Closed supraaural headphone with straight cable for control and monitoring applications, musicians and DJ's. The DT 1350 opens up new dimensions with its excellent sound quality and superior materials.
Closed studio reference headphones for mixing, mastering, monitoring and recording. Due to its closed design with a high ambient noise attenuation and an enormous maximum sound pressure level, the DT 1770 PRO is ideal for musicians, sound engineers and producers for professional studio or monitoring applications.
Open-back studio reference headphones for mixing and mastering. The DT 1990 PRO reference headphones combine these decades of expertise in headphone technology with the latest Tesla driver technology in an open-back design.
Open-back headphones Beyerdynamic DT 860. The DT 860 is an open-back headphone delivering a true and powerful sound. Due to an extremely strong neodymium magnet system the DT 860 features a detailed reproduction with smooth highs, balanced mids and a powerful bass response. No matter if you are into pop, classical, jazz or soul.
Semi-open reference headphone for monitoring applications. Beyerdynamic DT880 PRO is a reference-class, semi-open studio headphone which combines all strengths of open, transparent headphones with those of more powerful, closed headphones.
Open dynamic headphones Beyerdynamic FT 990 PRO. The DT 990 PRO is an open dynamic headphone for studio applications. Due to a weight reduction of the diaphragm an excellent sound reproduction quality is achieved.
Closed-back dynamic headphones Beyerdynamic DT770 PRO (choose 32/80Ω). The DT 770 PRO has been designed for critical music and sound monitoring. The single-sided cable makes the handling of the headphone easy.
Semi-open studio reference headphones Beyerdynamic T1 2Gen. The T1 stands for top sound quality and precise workmanship like no other headphones from Beyerdynamic. It is the flagship of Beyerdynamic's premium range for the home and its unique Tesla technology sets new standards. Plays crystal clear, excels with faultless impulse fidelity and long-range,...