Further mods to my 200S.
I bought the cap board from Tripod Electronics. It’s a kit, just a board and the parts, but I’m an experienced hand with a soldering iron, so that’s okay. I had to drill mounting holes in the chassis. I thought the transformer mounts would be the right distance apart, but that turned out to not be the case. Again, no big deal.
I used the supplied 1N4007 diodes. When wiring it up, I discovered something: when using the diodes, there is no provision for the standby switch. The diode output is directly connected to the first stage of capacitors.
I figured there were several paths to take. Forget about the standby function; cut the trace and wire it in from there; place the switch after the inductor, between it and the second capacitor stage.
I wanted the mod to be as transparent as possible, so going without a standby switch didn’t appeal to me. Neither did cutting the trace, especially since there was no convenient place to connect back into the circuit. So, I went with my third option.
Hooking it up was easy. I just ran the wire from the board to the coil, from the coil to the switch, then back to the board. Then I got to thinking: what about inductive kick? The coil is passing a fair amount of current. When I place it in standby, it will try to continue passing that current as its magnetic field collapses. It has to go somewhere. One solution is a flyback diode. That’s a diode placed in parallel with the inductor which shorts it out when the inductor becomes a current source. I wanted to do that, but couldn’t see a convenient place to put one in. Instead, I opted for a bleeder resistor. Voltage runs well over 500V, more like 550V. Being conservative, I used 600V as an estimate. I figured I had plenty of ¼ and ½ watt resistors on hand, so all I had to do was make sure I didn’t exceed that. ¼ watt at 600V comes to just over 1M. I found a handy 3M6 resistor (3.6 megohms) and ran that from the coil side of the switch to ground. That comes to one tenth of a watt. It should be fine.
I also had to extend the wire from A (the output transformer center tap, which supplies DC to the power tubes). Again, no big deal. Now, what to do with the canned multicap? I could take it out, and leave a gaping hole in the chassis, or leave it in. As before, I wanted this to appear as stock as practical, so I opted to leave it in. I also went ahead and hooked it up. I paralleled two of the four with stages B and C, not because I thought it would make any significant difference, but because, well, it was there. Besides, I might need it someday, and my understanding is that it’s better for electrolytics to be in operation than to sit idle.
I hooked it up to my Model 215, and cautiously powered it up. Cautiously, not because I thought I made any mistakes, but because, if I did, say, get the diodes or capacitors in backwards, exploding caps could result. No problems on that score, though. No problems at all, in fact.
At rehearsal last night, it sounded great. It seemed more solid, with just a little more ‘oomph’. Of course, that’s probably just my imagination. Nothing I did really ought to be audible.
