Thank you for the well thought response, TT
Tony's regulator cannot make the alternator work any harder or better than the stock one. As mentioned in an earlier post it, like the stock one, can only distribute the power it sees on the Black wire to the alternator field. I don't care how much you wish to disparage the stock mechanical regulator, it works just fine in its original condition. It, like any replacement senses the battery charge state and tells the alternator the work toward keeping it at full charge. Assuming the battery is low, both regulators will put battery voltage onto the field coil, then it is completely dependent on how fast the rotor is spinning as to how much power comes from the alternator. The regulator can only cut back the alternator power in the event the alternator is making too much power for a battery already fully charged.
While the electronic regulator can provide continuously variable alternator field control, the mechanical one will continually switch to provide the same average voltage to the field coils as the electronic one and both should strive to keep the battery voltage below 14.5v and at an average value of about 13.8V.
One thing I'd like to know about the Oregon regulator is if it is temperature compensated to reduce the battery peak charge voltage in cold climates. The stock mechanical one >does< have this temperature compensation so as not the "boil" off electrolyte in cold weather.
Regarding your report that your bike now charges at a lower RPM, have you checked the black wire voltage going to the regulator before and after the symptom change. It could be that your mechanical regulator would also charge at the same RPMs given the same input voltage and the with internal contacts and adjustments restored to original specifications. Something, I find rather likely.
Cheers,
[/quote]
Sorry if my "archaic" comment sounded disparaging, it was only meant to point out the antiquity of the design.
Heck, NASA replaced all the steam guages in the shuttle with glass panel displays.
Not that the steam guages didn't work.....
Anyway, I do understand ohms law.
And I understand that a higher wattage bulb and two relays will draw more power from the system as a whole.
All of this occured one I installed relays on my STOCK 50/55 watt bulb.
Before, when I had a dim headlight and no relays, I had no charging problems, unless I idled in traffic with the light on, (which you cannot do (for long) on a stock setup as the mechanical regulator does not begin charging sufficiently until ~2500RPM).
After the relay install, I immediately had a problem to the point of killing my battery.
That is the part I don't understand, everything being the same, you would think that the lack of resistance through the switches would make up for the additional relay draw?
Concerning Tony's regulator, it begins charging at ~1200RPM instead of ~2500 and it does make a huge difference
when idling in traffic and overall with responsive turn signals at idle.
It could be that the mechanical regulator charges at ~1200, but, on page 93 of the service manual, it says that with the lights on, at 2000RPM the charge current is 0 amps, and 3000RPM = 2.4 amps. Extrapolating, that gives 1.2 amps at 2500RPM. Maybe the book is wrong, it certainly is about 1000RPM giving 6.5 amps.
I will check the output of Tony's unit tomorrow and post the results.
Thanks again for the time and input.
Mike
