For Canada customer, we strongly recommend you to read the information on shipping to Canada posted here.
Note: Due to cable thickness, this cable will not come with a memory wire by default. Memory wire could be added upon customer's request via email.
Vitesse Cryo 7N CGOCC-A Pure Silver Earphone Cable utilizes the specially made 7N purity CGOCC-A silver wires with gauge of 23AWG and an amazing 148 strands of fine silver conductor. It is 8 wire braided to minimize cross interference and insulated with ultra flexible silicone sleeve.
Vitesse Series Earphone Cable utilizes a special type of metal conductors, which are Crystallized Grown by Ohno Continuous Casting Processed and then Critical Temperature Annealed. The wiring underwent cryogenic treatment to further reduce residual stress, resistance and enhance music signal transmission.
The special processed metal conductor has a single crystal structure. The process re-heats the extrusion in the crystal structure as the molten metal is forced out of the mould and very slowly and gradually draws the grain or crystal down the conductor's length, creating a 'single crystal structure'. The improvement is significant, with almost no crystal boundaries, the audio signal is no longer impeded down the wire and resulting in much less signal distortion and decay. More information and detail is delivered as much as original to the receiving equipment.
The percentage reduction of area on our cable is increased by 414% and elongation characteristic is improved by 239%. Resistivity on our cable is 31.7% less than regular process wire, gas impurity is reduced to 5ppm(O2) and 0.25ppm(H2), which significantly reduces signal attenuation and helps a faithful transmission of signal.
Length: 1.2 meter or 48 inches (length customization supported, please contact us)
Pin contact: 99.9% gold hard plating over brass, insulated in thermalplastics
Warranty: 2 Years
Made-to-order item, lead-time is around 2 - 2.5 weeks (w.e.f. 23rd Mar) due to heavy ordering. Lead-time is adjusted on a weekly basis according to order volume.