The SAEC AC-6000 marks a milestone as the world's first power cable to incorporate the innovative PC-Triple C conductor, developed in collaboration with Furukawa Electric. This patented high-purity copper is produced through a unique continuous forging and drawing process that continuously aligns the crystal structure in the longitudinal direction, dramatically reducing grain boundaries (the primary barriers to signal and power transmission). The outcome is exceptional electrical stability, ultra-low distortion, high conductivity, wide dynamic range, and superior S/N characteristics optimized for demanding audio power applications.
The cable features a 3-core structure (live, neutral, ground) with each conductor comprising 45 strands of 0.32mm diameter, yielding an effective cross-sectional area of 3.6mm² (3.6Sq) per line. This substantial gauge supports high current capacity (up to 15A allowable) and low-resistance power delivery, ensuring consistent voltage and energy supply even to power-hungry amplifiers or full systems.
Construction includes semi-rigid PVC for individual conductor insulation to maintain electrical integrity, cotton thread insertion as a filler to enhance mechanical damping and promote energetic reproduction in the mid-low frequency range, and full copper foil shielding for effective protection against external RFI/EMI noise. The outer sheath is made of non-lead soft PVC, providing excellent flexibility and ease of handling for routing in equipment racks, walls, or custom setups. The overall outer diameter is φ11.5mm, balancing robustness with practicality.
Key construction features:
- Conductor: PC-Triple C forged copper (45 strands × 0.32mm per core, 3.6mm² cross-section)
- Structure: 3-core (tripolar) with copper foil shielding + cotton thread filler
- Insulation: Semi-rigid PVC for conductors
- Sheath: Non-lead soft PVC for flexibility and durability
- Outer diameter: φ11.5mm — robust yet manageable for installations
- Allowable current: 15A
- Material origin: PC-Triple C via exclusive continuous forging technology for audio-grade performance
