Feel the emotion behind every note. Featuring the newly developed LDAC codec – optimised for High-Resolution Audio class Bluetooth® streaming – these comfortable Sony MDR-1ABT High-Resolution Audio Bluetooth Headphones capture the true essence of every track. Innovative new earcup touch controls allow you to connect with your music for an immersive listening experience.
Hear sound from they Sony MDR-1ABT High-Resolution Audio Bluetooth Headphones that stays true to the original recording, no matter how high the volume is turned up. A powerful 40mm driver, with an aluminium-coated Liquid Crystal Polymer (LCP) diaphragm, handles the heaviest beats with the utmost precision.
High-Resolution Audio of Sony MDR-1ABT High-Resolution Audio Bluetooth Headphones takes you closer to the original studio recording by converting analogue music to digital at a higher rate than CD (24-bit/192kHz, rather than 16-bit/44.1kHz). While CDs and MP3s top out around 20kHz, High-Resolution Audio supports frequencies above 24kHz (as high as 100kHz on this model).'
Developed by Sony, the Bluetooth LDAC codec of Sony MDR-1ABT High-Resolution Audio Bluetooth Headphones takes your music streaming to a new level. It supports up to three times greater bitrate than typical Bluetooth streaming, 96kHz sampling rates and more efficient coding for CD-quality wireless sound.
Simply touch the earpads of Sony MDR-1ABT High-Resolution Audio Bluetooth Headphones to stop or play tracks, swipe left and right for previous and next track, trace and stop for scanning, or swipe up and down to adjust volume.
The Sony MDR-1ABT High-Resolution Audio Bluetooth Headphones's enfolding design with ergonomic 3D earpads seals music in and keeps sound distractions out. Acoustics are reflected back towards your ears for the subtlest of sounds.
A balanced cable of Sony MDR-1ABT High-Resolution Audio Bluetooth Headphones comprising four silver-coated copper wires ensures less cross-talk. Independent ground wires for both channels (in blue and yellow) give clear, precise sound3.