Are you sure the meter is ok? Sometimes meters read incorrectly.

If you do a "Quick Test" and post the results I can probably steer you in the right direction.

Sounds like the stator is weak or you are loosing voltage in the wiring. I've recently worked on a bike with similar charging voltage even though the no load AC voltage from the stator was reasonably high.

Stator should be wired directly into the R/R, bypassing the factory harness. R/R grounded to the battery or a solid frame point. Not the battery box or side panel. Lastly, verify you are not loosing power though resistance between the R/R power output line and the battery. Check the Stator Papers on how to check the system.

OK quick test completed. The battery charger was taken off 1/2 hour prior to test.
Key off--------13.05v
key on--------12.37v
at idle---------13.44v
at 2500--------13.06v
at 5000---------13.06
key off-----------13.14

I'm confident my multimeter is good. I have a 2nd one I bought a month ago and they both read very close. Thanks for doing this BTW.

If I bypass the harness, how close to the stator should I cut the wires. Is it good enough to cut them off behind the sprocket cover where I can get at them to solder? I have attached a lead from the battery neg to the reg/rec mounting bolt, is that good enough or should I run the black wire (ground) from the R/R to the battery instead of into the harness.
I will read more about the R/R power line. That's a check I don't know about.

I don't think you need to worry about the stator wires themselves, it's the harness proper that causes issues with resistance. Battery to R/R mount will work.

Thes results say you are charging some we just don't know if it is stator or bad connections. Test the voltage drops according to the revised phase A stator tests. Measure at 5k rpm if they are bad start looking for the drops you need to chemically clean connections and crimps . See gs charging health in my signature. Seems to me the volt meter and battery are fine just low charging with fold back says very poor connections.

I have results from the positive and negative voltage drop tests.
The positive lead tested good at 0.15v at idle and 0.06v at 5000 RPM
The negative lead test was 0.66v at idle and 0.52v at 5000 RPM. So the negative lead test is a problem as it's above the 0.25v baseline. I already have an additional negative lead from the R/R mount to the neg battery post installed. Also I tested 0 resistance between the neg lead between the battery and its grounding bolt on the engine.
What do you make of the results?

You can only measure the resistance using voltage drop. The resistance levels are well below 0.1 ohms.

You have a poor connections (resistance) somewhere. That is why there is voltage.

The positive leads measurements is suspect. It should always increase with RPM as the current goes up. Are you sure it is not 0.6V at 5K RPM?

Hamamatsu was a favorite of mine when I lived in Japan.
I would give a honda RR a try. The regulator part seems to be an issue
And you might have a bad diode out of the 6 causing problems. The oem
Regulators are suspect any way

Someone correct me if I'm wrong, but wouldn't a simple test be to connect the R/R ground and positive wires straight to the battery and then test voltage at 5000 rpm? If the system charges at 14 volts this way and 13.5 volts when the R/R is connected though the harness, then you have definitive evidence of a wiring problem. At any rate, this is what a member and I did with his bike when it was charging poorly. We took a known good R/R and hooked it up, yet the charging voltage was still low. Odd thing was the no-load AC voltage out of the stator was pretty good, yet the system was charging poorly at the battery under load.

I just tried Nessism's idea and hooked up a jumper between the R/R and the battery using the positive and negative leads. The results were 13.64v at 1500 RPM and 13.32v at 5000 RPM. A slight improvement, but not the answer. I guess this shows that the voltage drop in the harness is minimal.
Previous to this I closely examined the positive lead and the fuse box. Every spade connection is clean and shiny and measures no resistance within the fuse box and the positive lead to the battery.
Posplayr, I'm a bit confused on the positive lead voltage drop test. My test was a loss of under 0.25v. I thought that was a good thing. The negative test shower a loss of greater than 0.25v. But you are saying the voltage drop should increase with RPM, the same way battery voltage should increase with RPM?

This was my first thought as well. I did wire in a new Ricks R/R and got the identical results as the other R/R. Do you think a Honda R/R would make a difference?

Yes Ed, a swap out method is a well established approach to system diagnosis. Assuming that the swap out times minimal time, it works very well.

In diagnosing the issue there are really only four things that can be wrong

Low battery
Bad R/R
Bad Stator
Bad Wiring

So under "swap out theory"
If you can show a change in performance with a change of one of the items then you have identified the problem. The problem is complicated if you test with not known good. But eventually if you can show one case then that is sufficient for making a diagnosis of a bad part.

For purposes of "swap out" testing of the wiring, going direct to the battery should come close to eliminating the resistance and potential for voltage drops. And would confirm that wiring was an issue.

The Quick Test is an integrated test, which observes the charging system under different conditions. Depending upon deviations from normal operation, there is an ambiguity group (set of problems) that are indicated by a symptom or combination of symptoms. The down side of the Quick Test is that there are no absolutes, and there are a multiplicity of symptoms. How ever on the upside it does not require any swap out and is performed very quickly so any reduction in the ambiguity group (indicated failures) can be obtained very quickly and without much cost (time or money in parts).

If you can't tell I have been working on optimal diagnostic theories and approaches.