Development of microcontroller based potentiometric indicator system using surface mount component / Mohd Firdaus Abdullah

The thesis reported the development of microcontroller based potentiometric indicator system using surface mount component. Methods based on salivary amylase activity to quantify the psychological stress have reported successes. There was a need for a non-invasive method to assist the individual in...

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Bibliographic Details
Main Author: Abdullah, Mohd Firdaus
Format: Thesis
Language:English
Published: 2012
Subjects:
Online Access:https://ir.uitm.edu.my/id/eprint/54177/1/54177.pdf
https://ir.uitm.edu.my/id/eprint/54177/
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Summary:The thesis reported the development of microcontroller based potentiometric indicator system using surface mount component. Methods based on salivary amylase activity to quantify the psychological stress have reported successes. There was a need for a non-invasive method to assist the individual in monitoring stress since stress is now the leading cause of diseases. The purpose of this research was to develop of microcontroller based potentiometric indicator system for a salivary biosensor using surface mount component. The purpose system involved the integration between hardware and software subsystem. For hardware subsystem, the design of potentiometric circuit was tested with theoretical computation, simulation on P-spice software and breadboard circuit. Then, the design was fabricated for printed circuit board and surface mount technology. This finding was then used to develop interface for the analog-to-digital converter. For software subsystem, the stress level indicator system has been developed using PIC 16F873 by converting the output from potentiometric circuit into stress level with a look-up table based on fuzzy rule sets for measuring human stress. It computes the digital data conversion into desired reading and displays data through the second hardware subsystem which is liquid crstal display. A potentiometric indicator for a piezoresistive MEMS biosensor to detect human stress was developed. It was comprised of a potentiometric transduction stage, filtering stage and linearization stage. From the experiment, it was shown that the potentiometric indicator designed was able to report changes in the amount of glucose in a different solution. The integration of the piezoresistive microcantilever biosensor with the potentiometric indicator system will have a significant impact on the practice of sensor integration with circuit minitarization.