A Capacitive-Type Novel Six-Axis Force/Torque Sensor for Robotic Applications
Dong‐Hyuk LeeUikyum KimHosang JungHyouk Ryeol Choi
Abstract
This paper presents an innovative design of a six-axis force/torque sensor, which enables ease of manufacturing, cost reduction, and ruggedness in operation. The advantages are realized by simplifying the structure of the sensor and reducing manual labor during the manufacturing process. In order to achieve a simple sensor structure, we propose a capacitive-type force sensing scheme in which the sensing elements are aligned in-plane. By using this method, all the sensing elements can be fabricated on single printed circuit board, and thus, manual tasks, such as bonding and coating the sensing elements, can be eliminated. In order to verify the feasibility of the idea, a prototype six-axis force/torque sensor was manufactured, and its performances were evaluated. The characteristics of the prototype are analyzed in terms of condition number, static response, time domain response, hysteresis, repeatability, and time drift.
Metrics
Citation History
Topics
Related Documents
A Novel Six-Axis Force/Torque Sensor for Robotic Applications
Uikyum KimDong‐Hyuk LeeYong Bum KimDong-Yeop SeokHyouk Ryeol Choi
A novel capacitive type torque sensor for robotic applications
Yong Bum KimUikyum KimDong-Yeop SeokJinho SoHyouk Ryeol Choi
Design of novel capacitive type torque sensor for robotic applications
Yong Bum KimUikyum KimDong-Yeop SeokJinho SoHyouk Ryeol Choi
Six-axis capacitive force/torque sensor based on dielectric elastomer
Dae-Gyeong KimChoong Han LeeBaek Chul KimDong Hyuck LeeHyung Suk LeeCanh Toan NguyenUi Kyum KimTien Dat NguyenHyungpil MoonJa Choon KooJae‐Do NamHyouk Ryeol Choi
Six-Axis Column-Type Force and Moment Sensor for Robotic Applications
Ismael PayoJosé Miguel AdánezDavid Rodríguez-RosaRaúl FernándezAndrés S. Vázquez