DESIGN OF AN INTEGRATED SECURITY SYSTEM FOR DUAL-CHANNEL POTENSIOSTTAT IN THE REDING OF SCREEN PRINTED ELECTRODE ION SENSOR NA+ AND K+ IN BIOSENSOR RESEARCH
This study aims to develop an integrated security system on a dual-channel potentiostat for Na+ and K+ ion sensors in biosensors. The main focus of research is security, including protection from external interference, overvoltage conditions, and CSV data storage. The design of this security syst...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/73628 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | This study aims to develop an integrated security system on a dual-channel
potentiostat for Na+ and K+ ion sensors in biosensors. The main focus of
research is security, including protection from external interference, overvoltage
conditions, and CSV data storage. The design of this security system includes
several main components. First, the casing is specifically designed to protect the
potentiostat from external interference. This casing is made of a material that can
withstand external disturbances that may occur in the laboratory. Furthermore,
this system is equipped with a fail secure feature that aims to overcome
overvoltage conditions. In an overvoltage condition, the system automatically
activates a specially designed protection circuit to protect the internal
components of the potentiostat. This prevents damage from overvoltage surges
and keeps the potentiostat functioning optimally in unusual situations. In addition,
this security system also includes data storage features in CSV file format. The
readings of the Na+ and K+ ion sensors are stored in the popular and easily
accessible CSV format. The CSV format allows data to be arranged in tabular
form with values separated by commas, making it easier to analyze and process
data using various data analysis software compatible with the CSV format. This
data storage feature also pays attention to data security, ensuring the integrity
and confidentiality of the resulting data. This research has resulted in the design
of an effective integrated security system on a dual-channel potentiostat for
reading Na+ and K+ ion sensors. The robust casing protects the potentiostat from
external interference, the fail secure feature protects against overvoltage
conditions, and the data storage feature in CSV format ensures the security and
accessibility of the resulting data. This research makes an important contribution
in the development of safe and reliable potentiostats for biosensor research. The
integrated safety system allows the potentiostat to be used with a high level of
safety, protecting it from external interference and unusual conditions. In
addition, the data storage feature also facilitates the analysis and processing of
data in biosensor research. |
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