“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
ARCHITECTURE OF THE ISODYNAMIC® HYBRID ARRAY DRIVER
Fiberglass infused ABS
Weighing only 0.16 g while
having 4650 mm² of active area.
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.
HYBRID ARRAY DRIVER ADVANTAGES
Total harmonic distortion (THD) measures under 0.1% in the whole frequency range
Reduced driver weight designed to create a headphone that offers prolonged listening sessions
Ergonomically shaped driver structure with an increased active area
Upper-frequency limit of audio reproduction is 110,000 Hz
100db@1mw/1kHz High performance without needing amplification
PATENT PENDING ISODYNAMIC HYBRID ARRAY DRIVER
World’s first in planar magnetic headphones
AUDIBLE BENEFITS OF A DUAL DRIVEN SYSTEM
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.
ISOPLANAR® DIAPHRAGM MATERIAL
The diaphragm is manufactured from a custom developed isotropic thermally stabilized polymer with a conductive layer. Through unique processing methods, an ultralight yet rigid diaphragm has been achieved.
The switchback coil is more efficient at reproducing lower frequencies and is positioned in the upper part of the driver.
The spiral coil is more efficient at reproducing middle-high frequencies and is positioned directly over the ear canal enabling more direct sound waves to enter the ear without any time delays.
AN ERGONOMIC APPROACH LEADS TO A NEW WAY OF THINKING
Anthropometric earpad design
To create an audiophile headphone that is powerful yet light the driver needed to maximize power output while reducing weight as much as possible.
Weight was minimized by optimizing a magnet structure around an ovoid shape that fits the ear more closely. Power output was increased through the use of a completely bespoke coil and magnet array design that optimized the active usable area of the driver within its ovoid shape.
ISOMAGNETIC® EARCUP TO EARPAD COUPLING TECHNOLOGY
An innovative feature is the Isomagnetic® ear cup attachment which utilizes the demagnetizing field generated by the driver to hold the ear cup in place whilst also redirecting the magnetic field back into the driver and improving driver efficiency.
Magnetic field shielding
The ferromagnetic ear pads decrease the magnetic stray field affecting the listeners head.
Increase in driver efficiency
Patented ferromagnetic plates channel the magnetic field back into the driver, increasing output.
Invisible locking system
Innovative use of the magnetic field of the drivers to fix the earcups in place.
STRAY FIELD REDUCTION FROM ISOMAGNETIC® PLATE COUPLING
Patented ferromagnetic plates channel the demagnetizing field back into the driver increasing efficiency by 1db or 12% and deflect 95% of stray fields away from the head.
ISODYNAMIC DRIVER MANUFACTURED BY RINARO
“In a world of minimalism, Empyrean is a tribute to sophistication and art nouveau. It’s the courage to go against the stream.”
Paul Șteț, Product Development
PRESSURE DISTRIBUTION WINGS
Suspension wings increase the leather headrest’s contact surface area with your head and relieve uncomfortable pressure points.
LIGHTWEIGHT CARBON / ALUMINIUM SKELETON
CNC milling time: ≈20 hours.
milled from a single piece of
Weight: ≈ 430 g
ensures a natural sound transparency
and is a work of art in its own right.
DESIGNED AND ENGINEERED
IN BAIA MARE, ROMANIA
We carefully hand assemble each headphone in our facilities in Baia Mare, Romania.