Sensors | |
Validation of Screen-Printed Electronic Skin Based on Piezoelectric Polymer Sensors | |
Hoda Fares1  Maurizio Valle1  Lucia Seminara1  Yahya Abbass1  | |
[1] Department of Naval, Electrical, University of Genoa, Electrical, Electronic and Telecommunications Engineering, via Opera Pia 11A, 16145 Genoa, Italy; | |
关键词: p(vdf-trfe) sensors; screen printed sensor technology; technology validation; electronic skin; skin characterization; tactile sensing; prosthetics; | |
DOI : 10.3390/s20041160 | |
来源: DOAJ |
【 摘 要 】
This paper proposes a validation method of the fabrication technology of a screen-printed electronic skin based on polyvinylidene fluoride-trifluoroethylene P(VDF-TrFE) piezoelectric polymer sensors. This required researchers to insure, through non-direct sensor characterization, that printed sensors were working as expected. For that, we adapted an existing model to non-destructively extract sensor behavior in pure compression (i.e., the d33 piezocoefficient) by indentation tests over the skin surface. Different skin patches, designed to sensorize a glove and a prosthetic hand (11 skin patches, 104 sensors), have been tested. Reproducibility of the sensor response and its dependence upon sensor position on the fabrication substrate were examined, highlighting the drawbacks of employing large A3-sized substrates. The average value of d33 for all sensors was measured at incremental preloads (1−3 N). A systematic decrease has been checked for patches located at positions not affected by substrate shrinkage. In turn, sensor reproducibility and d33 adherence to literature values validated the e-skin fabrication technology. To extend the predictable behavior to all skin patches and thus increase the number of working sensors, the size of the fabrication substrate is to be decreased in future skin fabrication. The tests also demonstrated the efficiency of the proposed method to characterize embedded sensors which are no more accessible for direct validation.
【 授权许可】
Unknown