Hello Markus,
Friday, April 28, 2017, 2:32:50 PM
Another mail from me should appear in a minute, with a typo saying I
have 1500pF and 10 ohms low inductance resistor "Drain to Gate". It is
of course Drain to Source.... ;)
The circuit is Jay's, W1VD and built even duplicating, near as damn
it, his mechanical layout. As such the supply to each amp has a 4700uF
electrolytic to ground, right by the choke. I then added a 100V 0.1uF
ceramic as well, across the electrolytic. Supply is an HP 52V @ 57 or
something Amps SMPS from a computer server. Like this one, but un
modified:
http://www.qsl.net/kf8od/50vdcpsu.html
The leads from SMPS to amp(s) is figure of eight speaker wire, with
about 4mm diameter pure copper stranded conductors. The lead is about
3 feet long. I tried winding as many turns around a .4 inch OD 43
material toroid but it didn't seem to make any difference to the spike
energy. You are quite correct the energy takes quite a while to
dissipate...
Amp circuit and info here:
http://www.w1vd.com/137-500-KWTX.html
Thanks Markus!
> Hi Chris,
> the "overshoot" screenshot seems to indicate that ihe peak is not
> only a short RF spike but caused by a longer positive excursion of
> the supply voltage. This is probably caused by the suddenly ending
> current consumption when the carrier goes off. If the supply line
> contains significant inductance, it will try to sustain the current
> and thus increase the voltage. In a switchmode supply this could
> easily happen in the output ripple filter. A larger electrolytic cap
> (e.g. 100 uF) across the DC line near the PA should fix it.
> Best 73,
> Markus (DF6NM)
--
Best regards,
Chris mailto:[email protected]
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