Thanks, Leigh. If nothing else, those books emphasize the importance of a
soft-start circuit.
Evidently, it's the *change* in temperature that affects the life. If
holding the temp constant at those critical temperatures would actually
rapidly destroy the filament, I can't say.
A good friend of mine, WW8N, uses CL-60 current limiters in the 240 vac
PRIMARY circuit of the filament xfmr of his 3-500Z amp. These limiters are
10 ohms cold and a fraction of an ohm at rated current.
http://www.rfparts.com/inrush.html
73, Mike
www.w0btu.com
On Tue, Jun 25, 2013 at 12:48 AM, Leigh Turner
<invertech@frontierisp.net.au
wrote:
Yes indeed Mike, that's the reality with these tubes.
I like to think we can mitigate at least some of this tube life
degradation
through soft-start circuitry. My favourite means that has great merit is
an
automated slow-ramp up of the filament voltage over a time period of
several
seconds implemented with a phase-controlled Triac on the AC primary of
the
filament transformer.
I have such electronic slow 4 second soft-start circuits implemented on
my
twin 3-500Z tube based TL-922 amp, as well as my other ceramic-metal
tetrode
based amps that run oxide-coated heaters.
Now whether it's just a pointless feel-good measure or actually yields a
practical benefit in extending filament/heater service life I cannot say.
However, gently controlling cold filament inrush current in this way
certainly seems a sensible thing to do.
Of course the plate HV xfmr also benefits from the slow ramp-up in AC
mains
to prevent the large turn-on current surge of the initially uncharged HV
electrolytic capacitors over taxing the amp's ON/OFF switch contacts.
Leigh
VK5KLT
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