Furutech FI-52 N1 (R) rhodium netstekker IEC – 16/20A


Artikelnummer: F17 Categorie:


Furutech FI-52-N1 (R) rhodium netstekker IEC

Speciale IEC stekker voor zwaardere 16-20A aansluitingen. Materiaal: Rhodium-plated Alpha Pure Copper.

De behuizing bevat ceramische nano-deeltjes en koolstofpoeder. Door de combinatie van deze materialen zorgt de FI-52 (R) voor een verbeterde omgang met piëzo-elektrische effecten ten opzichte van andere 20A IEC Connectors.

Kabeldiameter: 6mm tot 20mm

Furutech’s Pure Transmission Piezo Ceramic series connector bodies and housings feature several breakthrough construction techniques. A multilayer nonmagnetic stainless steel and carbon fiber shell incorporates a special damping and insulating acetal copolymer. Furutech settled on stainless and carbon fiber for the outer housing after extensive listening sessions with Japanese industry figures and audiophiles.
The body of the connectors combines two “active” materials: Nano-sized ceramic particles and powdered carbon. (Only nano-sized ceramic particles effectively couples with carbon powder.) Nylon and fiberglass are incorporated as well forming an extremely effective, well damped, mechanically and electrically nonresonant connector body. That’s correct, they’re electrically damped as well.
Piezoelectric effects are the key. Furutech’s breakthrough in design and materials is based on employing nano-sized polycrystalline ferroelectric ceramic particles exhibiting electro-generative properties; mechanical pressure creates an electrical charge forming a bridge between electrical and mechanical oscillation.
Carbon powder exhibits thermal-conductive characteristics that interact with the charged ferro-ceramic particles converting their energy into heat that’s conducted away and released from the surface of the connector body!
These carefully chosen and tested “active” materials mechanically and electrically damp the connector and receptacle as they “interconvert” thermal, mechanical, and electrical energy for the finest Furutech Pure Transmission signal imaginable.