For Mixing, Mastering, Reference Hi-FiNeodymium Planar Magnetic TransducersClosed-Back, Circumaural Design10 Hz to 50 kHz Frequency ResponseLeather EarpadsAnodized Aluminum EarcupsIncludes 1/4" to Dual Mini XLR CableIncludes Economy Travel Case
Professional engineers and music aficionados looking for detail and transparency without disturbing their neighbors will be thrilled by the leather Audeze LCD-XC Headphones Creators Package, a pair of high-performance reference planar magnetic headphones designed for professional mixing, mastering, and reference level personal hi-fi listening when connected to a low-powered external headphone amplifier or portable device. The creator package includes a single 1/4" to dual 4-pin mini XLR cable and an economy travel case.
The headphones are sensitive enough to be driven by portable music players such as a smartphone or tablet. Instead of utilizing traditional dynamic cone drivers, the headphones implement a neodymium planar magnetic transducer design to deliver a frequency response of 10 to 50 kHz with a THD of less than 0.1%, an impedance of 20 ohms, an efficiency of 100 dB per 1 mW, and a total output SPL of over 130 dB when driven by 5 watts. The closed-back earcups are made from anodized aluminum rings with open-cell foam that's covered in lambskin leather. The Audeze LCD-XC are handmade in the USA.
Planar Magnetic Technology
Planar magnetic technology differs from traditional dynamic cone designs by suspending a thin lightweight diaphragm within a parallel plane comprised of an array of magnets. The diaphragm is much lighter when compared to a traditional dynamic cone and has a printed circuit spread across a thin film substrate on the surface of the diaphragm as opposed to a cone attached to a voice coil. When the audio signal from the amplifier reaches the circuit, it magnetizes the diaphragm within the field and produces sound.
Performance
The benefits of a planar magnetic design include faster transient response due to the lighter diaphragm, a wide frequency with low distortion, better heat dissipation, fewer moving parts for greater durability without the kind of sonic degradation for which cones are susceptible, and better amplifier compatibility because the circuit functions as an almost entirely restive load.
Neodymium Magnets
The magnetic structure creates a uniform magnetic field across the diaphragm without the need for additional ferromagnetic material traditionally found in other planar headphones to remove magnetic interference, reduce harmonic distortion, and lower overall weight. The headphones also feature Audeze's patent-pending Fazor elements that guide and manage the flow of sound through the earcups for a more enveloping sound stage and improved frequency extension.
For more information on this or any other Audeze product, visit www.audeze.com.