EWA IC-25 digital Interconnect USB
Presenting EWA IC-25 USB audio interconnects, an audio design that re-connects you with music and allows you to hear all the promise of your cherished audio equipment. This cable is designed to optimise your home audio setup so you can hear what it was really capable, all along.
EWA IC-25 features a most effective twin-shield system based around an excellent RFI shield and a bespoke inductive shield. This extraordinary shielding combination is enhanced by using some of best conductors available. EWA IC-25 is low capacitance, low loss design with superb noise suppression, and close to perfect phase behaviour.
EWA IC-25 stands as one of the most advanced interconnects available today and is a wonderful addition to your home audio sustem as a digital audio interconnect.
As with all EWA products, EWA IC-25 is handcrafted in the UK. Upon receipt, you have thirty days to immerse yourself in the listening experience and evaluate your new EWA cable in the context of your own audio system. If, for any reason, the product does not meet your expectations, it can be returned for a full refund, excluding shipping costs.
EWA IC-25 digital interconnect USB
(Tested with AIM LCR Databridge 401 at 1M, 1KHz, 21C)
- Data signal capacitance: 3.8pF
- Data signal Resistance: 2.1mΩ
- Data signal inductance: 1.3µH
- Power resistance: 2.1mΩ
- Power inductance: 1.5µH
Coaxial design with dual shields - Electro Magnetic and Radio Frequency Interference (EM & RFI), working in tandem. Excellent conductors are used to maximise the potential of this design, termination to gold plated USB terminals (solder, low temp after prep). Termination support via laminated structure incorporating mechanical and adhesive elements for robust support.
One test of IC-25 (1M unbalanced, with no termination) involved measuring the cable wrapped around a source of intense noise. In comparison with a high end and even higher priced competitor product (which Colin also deigned), IC-25 was an extraordinary -30dB over the competitor in terms of noise suppression.