Our new backlit single switch is extremely durable, robust, weatherproof and can be customized. The button is suitable for the DS1T series.
Backlit Single Switch

Our new illuminated single switch

High precision and state-of-the-art design

The illuminated single switch of the DS1T product series is not only robust and precise, which makes it suitable for a variety of industrial applications. It can also be easily integrated into existing systems and is ideal for the modular construction of new control panels. The combination of different input technologies, such as capacitive and double lift buttons, is made very easy by the DS1T product series. This enables different input technologies to be seamlessly merged behind a front panel. The single switches from our company are part of the new DS1T switch series and provide tactile and optically clear feedback with separately controllable RGB LEDs as symbol backlighting and in the outer ring, and at the same time set modern accents in the design of your application.

Product features

  • Single push button function suitable for the most common applications
  • RGB backlit key caps and separately controllable RGB light ring
  • Individual symbols through engraving on the inside - absolutely abrasion-resistant
  • Degree of protection: IP65
  • Durability > 1 million cycles
  • Mounting behind 3.5 mm front panel
  • Dimensions of 36 x 36 mm
  • Easy to integrate into existing systems
  • Combination of different technologies (double stroke and capacitive buttons) in one control unit possible through further variants of the DS1T series
  • Realization of projects possible even from small quantities
  • Additional rubber coating possible to make the button completely weatherproof.

 

In addition to the revised version of the illuminated single switch, which fits to all buttons of the DS1T series, the basic version is still available. This lacks the surrounding LED light ring, which makes the button even more compact. With a housing size of just 30 x 30 mm, it can also be integrated in very tight spaces.