Announcement

**Steve** · 06-20-2018, 10:50 PM

Originally posted by pdqford View Post

If I plug in either coil, the aux volt gauge still reads 12.2v.
BUT, if I connect up BOTH coils, the reading drops to 10.5 v.
Whats up with that ???
It seems to me that the igniter should not be grounding either coil since the engine is not turning.

On the contrary, both coils are grounded just about ALL the time.

When the trigger on the crank spins around and gets near the sensor, the ignitor OPENS the circuit for that coil, which is what causes it to fire the spark plugs.

The ignitor is just a box of transistors that replaces mechanical points. They are "closed" most of the time, allowing the coils to charge. The advantage of transistors over points is that they can "open" much quicker, so they can stay "closed" longer, allowing a better charge in the coils.

.

**Brendan W** · 06-21-2018, 05:16 AM

Originally posted by pdqford View Post

So as of now, my battery puts out 12.6v. When I turn the ignition key on, I have the lights turned off so only the instrument cluster lights come on, and the battery drops to 12.5v.

The battery has internal resistance. If you check it with a voltmeter with the ign switch off you will see the full battery voltage. As soon as you connect a load and draw current from the battery, that current has to overcome the internal battery resistance to get out and you will see a reduction of voltage at the battery terminals.
10.5 is quite low so there is either a large current or the battery is not the best. How old is it, electrolyte level etc etc.
Battery internal resistances are quoted as 50mOhm new to 1 Ohm at end of life.
Given your 2.1 Volt drop my back of the envelope calculation says either you have a new battery sending 40 Amps somewhere, highly unlikely, or a tired battery sending 2 Amps or somewhere in between.

**Redman** · 06-21-2018, 07:26 AM

You mentioned the headlight is off during all this.
TRy the battery voltage drop test when just turning on the headlight (without the coils).
This may convince you that the battery is suspect.

During this year long project time, have you had the battery charged.....? did it sitt uncharged....?

**posplayr** · 06-21-2018, 08:50 AM

Internal battery resistance is a function of state of charge. SOC may be low in a perfectly good battery that just needs charging. On the other hand if a battery will not accept a charge then SOC will also be low but the battery will need replacing.

reiterating this for the nteenth time, make sure the battery is charged when performing v charging tests like the Quick Test.

The charging system stem has difficulty charging a low SOC battery do a 3-4 amp charger is required. (Not a 1amp trickle charger)

**pdqford** · 06-21-2018, 09:42 AM

THANK YOU all for your responses!
I’ll try to respond to each with what I know or have since found.

**pdqford** · 06-21-2018, 09:52 AM

Originally posted by Steve View Post

On the contrary, both coils are grounded just about ALL the time.

When the trigger on the crank spins around and gets near the sensor, the ignitor OPENS the circuit for that coil, which is what causes it to fire the spark plugs.

.

Thanks Steve. I did not know that the coils would be hot most of the time.
Not sure why the voltage reading was the same (12.2v) with either coil connected to the circuit by it self, but only dropped to 10.5v when BOTH were connected. There is probably something else going on that I’m not aware of (yet).

Just wondering, if both coils are hot and the engine is not spinning, if I was to turn the key to off (or unplug a coil), would that cause a coil to fire?

**pdqford** · 06-21-2018, 10:06 AM

Originally posted by Brendan W View Post

The battery has internal resistance. If you check it with a voltmeter with the ign switch off you will see the full battery voltage. As soon as you connect a load and draw current from the battery, that current has to overcome the internal battery resistance to get out and you will see a reduction of voltage at the battery terminals.
10.5 is quite low so there is either a large current or the battery is not the best. How old is it, electrolyte level etc etc.
Battery internal resistances are quoted as 50mOhm new to 1 Ohm at end of life.
Given your 2.1 Volt drop my back of the envelope calculation says either you have a new battery sending 40 Amps somewhere, highly unlikely, or a tired battery sending 2 Amps or somewhere in between.

Thanks Brendan. Before I got into testing the voltages I put this AGM battery on my battery charger with it set to AGM and 3 amps. The battery charger clicked over to “maintenance” mode in less than an hour and my meter showed it was 12.6v.

The thing that seemed strange to me is that, with the coils disconnected, the battery voltage dropped to like 12.4v and the open coil circuit read like 12.2v. I’m okay with that, but when I plugged the coils in, the voltage at the coil connector dropped to 10.5v, yet my meter on the battery posts only dropped to like 12.1v.

**pdqford** · 06-21-2018, 10:21 AM

Originally posted by Redman View Post

You mentioned the headlight is off during all this.
TRy the battery voltage drop test when just turning on the headlight (without the coils).
This may convince you that the battery is suspect.

During this year long project time, have you had the battery charged.....? did it sitt uncharged....?

Good idea, Rodman. So, with the coils disconnected, and one voltmeter on the O/W wire (harness side of the coil connector) and the other volt meter on the battery posts, I turned the key to on. The battery voltmeter reads 12.2v and the O/W meter reads 12.0v.
Then I switched the headlight/tail light switch on and the battery voltmeter drops to 12.0v and the O/W meter drops to 10.3v. What’s up widdat?

But you got me thinking, when I cleaned up the connections a year or two ago, I found a fair voltage drop inside the main harness (had to unwrap about 8” and found a factory splice that was turning green - cleaned it all up, resoldered it and rewraped it) and a significant drop across the kill switch. Cleaned up the kill switch contacts and all was then good. I’m gonna go out there and check that kill switch to see if something crawled in there and died!

**pdqford** · 06-21-2018, 10:30 AM

Originally posted by posplayr View Post

Internal battery resistance is a function of state of charge. SOC may be low in a perfectly good battery that just needs charging. On the other hand if a battery will not accept a charge then SOC will also be low but the battery will need replacing.

reiterating this for the nteenth time, make sure the battery is charged when performing v charging tests like the Quick Test.

The charging system stem has difficulty charging a low SOC battery do a 3-4 amp charger is required. (Not a 1amp trickle charger)

So I did put the charger on the battery yesterday morning and set it to AGM and 3 amp. (See above posting).

I may have pulled the battery down a bit with all my testing, but this morning I put my electronic battery tester on the battery. The battery is an AGM rated at 220 CCA. The tester showed the battery health at 100%, internal resistance at 8.65 m/ohm, capable of putting out 345 CCA and the state of charge at 75% (12.45v).

I think the battery is still a good one, but I will put it on the charger again.

**Brendan W** · 06-21-2018, 02:25 PM

Originally posted by pdqford View Post

The thing that seemed strange to me is that, with the coils disconnected, the battery voltage dropped to like 12.4v and the open coil circuit read like 12.2v. I’m okay with that, but when I plugged the coils in, the voltage at the coil connector dropped to 10.5v, yet my meter on the battery posts only dropped to like 12.1v.

Ok, so somewhere between the battery and the coil plug you are losing 12.1 - 10.5 = 1.6 Volt.
Some drop is acceptable but that is too much.
The suspects would be the ignition switch, the kill switch and or the fusebox.
Cleaning the contacts in the switches and the fusebox could get you back over a volt of that drop.
Open circuit has no current flowing so you won't see the resistance drops. V = I R

**posplayr** · 06-21-2018, 02:29 PM

Originally posted by pdqford View Post

Thanks Steve. I did not know that the coils would be hot most of the time.
Not sure why the voltage reading was the same (12.2v) with either coil connected to the circuit by it self, but only dropped to 10.5v when BOTH were connected. There is probably something else going on that I’m not aware of (yet).

Just wondering, if both coils are hot and the engine is not spinning, if I was to turn the key to off (or unplug a coil), would that cause a coil to fire?

The coils are hot all the time if you consider that the Coil(+) is always hot when the key and start button are on.

How much current the coils are drawing will depend on whether the bike is running or not. If the bike is running the draw (measured with 3 ohm coils ) is about 3 amps.

If the bike is not running it will probably be slightly more as one or the other ignitor channels will be drawing current through the coil.

**posplayr** · 06-21-2018, 02:31 PM

Originally posted by Brendan W View Post

Ok, so somewhere between the battery and the coil plug you are losing 12.1 - 10.5 = 1.6 Volt.
Some drop is acceptable but that is too much.
The suspects would be the ignition switch, the kill switch and or the fusebox.
Cleaning the contacts in the switches and the fusebox could get you back over a volt of that drop.
Open circuit has no current flowing so you won't see the resistance drops. V = I R

Bingo, this is why people do coil relay mods.

Still worth cleaning out the switches with some DeOxit and then reapply some dielectric grease.

**posplayr** · 06-21-2018, 02:37 PM

Originally posted by pdqford View Post

So I did put the charger on the battery yesterday morning and set it to AGM and 3 amp. (See above posting).

I may have pulled the battery down a bit with all my testing, but this morning I put my electronic battery tester on the battery. The battery is an AGM rated at 220 CCA. The tester showed the battery health at 100%, internal resistance at 8.65 m/ohm, capable of putting out 345 CCA and the state of charge at 75% (12.45v).

I think the battery is still a good one, but I will put it on the charger again.

Your numbers are not really consistent with lead Acid battery chemistry. You should have about internal resistance with about 0.5ohms@ SOC=100% and 1 ohm @ SOC=75%. This corresponds to about 0.5Volt drop @SOC 100% and 1.0 volt drop@SOC 75%.
All voltage drops measured at the battery. The bulk of your voltage drops in the wiring above an beyond this are due to dirty contacts and corrosion. There is only a slight drop due to wire size (less than 0.100 V). This would all be consistent with a stock 14AmpHr battery.

Realise with light and key on you are drawing at least 10amps from the battery (bike not running)

**posplayr** · 06-21-2018, 02:44 PM

Originally posted by Brendan W View Post

The battery has internal resistance. If you check it with a voltmeter with the ign switch off you will see the full battery voltage. As soon as you connect a load and draw current from the battery, that current has to overcome the internal battery resistance to get out and you will see a reduction of voltage at the battery terminals.
10.5 is quite low so there is either a large current or the battery is not the best. How old is it, electrolyte level etc etc.
Battery internal resistances are quoted as 50mOhm new to 1 Ohm at end of life.
Given your 2.1 Volt drop my back of the envelope calculation says either you have a new battery sending 40 Amps somewhere, highly unlikely, or a tired battery sending 2 Amps or somewhere in between.

In nominal terms typical measurements that we have seen reported here for 14 AmpHr batteries using the key on test with the headlamp on (10 amp nominal load)

0.5V drop with key ON would be IR 0.5 ohm and SOC 100%
1.0V drop with key ON would be IR 1.0 ohm and probably SOC 75% (I'm guessing on SOC but I have seen this a lot with the key on around 11.7-11.8V

Announcement

Coil circuit question

Coil circuit question

Comment

Comment

Comment

Comment

Comment

Comment

Comment

Comment

Comment

Comment

Comment

Comment

Comment

Comment