Cuffie stereo Hi-End Isodinamiche con valigetta inclusa diaframma isoplanare sviluppato da Rinaro magneti al neodimio disposti in un array ibrido telaio in Fiberglass Padiglione auricolare isomagnetico, una coppia in pelle l'altra in alcantara Finiture: Black Copper (CO), Jet Black (JB) Cavo OFC da 2,5 m con connettore jack 6,3 mm Optional: Cavo OFC da 1,2 m con connettore jack da 3,5 mm o Cavo OFC da 2,5 m, con connettore XLR a 4 pin.
“Empyrean was born from passion, curiosity and innovation. As a business, we have allowed ourselves the freedom to experiment and take risks in search of the perfect sound. To generate something truly remarkable, one must dare to explore, and that’s what we did with Empyrean. We pushed and refined industry standards and achieved a true game changer for audiophiles.”
Antonio Meze, Lead designer and Founder Meze Audio
FRAME
Fiberglass infused ABS
RINARO ISOPLANAR® DIAPHRAGM
Weighing only 0.16 g while
having 4650 mm² of active area.
HYBRID MAGNET ARRAY
Symmetrically placed on each side of the diaphragm, our neodymium magnets are specifically arranged into a Hybrid Array to create efficient Isodynamic magnetic field required for a uniform activation across the whole diaphragm surface.
ACCURATE REPRODUCTION
Total harmonic distortion (THD) measures under 0.1% in the whole frequency range
LIGHTWEIGHT
Reduced driver weight designed to create a headphone that offers prolonged listening sessions
ERGONOMIC SHAPE
Ergonomically shaped driver structure with an increased active area
ULTRA-HIGH-RESOLUTION AUDIO
Upper-frequency limit of audio reproduction is 110,000 Hz
ULTRA EFFICIENT
100db@1mw/1kHz High performance without needing amplification
PATENT PENDING ISODYNAMIC HYBRID ARRAY DRIVER
World's first in planar magnetic headphones
The Empyrean Driver combines individual switchback and spiral-shaped voice coils, their unique shapes allowing sound to be targeted with more accuracy around the natural form of the ear. This unique combination generates an increased exposure of direct sound wave frequencies over the 10kHz range and improves imaging and localization by decreasing the impact of shortwave time delays caused by diffused field reflections.
AUDIBLE BENEFITS OF A DUAL DRIVEN SYSTEM
One of the problems with conventional planar magnetic arrays is coming from reflected signals entering the ear canal with different time delays, thereby worsening the focus of 3D sound imaging.
Combining different voice coil configurations makes it possible to create a better sound intensity distribution across the sound wavefront at high frequencies when directed at the auricle and ear canal.