Pressure influences everything from the comfort of your glasses to the precision of a robotic gripper. Dr. Jae Son, founder of PPS, explains how tactile pressure mapping reveals how force is distributed, transforming invisible interactions into data that drives smarter, safer, and more comfortable designs.
Read MoreCapacitive tactile sensors provide high sensitivity, fast response, and durability for precise pressure measurement. This article explores their advantages, limitations, and how design improvements help overcome challenges.
Read MoreExplore the unique properties and applications of four key materials used in capacitive tactile sensors: conductive cloth, Lycra, Kapton, and hybrid designs. Learn how these materials enable innovations in wearable electronics, robotics, and industrial systems by balancing flexibility, durability, and sensitivity to meet specific needs
Read MoreCapacitive tactile sensing combines precise force measurement with detailed pressure distribution mapping using advanced materials and capacitance principles. This innovative technology enables thin, stretchable sensors ideal for diverse applications, from tactile arrays to conformable designs.
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