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Hello all!
I have some issues with an old MIG 100 head I got from a friend. He stated that there was some work done of it before but that it keeps burning fuses, tubes and resistors and that he needs to find out what is wrong with it.
After some thorough examination I can state that the unit is functioning fine, only that the primary windings are the origin of the problem. The amp has a 230 / 110V switch that swicthes two primary windings of the power trafo OR in series (230V) OR in parallel (110V).
Something there in the primary must have gone wrong as the voltages in the amp are always double of what is required. The heaters all run on 12V AC and the plates and screens run on 900V (even loaded with tubes, I accidentally noticed). I removed the whole 110 / 230V switch and hardwired the 230V setting (windings in series) but still the amp behaves like it is on the 110V. I measured the windings with a multimeter and both windings give a reading and both give the exact same reading (very low ohmage as expected). When I put the windings in series the resistance is exactly the sum of the windings alone. I attached an AC voltage to the secondary and measured the exact same thing as mentioned above. So I can state that on the 230V setting it will behave like running on 110V and thus I have doubled the secondary voltages.
My only option is to replace the transformer I first thought..... but then I got an idea;
- The full wave rectifier in the unit (w/ center tap at the juntion of two large caps from V+ to ground) can be modded to a half wave rectifier with the tap going to ground giving me 1/2 of the voltage
- The preamp tubes can be run on 12V by putting them in series
- The 12V AC can be easily made into 6V DC by using a halve wave resistive load design by adding one diode to one tap and grounding the other tap
My main issue here is the safety and other design flaws...... is this idea any good? I know I'm trying to keep a wreck from sinking but still, it'll make the amp usuable.
I have some issues with an old MIG 100 head I got from a friend. He stated that there was some work done of it before but that it keeps burning fuses, tubes and resistors and that he needs to find out what is wrong with it.
After some thorough examination I can state that the unit is functioning fine, only that the primary windings are the origin of the problem. The amp has a 230 / 110V switch that swicthes two primary windings of the power trafo OR in series (230V) OR in parallel (110V).
Something there in the primary must have gone wrong as the voltages in the amp are always double of what is required. The heaters all run on 12V AC and the plates and screens run on 900V (even loaded with tubes, I accidentally noticed). I removed the whole 110 / 230V switch and hardwired the 230V setting (windings in series) but still the amp behaves like it is on the 110V. I measured the windings with a multimeter and both windings give a reading and both give the exact same reading (very low ohmage as expected). When I put the windings in series the resistance is exactly the sum of the windings alone. I attached an AC voltage to the secondary and measured the exact same thing as mentioned above. So I can state that on the 230V setting it will behave like running on 110V and thus I have doubled the secondary voltages.
My only option is to replace the transformer I first thought..... but then I got an idea;
- The full wave rectifier in the unit (w/ center tap at the juntion of two large caps from V+ to ground) can be modded to a half wave rectifier with the tap going to ground giving me 1/2 of the voltage
- The preamp tubes can be run on 12V by putting them in series
- The 12V AC can be easily made into 6V DC by using a halve wave resistive load design by adding one diode to one tap and grounding the other tap
My main issue here is the safety and other design flaws...... is this idea any good? I know I'm trying to keep a wreck from sinking but still, it'll make the amp usuable.
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