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**Joseph Upson** · 11-01-2006, 09:19 PM

I speculated that it was controlled by a variable series of pulses. That means it can very easily be controlled with a basic stamp micro computer and two tables one with MAP vs. RPM and TPS vs. RPM and a formula. I have programmed one as far as pulsing a fuel injector. I stopped after I stumbled across software that allowed me to reprogram my epromm.

Check out their stuff, cheap and effective.

Page Not Found - Parallax

http://www.parallax.com/html_pages/products/basicstamps/basic_stamps.asp

Look at their manuals to which have hundreds of code examples for applications.

**SappySE107** · 11-01-2006, 09:29 PM

Drool....27 degrees. Is that +- or like x + and y - together are 27 degrees?

So we can make something that you can program the cam timing yourself? Or perhaps there is am empty output in the ocmputer that can be programmed?

**427v8** · 11-01-2006, 11:31 PM

I'm sure it's 27 degrees total, +- 27 degrees is a LOT!

PWM's are easy, I do PICs all the time ( they are the basis of the stamp) not a problem to make a manual controller to vary the cam timing

**Joseph Upson** · 11-02-2006, 06:28 PM

Better still, since pulses are the basis for it's operation, perhaps a rudimentary tie into the fuel injector pulse can be made since the pulse directly increases based on load.

Since oil pressure varies so much there must be a pressure signal fed into the PCM to make adjustments the way fuel injector pulse is corrected against voltage.

**RacerX11** · 11-02-2006, 07:37 PM

The stock ECU uses closed loop feedback comparing the crank position sensor to the cam position sensor to determine the advance of the cam. You will need something more powerful than a basic stamp module to do this.

Without this closed loop control, a given PWM duty cycle will result in different cam phasing depending on oil temp, oil pressure, etc. Will you be able to move the cam? Sure. Will it be very accurate and controllable? I would say probably not.

**CNCguy** · 11-03-2006, 09:05 AM

Originally posted by RacerX11 View Post

The stock ECU uses closed loop feedback comparing the crank position sensor to the cam position sensor to determine the advance of the cam. You will need something more powerful than a basic stamp module to do this.

Without this closed loop control, a given PWM duty cycle will result in different cam phasing depending on oil temp, oil pressure, etc. Will you be able to move the cam? Sure. Will it be very accurate and controllable? I would say probably not.

As an alternative, I was thinking about altering the VVT actuator to limit its travel to about 10~15 degrees. Then use a small controller or see if an older ECM could toggle it at a given RPM. The toggle RPM could be figured out with a few dyno pulls. It wouldn't be continuously variable but would give you low-end torque and top-end power.

I just need more time for all these projects and my regular work.

**427v8** · 11-03-2006, 10:31 AM

Originally posted by RacerX11 View Post

The stock ECU uses closed loop feedback comparing the crank position sensor to the cam position sensor to determine the advance of the cam. You will need something more powerful than a basic stamp module to do this.

Without this closed loop control, a given PWM duty cycle will result in different cam phasing depending on oil temp, oil pressure, etc. Will you be able to move the cam? Sure. Will it be very accurate and controllable? I would say probably not.

Interesting, but where did you get this info?

Yes closed loop controll is always better, but if your just looking for more / less then open loop is fine. Definitly a good way to experiment.

Also, How many pulses per second are we talking about on these sensors? a PIC can measure pretty fast pulses. and at 6000 rpm thats only revs per sec on the cam sensor, not too scary, well unless there are multiple pulses per rev?

**Joseph Upson** · 11-03-2006, 10:55 AM

Some of those basic stamp modules are capable of 12,000 instructions per second that sounds fast enough to handle the job.

**RacerX11** · 11-03-2006, 08:02 PM

I seem to recall someone mentioning in another thread about the closed loop control, plus, I have worked on embedded engine control systems for over 8 years, and I would be amzed if GM was not using closed loop control on the cam actuator. It is pretty fundamental.

The capability of the stamp has nothing to do with how many instructions per second it can handle. The stamp would need to be able to process both the crankshaft and camshaft position signals, and make a determination of a reference point for each signal. This is handled by a timer processor unit in most ECU's, something the very simple stamp does not have. The cam may only have one pulse per rev, but the crank has many (54? I don't recall the exact number). Can the stamp handle interrupts based on the input of each signal tooth? 54 teeth at 6000rpm = 5400 tooth samples required per second.

Open loop may seem good enough, but what happens when you apply a PWM you **think** will give you 10 degrees of retard, but the system actually ends up advancing 15 degrees due to one variable or another? Might not be so good.

**RacerX11** · 11-03-2006, 08:02 PM

Originally posted by CNCguy View Post

As an alternative, I was thinking about altering the VVT actuator to limit its travel to about 10~15 degrees.....snip.....It wouldn't be continuously variable but would give you low-end torque and top-end power.

That's not a bad idea.

**CNCguy** · 11-05-2006, 04:21 PM

Did some measuring today and took some pics. At TDC the intake valve had .260 lift and the exhaust was .405. The measurements were taken with the headgasket on and the head bolts slightly snugged down. The intake and exhaust valves started to make contact with each other at .51 lift. For those interested, I took some pics of the piston, combustion chamber and a pic of the 3900 (99mm bore) head on a 3100 (89mm bore) block. As you can see in the last pic, there is no room on a 3100 for the 3900 head. The valves hit the top of the cylinder wall and the chamber overhangs the cylinder wall. Although the valves don't clear, the 3900 top end does mount to the older engines. I am curious if the 3900 top end will fit the 3500 (LX9) since it has a 94mm bore.

One other thing.... the reluctor wheel has changed since the 3500s. It now has a single row consisting of 60 (58 + 2 missing) tabs.

3900 Piston

Intake & Exhaust Valves

Combustion Chamber

Valve to Valve clearance

3900 head on a 3100 block

**Superdave** · 11-05-2006, 05:53 PM

try that on a 3400 block... i bet it would clear...

**Joseph Upson** · 11-05-2006, 07:30 PM

What about the piston to valve clearance at TDC, that would be important for anyone considering a cam regrind, especially considering how shallow the intake valve lift is compared to the exhaust valve lift. Quite a bit of calculating would have to be performed to figure out how much closer the valves get to the piston when the VVT is doing its thing. I'm not sure but I'll have to check Desktop Dyno to see if simulates valve timing.

**CNCguy** · 11-05-2006, 07:37 PM

Perhaps I didn't state it the correct way but at TDC the intake valve had .260 clearance and the exhaust was .405. Much more clearance on the exhaust valve. Is that what you are looking for? I took the measurements at the valve stem with the piston at TDC.

Originally posted by Joseph Upson View Post

What about the piston to valve clearance at TDC, that would be important for anyone considering a cam regrind, especially considering how shallow the intake valve lift is compared to the exhaust valve lift.

**Joseph Upson** · 11-05-2006, 10:19 PM

Originally posted by CNCguy View Post

Perhaps I didn't state it the correct way but at TDC the intake valve had .260 clearance and the exhaust was .405. Much more clearance on the exhaust valve. Is that what you are looking for? I took the measurements at the valve stem with the piston at TDC.

Okay, I read that as actual valve lift by the cam. I really hope there is no problem running the engine without VVT or better yet that there is a way to activate it to stay at the maximum output setting which I guess would be full retard. I hope GM created a fail mode that favors best performance. The VVT is nice but all I really care for is the ~240hp/240 lb/ft and whatever height 7-10 psi will take that to.

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