Providence F201 Kitarrikaabel S/S 1m Vaata suuremalt

Providence F201 Kitarrikaabel S/S 7m

PVF201-7S

Providence

Uus toode

Recommended for Jazzy Clean to Crunch, recording as well through an audio interface with High noise resistance.

The naturally fat sound of this cable is a perfect choice for rock genres as well as all-around playing in a variety of styles. The F201 model features wide range and low noise with an enhanced mid-low range that contributes to beautiful guitar tone. 7 meters lenght, with straight jacks. Made in Japan.  

Rohkem infot

Poes saadaval

59,90 €

Lisainfo

Pikkus7 m

Rohkem infot

Most high-end cables are designed to achieve the best possible basic audio performance, but that approach doesn't always result in sound that supports the player's artistic intent. The F201 model uses an NCW1 OFC conductor in an original Providence configuration that eliminates unwanted artifacts that often occur in conventional high-end cables, delivering solid, natural lows that contribute to an incredibly fat overall sound while retaining the character of the player's sound in full. This cable also resists the high-frequency loss and thin sound that usually occurs in long cable runs. A super-high-density braided shield plus carbon-impregnated conductive vinyl sheath effectively suppress mechanical noise when the cable is moved around on stage, while shutting out electromagnetic noise from high-frequency TV and radio interference as well as noise from motors and similar sources. Gold-plated one-piece Providence NP-11G or NP-14G/NP-14GL (L-angle) plugs add the finishing touch to the F201 sound.

F201 Specifications
  • Providence with NCW1 OFC
  • Conductor Size : 0.75mm2
  • Construction(No./mm) : 150/0.08OFC
  • Diameter : 1.14mm
  • Insulation-Thickness : 1.43mm(±0.05)
  • Diameter : 4.00mm
  • Innerr Jacket-Thickness : 0.25mm
  • Diameter : 4.50mm
  • Shield-Diameter : 5.00mm
  • Jacket Thickness :0.90mm(±0.10)
  • Diameter : 6.80mm
  • Maximum conductor resistance(20°C) : 23.60≧(Ω/km)
  • Capacitance(1kHz) : Approx.100(pF/m)