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Development of Signal Conditioning System for Biosensor Applications


Affiliations
1 Central Manufacturing Technology Institute, Bangalore, India
     

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This signal conditioning circuit design is a micro-power, three terminal electrochemical cell amplifier that uses less than 1-μA total supply current for battery-powered or energy-harvested sensor applications. Electrochemical cells necessitate constant bias, which requires the amplifier circuit to be powered continuously to eliminate sensor start-up and settling times. The design is assembled on a dotted board compatible with the development Kit platform to allow testing with an MSP430 ultra-low-power processor to utilize the launchpad processor analog to digital converters (ADCs) and liquid crystal display (LCD) for stand-alone operation. The whole design consideration is done after taking into consideration of three-terminal screen printed electrode that can have several applications as verified by experimentations and results. The design can be used for agricultural applications as a wide range of sensor current has been taken into design consideration. This needs simple modification based on sensitivity and response time of sensor.

Keywords

MSP430, Op-Amp, Screen Printed Electrode, Trans-Impedance Amplifier, Potentiostat, Current Source.
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  • Development of Signal Conditioning System for Biosensor Applications

Abstract Views: 203  |  PDF Views: 0

Authors

Prabhat Ranjan
Central Manufacturing Technology Institute, Bangalore, India
S. Harsha
Central Manufacturing Technology Institute, Bangalore, India
Megha Agrawal
Central Manufacturing Technology Institute, Bangalore, India

Abstract


This signal conditioning circuit design is a micro-power, three terminal electrochemical cell amplifier that uses less than 1-μA total supply current for battery-powered or energy-harvested sensor applications. Electrochemical cells necessitate constant bias, which requires the amplifier circuit to be powered continuously to eliminate sensor start-up and settling times. The design is assembled on a dotted board compatible with the development Kit platform to allow testing with an MSP430 ultra-low-power processor to utilize the launchpad processor analog to digital converters (ADCs) and liquid crystal display (LCD) for stand-alone operation. The whole design consideration is done after taking into consideration of three-terminal screen printed electrode that can have several applications as verified by experimentations and results. The design can be used for agricultural applications as a wide range of sensor current has been taken into design consideration. This needs simple modification based on sensitivity and response time of sensor.

Keywords


MSP430, Op-Amp, Screen Printed Electrode, Trans-Impedance Amplifier, Potentiostat, Current Source.