The Audio-Technica ATH-AWAS headphones feature housings made from rare Asada Zakura (Japanese cherry) wood, known for its acoustic properties and durability. They are equipped with exclusive 53 mm drivers, powerful magnetic circuitry, and diamond-like carbon (DLC) coated diaphragms for exceptional full-range audio reproduction.
Features
- Asada Zakura Wood Housings
- Exclusive 53 mm Drivers
- Double Air Damping System (D.A.D.S.)
- High-Purity Copper Voice Coils
- Comfortable Fit & Detachable Cables
Wooden Housing
For the housings of the ATH-AWAS over-ear wooden headphones, Audio-Technica has selected the rare Asada Zakura (Japanese cherry) wood. Renowned for its use in high-end audio speakers due to its fine acoustic characteristics and durability, the striking red Asada Zakura suppresses unwanted resonance inside the earcups for clear, natural sound reproduction. The half-gloss finish, applied by hand, accentuates the wood’s gentle grain and warm beauty.
Design
The headphones are equipped with exclusive 53 mm drivers with powerful magnetic circuitry, integrated pure-iron yoke, DLC (diamond-like carbon) coating, and 6N-OFC (high-purity, oxygen-free copper) voice coils for exceptional full-range audio reproduction. Audio-Technica’s exclusive D.A.D.S. (Double Air Damping System), which divides the housing structure into two separate acoustic chambers, ensures smooth, accurate bass response.
Aluminum Arms
The arms that hold the housings are made from a lightweight, highly rigid magnesium alloy. The arms are angled to provide the best possible fit with excellent earcup seal. The comfortable fit is enhanced by smooth, synthetic leather earpads and headband.
Compatibility
The headphones also feature A2DC (Audio Designed Detachable Coaxial) jacks for secure connection to the two included 3.0 m (9.8') detachable cables. One cable has a 6.3 mm (1/4") gold-plated stereo plug for use with standard audio equipment. The other cable features a 4-pin XLRM balanced connector for use with the latest high-fidelity equipment to achieve better channel separation.
