@Grainger
So no comment on the use of a Variac? It could solve your problem.
Thanks for the hint.
On one hand, I would prefer a solution that does not require any additional external components lying around.
If there will be no other way, I may still consider this solution though.
On the other hand, I did not find any such device with 230V primary that is available in the EU and does not break the bank.
If you have any specific model in mind, please share with me.
@Paul Joppa
I'm on vacation at the moment, but just saw this thread. A few comments:
Thanks for your reply, really appreciate it.
I am sorry I disturbed your well deserved vacation.
We have plenty time for any further comments/discussions, so for now please enjoy your vacation.
I also inserted my comments below, but no urgent reply is needed.
1) Until our latest products (Seductor and Stereomour II), we have only offered 240v designs, not 220 or 230. We made this choice a long time ago, because over-voltage is more common than under-voltage, and is more likely to reduce tube lifetime. Also, at least initially, most of our customers outside the USA were legacy-240v countries, mostly the UK (see #2).
While this certainly holds true, the key here I believe is "we made this choice a long time ago". Please see next point.
2) There are in actuality 220v generators and 240v generators; both of them now specify "230v" even though their power generation machinery - and voltages - have not changed. The power line voltage specification has asymmetric deviations, instead - for example, 230v +10%-6% in the UK and 230v +6%/-10% in many other countries. This is a political solution, not an engineering solution, in my opinion! In any case, many homes are not actually within the specified limits.
The asymmetric deviations you mentioned were in place during a transition period between 1995 and 2008.
Since 2008 the voltage is nominally 230 V ±10% in the EU. ( 207V - 253V )
One could of course also argue that the required 5% cannot be met regardless of the transformer used, if the mains voltage deviation exceeds the required secondary deviation.
In my home however, the voltage is a very steady 226V which means less than -2%.
In my specific case, the reason why the 5% is not met on the secondary side is that the primary winding is made for 240V instead of the nominal 230V.
With a 230V primary winding my secondary voltages would be well within 5%.
3) Most tubes, including those we supply, will operate happily at +/-10% voltage. A few specify 5% or even 4%, but their operation is not really different - the manufacturer is asking for a tighter control so that the other specifications have less variation. This reduction in variation is not critical to the operation of our amps.
In this case the tube manufacturer states that more than 5% deviations will damage the tube quickly and this will void the warranty.
I am not so much worried about the amp than the tubes themselves. Pls. also see point 6)
4) Tube amps have traditionally had a +/-10% expectation - this has been standard practice since the 1930s (when AC powered gear became ore common than batteries). Note that this means 216-264v for our 240v transformers.
The nominal voltage since 2008 has been 230V +/-10%, 207-253V in all of EU.
For a transformer with a 240V primary winding, the actual secondary voltages will have a deviation between -14% and +5%.
So over-voltages will definitely be avoided, but more than -10% under-voltage is possible.
5) The 45 will have slightly higher voltage on the filament because it draws less current.
I have been thinking about this myself. I will simply install the 45s and measure the voltage.
6) I am confident the amp will operate correctly on your power line, and that any effect on tube lifetime will be much smaller that the normal variation between one tube and another.
While this makes sense, somehow it still contradicts the requirements by the tube manufacturer:
"Filament voltage deviation is maximum 5% (0.13V for 2.5V tubes).
More than 5% off can damage the tubes after weeks or months.
We can easily recognize this, and there is no guarantee on tubes that have worked on too high or too low filament voltage."
In the end, point 3) and 6) seem to suggest to me to simply ignore the 5% requirement.
While I believe I understand your reasoning, I am still not fully convinced to ignore such a hard statement from the manufacturer.
Especially considering the price of the tubes.
I would like to enjoy many hours of music from this amp/tubes without any major issues or annoyances.
