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Hi there
I have a Fender 'The Twin' Red Knob that popped and emitted a smoke smell. Now theres no output at all, no hiss or anything. The standby LED is on and filaments get power. I am going to go in and test the power transformer and B+ voltages when I get a spare moment but wanted to ask a few questions I have come across already when doing visual diagnosis and pouring over the schematic for an hour.
I'm not green as a hobbyist, but still pretty new to this, so this amp represents a bit of a beast to get my head around..
Under basic tests, the power transformer isn't shorted prim-sec and the secondary resistances seem normal. The problem is on the 3rd coil on the secondary (at least on a basic check), this is the one that does bias I believe for parts of the power tubes and provides various power to the switching circuits. It also powers the lamps in the LDR's that control resistances in the signal path. The resistor R306 has blown, its one of the rectangular white blocky cement resistors. Visually, most else checks out, though I couldn't get a good reading of a C303 with a component tester/ESR meter so that may be suspect too.
Being a high watt and specifically fire-resistant resistor I don't want to chuck another in without knowing if something else along the way may be the cause. But, the trouble is, I'm confused by what a lot of the rest of that circuit is doing.. firstly WHAT are the LDR's for? Generally, theres not a whole lot else in that windings path.. the stuff for the power tube bias perhaps, and once we get down to the switching circuit, the IC (lm339n). Theres quite a bit that could be tested on the other side of the IC in the fotswitch circuit but I don't feel that's priority to check (just a hunch)
Anyway, I'm not looking for someone to throw out a tutorial on these particularly complex amps but a bit of insight into what all those LDR's are for may help, as I HAVE lost LED voltage so those LDR's WILL be in a high-resistive state. Also, anything that could have made that resistor go that's easily visible would be appreciated cos I can't see it, save the PT!
Also worth noting, the BIG 10w cement resistors R128 and R129 on the B+ have been replaced before in a fairly hack fashion with a load of tied together older green resistors, it has what looks like a weird bit of solder wick looped around a leg... It looks super dodgy as it definitely could form some erroneous connections. I have no idea if that's to do with anything but I think I'll be sorting that out too if I can find those resistors.... but anyone have an idea what the previous 'tech's' thinking was? (photo attached)
All the best and thanks for any input!
I have a Fender 'The Twin' Red Knob that popped and emitted a smoke smell. Now theres no output at all, no hiss or anything. The standby LED is on and filaments get power. I am going to go in and test the power transformer and B+ voltages when I get a spare moment but wanted to ask a few questions I have come across already when doing visual diagnosis and pouring over the schematic for an hour.
I'm not green as a hobbyist, but still pretty new to this, so this amp represents a bit of a beast to get my head around..
Under basic tests, the power transformer isn't shorted prim-sec and the secondary resistances seem normal. The problem is on the 3rd coil on the secondary (at least on a basic check), this is the one that does bias I believe for parts of the power tubes and provides various power to the switching circuits. It also powers the lamps in the LDR's that control resistances in the signal path. The resistor R306 has blown, its one of the rectangular white blocky cement resistors. Visually, most else checks out, though I couldn't get a good reading of a C303 with a component tester/ESR meter so that may be suspect too.
Being a high watt and specifically fire-resistant resistor I don't want to chuck another in without knowing if something else along the way may be the cause. But, the trouble is, I'm confused by what a lot of the rest of that circuit is doing.. firstly WHAT are the LDR's for? Generally, theres not a whole lot else in that windings path.. the stuff for the power tube bias perhaps, and once we get down to the switching circuit, the IC (lm339n). Theres quite a bit that could be tested on the other side of the IC in the fotswitch circuit but I don't feel that's priority to check (just a hunch)
Anyway, I'm not looking for someone to throw out a tutorial on these particularly complex amps but a bit of insight into what all those LDR's are for may help, as I HAVE lost LED voltage so those LDR's WILL be in a high-resistive state. Also, anything that could have made that resistor go that's easily visible would be appreciated cos I can't see it, save the PT!
Also worth noting, the BIG 10w cement resistors R128 and R129 on the B+ have been replaced before in a fairly hack fashion with a load of tied together older green resistors, it has what looks like a weird bit of solder wick looped around a leg... It looks super dodgy as it definitely could form some erroneous connections. I have no idea if that's to do with anything but I think I'll be sorting that out too if I can find those resistors.... but anyone have an idea what the previous 'tech's' thinking was? (photo attached)
All the best and thanks for any input!
Attached Files
.. oh for a cable tie..
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