%0 Conference Paper %1 10220416 %A Kumar, Nimal J. %A Johnson, Alexander %A Valsamakis, George %A Gristock, J. Gene %A Roggen, Daniel %A Münzenrieder, Niko %B 2023 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS) %D 2023 %K myown %P 1-4 %R 10.1109/FLEPS57599.2023.10220416 %T A Comparison of High Dielectric Fillers for a Stitchable Flexible Capacitive Sensor %U https://ieeexplore.ieee.org/document/10220416/ %X Flexible capacitive sensors are pervasive across multiple sectors, from healthcare to robotics. Although they offer better linearity and lower hysteresis, they require a large surface area to provide suitable sensitivity. One way of addressing this is through dielectric fillers. However, finding the right amount and type of filler is a challenge: the same material that improves a sensor's sensitivity can also cause detrimental changes in physical parameters. This paper describes how low-cost, high performing dielectric fillers - strontium titanate and barium titanate - can be introduced into Ecoflex to form a soft, sew-able sensor; and presents the concentrations of dielectric materials which offer both a good dielectric response, and the ability to pour the material and form the device. It highlights the advantages of barium titanate - which shows a better percentage dielectric constant increase - unless applications require the use of fine detail or cross-axis strain. The linearity, hysteresis, sensitivity, and cross-axis sensitivity of the resulting flexible, stitch-able sensor are discussed.

@inproceedings{10220416, abstract = {Flexible capacitive sensors are pervasive across multiple sectors, from healthcare to robotics. Although they offer better linearity and lower hysteresis, they require a large surface area to provide suitable sensitivity. One way of addressing this is through dielectric fillers. However, finding the right amount and type of filler is a challenge: the same material that improves a sensor's sensitivity can also cause detrimental changes in physical parameters. This paper describes how low-cost, high performing dielectric fillers - strontium titanate and barium titanate - can be introduced into Ecoflex to form a soft, sew-able sensor; and presents the concentrations of dielectric materials which offer both a good dielectric response, and the ability to pour the material and form the device. It highlights the advantages of barium titanate - which shows a better percentage dielectric constant increase - unless applications require the use of fine detail or cross-axis strain. The linearity, hysteresis, sensitivity, and cross-axis sensitivity of the resulting flexible, stitch-able sensor are discussed.}, added-at = {2023-09-12T14:48:27.000+0200}, author = {Kumar, Nimal J. and Johnson, Alexander and Valsamakis, George and Gristock, J. Gene and Roggen, Daniel and Münzenrieder, Niko}, biburl = {https://www.bibsonomy.org/bibtex/291f86729ae33fd742c438dcf76bc623b/nikomu}, booktitle = {2023 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS)}, doi = {10.1109/FLEPS57599.2023.10220416}, interhash = {42ae83183e21f3299abe4c9fb7406c97}, intrahash = {91f86729ae33fd742c438dcf76bc623b}, issn = {2832-8256}, keywords = {myown}, month = {July}, pages = {1-4}, timestamp = {2023-09-12T14:48:27.000+0200}, title = {A Comparison of High Dielectric Fillers for a Stitchable Flexible Capacitive Sensor}, url = {https://ieeexplore.ieee.org/document/10220416/}, year = 2023 }