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Oh, and that was a good link. I saved the info for future use if we ever start selling MPG computers here. |
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Actually Matt, you are right.
I just went down to buy an automotive multimeter (about $60 Aus, or $50 USD). I unscrewed 2 screws on the cluster and 3 behind to access the cluster. There were two connectors in back. One which I assume is some sort of mechanical speed signal. I'm not sure what it was exactly, it had quite a bit of grease on it. I figured it was something mechanical and not electrical, as otherwise, why the grease? I managed to get that out. There was also a 16 pin (from memory) connector that plugged into the back that I managed to get out with a bit of work. And so, with trepidation, I had a look at the screws on the back. Quote:
Then I hooked the other stuff back up. The mechanical grease connector didn't feel right, and wasn't. When I started it up, I saw no increase in kph. Stopping, I jammed it back in and it seemed like it seated properly. I was rather worried, because I thought it might have some mechanism whereby if you screwed with it, it wouldn't work again to prevent winding back the odomoter. However, as I went faster this time, the speedometer appeared to be functional. And what's more, as I turned the multimeter to "RPM", I got a signal that went higher as I went faster, went slower as I went slower, and did the same independent of gear. I HAD FOUND THE VSS AND VERIFIED IT!!!!! So now it's only a matter of finding a convenient injector signal. I can either buy a stamp myself to program, or buy the Supermid. But no matter what, this sure beats having to mess around with mechanical vss signals. I can do several things now, measure l/100km on the fly and also attach a cruise control unit, both of which I have wanted to do. Anyway, I am happy, that gives me a feeling of accomplishment. |
welcome, how are your bump starts? i'm curious to hear your results. Although if your stats are correct then that's crappy power to weight ratio :p but i bet its easy to park around town!
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I can bump start almost every time (take it to mean clutch starts). However, still sometimes it starts with a bump, and it's a little less predictable than I'd like.
Is it better to change to a high gear for the rpms, or a low gear? I started off using a low gear, but now I think it's working better with a high gear. I should probably stop it, because just reading the manual it says "Caution: A large amount of unburned gas introduced into the catalytic converter may overheat the converter, which may cause a fire. To prevent this and other damages, observe the followings; ... Do not turn off the engine while vehicle is moving. Do not push or pull start your vehicle." So far no problems though. BTW, here are the vehicle stats: Length: 3.295m Width: 1.395m Height: 1.415m Wheelbase: 2.28m Fuel tank capacity: 32l Gross Vehicle Weight: 1040kg. Now, GVW is usually 300-400kg more than Kerb Weight (just figured out through googling). So kerb weight should be 640-740kg, which is right around what I want. From what I find, it's not underpowered at all. (Of course, it will be even better when I have shaved off 50% of the drag.) |
A bit more about the VSS:
It looks like however the rpm is configured, it measures the vehicle's speed perfectly. I am using the digitor q 1585 multimeter, rpmx10 setting. It shows a speed of 25kph as 250, and keeps going. This means that according to the manual, if it were measuring rpm, a 250 signal means 2500rpm. Hmmm. since 1kph is obviously 10 on the guage, or 100rpm, what signal is actually being sent? Well, since the rpm meter is designed to be connected via an inductive pickup to a spark plug lead, that means that at 1kph the metre will be sending 100 pulses per minute. Or 1.6667 pulses per second. There are a bunch of other screws at the back of the instrument cluster. I have a mind to attach wires to all of them and see if I can reverse engineer them. Perhaps I will get lucky and find an RPM signal, an INJ signal, or a fuel guage signal (very likely). Anyway, I'm very lucky that the VSS signal was so easy to interpret, not requiring any fancy calibration. |
Good job with the VSS!
I bump start in the highest gear I can for the speed, makes it smoother. Anyway, mehbe you'll whip something up in terms of instrumentation, I wish I had the know-how! |
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Well, I had another look at my instrument cluster, this time in more detail. And got some pictures...
As you can see, there is a 22 pin connector in addition to the mechanical odometer cable (or whatever it is). I reverse engineered the pins as best I could with the new multimeter and some educated guesswork judging by which conductors lead to which lights or went to connectors behind which guages. https://i6.tinypic.com/14kxqav.jpg https://i6.tinypic.com/14kxqmd.jpg https://i6.tinypic.com/14kxt8i.jpg |
Another great bonus - I was tracing the route that the injector wires take, traced them through the firewall, and lo and behold, I found the ECU! It sits right under the passenger side of dash, and is trivial to access (although I need to get a proper socket set to get the bolts off; my socket screwdriver won't cut it.).
This means that no longer do I have to remove the whole dashboard to get at what I need to. At the moment I'm a bit awestruck at all the things I get to play with: a VSS, INJ signal, and hopefully an RPM signal (which I can get inductively from the spark plug anyway). That means I can make: -l/100km guage (Need VSS, INJ) -digital speedometer (Need VSS) -digital tachometer (Need RPM) -digital temperature signal (useful for grille testing) (Need Temp signal) -digital tank guage (also how many km left to travel, worst case). (INJ) All of which should be relatively easy once I understand how to setup the basic stamp and the LCD screens. This looks helpful. So, my basic plan of attack is now: 1) Get basic stamp, LCD, board, etc, everything needed for final project. 2) Pry off ECU to get a good look at it, see if there is any schematic on the back, and see how to easily detach the various wire bundles for splicing. (Need socket set). 3) Find RPM signal for tachometer. 4) Use a PC oscilloscope through soundcard setup to analyze the various signals, such as this one. 5) Splice various wires such that I have easy access to every signal I need. 6) Start programming the stamp and testing out the basics of the device, troubleshooting until finished. I think that's it. |
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