Since you are trying to check the reg I would just change it. A defective reg can cause the fuse to blow..

If you want to verify it disconnect the reg (all wires) take it for a ride just on the battery

It was my mistake. I took the edit out. Turns out one of my bullet connectors got loose and wasn't quite making. I've got power now.. Looks like i've got a weekend project. Anyone else have input about the problem? Thanks!!

The stator papers say to measure volts across the diodes, patently wrong since we are measuring ohms. You should see 500-600 ohms for each of the 6 diodes. Someone really should correct that, it confuses people who are looking for voltage from a RR sitting on the bench away from a battery.

The case is not grounded or connected to anything. Measuring between the metal case and any wire will probably show no connection. I would be more concerned if it showed 0 ohms to the red or yellow wires since that might indicate something inside burned up and is touching the metal housing. This is a "bad touch" as it can lead to short circuits and burnt connectors.

When you put the black ohmmeter lead to the red RR wire, and the Red ohmmeter lead to each yellow you are Forward Biasing the diodes and that will show around 550 ohms. This means the diode is allowing voltage from the stator to pass through.

Now, when the red ohmmeter lead is on the ground wire, and the Red ohmmeter lead is on each yellow, then the OTHER 3 diodes are allowing voltage to pass to the ground connection. This also will show 500 ohms approximately.

Reverse the leads and it shows OL , or Open Lead for the diodes. The Diodes actually block voltage when it changes direction, allowing the other set of three to conduct instead.

If you have 80 Volts AC when the engine is running from the three yellow wires (disconnected from the RR of course) then the RR is probably the problem.

I've got a Fluke 179. I was checking it out on diodes test. I understand the principal of a 3phase rectifier (I work with power electrical systems at work).

I've got ~60VAC at 3000RPM (I don't want to go too high because my tach is slow and i dont want to blow anything) on all three leads coming from the stator so i'm not really worried about it.


I didn't like where the ground for the R/R went so I cleaned it up and put it directly to the negative terminal on the battery (Is that a bad thing?) The connection to the chassis is good (i accidentaly hit a +12V lead to the frame and it popped a fuse so its good lol).


When I disconnected the Red wire from the R/R and started the bike, I measured 12ish volts that moved a little bit with RPM but it didn't come close to 14. It actually went down when I went on the throttle a little bit more.


If I check with the ohm method you said above, should that give me a better idea?

It depends on the meter. A lot of the digital meters with a diode test function will tell you how many millivolts forward voltage there is.

The voltage comes from the battery in the meter, which it is passing through the diode to test it.

Well I drew out the diagram of the diodes and how the multimeter and leads that are hooked up in the test and my readings make sense to me but don't jive with what's said in the stator papers? Im confused lol.

If your meter has a diode test function, you use that.
Your readings in the first post indicate the diodes were all good.
Your R/R passed that test.

OK, That's what I thought.


But why is it not giving me 13-14volts when it's idling? I've got the AC voltage at the connectors when the bike is running. Could it be the internal regulation (that brings it down to the 13-14V .. ie: the SCR and the Zener diode that are inside are toast?)

The clymer's manual (which the P.O gave to me today ) says to perform a no load test (ie: AC voltage accross the stator when it's unhooked from the R/R) and if it's satisfactory to replace the R/R to correct the low voltage condition.

----> My R/R is ****ed somehow. Agree?

Duaneage... any input? Id like to have a bike thats working properly!

I think you have it figured out there.

Yep, the R/ appears to be OK, but the /R is 'toast'.

.

And if you want a superior R for the R, then the answer is the Honda ShinDenGen RR conversion. I offer rewired Honda RRs for 40 dollars delivered that are a direct bolt on for the Suzuki. They regulate better because they use higher quality parts, are rated at 450 watts instead of 280, and have a sense wire that measures the bike voltage to adjust the charging rate.

I'm the "go to guy" on the GSR for these regulator kits, PM me if interested in one, I usually ship the next day and I take paypal.

I think what you've written so far in this thread is not enough to narrow it to the R/R (or anything else) yet.

I somewhat doubt its the internal regulation, my understanding is that if the Zener/SCR blow, they tend to blow open but not shorted. (which would make your charging voltage go over 16 volts at 5000 rpm)
... Although I guess they could short.
If the R/R is shorted and shunting current to ground, it will be VERY hot.
You could run the bike for a couple of minutes and then touch it to see how hot it gets.


I just saw that you wrote the following lower downWhen the red wire from the R/R is disconnected, the bike absolutely will not charge ... the charging voltage comes from that wire. Make sure its connected when you try to measure charging voltage.
And don't measure it at idle either, a lot of GS's won't charge at idle. It must be above 13.5 at any rpm over 2000 or so though.

I would start by going over every connection in the charging path ...
Stator to R/R
R/R to fuse box
inside of fuse box at main fuse
fusebox to battery positive
R/R to battery neg (looks like you've done that one ...)

Get rid of any corrosion.
Make sure fuses are tight in holders
Make sure ALL connectors anywhere in those paths mate "firmly". If in doubt, cut them out and replace with new connectors.
Replace bullet connectors with spade connectors (I think bullet connectors make a crappy connection even when new, and after some years ... forget it)

A lot of times just cleaning and tightening connections will fix the charging system.

After spending a couple of hours doing that, then start looking for damaged components.

Ok, Well lets see what I can do.


But at the same time, when I remove the Red R/R wire, it isolates it from everything else.... so why is it not putting out the voltage? I checked at the stator wires going to the R/R and I had good voltage.

I come from an electronics background. Looking at the diagram of the SCR, if the firing angle of the SCR is being screwed up by the zener diode (in the middle of the voltage divider circuit.... if I knew what those resistors were in that circuit I would probably have a better idea as to what the firing angle might be?), then you would probably get odd readings (which is what leads me to believe is wrong with mine). The rectifier is OK but the regulation part (as crude as it may be on this bike) isn't working 100%



Yes I understand that the bike will not charge if I remove this wire. I can tell you that the charging system does work partially.... One wire worked itself loose last night after I took it for a test spin and I had dim lights and it would barely run at idle. If I gave it some gas it wasn't as bad but it still ran like ****. So, the charging system is partially working but it still isn't giving me the 14 volts that I need in order to charge the battery and run the electrical system at the same time.


I'll have to go out to the electrical place here and get some spade connectors on friday and re-do all of the connections I can see. I still don't think it'll make that big of a difference though because, like I said above, my stator is OK and with the R/R disconnected I don't get 14V (even when it's revved up). I still think it's the R/R but I want to make sure. The bike still works but I dont want to go too far.

Very true. I've got to spend a few hours on friday and get this all said and done. We shall see how it goes.

The Clymers manual said to perform a no load test (ie: voltage off the stator wires). If the no-load test is good, then replace the regulator/rectifier to correct the low voltage problem...


duaneage, I'll probably end up contacting you on the weekend about this... I want to get some of the connections changed with spade connectors.

Thanks!

The only thing I might add to the recommendations you already have is that I wouldn't think you can accurately measure the regulator output (red wire) with a DC meter if it's disconnected from the battery and floating. Never tried it however, either DC or AC.
Also, I agree with Bakalorz. I'm not convinced your /R is toast yet either, although there are indications it might be. But collective wisdom would say it's more likely connections. Even if it turns out to be the /R, it may have been bad connections that helped to take it out. If you don't fix the root cause, you'll be repeating all this again later in the summer.

Why wouldn't you be able to measure the voltage accurately? The regulator is what is suppsoed to be putting out the 13.5V at idle to the battery... When you hookup the multimeter to the lead (when it's disconnected) and it has issues going over 12V that leads me to believe that the regulator is having some problems. If it was an issue when the R/R was loaded (hooked up to the electrical system), my experience would say that the issue would dissapear when it is unloaded (just measuring from the leads). From what I read, you should ahve 14.1V at the battery terminals with the RPMS up and the R/R hooked up. I'm in the low 12's depending on how charged my battery is (the battery is brand new and has been load tested... it holds charge and is good).

I'd think that if it was a crappy connection, I'd get spurts of 13V or 14V on the battery terminals. My multimeter has a max/min/average feature and it didn't even come close to 14V when I revved it. I will be buying some spade connectors and re-doing a lot of them though (I had one connection get loose yesterday when i went for a ride and my bike had to rely on the crappy charging system to make it home.. that was fun).

I'm still having a hard time believing that the regulator is working properly. I'll check all my connections (I've been cleaning them with an abrasive stick for electrical contacts) and change the connectors but again, i don't think it's a connection (I could be very wrong though).

I guess the other thing I could try is to see how hot the heatsink on it gets (i can borrow a laser temperature gun from work to give you an idea) like was suggested above.


Would switching one of the wires from the stator to the rectifier maybe make a difference? From what I can understand on the wiring diagram, the White/Blue wire is the phase that goes to the side with the zener and SCR. Should I try swapping it with the Yellow phase (which just goes straight to the rectifier)? It shouldn't make a differnce since the stator is putting out voltage on all three legs properly, but who knows.