Key Features:
User-Friendly: Engineered for comfortable use, enhancing the overall user experience.
Eco-Friendly: Committed to environmental sustainability in every aspect.
Size: Customized to fit your electronic products seamlessly.
Coating Options: Choose from Matte Oil, PU, Epoxy, or Color Oil coatings.
Material: Crafted from 100% Silicone for durability and reliability.
Color: Pantone options to match your design aesthetics.
Printing: Screen Printing & Laser Etching for a sleek and professional look.
Packing: Securely shipped in plastic bags and cartons, or opt for personalized packing.
Elevate your electronic products with a keypad that combines comfort, eco-friendliness, and superior design. Discover the pinnacle of quality and functionality with our Eco Touch Elite Silicone Interface for Universal Connectivity. Committed to environmental sustainability, this keypad is the ideal choice for designing electronic devices in both commercial and industrial realms. Shipped securely in plastic bags and robust cartons, or personalized packing options for enhanced protection, this keypad is engineered for excellence, offering an elevated product interface.
Advanced Conductive Solutions
- Carbon Pill Technology: Our Silicone Keypad incorporates state-of-the-art Carbon Pill technology, using small carbon-filled pillars to enhance electrical connectivity under pressure. This ensures a highly responsive and reliable user interface, setting new standards for performance.
- Conductive Oil Integration: The Silicone Keypad features innovative conductive oil, establishing seamless electrical pathways. This unique solution bridges gaps, enabling smooth signal transmission upon pressure application to the keypad surface.
- Metal Dome Precision: Elevate conductivity with Metal Dome technology in our Silicone Keypad. Small dome-shaped metal elements collapse upon pressure, delivering precise tactile feedback and completing the electrical circuit.
- Strategic Non-Conductive Design: Specific areas of the Silicone Keypad strategically feature non-conductive materials for meticulous control over electrical flow, preventing unintended contact and ensuring accurate input control.