NES-3001G is a high-end speaker cable made from G-UPOCC (Graphene-Ultra Pure Ohno Continuous Cast) monocrystalline graphene copper. This advanced material ensures superior conductivity and minimal signal loss, making it an excellent choice for audiophiles seeking top-notch sound quality.
Benefits of Graphene in Audio Applications:
Graphene, a single layer of carbon atoms arranged in a hexagonal lattice, is known for its exceptional electrical and thermal conductivity. In audio applications, graphene enhances signal transmission, reduces resistance, and minimizes signal loss, resulting in improved audio frequency response, increased sound definition, and clarity. It also helps in reducing distortion and interference, providing a cleaner and more immersive audio experience.
- Conductors: The cable features 16 individually insulated conductors, including 6 red, 6 black, and 4 transparent.
- Cross-Section: Each conductor has an external diameter of 2.1 mm and an internal diameter of 1.1 mm, with a cross-sectional area of 1.04 mm² (17 AWG) per conductor. The total cross-sectional area is 8.37 mm² (8 AWG)
- Superior Sound Quality: The use of G-UPOCC graphene copper ensures excellent signal transmission with minimal distortion, providing a warm and deep sound. Low Inductance and
- Capacitance: The design incorporates PTFE insulation to achieve low inductance and capacitance, reducing signal interference.
- Durability: The cable is robust and well-shielded, ensuring long-lasting performance.
Technical Specifications:
- Material: G-UPOCC Graphene Copper
- Insulation: PTFE (Teflon) insulation for each conductor
- Shielding: Braided nylon sheath around a PVC core
- Diameter: 15 mm
- Inductance: Low inductance design
- Resistance: Low resistance due to high-purity copper conductors
Neotech is one of the world's largest and one of three factories producing monocrystalline copper cables using Ohno Continuous Casting (OCC) technology. Neotech's cables are cryogenically treated and made of UP-OCC monocrystalline copper with a purity of 7N (99.99998%).