I ran a pair at about 3KV for a long time. Once you get beyond about
2400V, the risk of a glitch goes up. The transformer had a variety of
secondary taps and I could dial it in pretty close. Tube is more
efficient and has less Ig for a given PO at the higher voltage which
helps so it's worth the work.
And it depends a lot on the tube. Some samples will do fine at the
higher voltage, others not so. In my case getting the heat out was the
challenge.
If you go this route make sure you have well protected the PS as you
should expect glitching. It's a great tube for the price.
73/jeff/ac0c
alpha-charlie-zero-charlie
www.ac0c.com
On 10/25/19 8:09 AM, Alan Ibbetson wrote:
The datasheet for the Russian GI7B triode says the maximum anode
voltage for "continuous wave generation" is 2.5KV, so about 5KV peak.
However the rating is 12KV for pulse operation. Flashover would not
appear to be an issue even with a 6KV DC supply and the Ia/Va graph
still looks sane at 8KV despite needing well beyond -60 volts on the
grid for cutoff.
Does this mean the valve can be safely operated with an anode supply
beyond 2.5KV as long as the thermal ratings are not exceeded? Or do
bad things happen? If there are problems please can someone explain
the physics?
The reason I ask is I've been given a 3.3KV/400mA PSU, I have some
GI7Bs on the shelf, and the cost of an 8877 or even a pair of 3-500Zs
these days makes me shudder.
Has anyone tried 3KV or more with a GI7B?
73, Alan G3XAQ
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