Friartuck
Well-known member
Folks,
This is a question pertaining to a Generac 5500 portable brushed type generator. The particulars are:
1. It is a brushed rotor where regulated DC is provided to the rotor's slip rings via two brushes,
2. Both stator windings measure under 1 ohm of resistance and are the same for both windings which is consistent with the service manual values of 1.2 or so ohms (hence low resistance),
3. The excitation winding measures 3.2 ohms,
4. No shorts in windings to case,
5. Rotor had one wire break at one of the two slip ring contacts and was re-soldered. Rotor now measures 62 ohms (at the slip rings), seems consistent with many hundreds of feet of small gauge wire. Rotor also measure 30 ohms per side, which seems right given the total of 62 ohms.
6. 10 HP B&S Engine repaired and runs well (original problem was piston ate a valve). Unit had 30 hours on it before engine failure.
7. When running AC output measures about 2 volts, well under the 220 it should.
8. Excitation measurement is about 1.6 AC volts and about 1.6 DC volts from the regulator to the brushes.
Q1. This seems that the residual magnetism in the rotor has been lost. Can it be brought back by supplying DC from an external source like a 12 volt battery to the brushes? Is there another way to revive the magnetism in the rotor without taking the unit apart? The unit spent at least two years out of service.
Q2. Could I temporarily supply DC to the brushes and run the unit to verify that the alternator at least produces AC before I invest any more time and $$ into this project?
This is a question pertaining to a Generac 5500 portable brushed type generator. The particulars are:
1. It is a brushed rotor where regulated DC is provided to the rotor's slip rings via two brushes,
2. Both stator windings measure under 1 ohm of resistance and are the same for both windings which is consistent with the service manual values of 1.2 or so ohms (hence low resistance),
3. The excitation winding measures 3.2 ohms,
4. No shorts in windings to case,
5. Rotor had one wire break at one of the two slip ring contacts and was re-soldered. Rotor now measures 62 ohms (at the slip rings), seems consistent with many hundreds of feet of small gauge wire. Rotor also measure 30 ohms per side, which seems right given the total of 62 ohms.
6. 10 HP B&S Engine repaired and runs well (original problem was piston ate a valve). Unit had 30 hours on it before engine failure.
7. When running AC output measures about 2 volts, well under the 220 it should.
8. Excitation measurement is about 1.6 AC volts and about 1.6 DC volts from the regulator to the brushes.
Q1. This seems that the residual magnetism in the rotor has been lost. Can it be brought back by supplying DC from an external source like a 12 volt battery to the brushes? Is there another way to revive the magnetism in the rotor without taking the unit apart? The unit spent at least two years out of service.
Q2. Could I temporarily supply DC to the brushes and run the unit to verify that the alternator at least produces AC before I invest any more time and $$ into this project?