Custom Waterproof Laser-Etched Silicone Doorbell Button is designed for personalized accessibility and optimal durability. Choose between classic black or customize the color to seamlessly integrate with your aesthetic preferences. The hardness, ranging from 30 to 80 Shore A, guarantees a balance between resilience and tactile responsiveness. Silk Printing technology ensures clear and enduring labeling, while a variety of conductive options—Carbon Pill, Conductive Oil, Metal Dome, and Non-Conductive variants—accommodate diverse preferences. The logo customization options of Silk Printing and Laser Etching add a personalized touch to your doorbell button. Enhanced with coatings such as Matte Oil, PU, Epoxy, and Color Oil, our doorbell button not only looks sleek but also withstands various environmental conditions. With ISO9001-2015, IATF16949, and RoHS certifications, our commitment to quality is unwavering. Designed for versatility, this doorbell button finds its application in cameras, calculators, telecommunication equipment, mobile phones, home appliances, and computer keyboards. Elevate your entry experience with this durable and personalized solution.
Material: Food Grade Silicone
Color: Black or Custom
Hardness: 30-80 Shore A
Printing: Silk Printing
Product Feature: Used Comfortably
Conductive: Carbon Pill, Conductive Oil, Metal Dome, Non-Conductive
Logo type: Silk Printing, Laser etching
Coating: Matte Oil, PU, Epoxy, Color Oil
Certification: ISO9001-2015, IATF16949, RoHS
Application: Camera, Calculator, Telecommunication Equipment, Mobile Phone, Home Appliance, Computer Keyboard
Packing: PE Bag & Carton
Advanced Conductive Technologies in Silicone Keypads
Carbon Pill conductivity in our Silicone Keypad involves the integration of small carbon-filled protrusions. These pillars facilitate electrical connectivity when pressure is applied, ensuring a responsive and reliable user interface.
Employing a conductive oil solution within the Silicone Keypad ensures seamless electrical pathways. The conductive oil bridges gaps, enabling the transmission of signals when pressure is applied to the keypad surface.
Metal Dome conductivity relies on the integration of small, dome-shaped metal elements beneath the keypad surface. When pressed, these domes collapse, creating a tactile response and completing the electrical circuit.
In specific areas of the Silicone Keypad, non-conductive materials are strategically employed to prevent unintended electrical contact. This ensures precise control over the flow of electricity, preventing interference or unintentional input.