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I've installed Honda regulator/rectifiers on both my bikes and on several other bikes as well. They're a fantastic upgrade to the cruddy Suzuki bits. (Contact Duanage to get yours, or haunt eBay for early '80s Honda R/Rs made by Shindengen.)
Anyway, I noticed that the output voltage was a little high following the upgrade on two different bikes owned by friends (Al's '82 GS850GL, and Bob's '83 GS1100E). Not totally out of control, but in the high 15s and low 16s. Hmmm.
After investigation, it turned out there was a 1.3 to 1.5V voltage drop on the switched wire feeding the R/R's sense wire (the wire to the rear brake switch, in both cases). This was causing the R/R to crank up output to the battery too much. With the bike running, simply switching the sense wire to the battery dropped output to a lovely and rock-steady 14.4 volts.
All the connectors have been cleaned on both bikes, yet the voltage drop remained. I also didn't really feel like disassembling and cleaning the ignition switches (the likely cause for much of the remaining V drop) on a sunny Saturday morning.
So I ended up wiring in a high-quality relay on both bikes to ensure that full battery voltage is fed to the sense wire when the ignition is on. The brake switch wire simply activates the relay now.
Works like a charm!
Output is also much steadier now -- the R/R isn't straining to crank out too much voltage, and the more direct connection allows the R/R to react to loads much more easily.
Now that you have a source of switched battery voltage, you could also use the same relay to power heated grips and/or the coils. The sense wire doesn't really draw any current to speak of, so the full capacity of the relay is available.
One last hint -- I got the relays at Advance Auto. They sell a crappy 30A unsealed relay for $6 over in the electrical parts section, but they sell a very nice 40A sealed relay for $4 over by the fog lights.
Anyway, I noticed that the output voltage was a little high following the upgrade on two different bikes owned by friends (Al's '82 GS850GL, and Bob's '83 GS1100E). Not totally out of control, but in the high 15s and low 16s. Hmmm.
After investigation, it turned out there was a 1.3 to 1.5V voltage drop on the switched wire feeding the R/R's sense wire (the wire to the rear brake switch, in both cases). This was causing the R/R to crank up output to the battery too much. With the bike running, simply switching the sense wire to the battery dropped output to a lovely and rock-steady 14.4 volts.
All the connectors have been cleaned on both bikes, yet the voltage drop remained. I also didn't really feel like disassembling and cleaning the ignition switches (the likely cause for much of the remaining V drop) on a sunny Saturday morning.
So I ended up wiring in a high-quality relay on both bikes to ensure that full battery voltage is fed to the sense wire when the ignition is on. The brake switch wire simply activates the relay now.
Works like a charm!
Output is also much steadier now -- the R/R isn't straining to crank out too much voltage, and the more direct connection allows the R/R to react to loads much more easily.Now that you have a source of switched battery voltage, you could also use the same relay to power heated grips and/or the coils. The sense wire doesn't really draw any current to speak of, so the full capacity of the relay is available.
One last hint -- I got the relays at Advance Auto. They sell a crappy 30A unsealed relay for $6 over in the electrical parts section, but they sell a very nice 40A sealed relay for $4 over by the fog lights.
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