I datalogged a few runs and found the issue to my random ignition hitch. Previously I thought the tach signal was dropping out, but you certainly cant argue with this data...
My MSII is grounded to one of the tranny bolts. The tranny groud strap was just changed and cleaned up. +12V is connected to the battery cutoff switch (I think where one of the terminals where the alternator plugs in, i'll double check). Is this OK?
A voltage spike (both up and down) causes Pulse Width to max out, maxing out injector duty cycle, resulting in a quick cough. This occurs once in a while, sometimes every 30 seconds, sometimes not for a few minutes. Voltage never spikes at idle, only when driving at mid rpm.
Could it be a bad connection? (then i would assume the spike would be unidirectional).
Bad voltage regulator on alternator? The battery charges fine, normal operating voltage is ok.
These are about 1/10th sec samples from datalogging:
13.4 13.5 13.3 13.3 21.5 13.9 13.5 13.5 13.3
13.9 13.6 18.6 14.8 13.9 13.9 13.7 14 14 13.7 13.5 8 13.2 13.5
Any thoughts? Where my MS experts at?
Thanks
Attached File(s)
datalog200704011555_voltage_glitch.xls ( 224.4k )
Number of downloads: 44
I dunno, but I am just so excited to have MS running on my 914 that I can hardly contain myself
Those logs are neat!
I would choose more DIRECT power connections
Almost looks like the alternator is being disconnected. It is usually called a load dump. Those high voltages are very bad. However, other than fixing the root cause, there are special diodes that are designed for this application. I'd have to look up the part # since I haven't designed them into a circuit recently. I'd still look to see why the voltage is doing that. It is very hard on the entire system including radios and lights.
Myabe bad wiring?
Sorry, I think it is the battery disconnected. Look for poor ground connection, or perhaps a bad battery with intermittent internal opens.
It just so happens the PW spike associated with voltage spike has been addressed in the latest firmware:
Version 2.310, 2.320, 2.330, 2340, 2.350, 2.360
Fixed bug in ASE logic;set PW=0 in RevLimit mode;gcc compatibility changes;
fixed bug in spare port hysteresis; changed some defaults; fixed bug in masking
of TimerIn interrupts for dt/2; limited pw_open in case of battery spikes.
As a bandaid i'll try the new code so my PW doesn't spike to 32ms.
However, i believe the alternator might be my issue as opposed to an intermittent connection... I'll check for loose connections and metal filings around the relay box area.
Look for loose connections on the regulator and the relay panel. No matter the cause, the voltage spikes are bad news and should be fixed. As I say, there are diodes designed to protect from 'load dumps'. Motorola part MR2535L from memory.
We had a discussion at the club site on a ECU issue on Randals car.
I have see this same stuff happen on several aftermarket EFI systems.
It is all about grounding issues and spurious signals going into the ecu by means of high voltage circuit. (read: plug wires and coil)
Simply using the wrong spark plugs (resistor VS non-resisitor) can make this stuff happen. So can resistor wires VS solid core wires.
I just plagiarized this from DNHunt without his permission. I hope he doesn't mind.
I'm not sure if this will help but, I had a bunch of problems with my car with EM noise from the ignition. Changing to resistor plugs cleaned it up. Routing sensors wiring away from sparkplug wires can help and sheilding cables can help especially if the tach signal to the ECU is weak. I use a VR sensor and signal strength is very weak and it must be sheilded. Another thing, if you are using sheilded cable only ground the end at the ECU and ground it to the same ground as the ECU. This helps prevent ground loops. Keep the ground points to a minimum. Some sensors ground to the engine case and you can't do anything about those but, try to bring all grounds back to the ECU if possible. It may seem simple to ground things like the TPS and MAP sensor to the nearest point but, don't do it, these are referenced voltages. Try not to have extra unused wires in your harness as these may increase noise.
Kind of a ramble but, I had to learn all of these things the hard way."
So there is some more food for thought...
Clayton
I'll try to route the signal cables away from the coil and spark plug wires. I think I bought Magnecore wires a while ago, i'll have to check. Are they solid or resistor based?
I know my electrical connections are solid, I tied all the sensors to a common grounding bus. My tach wire is shielded to ground too.
What configuration should I connect the MR2535L diode in? Series with the +12V line. Parallel to ground?
I attached the datasheet.
Thanks!
If the battery gets disconnected intermittently it will cause positive voltage spikes like you see there. The regulator will go nuts due to the open circuit and cause the alternator to produce the highest possible voltage. I had similar problems when I first installed my Megasquirt, and I found that a new voltage regulator solved the problem in my case. The old mechanical one was sticking and causing the system voltage to go up to 18V occasionally.
I don't think the diode will solve your problems. It may be a bandaid and reduce the pulsewidth issues, but you need to fix what is causing the problems in the first place. I see you also have voltage drops down to 7V which is bad and probably caused by the same issue.
How can I tell what type of regulator i'm using (mechanical vs. electrical)? What is stock for a '73 motor?
Looking at Pelican Parts I gather that the voltage regulator is on the relay board, is this correct?
Is this http://www.pelicanparts.com/catalog/shopcart/9144/POR_9144_ELchrg_pg1.htm a mechanical or electrical regulator? Since it's on the relay board it must be electrical, right?
BTW - I updated to the latest MS 2.6 firmware and the pulse width pikes were significantly reduced, I can't really sense a spike anymore. The MS guys are really damn bright! However the voltage spike is still there...
Thanks
Sorry to Hijack... but related..
Is there a conversion from the mechanical regulator to an electronic voltage regulator?
Is there a plug and play solution or do I have to splice wires?
hijack over...
run a GM one wire alternator internally regulated and cheap
a guy over on STF showed how to do it on a type 4
The stock regulator is mechanical , Hella offers an eletronical that's
plug and play.
The Hella number is 5DR 004 243-041 14V
This is also an electronical regulator from Bosch thats PP offers
on the pic you can see the transistor
get the electronic regulator. It 'bolts' right in. 10 minute install.
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