The aim of this thesis is to design a sensor based on an Inverted Microstrip line arrangement to investigate the permittivity of liquid characterization. Specifically, it uses S-parameter analysis to study the behavior of liquid under test for a microwave technology operating at the ISM band. The objective also includes realizing the liquid under test (LUT) channel using a 3D printer vat polymerization technology. The simulated data procured will then be compared with the measured data from the prototype.

The aim of this thesis is to design a sensor based on an Inverted Microstrip line arrangement to investigate the permittivity of liquid characterization. Specifically, it uses S-parameter analysis to study the behavior of liquid under test for a microwave technology operating at the ISM band. The objective also includes realizing the liquid under test (LUT) channel using a 3D printer vat polymerization technology. The simulated data procured will then be compared with the measured data from the prototype.

Development of microfluidic sensor adopting Inverted microstrip line technology

BARIK, ARABINDA
2021/2022

Abstract

The aim of this thesis is to design a sensor based on an Inverted Microstrip line arrangement to investigate the permittivity of liquid characterization. Specifically, it uses S-parameter analysis to study the behavior of liquid under test for a microwave technology operating at the ISM band. The objective also includes realizing the liquid under test (LUT) channel using a 3D printer vat polymerization technology. The simulated data procured will then be compared with the measured data from the prototype.
2021
Development of microfluidic sensor adopting Inverted microstrip line technology
The aim of this thesis is to design a sensor based on an Inverted Microstrip line arrangement to investigate the permittivity of liquid characterization. Specifically, it uses S-parameter analysis to study the behavior of liquid under test for a microwave technology operating at the ISM band. The objective also includes realizing the liquid under test (LUT) channel using a 3D printer vat polymerization technology. The simulated data procured will then be compared with the measured data from the prototype.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14239/15032