FiiO, FT3, Dynamic Over-Ear Headphones with 60mm Driver, Beryllium-Plated Gasket and DLC Diaphragm, 350 Ohm
FT3 Includes Only:
- 3.5mm interchangeable plug
- 4.4mm interchangeable plug
- 35mmfemaleto6 35mmmale adapter
- 4.4mmfemale toxLR-4 male balanced adapter
- Leather storage case
- Protein leather earpads
- Suede earpads
- Headphone cable
- Instructions
Features:
- 60mm large dynamic driver
- Beryllium-plated gasket + DLC diaphragm 350Ω high impedance
- Asymmetric internal and external magnetic circuit system Open-back design
- Furukawa monocrystalline copper cable Aluminum alloy construction
- Lightweight hollow design 4 different audio plugs included
Art of harnessing energy for great sound 60mm large dynamic driver
The FT3's large dynamic driver also has other benefits. For example, due to its large size, the diaphragm is capable of bearing higher output power, leading to less distortion under large dynamic signals. Also, the larger driver is more easily able to produce lower frequencies for deeper reaching bass.
Thoughtfully designed Beryllium-plated gasket + DLC
The diaphragm is one of the most important parts of a dynamic driver. And not just any diaphragm material can meet the demands of the FT3 due to the large driver size. After countless testing at FiiO, a beryllium-plated gasket + DLC diaphragm was chosen.
The FT3 driver gasket is plated with beryllium. This not only results in a lighter gasket (and thus a lighter driver), but also a more rigid gasket better able to handle the movement of the large dynamic driver for less distortion.
The diaphragm of the FT3 is made of DLC, - which is both highly sturdy and lightweight compared to other diaphragm materials. This means that the FT3 driver is less prone to breakup and thus nonlinear distortion, while also having an extremely extended frequency response and improved soundstage.
Hear the artist's intent Asymmetrical internal and external magnetic circuit system
The FT3 utilizes powerful N52 neodymium magnets to maximize sound quality under its 350Ω impedance design. These magnets have been arranged in an optimized asymmetrical internal and external magnetic circuit system. When the voice coil starts to move during the reproduction of sound, the optimized magnetic circuit balances this movement of the voice coil and diaphragm, especially during large dynamic changes - which allows more effective use of magnetic energy and better control over the voice coil.
