![audionote diy wire audionote diy wire](http://3.bp.blogspot.com/-wv4hIG-r7ms/UVNh2BoSO1I/AAAAAAAABag/Qwsr3zUMZkg/s1600/Power-Wiring-Transformer.jpg)
After some research I came up with what should have been a series approximation of the original parallel dividing network. Out of curiosity and desperation I eventually decided to give the series crossover a try. When I say this I mean I really tried variety of things, not just different parts, but tweaking values up and down, going different filter orders, attenuation slopes and what not, but at the end I reached the point to confirm that the original parallel network is simply spot on and I wouldn’t touch it except to use parts of higher quality.ĭespite the confirmation that the original crossover, developed by Andy Whittle at Audio Note UK, is optimal, I was still unsatisfied with the performance and was scratching my head as to what to do next. Setting off like Alice in Wonderland, my initial excitement caused by bringing the crossovers out of the enclosures was continuously drying up, giving way to the sober realization that the possibilities to lift the performance of the original crossover network were rather limited. But here we go – the sidewalks along the beaten track are sometimes more desirable. This breed is even more obscure than tube amplification and analog playback put together.
![audionote diy wire audionote diy wire](https://hfc-fs.s3-eu-west-1.amazonaws.com/s3fs-public/an-cable-900-800.jpg)
![audionote diy wire audionote diy wire](https://hfc-fs.s3-eu-west-1.amazonaws.com/s3fs-public/an-wire-0051-350_0.jpg)
We don’t often see series dividing networks in commercial or DIY applications. I tried almost everything, but it was the series crossover network that brought resolution and peace to my weary soul. This is what I came up with after several months of experimentation. Two coils, two caps and resistor, arranged across two drivers, with the purpose to divide the energy between them evenly.