€799.00*
Next shipment on Fri, 27.12.24, delivery time: 1-3 days
Product number:
HL02446.1
Product information "AFUL Audio Cantor"
14 BA driver in-ear headphones
- High-precision 3D-printed acoustic tube structure
- Ultra-thin acoustic tube structures O.15mm
- RLC network Frequency division correction technology
- High-damping air pressure equalisation system
- Lossless high-frequency vibration suppression technology
- Ultra-low frequency enhance acoustic module
High-precision 3D-printed acoustic tube structure
The first technology is the acoustic crossover. It utilises physical frequency division to adjust the frequency response of the individual drivers. It has been finely tuned and optimised to harmonise the sound waves of the different tubes. This eliminates the peaks caused by the resonance of the device with conventional frequency division technology.
Non-Destructive Direct Drive Topology Technology
The Non-Destructive Direct Drive Topology technology in AFUL Cantor earphones improves the clarity of sound by eliminating resonance through an asymmetrical sound path to deliver extended, smooth highs. This advanced approach outperforms conventional attenuation methods and preserves the detail of high frequencies without drowning them out.
Multi-dimensional Frequency Division Architecture Technology
The AFUL Cantor's multi-dimensional frequency division architecture integrates 14 BA drivers, each with a specific function, to deliver a cohesive sound image with smooth frequency transitions and a comprehensive, balanced sound experience.
High-precision 3D-printed acoustic tube
The Cantor earphones utilise high-precision 3D printing technology to create acoustic components with ultra-fine paths of just 0.15mm, pushing the boundaries of 3D printing. This precision improves audio performance and delivers bass with unrivalled depth and clarity.
RLC network frequency division correction technology
It can act directly on the frequency response of the pair, helping to overcome peaks caused by the resonance of the unit with conventional frequency division technology. It also gives the balanced armature drivers a smooth high frequency response that rivals that of an EST unit.
High-damping air pressure equalisation system
The third technology is Air Pressure Relief. It equalises the air pressure in the ear canal. This reduces the fatigue and discomfort that can occur after prolonged listening. The air pressure equalisation technology also improves the texture, depth and elasticity of low frequencies.
Acoustic module for ultra-low frequency enhancement
Two composite driver units are used. One unit extracts an ultra-low frequency range of 10-100 Hz through an ultra-thin and ultra-long sound tube, the other is used as a bass unit. The overall low-frequency characteristics have changed fundamentally, the elasticity has been greatly improved, and the bass depth has reached an excellent level.
Lossless high-frequency vibration suppression technology
The AFUL Cantor uses a specially developed acoustic structure to install high-frequency units that can reduce structural resonance peaks. It has been developed using a special mould design, sound channels and precise calculations to further reduce resonance. The high-frequency attenuator achieves a smooth high-frequency response, the extremely high frequency extension is not attenuated, and the overall quality of the treble reaches the level of electrostatic headphones.
Stecker: | 3,5mm, 4,4mm |
---|
Specifications
Impedance 20 Ohm +-10%
Sensitivity 106dB @ 1kHz
Frequency response 5Hz-35kHz
Driver configuration 14 Balanced Armature
Cable connection 2pin 0.78mm
Cable length 1.2m Plug connection 3.5mm or 4.4mm
Informationen zum Hersteller
14 BA driver in-ear headphones
- High-precision 3D-printed acoustic tube structure
- Ultra-thin acoustic tube structures O.15mm
- RLC network Frequency division correction technology
- High-damping air pressure equalisation system
- Lossless high-frequency vibration suppression technology
- Ultra-low frequency enhance acoustic module
High-precision 3D-printed acoustic tube structure
The first technology is the acoustic crossover. It utilises physical frequency division to adjust the frequency response of the individual drivers. It has been finely tuned and optimised to harmonise the sound waves of the different tubes. This eliminates the peaks caused by the resonance of the device with conventional frequency division technology.
Non-Destructive Direct Drive Topology Technology
The Non-Destructive Direct Drive Topology technology in AFUL Cantor earphones improves the clarity of sound by eliminating resonance through an asymmetrical sound path to deliver extended, smooth highs. This advanced approach outperforms conventional attenuation methods and preserves the detail of high frequencies without drowning them out.
Multi-dimensional Frequency Division Architecture Technology
The AFUL Cantor's multi-dimensional frequency division architecture integrates 14 BA drivers, each with a specific function, to deliver a cohesive sound image with smooth frequency transitions and a comprehensive, balanced sound experience.
High-precision 3D-printed acoustic tube
The Cantor earphones utilise high-precision 3D printing technology to create acoustic components with ultra-fine paths of just 0.15mm, pushing the boundaries of 3D printing. This precision improves audio performance and delivers bass with unrivalled depth and clarity.
RLC network frequency division correction technology
It can act directly on the frequency response of the pair, helping to overcome peaks caused by the resonance of the unit with conventional frequency division technology. It also gives the balanced armature drivers a smooth high frequency response that rivals that of an EST unit.
High-damping air pressure equalisation system
The third technology is Air Pressure Relief. It equalises the air pressure in the ear canal. This reduces the fatigue and discomfort that can occur after prolonged listening. The air pressure equalisation technology also improves the texture, depth and elasticity of low frequencies.
Acoustic module for ultra-low frequency enhancement
Two composite driver units are used. One unit extracts an ultra-low frequency range of 10-100 Hz through an ultra-thin and ultra-long sound tube, the other is used as a bass unit. The overall low-frequency characteristics have changed fundamentally, the elasticity has been greatly improved, and the bass depth has reached an excellent level.
Lossless high-frequency vibration suppression technology
The AFUL Cantor uses a specially developed acoustic structure to install high-frequency units that can reduce structural resonance peaks. It has been developed using a special mould design, sound channels and precise calculations to further reduce resonance. The high-frequency attenuator achieves a smooth high-frequency response, the extremely high frequency extension is not attenuated, and the overall quality of the treble reaches the level of electrostatic headphones.
EU-Verantwortlicher
NT Global Distribution GmbH
Waller Heerstr. 104
28219 Bremen
Deutschland
www.nt-global.de
info@nt-global.com