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I have developed an electrical problem. As background, I replaced my main fuse panel with an Eastern Beaver fuse box, and I did the ignition switch relay mod. I did this early last year, and it ran fine aside from a problem that developed with the signal generator, which I was able to resolve.
This season I took it out for a few rides, and had no issues. Then my son took it for a longer ride, and on the way home it died. I drove to meet him, and found that the main fuse had blown. I replaced it, and the bike was still dead. I traced and found that the ignition switch relay was fried. I had spare relays, so I replaced the relay, and the bike turned on and started up.
I followed him home, and it died within a few minutes. Again, both the fuse and relay were fried. He thought it happened on a turn both times, so we decided to drive home without using turn signals. That didn't help and it died a third time. This time I didn't have another relay on the road with me, so we pulled the wires from the relay and wired the ignition switch back to the fuse panel switched line, essentially undoing the relay mod.
We thought that maybe there was a short in the headlight line that was happening while driving, so he left the headlights home, with my car's headlights lighting the way. This time we made it home, although I am doubtful that was the problem. I suspect the failed relays was causing a short and blowing the fuse. My son said he noticed that before the bike died each time, the voltage steadily dropped to about 8 volts, then it dies. We have a digital volt gauge under the instrument cluster.
I cut open all three failed relays, and found that the coils had been fried. All were melted, and one was heavily blackened. The contact points looked clean, so I don't think there was an overdraw on the contact side I suspect that when they coils were melting, they gradually reduced resistance, lowering the voltage, until they heated enough to short out and take the fuse with it. This is just a guess.
I think the only thing that would fry the relay coils would be an overvoltage. Anyone who can confirm/refute that idea?
If that's true, then I thought I should look at the R/R. I measured the charging voltage, and it is a bit high. With the headlights off, it is just under 15 volts. With the headlight on, it is about 15.3 or higher. However, two factors I think affect that. My Honda R/R has a sensor wire, which I have connected to the rear brake light 12 volt input. With the ignition switch relay bypassed right now, the resistance in the switch is lowering the voltage to the sensor line, which I think would cause the R/R to compensate, causing overvoltage. If I temporarily reconnect the ignition switch relay, I measure a more reasonable voltage in the mid/high 14's.
I am unsure if right before it fails, there is some unexpected overvoltage from the R/R. My son didn't notice it, but that doesn't mean it isn't happening.
Any ideas where to go next?
Glen
This season I took it out for a few rides, and had no issues. Then my son took it for a longer ride, and on the way home it died. I drove to meet him, and found that the main fuse had blown. I replaced it, and the bike was still dead. I traced and found that the ignition switch relay was fried. I had spare relays, so I replaced the relay, and the bike turned on and started up.
I followed him home, and it died within a few minutes. Again, both the fuse and relay were fried. He thought it happened on a turn both times, so we decided to drive home without using turn signals. That didn't help and it died a third time. This time I didn't have another relay on the road with me, so we pulled the wires from the relay and wired the ignition switch back to the fuse panel switched line, essentially undoing the relay mod.
We thought that maybe there was a short in the headlight line that was happening while driving, so he left the headlights home, with my car's headlights lighting the way. This time we made it home, although I am doubtful that was the problem. I suspect the failed relays was causing a short and blowing the fuse. My son said he noticed that before the bike died each time, the voltage steadily dropped to about 8 volts, then it dies. We have a digital volt gauge under the instrument cluster.
I cut open all three failed relays, and found that the coils had been fried. All were melted, and one was heavily blackened. The contact points looked clean, so I don't think there was an overdraw on the contact side I suspect that when they coils were melting, they gradually reduced resistance, lowering the voltage, until they heated enough to short out and take the fuse with it. This is just a guess.
I think the only thing that would fry the relay coils would be an overvoltage. Anyone who can confirm/refute that idea?
If that's true, then I thought I should look at the R/R. I measured the charging voltage, and it is a bit high. With the headlights off, it is just under 15 volts. With the headlight on, it is about 15.3 or higher. However, two factors I think affect that. My Honda R/R has a sensor wire, which I have connected to the rear brake light 12 volt input. With the ignition switch relay bypassed right now, the resistance in the switch is lowering the voltage to the sensor line, which I think would cause the R/R to compensate, causing overvoltage. If I temporarily reconnect the ignition switch relay, I measure a more reasonable voltage in the mid/high 14's.
I am unsure if right before it fails, there is some unexpected overvoltage from the R/R. My son didn't notice it, but that doesn't mean it isn't happening.
Any ideas where to go next?
Glen
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