Dual Channel Acoustic Maze Technology-Deep Elastic Bass:-
The Cantor feature two advanced composite drivers: one for ultra-low frequencies (10-100Hz) with an ultra-thin, extended sound tube, and another for powerful bass. Precision-tuned acoustic tubes enhance depth, power, and clarity, transforming low-frequency performance with superior elasticity and bass depth.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.
Non-Destructive Direct Drive Topology Technology:-
The Non-Destructive Direct Drive Topology Technology in the AFUL Cantor earphones enhances sound clarity by eliminating resonance through an asymmetrical sound path, delivering extended, smooth highs. This advanced approach surpasses traditional damping methods, preserving high-frequency detail without harshness.
Multidimensional Frequency Division Architecture Technology:-
The AFUL Cantor's Multidimensional Frequency Division Architecture efficiently integrates 14 BA drivers, each with a specific function, to deliver a cohesive soundstage with smooth frequency transitions and an immersive, balanced audio experience.
High-Precision 3D-Printed Acoustic Tube:-
The Cantor earphones utilize high-precision 3D printing technology to create acoustic components with ultra-fine pathways as narrow as 0.15mm, pushing the limits of 3D printing capabilities. This precision enhances audio performance, providing bass with unparalleled depth and clarity.
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.
