This post is part of our ongoing series on spatial pressure and temperature mapping in electric vehicles. While earlier posts focus on battery packs, here we take a broader view across the vehicle. Battery packs dominate most conversations around spatial pressure and temperature mapping — and for...

Calibration matters: getting your temperature map right unlocks the full value of the system. Accurate temperature mapping depends on more than sensor resolution—it depends on calibration. In systems that measure pressure and temperature simultaneously, even small temperature offsets can influence...

Getting reliable data: how to separate signal from noise when measuring pressure + temperature. Spatial mapping of pressure and temperature is a powerful tool, but only if you trust the data. Real manufacturing and test environments bring noise: mechanical vibrations, thermal drift, sensor drift...

The edges of battery cells are often where the story begins. In battery manufacturing and module integration, one of the often-overlooked aspects is the edge region of a cell, where tabs, welds, adhesives, frames, or busbars join the cell body. In many failure cases or design optimizations...

In EV battery manufacturing, the pressure that individual cells experience inside a pack tells a powerful story. Some variation is both expected and benign: cells settle, tabs flex, thermal expansion occurs. But when early mechanical failure modes begin to emerge, such as gas-induced swelling...

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...

This post wraps up our four-part interview series with our own Pressure and Temperature Mapping expert, Evan Griffith. Our conversation was based on Evan's recent live webinar on improving battery safety and performance through pressure and temperature mapping. Throughout this series, we’ve explored...

Part 3 of our “Impactful Insights” Interview Series with Tekscan’s Evan Griffith In Part 1, we explored how real-time pressure mapping helps engineers visualize internal force distribution during battery testing. Part 2 dove into stack pressure and its impact on SEI layer formation. Now, in the...

Part 2 of our “Impactful Insights” Interview Series with Tekscan’s Evan Griffith In Part 1 of our interview, Tekscan Product Manager Evan Griffith shared how pressure mapping gives engineers a real-time view of internal battery dynamics. Today, we go deeper into one of the most important and often...

Part 1 of our “Impactful Insights” Interview Series with Tekscan’s Evan Griffith As battery manufacturers race to improve energy density, safety, and performance, mechanical forces inside the cell are getting more attention. In this new interview series, we speak with Evan Griffith, Product Manager...