Analysis Plus Green Power Oval 10 – 1.5 Metres (Aussie Furutech Ends)
Although Oval 10 is the best choice for high current applications, it performs equally well with low current analog and digital equipment too. WattGate 320 IEC and WattGate 5266 connectors are used with this power cable.
When people design power cords they use massive cable to reduce the noise voltage on the cable. The noise voltage that occurs on the cable is related to L (inductance) and di/dt (the rate of change in the current). You can reduce L by using larger gauge wire but you don’t get much bang for your buck because it is a log function. What this means is that as you keep increasing the gauge of the wire you do not get much improvement for your effort. This is why you see people using very heavy and stiff wires in power cords. I have seen some power cords that are so big and stiff that the CD player connected to them is lifted off the ground.
What we have done at Analysis Plus is use computer simulation to optimize the design of a power distribution system. What we discovered is our patented hollow oval design provides a low L cable without having to use stiff and bulky cables. Our cables have a super low noise voltage to reduce the background noise to a minimum. This is extremely important during quiet passages, if you want to hear subtle details (this is very important for classical music fans and for other lovers of live music).
The other thing people don’t realize about low frequency noise is that the thin aluminum shield found on many power cords does nothing to reduce this problem. The best way to reduce low frequency noise on cables is to reduce loop area. From our computer simulation and measurements we found our patented hollow oval cables does a great job at this. We have the lowest noise voltage we have seen with our hollow oval design.
For higher frequencies our silver-plated copper braided shield does a great job. We used an open braid design that works much like the window on your microwave oven. You can see through the window but the radiation stays where it belongs.