On Monday, October 13, 2003 at 1:30:37 PM UTC-5, N2EY wrote:
In article <adJhb.611$[email protected]>, Edward Knobloch <[email protected]> writes:
The 5R4 has a maximum piv voltage of 2800 volts,
so you would still need 3 1N4007's in series
in each leg for equivalent safety factor.
Absolutely correct.
The rated max supply voltage of 750V rms per plate means that
you should not use a transformer higher than
1500V rms center tapped in a full wave single phase
rectifier circuit using a 5R4.
The 750 volt rating is for capacitor input. With choke input you can go a bit higher.
The designers expected switching transients
when the current is interrupted in the HV transformer
and HV choke, and therefore included a max
supply voltage for guidance.
Even with no transients, the peak voltages that the diodes have to withstand are quite high, compared to the RMS transformer voltages. Here's why:
First off, the voltages in the transformer catalogs and tube manuals are RMS values, not peak values. 750 volts RMS equates to 1060 volts peak with sine waves. So under perfect conditions a 750-0-750 (1500VCT) transformer with fullwave center tap rectifier and capacitor input filter can have voltage output of 1060 volts.
But there's more! In our 750-0-750 example, each transformer HV lead goes from
1060 volts (peak) positive to 1060 volts negative with respect to the center tap. So each diode is subjected to as much as 2120 volts when it is in the nonconducting (inverse) state. So you need *at least* three 1N4007s to replace
one side of a 5R4. Four diodes won't hurt a thing.
The tube manuals I have show voltages higher than 750 for capacitor input, but
they are for the 5R4GYA.
In any event please use at least three and preferably four 1N4007s or equivalents in a 5R4 replacement. Plate transformers and filter chokes can be expensive and hard to replace.
73 de Jim, N2EY
Jim, N2EY is correct in his analysis. You have to look at more than the output voltage - you need to actually know the circuit analysis to see the PIV on the diode. His method is exactly right. In many tube audio amps, two 1000 V PIV (like iN4007)
series diodes in each string is enough. But above 200-300 V, in order to fully match the tube specs, like one needs a bit more than three. Never use one per side.
But that's not all. When you put diodes in series, the reverse voltages don't divide equally because each has a different leakage current. If those are not well matched, one should use "equalizing resistors" across each diode of about 5 to 10x the
leakage current of the diodes.
Then there transients to consider, and good derating practices. All this is why the commercial SS replacement plug-ins so frequently fail. Most guys making them are not engineers and didn't "do the math".
I personally use two BY2000 2000 V PIV diodes.
Drew K3PA
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