Tekscan

As the sensor landscape continues to evolve, tactile sensing is entering a new era defined by connectivity, data, and intelligent system design. In the fourth and final article in our recent series on Electronic Design, Tekscan explores how sensor connectivity and analytics will shape the next...

Tactile sensing has evolved from niche research technology to an essential layer in next-generation smart-system design in energy storage, automotive, robotics, medical devices, and industrial automation. As organizations push for smarter, safer, more connected products, tactile sensors —...

Electronic Design recently published the second article in a four-part series highlighting Tekscan’s perspective on the accelerating adoption of tactile sensing technologies—covering pressure mapping, temperature mapping, and embedded force sensing. The piece explores how evolving market needs and...

There are always risks involved whenever humans and machines work alongside one another in a manufacturing environment. From a machine design perspective, employing methods to test the calculated movements that automated machines make can go a long way in improving the safety of these systems...

Noise, vibration, and harshness (NVH) are subjective yet critical measures of the driving experience. One key way automobile manufacturers can address potential NVH issues is by balancing the contact between three important vehicle components – the rotor, the wheel hub, and the wheel. Wheel hub...

Ever wish you could take the journey a product takes as it goes through its manufacturing process? Our guess is, probably not ... the several twists, turns, and impacts a product endures on its way from production to delivery can be extremely chaotic and unpredictable in some environments...