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Flexible and Transparent Electrovibration-Based Haptic Display with Low Driving Voltage

Authors
Park, BeomheeChoi, EunsukByun, GaranChoe, GeonohHong, Seong WooYang, HyeonjiLim, JaemanLee, Seung-BeckJung, Yei Hwan
Issue Date
Oct-2024
Publisher
American Chemical Society
Keywords
haptic display; electrovibration; flexibleelectronics; flexible display; haptic interface
Citation
ACS Applied Materials & Interfaces, v.16, no.41, pp 55864 - 55872
Pages
9
Indexed
SCIE
SCOPUS
Journal Title
ACS Applied Materials & Interfaces
Volume
16
Number
41
Start Page
55864
End Page
55872
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197952
DOI
10.1021/acsami.4c11871
ISSN
1944-8244
1944-8252
Abstract
Electrovibration haptic technology, which provides tactile feedback to users by swiping the surface with a finger via electroadhesion, shows promise as a haptic feedback platform for displays owing to its simple structure, ease of integration with existing displays, and simple driving mechanism. However, without electrical grounding on a user's body, the frequent requirement of a high driving voltage near 50 V limits the use of electrovibration haptic technology in practical display applications. This study introduces materials and fabrication strategies that considerably reduce the driving voltage. We used a transparent poly(vinylidene fluoride) (PVDF) thin film deposited on transparent conductive polymers through a simple spin-coating process, thereby enabling easy integration with existing display technologies. The high dielectric constant characteristics of PVDF enabled the production of tactile cues at low voltages (approximately 15 V), which are within the safety limits of common electronics. We verified the feasibility of our electrovibration haptic feedback system on the basis of the absolute threshold voltage through two-alternative forced choice psychological tests. The results revealed that the PVDF dielectric layer exhibited a relatively lower absolute threshold than commonly used polymer films, which possess a relatively lower dielectric constant. To validate the tactile attributes, a Likert five-point scale survey was conducted, considering flat, concave, and convex curvatures. The results indicated that our haptic device can render diverse surface textures, such as "hairy" and "groovy", on the fingertips through the control of applied pulse width modulated voltage signals.
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