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Electrical
Bench Testing Ignition Coils
- dcarver220b
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6 months 3 weeks ago #32538
by dcarver220b
Bench Testing Ignition Coils was created by dcarver220b
Installed new
YellowSquare
ignition coils. Bike still didn't run good.Time to bench test the coils. Search Google.
Find this
. Ez pz.
What I don't know is why adding the condenser enables plugs to spark. Could it be the switch, as it opens the primary to induce field collapse and 2ndry discharge is discharging though the switch contact? Or trying to lit the little bulb in the switch that indicates the circuit is powered?
- Batt + to coil +
- Coil neg to switch to batt neg
- Ground spark plug
- Hi tension lead to sparkplug cap
- Open the switch, primary field collapses, induces hi voltge in secondary, discharges through plug.
- But. It doesn't work. No spark. Borrow two auto ignition coils. No spark. Test old Martek coils off KZ1300. These coils had the bike running. But no spark on the bench.
- Check all wires for continuity
- Check plug resistance
- Check switch
- Everything checked out SAT
What I don't know is why adding the condenser enables plugs to spark. Could it be the switch, as it opens the primary to induce field collapse and 2ndry discharge is discharging though the switch contact? Or trying to lit the little bulb in the switch that indicates the circuit is powered?
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- Kawboy
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6 months 3 weeks ago - 6 months 3 weeks ago #32540
by Kawboy
Replied by Kawboy on topic Bench Testing Ignition Coils
Last edit: 6 months 3 weeks ago by Kawboy.
The following user(s) said Thank You: Bucko
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- dcarver220b
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6 months 3 weeks ago #32541
by dcarver220b
Replied by dcarver220b on topic Bench Testing Ignition Coils
Thanks for reply Kawboy, my video didn't post correctly so will try again.
You'll see from the video that both plugs are grounded - and that when the condenser is in-circuit, a good blue spark happens.
Let's try to show the video again..
You'll see from the video that both plugs are grounded - and that when the condenser is in-circuit, a good blue spark happens.
Let's try to show the video again..
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- Bucko
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6 months 3 weeks ago - 6 months 2 weeks ago #32542
by Bucko
Hello from Canada's We(s)t coast.
Replied by Bucko on topic Bench Testing Ignition Coils
The spark plugs should be connected to each other, not to ground (I realize you have them connected together at the negative terminal but that's not required). As Kawboy mentioned, the bike ground (the head in this case), is 'floating' with regard to the coil outputs. Similarly, the cores of the OEM coils do not need to be grounded in order for them to work (I only mention it as I often read online advice telling people to ensure there's a ground wire to the coil core which is not required for this type of ignition coil (or rather, not required for the OME ignition coils).
Hello from Canada's We(s)t coast.
Last edit: 6 months 2 weeks ago by Bucko.
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- Kawboy
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6 months 2 weeks ago - 6 months 2 weeks ago #32547
by Kawboy
Replied by Kawboy on topic Bench Testing Ignition Coils
I applaud the enthusiasm to learn, but feel I need to curb your actions before you damage your coils.
First- The KZ1300 has a redline of 8000 rpm, so the spark event needs to happen in 60 seconds divided by 8000 = 7.5 milliseconds.A spark event is the build up of a magnetic flux, collapsing of the magnetic flux and a discharge of a spark.A typical spark duration for most ignition systems is around 1.3-1.5 milliseconds and there are some ignition systems capable of up to 2.8 milliseconds but for the purposes of this rant, let’s stick with 1.3 milliseconds.So if a spark event at 8000 rpm is 7.5 milliseconds and 1.3 milliseconds is used up in spark duration, they the time left over to build a magnetic field is 7.5-1.3 = 6.2 milliseconds. So the ignition coil has to be able to charge in 6.2 milliseconds or less. Most ignition coils running a 3.0 Ohm primary circuit require 8 milliseconds to build a full magnetic flux.To achieve a full magnetic flux of 8 milliseconds and a spark duration of 1.3 milliseconds (9.3 milliseconds total) works out to 6457 rpm. After that there’s not enough time to create a fully charged spark.So where am I going with this? – The coil is designed to build a full magnetic flux in 8 milliseconds.Energizing the coil for longer than 8 milliseconds will not build any more flux and can likely damage the windings by overpowering for too long. Your setup with a toggle switch should be reconsidered as it’s impossible to turn on and off in that timeframe.
Second- You measured the resistance of the components but do you have the design specs for the coil??Measuring resistance will give you one of 3 outcomes. Either the resistance is within spec or too low or too high. If you measured the resistance and found it out of spec and to the low side, it could mean in the case of an ignition coil, that the winding is short circuited and if so, it will not build a full magnetic flux. It’s unlikely that you’ll ever measure a coil with high resistance. You might measure a primary winding with an open circuit but it would be a rare event. It would depend on where in the coil the winding burnt out.
Third- A condenser acts like an accumulator. It accepts a charge and will also dissipate a charge. In the case of a points operated ignition circuit, when the magnetic field collapses, it also collapses on the primary winding and creates a voltage on the primary side equal to 1 volt per winding. Most primary windings are in the neighborhood of 150-200 windings so the voltage created by the field collapsing can be around 150-200 volts. That voltage is absorbed by the condenser and then once the voltage in the primary windings drops below the 150-200 volts, the charged condenser offloads it’s charge into the primary circuit and that can extend the duration of the spark slightly, but the purpose is to discharge that energy before the points close and help reduce the electrical load across the points. Your setup less the condenser should create a spark although I would caution you not to toggle the switch too many times for fear of burning out the primary windings. I suspect a short in the primary windings are why your test is not working. Usually, a standard test for coils involves a setup similar to yours, but instead of using a switch, the positive wire end is momentarily tapped on the battery terminal which limits the “on time” to something more appropriate.
First- The KZ1300 has a redline of 8000 rpm, so the spark event needs to happen in 60 seconds divided by 8000 = 7.5 milliseconds.A spark event is the build up of a magnetic flux, collapsing of the magnetic flux and a discharge of a spark.A typical spark duration for most ignition systems is around 1.3-1.5 milliseconds and there are some ignition systems capable of up to 2.8 milliseconds but for the purposes of this rant, let’s stick with 1.3 milliseconds.So if a spark event at 8000 rpm is 7.5 milliseconds and 1.3 milliseconds is used up in spark duration, they the time left over to build a magnetic field is 7.5-1.3 = 6.2 milliseconds. So the ignition coil has to be able to charge in 6.2 milliseconds or less. Most ignition coils running a 3.0 Ohm primary circuit require 8 milliseconds to build a full magnetic flux.To achieve a full magnetic flux of 8 milliseconds and a spark duration of 1.3 milliseconds (9.3 milliseconds total) works out to 6457 rpm. After that there’s not enough time to create a fully charged spark.So where am I going with this? – The coil is designed to build a full magnetic flux in 8 milliseconds.Energizing the coil for longer than 8 milliseconds will not build any more flux and can likely damage the windings by overpowering for too long. Your setup with a toggle switch should be reconsidered as it’s impossible to turn on and off in that timeframe.
Second- You measured the resistance of the components but do you have the design specs for the coil??Measuring resistance will give you one of 3 outcomes. Either the resistance is within spec or too low or too high. If you measured the resistance and found it out of spec and to the low side, it could mean in the case of an ignition coil, that the winding is short circuited and if so, it will not build a full magnetic flux. It’s unlikely that you’ll ever measure a coil with high resistance. You might measure a primary winding with an open circuit but it would be a rare event. It would depend on where in the coil the winding burnt out.
Third- A condenser acts like an accumulator. It accepts a charge and will also dissipate a charge. In the case of a points operated ignition circuit, when the magnetic field collapses, it also collapses on the primary winding and creates a voltage on the primary side equal to 1 volt per winding. Most primary windings are in the neighborhood of 150-200 windings so the voltage created by the field collapsing can be around 150-200 volts. That voltage is absorbed by the condenser and then once the voltage in the primary windings drops below the 150-200 volts, the charged condenser offloads it’s charge into the primary circuit and that can extend the duration of the spark slightly, but the purpose is to discharge that energy before the points close and help reduce the electrical load across the points. Your setup less the condenser should create a spark although I would caution you not to toggle the switch too many times for fear of burning out the primary windings. I suspect a short in the primary windings are why your test is not working. Usually, a standard test for coils involves a setup similar to yours, but instead of using a switch, the positive wire end is momentarily tapped on the battery terminal which limits the “on time” to something more appropriate.
Last edit: 6 months 2 weeks ago by Kawboy.
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- dcarver220b
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6 months 2 weeks ago - 6 months 2 weeks ago #32564
by dcarver220b
Back at bench, removed the spark plug 'ground' lead from battery negative terminal. Removed rocker switch per KB comment below. Both spark plugs "grounded" together e.g. the thread area is connected via wire. Continuity proven via ohmmeter.
Tap coil positive to battery plus and ...and...and...Nada Zilch. Zero spark.
Now I'm really confused. Maybe KB is right, and I fried the coil?
Reconnect the condenser and voila, big blue hot spark.. Not sure where to go from here, LOL.
Replied by dcarver220b on topic Bench Testing Ignition Coils
Thanks for the reply, Sir Bucko! Read your and KB's post, thought wooHoo this work!The spark plugs should be connected to each other, not to ground (I realize you have them connected together at the negative terminal but that's not required). As Kawboy mentioned, the bike ground (the head in this case), is 'floating' with regard to the coil outputs. Similarly, the cores of the OEM coils do not need to be grounded in order for them to work (I only mention it as I often read online advice telling people to ensure there's a ground wire to the coil core which is not required for this type of ignition coil (or rather, not required for the OME ignition coils).
Back at bench, removed the spark plug 'ground' lead from battery negative terminal. Removed rocker switch per KB comment below. Both spark plugs "grounded" together e.g. the thread area is connected via wire. Continuity proven via ohmmeter.
Tap coil positive to battery plus and ...and...and...Nada Zilch. Zero spark.
Now I'm really confused. Maybe KB is right, and I fried the coil?
Reconnect the condenser and voila, big blue hot spark.. Not sure where to go from here, LOL.
Last edit: 6 months 2 weeks ago by dcarver220b.
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