*The curve is measured by a third party and is for reference only.
Technology Introduction:-
High-Precision 3D Printed Acoustic Tube Structure
The first technology is the acoustic crossover tube. It uses physical frequency division to adjust the sound frequency response of the pair. It has been fine-tuned and optimized to harmonize the sound waves from different tubes. This eliminates the peaks caused by the resonance of the unit under traditional frequency division technology.
RLC Network Frequency Division Correction Technology
It can directly act on the sound frequency response of the pair and helps in overcoming peaks caused by the resonance of the unit under traditional frequency division technology. It also gives the balanced armature drivers a smooth treble frequency response that rivals an EST unit.
High-Damping Air-Pressure Balance System
The third technology is the Air pressure Relief. It balances the air pressure in the ear canal. This reduces the fatigue and discomfort that can occur after prolonged listening. The air pressure balance technology also enhances the low-frequency texture, depth, and elasticity.
Technical & Acoustic Features:-
Ultra-Low Frequency Enhance Acoustic Module
Two composite driver units are used, one unit extracts an ultra-low frequency region of 10-100 Hz through an ultra-thin and ultra-long sound tube, and the other is used as a bass unit. The entire low-frequency characteristics have undergone a fundamental change, with greatly improved elasticity, and bass depth has reached an excellent level.
The lower-end response of Balanced Armature drivers can be thick and atmospheric, but it always seems to lack the smooth and elastic feel of dynamic drivers. just like the study committee members in the class, working hard, but lacking a sense of agility, while dynamic The low frequency is like the literary and art committee members in the class. It is smart and textured, and the overall advantage is, but it is not better than the low frequency of the balanced armature driver in all ways. In contrast, it is slightly lacking in thickness and stability.
Lossless High-Frequency Vibration Suppression Technology
AFUL Cantor adopts a specially developed acoustic structure. It uses a special structure to install high-frequency units that can reduce structural resonance peaks. It has been designed through special shape design, sound channels, and precise calculations to further reduce the resonance. The high-frequency damper can achieve a smooth high-frequency response, and the extremely high-frequency extension is not attenuated, and the overall treble quality reaches the level of electrostatic headphones.
