Delen
Deel dit product
Uw review toevoegen
Beoordeel NRG-Y2

NRG-Y2

€79,00
Op werkdagen voor 17:00 besteld is morgen in huis!
Hi-Stands webshop.
  • Snelle Verzending
    Op werkdagen voor 17:00 besteld is morgen in huis!
  • 14 dagen bedenktijd
    Wij zijn pas tevreden als u dat bent.
  • Neem contact op via de mail
    En uw vraag wordt zo snel mogelijk beantwoord!
  • Aangesloten bij 2 keurmerken
    Veilig en betrouwbaar!
Beschrijving

AudioQuest NRG-Y2

Ideal for media streamers, Blu-ray players, cable boxes, and more, NRG-Y2 cables use direction-controlled Long-Grain Copper (LGC) conductors in a Semi-Solid Concentric arrangement in which the individual copper strands are packed more tightly and never change position within the bundle. This construction significantly reduces strand interaction distortion. The greater purity and more uniform grain structure of Long-Grain Copper further reduces distortion. In addition, NRG-Y2's direction-controlled silver-plated shield conductors efficiently drain RF noise to ground.

SEMI-SOLID CONCENTRIC PACKED LONG-GRAIN COPPER (LGC) CONDUCTORS
In a conventional multi-strand cable, distortion caused by electrical and magnetic strand interaction is compounded as each strand changes position within the bundle. In an AQ Semi-Solid Concentric Packed cable, strands within the bundle maintain their fixed relationships, significantly reducing distortion.
SILVER-PLATED DRAIN WIRES
Direction-controlled Silver-Plated shield conductors efficiently drain RF noise from the line and neutral shields to ground via the third “ground” pin. The net result is powerful, dynamic, and immersive.
ZERO CHARACTERISTIC IMPEDANCE
While many AC power cables feature low DC resistance in order to accommodate the demand for high current, a cable’s characteristic impedance is also crucial for optimal performance. Unlike most AC cables that constrict or compress an audio-provoked transient, AudioQuest AC cables combine low DC resistance and zero (no) characteristic impedance in order to deliver uncompressed transients on demand.