Covering the Diverse Roles Pressure Mapping Technology Can Fill to Capture Critical Data that Drives ROI

From Surgical Devices to Security Systems, Learn How Companies Have Enabled Smart Capabilities in Their Devices with FlexiForce Sensors

This article showcases how tactile sensing technology used in R&D or clinical research settings can essentially "Map the Path" to an innovative, first-of-its-kind medical device.

Tekscan's CTO Rob Podoloff provides key advice for companies to save on the embedded force sensor investment.

No matter the application, engineers often wonder about the best method for measuring force feedback. This article breaks down how common embedded force-sensing technologies compare. Learn how force-sensitive resistors (like FlexiForce touch sensors) compare to load cells.

Demonstrating how tactile pressure mapping is used to improve consumer products, and human health & safety equipment

Part I of the Clinical Chronicles of TMD Resolution with Digital Occlusion: Dr. Curtis Westersund, TMD expert and long-time T-Scan user, shares his knowledge and unique, digital protocol for orthotic delivery in this NEW ebook!

Exploring Both the Direct and Indirect Cost Savings of Selecting FlexiForce Touch Sensor Technology for Your Force-Sensitive Application

Pressure indicating film and tactile pressure sesnors each have advantages and constraints for providing accurate and meaningful data. Understanding how these strengths and limitations influence an application is critical in the design process.

With more and more patients electing to use home-use therapies for their medical treatment, ultra-thin force-sensitive resistors can capture important force feedback to improve the usability and effectiveness of small, smart medical devices.