Design, Fabrication, and Optimization of a Printed Ag Nanoparticle-Based Flexible Capacitive Sensor for Automotive IVI Bezel Display Applications

Design, Fabrication, and Optimization of a Printed Ag Nanoparticle-Based Flexible Capacitive Sensor for Automotive IVI Bezel Display Applications

Since printed capacitive sensors provide better sensing performance, they can be used in automotive bezel applications. It is necessary to fabricate such sensors and apply an optimization approach for choosing the optimal sensor pattern. In the present work, an effort was made to formulate interdigi...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 23; no. 9; p. 4211
Main Authors: Palanisamy, Srinivasan, Thangaraj, Muthuramalingam, Moiduddin, Khaja, Alkhalefah, Hisham, Karmiris-Obratański, Panagiotis, Chin, Cheng Siong
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 23-04-2023
MDPI
Subjects:
Automobile industry
bezel
Capacitance
Cost control
Design
Design optimization
Electrodes
Electronics
Flexibility
Flexible components
Interpolation
Manufacturing costs
Mathematical optimization
Nanoparticles
Optimization
printed sensors
Production costs
Receivers & amplifiers
Screen printing
Sensors
Silver
Technology application
Vehicles
India
bezel
optimization
Ag
printed sensors
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Summary:Since printed capacitive sensors provide better sensing performance, they can be used in automotive bezel applications. It is necessary to fabricate such sensors and apply an optimization approach for choosing the optimal sensor pattern. In the present work, an effort was made to formulate interdigitated pattern-printed Silver (Ag) electrode flexible sensors and adopt the Taguchi Grey Relational (TGR)-based optimization approach to enhance the flexible sensor's panel for enhanced automobile infotainment applications. The optimization technique was performed to derive better design considerations and analyze the influence of the sensor's parameters on change in capacitance when touched and production cost. The fabricated flexible printed sensors can provide better sensing properties. A design pattern which integrates an overlap of 15 mm, an electrode line width of 0.8 mm, and an electrode gap 0.8 mm can produce a higher change in capacitance and achieve a lower weight. The overlap has a greater influence on sensor performance owing to its optimization of spatial interpolation.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s23094211