Big Sur 5 Broches DIN

Câbles de modulation analogique-audio

Connect a wide range of audio electronics with this AudioQuest Big Sur 5 Pin DIN analog interconnect, meticulously designed for outstanding flexibility and versatility. Solid Perfect-Surface Copper+ (PSC+) conductors minimize distortion, Foamed-Polyethylene insulation preserves dynamic contrasts, and a Metal-Layer Noise-Dissipation efficiently dissipates high-frequency noise for cleaner, clearer, more naturally beautiful music.

$157.95 USD
SKU : BIGSUR0.6DIN  |  Code-barres: 092592025233

This product is made to order at AudioQuest headquarters in Irvine, CA. Expect moderately delayed fulfillment times. Custom lengths and terminations are available. Contact your Authorized AudioQuest Dealer for more information.

Key Features & Technology Explained

  • Les conducteurs solides emp�chent l'interaction entre les brins, une source majeure de distorsion dynamique dans les c‰bles.

  • Le meilleur cuivre d'AudioQuest. Dans la mesure du possible, les conducteurs PSC+ (Perfect-Surface Copper+) d'une extr�me puretŽ minimisent la distorsion causŽe par les limites du grain.

  • La dissipation du bruit par la couche mŽtallique prot�ge efficacement le bruit, en absorbant et en rŽflŽchissant la plupart des radiofrŽquences avant qu'elles n'atteignent la couche de masse.

  • La teneur ŽlevŽe en air du polyŽthyl�ne expansŽ minimise l'absorption d'Žnergie pour un son plus clair.

  • Tous les conducteurs sont contr™lŽs pour assurer la directivitŽ du bruit RF.

Spécifications

Description

    Solid Perfect-Surface Copper+ (PSC+) Conductors
    Solid conductors prevent electrical and magnetic strand-interaction. PSC+ Solid-Copper minimizes distortion caused by grain boundaries and maximizes linear RF Noise-Dissipation.

    Metal-Layer Noise-Dissipation
    It's easy to accomplish 100% shield coverage. Preventing captured radio-frequency interference (RFI) from modulating the equipment's ground reference requires AQ's Noise-Dissipation. Traditional shield systems typically absorb and then drain noise/RF energy to component ground, modulating and distorting the critical "reference" ground plane, which in turn causes a distortion of the signal. Noise-Dissipation "shields the shield," absorbing and reflecting most of this noise/RF energy before it reaches the layer attached to ground.

    Foamed-Polyethylene Insulation
    Any solid material adjacent to a conductor is actually part of an imperfect circuit. Wire insulation and circuit board materials all absorb energy. Some of this energy is stored and then released as distortion. Because air absorbs next to no energy and Polyethylene is low-loss and has a benign distortion profile, Foamed-PE, with its high air content, causes much less of the out-of-focus effect common to other materials.

    Asymmetrical Double-Balanced Geometry
    Purpose designed for single-ended applications, Asymmetrical Double-Balanced Geometry offers a relatively lower impedance on the ground for a richer, and more dynamic experience. While many single-ended cable designs use a single path for both the ground and the shield, Double-Balanced designs separate the two for cleaner, quieter performance.

    Cold-Welded, Gold-Plated Pure Purple Copper Terminations

AudioQuest Big Sur 5 Pin DIN - BIGSUR0.6DIN 0.6 m = 1 ft 11 in
AudioQuest

Big Sur 5 Broches DIN

$157.95 USD

Noise Dissipation

Feuillets métalliques

A/V Conductor

-

eARC Conductor

-

Ground Reference

-

-

Geometry

Asymétrique doublement équilibré

Gauge

-

Metal

ZERO: Solid Perfect-Surface Copper+ (PSC+) / BASS: Solid Perfect-Surface Copper+ (PSC+)

Pair or Single

2 câbles simples - 1 x RCA mâle > 1 x RCA mâle

Series

Big Sur, Bridges & Falls

Speaker-End Connector

-

Amplifier-End Connector

-

-

-

-

Output

-

DAC Chip

-

Volume Control

-

Desktop Compatibility

-

Mobile Compatibility

-

Application Options

-

-

Included Adaptor

-

Dimensions

-

Cable Length

  • 0,6 m = 1 ft 11 in
  • 1 m = 3 ft 3 in
  • 1,5 m = 4 ft 11 in
  • 2 m = 6 ft 6 in
  • 3 m = 9 ft 10 in
  • 5 m = 16 ft 5 in
  • 8 m = 26 ft 3 in
  • 12 m = 39 ft 4 in
  • 16 m = 52 ft 5 in
  • 20 m = 65 ft 6 in
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