Shokz, formerly Aftershokz introduces the OpenMove sports earphones. Ideal for all daily activities or for practicing sports at home, in the gym or in the city, the headphones feature a free ear design that allows you to listen both to music and the world surrounding.
IP55 certified, the Shokz OpenMove have a titanium coating resistant to water, sweat and humidity. The titanium coating also makes these earphones extremely light and flexible (only 29 grams), giving a feeling of constant comfort.
Pairing via Bluetooth is quick and easy thanks to Bluetooth 5.0 technology, which ensures an easy and stable connection up to 10 meters and multipoint pairing. The internal battery is recharged in about a couple of hours, with the supplied USB-C cable, guaranteeing an autonomy of up to 6 hours of music playback and conversation and 10 days of standby time. The running headphones are also equipped with two microphones to attenuate ambient noise and improve the voice during the call.
PREMIUM PITCH 2.0 TECHNOLOGY
The exceptional sound quality of Shokz sports earphones is guaranteed by Premium Pitch 2.0: this technology combines with the headphone transducers to deliver a powerful range of sounds with minimal vibration and 3 listening EQ modes.
BONE CONDUCTION TECHNOLOGY
With over 500 patents, Shokz can undoubtedly be called a pioneer in the innovation of sports headphones. Winners of important international awards, such as the Red Dot Design Award 2018, the Shokz bone conduction earphones are the perfect tool for those who want to train safely. They are also ideal at home or in the office, because they allow you to hear the surrounding noises and the time to concentrate to the beat of the music thanks to the 'open-ear' design.
We hear through bone conduction as we eat, drink, and even as we speak - that's why our voice sounds different than when we hear it in a recording or video. We tend to perceive our voice lower and more intense because the skull transmits low frequencies better than air.
Shokz exploits natural bone conduction by integrating electromechanical transducers into its wireless earphones, which convert sounds into vibrations to be transmitted directly to the inner ear through the bones of the skull, thus bypassing the eardrum.