So the Ammeter is Inductive? That's really cool! I want one!!! Link, please?

I have a few questions/comments, They will be inserted in a shortened quote of your post.

Hi Who.. First off.. WOW!!! Thank you for you very detailed writeup. Im very impressed with your attention to detail. These types of exchanges are where data is truly turned into information. You have enlightened me on my understandings.

See replies below, inline

1) updated my R/R with an OEM mosfet R/R. Whose "OEM" did you use? Suzuki never had a MOSFET R/R, and any MOSFET unit is merely an update, not an actual upGRADE.​ [darrell said] Yes. Nessim schooled me on this. My (incorrect) assumption was that a MOSFET R/R meant Series R/R. Its not. I was using an Amazon special R/R. It seems to work ok, but i bought a SH775 from Nessim and i will be swapping that out this weekend.

1a) I will attach a pix on a FUP reply to this thread. What is a "FUP" reply?​ [darrell said] Sorry, this is IT lingo.. FUP = Follow UP.

2) Added a volt/ammeter to the console. ... and put the ring on the red wire coming directly off the R/R from above. Nice meter, have not see a combo unit like that. Note that your choice of sensor location will show LOT of amps, virtually all the time the bike is running. It will include whatever the bike is using, along with what is actually going to the battery. If you move it to the wire that attaches to the MAIN fuse, it will show only what is charging the battery. Years ago, I played with an ammeter and a voltmeter in my vehicles, decided to ditch the ammeter and keep the voltmeter. MUCH more informative.​ [darrell said] Humm. Let me better understand what you are saying.. So the current location of the ring is on the lead directly off the R/R. My thought in doing so was to measure the amps that the R/R is pumping into the battery. This entire mod (volt/ammeter) was caused by a failure i encountered on a ride where my bike died mid-ride due to a discharged battery. At the time, i was only doing short rides to test carb tuning. This was caused by a faulty connection between R/R and battery. This was user error as i originally connected the lead coming from battery to lead coming from R/R with one of those solder/heat shrink joints. The idea is that you just butt the wired together in the joint and then heat them up and solder and heat shrink makes a water tight connection. My conclusion on this type of connector is that you need to use a lighter to "close the deal" rather than a heat gun. The heat gun does not seem to heat up the solder enough. Obviously, i can hold the heat gun near the solder for a longer time, but that ends up melting the heat shrink. Bottom line, i screwed up this connection and it came loose and i didnt realize it until my battery was completely discharged. Thankfully i was close to home. Question: so you are saying to move the pickup ring to the load side of the main fuse? Could i just use the switched mains wire (that goes to the key) in the headlight? That would be a much shorter wire run and allow me to bury the pickup ring in the headlight instead of under the seat. Please confirm if my understanding is correct.

3) upgraded headlight to HID led. Which did you do, HID or LED? They are mutually exclusive terms for different types of bulbs. Looking at your link, it was an LED. Although it is a decent brand, it might not be the best replacement available. Please be sure to check the beam pattern on a wall AND on the road in front of you at night. Too many of the "lesser-quality" lights put light where it should not be.​ [darrell said] So I will plead ignorance on this one. This was an amazon purchase that had good reviews. The beam intensity is greatly increased and it is much more "directed" vs being scattered with bulb i had it in original. I will do some research on HID vs LED. Can you offer any suggestions of one vs the other? Is there a good reason to use one vs the other or is it mainly a personal preference?


3a) Note, you will also need to add some dummy load resistor to both legs (high and low beam) of the circuit. Technically, you would want to add enough dummy load to match what the incandescent bulbs were drawing. This should be about 50w for each circuit. Note, that my calculation this was specifically about 40w, however, Amazon did not sell 40w dummy load resistors; they only had 10w and 50w. Why would you possibly want to add resistors to your headlight circuit? (OK, saw you had an 1100E with the monitor panel. Only your 1100E and the similar 750E have that panel, so would be the only ones to "need" a resistor.) Next, were the resistors 10 and 50 WATTS or 10 and 50 OHMS? If they were rated in watts, what were their ohms? Again, mutually exclusive terms. Personally, I would have tried to modify the sensor for the dash monitor and leave full power to the light.​ [darrell said] They are 10 and 50 WATT respectively. See link below. So what i did was measure load (with multimeter with pickup ring) of both high and low beam leads using original headlight. Then did same test with new LED light. The delta was ~4A for each. ie the LED was drawing 4A less than original. using Watts = Amps * Volts, that comes out to 48Watts. So my assumption (very likely incorrect) is that i need to add ~48Watts of load to each leg to simulate same load. This does, indeed get rid of the idiot light on the dash. However, as i mentioned, these 50W resistors get HOT, HOT, HOT. I found that just adding a simple 10W resistor seems to solve the problem and these generate far less heat. I simply routed them outside of the headlight housing thus they get airflow when bike is moving. Please correct me if im wrong is any of my conclusions from above. The resistors did not cause any noticeable decrease in brightness in the light

50watt: https://www.amazon.com/gp/product/B0...?ie=UTF8&psc=1
10watt: https://www.amazon.com/gp/product/B0...1?ie=UTF8&th=1

4&5) replaced brake/tail light with LED that has a blink feature when you press/pull the brake. Basically it flashes about 3 times, then stays on full. Ive seen this on several bikes and its a great safety feature. Note, you will need to add another (i actually used 2 wired in series) 10w load resistor. Why do you need a load resistor here? The light is made to work with a 12-volt system, let it do its thing. ​[darrell said] the 10w load resistor is to solve same problem from above.. ie the idiot lights on the dash. Without them, my dash looks like a Christmas tree. Yes, i could have solved this other ways, but i dont like the idea of disconnecting a sensor just because it annoys me. I would rather give the sensor data that is within its tolerance thus it will still function normally, ie tell you when the bulb is burnt out.

6) The blinkers swap out for LED's is another story. Bottom line, i left these as incandescent bulbs because 1) they are working just fine, 2) they are bright enough and 3) my turn signal auto cancel is working just fine and i want to keep it that way. The turn signal LED topic is well documented on the forums. Probably the best thing, considering what you have done to the other circuits. Yes, it's possible to change to LEDs, but it does take some precise modifying.​ [darrell said] Yes. I do have some LED blinker bulbs that i tried. My understanding is that yes, it is possible, but from what ive read, it appears that (at a minimum) would require replacement of blinker relay with solid state device and some heavy mods to make the self cancelling unit continue to work. IMO the juice is not worth the squeeze on this one. Blinkers are bright enough and, call me old fashion, but i do get a certain amount of satisfaction out of watching the 40 yr old technology of the self cancelling device work in present day. The self cancelling circuit and the gear indicator on the dash are, IMO, the most technologically advanced features on the bike.


Again, Thank you very much for your input.

Regarding ammeter sensor location:

When you added resistors, did you put them in-line with the light leads or across them

Putting them across the leads is the correct way, but they will get HOT, so mount them carefully.

I see now that the resistors for the brake/tail light are just to fool the computer, so I have to ask ... is it worth it?