Audioquest
AUDIOQUEST Forest 3M USBA-USBB. O.5% silver. Hard-cell foam. Metal-layer noise dissipation Jacket - black PVC with green stripes.
Audioquest
AUDIOQUEST Forest 3M USBA-USBB. O.5% silver. Hard-cell foam. Metal-layer noise dissipation Jacket - black PVC with green stripes.
AUDIOQUEST Forest 3M USBA-USBB
- Connector Type: USBA to USBB
- Material: 0.5% Silver
- Insulation: Hard-Cell Foam
- Noise Dissipation: Metal-Layer Jacket
- Color: Black PVC with Green Stripes
The AUDIOQUEST Forest 3M USBA-USBB is a high-quality audio cable designed to deliver exceptional performance and clarity. With its USBA to USBB connector type, it is compatible with a wide range of devices, making it versatile and convenient to use.
What sets this cable apart is its construction using 0.5% silver, which ensures superior conductivity and minimizes signal loss. This results in a cleaner and more accurate audio transmission, allowing you to enjoy your music or other audio content with enhanced detail and fidelity.
The hard-cell foam insulation used in this cable provides excellent protection against interference and signal degradation. It helps to maintain the integrity of the audio signal, ensuring that you experience the full potential of your audio equipment.
Furthermore, the metal-layer noise dissipation jacket effectively shields the cable from external electromagnetic interference, reducing noise and distortion for a cleaner audio signal. This feature is particularly beneficial in environments with high levels of electrical interference.
The black PVC jacket with green stripes not only adds a touch of style to the cable but also provides durability and flexibility. It is designed to withstand daily use and resist wear and tear, ensuring a long-lasting and reliable connection.
Whether you are a music enthusiast, audiophile, or professional audio engineer, the AUDIOQUEST Forest 3M USBA-USBB is a top-notch audio cable that delivers exceptional performance and reliability. Upgrade your audio setup with this premium cable and experience the difference in sound quality.