So what’s the problem – Linn 500 Solo User Manual

6

The first problem is that this is a lot more complicated than a mains

transformer (a few kilos of copper and iron), a rectifier and some large

capacitors. A switch mode design optimised for minimum part count will

still have many tens of parts, most of which are quite delicate but still have

to operate reliably in a very electrically hostile environment. We have been

designing and building switch mode supplies for our CD players, tuners,

preamplifiers and multiroom components for several years and can now make

them more reliable than the conventional transformers they replaced. But

this takes persistence, thoroughness and a very consistent high quality

manufacturing process.

The second problem, which is what stops most manufacturers considering

switch mode for audio, is the potential high frequency electrical noise, or

more precisely, preventing the high frequency signals becoming electrical

noise. The scale of the problem is quite daunting. The high frequency signal

applied to the transformer if connected to an external antenna would

obliterate radio reception for miles around (please don’t try this at home!).

This must be controlled and reduced so that it not only meets international

legal regulations but it must also not cause any audible or measurable

interference with any of the audio circuitry. This does not happen by accident,

but takes experience, thorough precision engineering and diligent quality

control. Only when all of this is achieved can the potential audio benefits of

switch mode start to be revealed and exploited.

So what’s the problem?