Distribution and Manufacturing Excellence in Touch Integration
At our Touch Integration Competence Center, we do more than deliver components—we partner with you to bring your design to life. From initial concept to final implementation, our team ensures your touch technology performs seamlessly, even in the most demanding conditions.
Custom development of projected capacitive Touchscreens
- Wide Range of Sizes: From compact 2.2" screens to large-format 65" panels
- Multiple Control Interfaces: USB, I²C, and RS232 for easy integration into any system
- Robust Design Options: Glass up to 15mm thick, PMMA/acrylic up to 4mm
- Smart Environmental Sensing: Detects water, salt, and blood for uninterrupted operation
- High-End Surface Finishes: Anti-glare (AG), anti-reflective (AR), and anti-fingerprint coatings
- Tailored Connector Placement: Custom tail positions to suit your product layout
- Glove Compatibility for Specialized Use Cases: Gloves: surgeons / latex 2 layers, ESD textile, fire brigade, oil / chemical industry, chain / stainless steel (food, slaughterhouses, butchers)
Touch controller programming
Touchscreens don’t always operate in ideal conditions. From moisture and dust to vandalism and gloved interaction, these challenges demand more than standard solutions—they require intelligent, adaptive touch control. That’s where our engineering expertise comes in. Our experienced specialists in touch controller programming ensure your touchscreen performs flawlessly, even in the most extreme environments. Whether your application is industrial, medical, or public-facing, we fine-tune the controller to meet your exact functional and environmental requirements.
A compelling demonstration highlights this capability in action. A DITO touch sensor, protected by a 4mm thick PMMA screen, operates flawlessly even when used with various glove types and exposed directly to water. The touchscreen remains responsive—even when an industrial-standard glove is combined with a chain glove—without any false triggers. This is achieved through advanced controller programming that accurately distinguishes between actual touch inputs and environmental factors such as water droplets.