33%
CARBONREDUCTION
Lifecycle assessment LCA of a TG0-enabled automotive seat-switch versus astandard sensor assembly.
Conventional sensing systems rely on metallic electrodes, rigidsensor grids, and layered matrix architectures.
TG0 engineers textures and deformation-sensitive structures intoconductive polymers, enabling a single material layer to detecttouch, pressure, movement, bending, and twisting. As the materialchanges shape, TG0's AI-powered algorithms interpret its electricalsignal patterns in real time, converting physical interaction intoposition, pressure, gesture, deformation, and intent.
Detect precise contact location and multi-gesture input across complex 3D surfaces. TG0 capacitive sensing enables seamless, intuitive and durable surface control without mechanical buttons or sensor membranes.
Measure distributed force across a surface in real time. TG0 pressure mapping technology delivers actionable data for monitoring, performance optimisation, data collection and safety.
Capture lateral movement and directional force with ultra-thin, high-speed sensitivity. TG0 shear-force sensing technology enables dexterous tactile sensing for robotics and MedTech applications.

50g
5.0 mm
450g
47 mm
33%
CARBONREDUCTION
Lifecycle assessment LCA of a TG0-enabled automotive seat-switch versus astandard sensor assembly.
80%
COMPONENTREMOVAL
TG0-enabled car window-controlassembly versus a standardelectronics-based equivalent.
45%
WEIGHTREDUCTION
TG0-enabled seat-switch assemblyversus a traditional wired assemblywith support components.
25%
COSTSAVING
TG0-enabled trackpad assemblyversus a consumer-grade electronicsbill of materials.
Embedding TG0 Technology into your product is seamless. TG0 can support your product development process starting at design through to mass manufacturing based on your needs and process.