Wireless Powered Dielectric Elastomer Actuator

Abstract

The need for cable connection with soft robotic systems suppresses the benefits granted by their softness and flexibility. Such systems can be untethered by equipping batteries or by relying on non-electrical actuation mechanisms. However, these approaches cannot simultaneously support long-term and intelligent operations. This research examines a proposed wireless soft actuator based on wireless power transfer\xa0(WPT) and dielectric elastomer actuator\xa0(DEA) technology, thereby realizing soft robomore diversified application and long-term locomotion. A compact conical DEA fabrication process is presented with 6\xa0mm periodic linear output and design of a lightweight WPT receiver that weighs only 13\xa0g integrated with a driver circuit. Evaluation results show that this system remotely powers the DEA and the intelligent peripheral circuits for system control. Furthermore, our design seamlessly bridges the WPT system, power-efficient in low-voltage output conditions, and the DEA, which requires high-voltage input (kV) for deformation, by leveraging high-voltage boost-converters. Experimentally obtained results demonstrate untethered DEA operation at 170\xa0mm from the transmitter. Also, we demonstrated applying this DEA as a wireless pump.