Ion sensing ignition

Richie · #1 June 22nd 2004, 06:28

Quote:

Originally Posted by Wally

So, if I unerstand correctly, its an ignition system with a build-in knock sensing and automatic retarding device?
Clever! You then don't have to 'listen' for knock with all of its difficulties on an aircooled engine (see other thread :-) )

Greetings,
Walter

Hello,

Yes, in a way. But it's far from simple. A very, very high current is sent through the sparkplug, just prior of ignition. The sparkplug then acts as a sensor as it measures the "density" or the way the mixture ionises (sp?). I really don't know how to say it otherwise. The rate of ionization determines the moment of the ignition. It doesn't really retard but it's more some sort of time-travelling

because it shifts the ignition forward or backward according to the ionization. Goal is to have the PPP (peak pressure point) around 30 degrees ATDC IIRC.
Well, that is what I know about it, maybe someone with more indepth knowledge can chime in?

Cheers,
Richard

yetibone · #2 June 22nd 2004, 21:38

Actually Richard, that's pretty accurate. It is a very complex system, built around a simple idea. Ionized gasses are conductive, or can carry electrons, much like lightning jumping from cloud to cloud during a thunderstorm. When a low voltage load, roughly 80 to 100 volts is applied to the end of the spark plug, it will strike an arc, so to speak, in a heavily ionized environment.

Instead of that current jumping to the spark plug's ground electrode, it finds an easy path to ground thru ionized combustible gasses in the chamber. The ECM can then detect a drop in voltage at the tip of the plug by monitoring how much current it takes to maintain that 80 to 100 volts.

The higher the current needed to maintain 80 to 100 volts, the greater the drop in voltage. The greater the drop in voltage, the greater the number of ions present in the combustion chamber. By monitoring the current (amps, not volts) the ECM can calculate how long to delay the firing event.

Ionization of a combustible charge is due to heat, which is obviously a byproduct of combustion itself, but as that charge is pulled in and compressed
into 1/10th it's original mass at 14.7psi (pressure @ sea level) it begins to superheat. That's when ions start gathering together.

An ion sensing knock retard system is superior to a piezo-electric knock sensor in that it can detect the knock before it happens. A piezo-electric knock sensor senses the knock itself, and retards the ign timing after spark knock has already occurred.

Wally · #3 June 23rd 2004, 01:51

Cool stuff!
Does anybody know if there is a free programmable versions of such a system available?
Thanks for the excellent explanation guys!
Walter

Richie · #4 June 23rd 2004, 03:26

Hello,

You're right it's very cool stuff.
Free programmable? No, not yet but maybe you'll find this usefull.
http://www.hut.fi/~vvartiov/ion/DIY-Ion-Sensing-2.pdf

Cheers,
Richard

MattKab · #5 June 23rd 2004, 14:36

Thanks Richie!

It was the 'old' version I saw..

Here's more great reading:http://www.hut.fi/~vvartiov/ion/ion.html

Does this look promising or what?

Matt

cj011 · #6 July 11th 2004, 18:34

what year cars does this come off of for Saab and Saturn? Are there any specific turbo models that utilize this technology? thanks,

yetibone · #7 July 11th 2004, 18:47

Quote:

Originally Posted by cj011

what year cars does this come off of for Saab and Saturn? Are there any specific turbo models that utilize this technology? thanks,

I know for fact that a '96 Saab 900s 2.3 turbo had this system. I'm sure later models do to, but I doubt that any of the old longitudinal engine'd 900's ever had even a DIS.

I don't know about Saturn. The latest model Saturn I've worked on is '97, and it had a Delco waste-spark DIS.

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