|conductor||1.05mm 5N (99.9995%) Pure Silver|
|Insulator/filler layer||Fluororesin (PFA)/foamed polyethylene (FPE)|
|Wire shield||Conductive PE/copper foil+silver plated copper|
|outer diameter||8.5 mm|
|RCA terminal||Sterling Silver RCA (GENESIS)|
|Line extension|| Custom Order: Please contact us 3902 3606 (HiViHK.com)
FTVS-910 uses 5N (99.9995%) pure silver as the center conductor.
Silver is the most conductive and ideal conductor of all metals, but due to its high price, it is rarely used in products.
Pure silver was chosen because it is the least likely conductor material to deteriorate in "connecting and transmitting" signals.
The manufacturing process is carried out in a high-frequency electric furnace, where 5N (99.9995%) pure silver is molded into a round rod with a diameter of 15mm.
Through the advanced production process, continuous casting method, 19 passes of cold rolling, two annealings, diamond drawing processing, and then surface rolling treatment are completed to complete high-quality silver wires without crystal seams to ensure an unobstructed signal path.
FTVS-510 uses fluororesin (PFA) with optimal insulation properties to reduce signal loss caused by insulators.
PFA has the lowest dielectric constant among existing resin insulators. PE (polyethylene) containing air is installed and filled through foaming.
It prevents the increase in dielectric constant caused by the filling layer and increases the flexibility of the cable.
Not only the electrical characteristics are improved, but also the internally generated vibration can be quickly attenuated through the changed resonance point.
Eliminating static electricity is the biggest problem in this design. PFA is an insulating material with excellent electrical properties, but when signals flow in the cable, weak vibrations will occur, and statically charged substances will cause corona discharge due to vibrations. In order to To solve this problem, "DR-510" coats the PE semiconductor layer on the periphery of the filling layer to solve this problem, and the semiconductor layer helps to effectively release static electricity accumulation from the PFA layer.
Ultraviolet (UV)-resistant cut polyurethane is used on the exterior so it can be used outdoors.
Even if used outdoors for a long time, there is no need to worry about external deterioration or cracking compared with traditional products.
2 layers of shielding
"FTVS-510" further strengthens the shielding with enhanced resistance to high-frequency noise on the periphery (copper foil shielding layer), and the frequency characteristics of the silver-plated copper braid prevent low-frequency noise. It also prevents high-frequency noise through the skin effect of silver plating.
RCA plug (Pure Silver Contact GENESIS)
For RCA plugs, the contacts are 5N pure silver GENESIS". The outer layer of the contacts is also plated with platinum + rhodium material to increase durability. In addition to increasing the tightness after insertion, the spiral latch can also control the tightness of the body and shell. vibration .
The main part of the shell is made of brass plated with hard chrome, showing a very high-end chrome plating effect.
RCA plug: Materials·Processing
GENESIS is precision machined via highly programmed CNC machining on 5N sterling silver round rods, carefully polished and then plated with a combination of platinum + rhodium.
Insulators with excellent electrical properties are used to form contact sets with excellent electrical properties and high shock resistance.
The main body is also CNC machined from 12mm copper alloy round rods. The shell and main body have a higher density than traditional lost wax properties, and exhibit high shielding performance and transmission properties.
Use suitable special solder "SS-47"
Terminals and conductors are soldered using audio-specific "SS-47". "SS-47" uses 99.993% (4N) high-purity tin.
Silver and copper are mixed to improve conductivity. Ordinary alloy solder, the synthesis ratio of silver is 3~3.5%,
However, SS-47 uses up to "4.7%" silver, which greatly increases the conductivity and maximizes the performance of the speaker.