in terms of electrical changes in the blood can be achieved. The proposed architecture allows to acquire easily the dependence on frequency for both amplitude and phase of the dielectric constant from which the glucose levels in blood is estimated.
2013
Advanced Research in Electronics for Biomedical Applications
978-81-308-0514-6
Research Signpost
Design of a Blood Glucose Sensor based on Impedance Spectroscopy / Marani, Roberto; Gelao, Gennaro; Perri, Anna Gina. - STAMPA. - (2013), pp. 53-68.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/12308
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