Resources

Resources

Browse our library of pressure mapping and force measurement resources, including eBooks, Case Studies, On Demand Webinars, Whitepapers, and much more.

Displaying 1 - 10 of 20
eBook

Strain gauges and FlexiForce sensors are resistance based technologies available in a variety of shapes and sizes. FlexiForce sensors provide a flexible, paper-thin solution at only 0.008" (0.2mm) thick. Download a free eBook from Machine Design.

eBook

FlexiForce force sensors are a cost-effective MEMS alternative for sleeker, smaller designs. These thin, flexible, easy-to-integrate sensors are available off-the-shelf or can be customized to meet your specific application requirements. Read our free eBook on the advanta

eBook

Load cells can be bulky, heavy and expensive but FlexiForce load sensors are an unobtrusive and low-cost alternative to load cells. Download this free eBook by Tekscan engineers and Machine Design magazine to learn more about force sensing technologies.

eBook

Download a free e-Book and learn more about selecting a thin, low-power, low-cost force sensor for seamless integration and sleeker designs.

Datasheets & Guides

A single registration provides access to practical resources from the FlexiForce Sensor Integration Knowledge Base

Articles & Research

A 2019 study published in the Journal of the Electrical Chemical Society used Tekscan pressure mapping sensors and software as a visual tool and means of data gathering over time to reveal hot spots at various pressure applications.

Datasheets & Guides

Selecting a gait analysis system can be challenging, there are so many options on the market. Discover which Tekscan gait analysis solution will best fit your practice or gait lab with this guide.

Articles & Research

Thanks to innovative minds and developments in technology, robotic surgical systems continue to advance.

Video

How can embedding tactile force sensors make your IoT product smarter? See for yourself in just one minute!

Articles & Research

Advances in engineering have led to smarter medical devices, improved consistency among practitioners, and faster recovery time for patients. Force feedback is a crucial component in these advances and is made possible by thin, flexible, tactile force sensors.