I don’t think fuses in parallel are a good idea :-). But probably you weren’t
serious
Vic, I am serious! Actually, I would use them in parallel to determine the
overcurrent point then try and fine a single fuse of adequate size. That said,
I have seen as many as three used in parallel in another amp design.
Paul, W9AC
. I don’t know what the present rectifier modules are, but rather than trying
to protect them with a fuse, I would just make up a few strings of 6A10s, which
are basically indestructible. Then you size the glitch resistor so it won’t
blow up before the primary fuse blows in the event of a flashover. A nice 50
watt vitreous enameled one of 30-50 ohms should work.
By the way, I don’t know what the tubes are in that amp, but I presume one or
more triodes. A fuse in the plate circuit of a tetrode will cause the screen to
ignite like someone hit it with the heat ray in War of the Worlds, unless there
is a screen trip circuit.
Victor 4X6GP
> On 20 Sep 2019, at 22:04, Paul Christensen <w9ac@arrl.net> wrote:
>
> Yesterday, I lost all four HV bridge rectifier modules in my Alpha PA-70V
> vapor-cooled amp. After replacement, HV returned but whatever caused the
> fault event also took out a 2N3053 switching transistor that controls
> a 8.2V Zener bias diode from the EBS circuit. I used the opportunity
> to change it to a more robust transistor in a TO-220 package that
> effectively doubles Ic and Vceo. The transistor is already configured as a
> "discrete Darlington"
> with a 2N4401 ahead of it so the shock didn't get very far on the EBS PC
> board.
>
> Going back through the list archives, I see mention of using a HV fuse
> just ahead of an amp's glitch resistor. VE7RF recommended a second HV
> fuse placed between one leg of the HV transformer secondary at the
> C-input filter cap. Sounds like a nice way to potentially save the HV bridge
> diodes.
>
> I have sized the glitch fuse adequately and will use a HV microwave
> oven type as discussed in the archives. However, because of some
> unknown variables, it's a bit tricky to calculate the HV transformer's
> secondary fuse. I can use PSUD II software but primary and secondary
> HV transformer ESR are unknown variables.
>
> I'm also a bit skeptical that a fuse on the HV secondary will work as
> intended due to the extreme initial C charging current (35 uF/5KV
> filter cap), even though step-start will limit the initial inrush and
> that too factors into the equation. I could just keep stacking 900 mA
> HV fuses in parallel until they don't blow but that isn't an
> intelligent approach to a solution. Any guidance here?
>
> I don't see sand-filled ceramic HV fuses in this category and I dread
> the thought of cleaning up glass shrapnel in an amplifier. I'm
> thinking that Teflon heat-shrink tubing placed only over the glass
> portion should keep the shattering damage under control.
>
> Paul, W9AC
>
>
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