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missfire at 3k. (new guzzi owner)


rich888

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2 hours ago, Meinolf said:

Hi,

setting the TPS baseline is the first step. Remember, all connections to the throttle must be removed before adjusting the voltage.

The valve play should be at least 0.2mm for Intake/Exhaust. 0,3mm is my recommendation, the V11 camshaft has very! long ramp-up slope, >100°. The standard setting will result in sligthly opened valves in that area, resulting in mean pressure loss and decreased valve cooling.

Once this is done sync the throttles in idle, try to keep the bypass screws completetely closed and do the sync with the throttle stop screws. CO trim should be set to 0 initially and only be changed if you have no means of actually measuring AFR.

GuzziDiag always works, but a KKL adapter with an original FTDI chip is needed. There a lot of counterfeit chips in the market, they will mostly not work.

Cheers
Meinolf

Thanks Meinolf. I have ordered a KKL lead with FTDI usb in.

On further investigation, I have disconnected the TB linkage and backed out the throttle stop fully, made sure the fast idle cam is not touching and saw the TPS baseline drop from 375mV to 80mV.

I now understand what's what! So I will set the TPS next and then do the balance.

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Once you set the TPS, try the “White Knob Method” to balance throttles....copied from an older tuning thread. This method is a quick way to get your bike running well without going too deep into the brambles:

1.

Back off the RH throttle stop. Unless you have some super high mileage bike where everything is worn out and sloppy, using both will make you crazy.

2.

Open bleeds one turn each. ("Micha's method") 1 turn is almost always right. Make sure the screws and ports are nice and clean.

3.

Sync using white knob at idle. Like I said, some frown at this. Guess what? If they are synced at idle, it will be synced off idle.

When the throttles are open (>3k) the white knob needs to be moved a lot to make any difference in vacuum. This is because the small adjustments the white knob makes gets lost in the large flow of air coming through, and tiny imbalances in throttle vanes will be hard to see on any kind of meter, even the expensive one I bought.

You can turn the white knob and the throttles will appear to be in balance at higher RPM's. But they're not, which you will see when it drops to idle. Then you can use the bleeds to try to even it out, which is what I did, and then it idles worse than ever.

In short, the ultra tiny differences in throttle openings will be revealed at idle but will be lost at higher RPM's. If the idle is balanced, then higher RPM's will be balanced too.

Try "JB's" method, and sync the throttles at idle using the white knob. Turn 1/8 and blip throttle and let it settle. Keep doing this until it smooths out and is in balance. The idle will probably creep up as it smooths out (you can adjust this later using the LH throttle stop screw). It will never be perfect but you can get it close. Check "off idle" RPM's as you get it smoother, I bet they will be in sync too.

Yes, this method is backwards, but since your bike runs like crap right now, why not try it? I went through ever "method" before doing it this way, and now my bike runs like a sewing machine and pulls like a locomotive...

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I had a misfire / backfire that I chased on my Rosso Corsa for 3 years.  

If your bike has the balance pipe in the front I'd check for air leaks into the exhaust first.  I found the gaskets rotten and exhaust coming out.  I figured it might mean fresh oxygen getting in between pulses and causing the backfire once the exhaust heated up.  I ended up cutting off mine, cleaning up the headers, making plugs out of the the crossover tube and having a local Stainless welder weld them up.

After a trip to a local Duc tuner my problem may have been fixed.

It only backfired when the weather got above 80 and the engine was hot so I'll know for sure on a trip to Tuscon Arizona in May.

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21 hours ago, JBBenson said:

Once you set the TPS, try the “White Knob Method” to balance throttles....copied from an older tuning thread. This method is a quick way to get your bike running well without going too deep into the brambles:

1.

Back off the RH throttle stop. Unless you have some super high mileage bike where everything is worn out and sloppy, using both will make you crazy.

2.

Open bleeds one turn each. ("Micha's method") 1 turn is almost always right. Make sure the screws and ports are nice and clean.

3.

Sync using white knob at idle. Like I said, some frown at this. Guess what? If they are synced at idle, it will be synced off idle.

When the throttles are open (>3k) the white knob needs to be moved a lot to make any difference in vacuum. This is because the small adjustments the white knob makes gets lost in the large flow of air coming through, and tiny imbalances in throttle vanes will be hard to see on any kind of meter, even the expensive one I bought.

You can turn the white knob and the throttles will appear to be in balance at higher RPM's. But they're not, which you will see when it drops to idle. Then you can use the bleeds to try to even it out, which is what I did, and then it idles worse than ever.

In short, the ultra tiny differences in throttle openings will be revealed at idle but will be lost at higher RPM's. If the idle is balanced, then higher RPM's will be balanced too.

Try "JB's" method, and sync the throttles at idle using the white knob. Turn 1/8 and blip throttle and let it settle. Keep doing this until it smooths out and is in balance. The idle will probably creep up as it smooths out (you can adjust this later using the LH throttle stop screw). It will never be perfect but you can get it close. Check "off idle" RPM's as you get it smoother, I bet they will be in sync too.

Yes, this method is backwards, but since your bike runs like crap right now, why not try it? I went through ever "method" before doing it this way, and now my bike runs like a sewing machine and pulls like a locomotive...

Thanks JB! That sounds like a plan!

Yet Another OBD Cable arrived today, so will see if it works ok with GuzziDiag.

Understand what you're saying about balancing at idle. I'm a m/c newbie so learning a lot. My other vehicles tend not to need much tinkering with to get running right. Usually worst case is a carb stripdown and clean to clear blocked jets etc.

Will update when I get the TPS set, CO set and balance set.

 

Many thanks for all the help!

 

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Well today I got a KKL lead and despite being very cheap and not having the FTDI chip in, as advertised :-( , it worked perfectly.

Set the TPS at 159mV, locked it off.

Took out the air screws and cleaned them. They were very sooty...

 

Put the balancer on. This was quite tricky to set as there is a bit of slack in the TB linkage. Need to sort that. Anyway, go it as close to balanced as I could.

Then put GuzziDiag on and set the idle using only the lefthand throttle stop. Noticed the rev counter reads way low! At 1300rpm, it's showing about 500...

Waited for the engine to warm up  and then set the CO. It was set at -19, so set it to 0.

 

Just taken her out to see what's what. Bloody hell! What a difference! Really pulls now and not a hint of missfire. My previous rides were a dissapointment as the bike didn't seem to be any more powerful than the 650cc training bikes I'd been riding. Now you can really feel that extra 30hp.

The bike runs so nice. What a transformation....

 

So many thanks for everyone's help!

 

Will progress getting a TPS breakout cable instead of using the pins method.

20190414_151753 (Medium).jpg

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Wow, that's a sooty air-bleed screw. Better clean the throttle bodies when you have a chance....

The breakout harness is a great mod, makes it super easy to check the TPS on a regular basis.

Now that's it's running right, next up is a good old "Italian Tune Up". Add some fuel system cleaner of your choice, warm it up and screw it on..!!!  :mg:

Czakky's right: when they are sorted, they are great!

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  • 1 month later...
3 minutes ago, luhbo said:

What happened to the misleading and jumping tach needle? The bike's still running fine, also when hot?

I ignore the tach and am in the process of making a nice digital dashboard!

I found that the tacho gauge is very sensitive to the tacho signal drive level. Doesn't take much to stop it working. I expect that there are dry capacitors inside the gauge which are making it malfunction.

 

At some point I will muster enough enthusiasm to get inside it and have a look...

 

The missfire is still there, even with a different map. I am also in the process of building a data logger to capture injection times and spark timings while riding to see if I can see what casuses the missfire.

I got a bit distracted by finding out that the ECU reported RPM ws glitchy, but this appears to be 'normal'.

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No, that's not normal. That's why I asked. Check the phase sensor. You'll probably find it mounted with way to much distance to the tooth wheel. I recently found this on two engines, both probably as they came from the factory. I removed a 1.5mm shim and changed the 0.5 one to a 0.8mm (two were mounted, so it was 2 mm). Now I have it sitting with 0.5mm clearance - and that cured a lot. At least it's driveable again.

It's a Hall sensor, this type is ageing. When new it obviously works also with a gap that big, after nearly 20 years now it doesn't. 

The interesting part is why especially at 3000 the problem becomes so obvious. Anyhow, check the gap and better get a new sensor. And report your findings please :)

I forgot: I tried several different maps. Would have been better to watch the tach needle earlier and think about what it wanted to tell me.

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1 hour ago, luhbo said:

No, that's not normal. That's why I asked. Check the phase sensor. You'll probably find it mounted with way to much distance to the tooth wheel. I recently found this on two engines, both probably as they came from the factory. I removed a 1.5mm shim and changed the 0.5 one to a 0.8mm (two were mounted, so it was 2 mm). Now I have it sitting with 0.5mm clearance - and that cured a lot. At least it's driveable again.

It's a Hall sensor, this type is ageing. When new it obviously works also with a gap that big, after nearly 20 years now it doesn't. 

The interesting part is why especially at 3000 the problem becomes so obvious. Anyhow, check the gap and better get a new sensor. And report your findings please :)

I forgot: I tried several different maps. Would have been better to watch the tach needle earlier and think about what it wanted to tell me.

I will defo check phase sensor.

Anyone know how the tach signal is generated? Does the ECU generate it or does it come from the TDC sensor?

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P/S to ECU to tach. Wasn't it this thread where I gave a link to Cliff Jefferies' site, holding better and especially detailed information for such topics?

Ed.: It's been your other one. It's MyEcu.biz. Worth a reading.

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  • 2 weeks later...

So, coming home from a week entry level hiking in Switzerland I found the recently ordered phase sensor at my door. While I was so sure it would finally cure the heavy stumbling and missfiring which the bike had developed over the last 4 weeks - it did not.
Also I have to correct what I wrote about the Hall sensor. While it's true that Hall sensors are prone to ageing and that they're sensitive to heat, it is not true that the sensor here is of this type. Instead it's just a plain cheap inductive device. Hall sensors always have three contacts, inductive ones sometimes too.

OT-Sensor_Marelli_.jpg

On the picture you can see the coil holder with coil and core, the cable ends and the magnet. The sensor shown above most probably was still good, allthough the magnetism of the replacement is remarkably stronger (will it collect any debris even quicker now?).

For the positive side: the inductive type should be rather robust, no ageing electronics inside. The negative one: at this point I still had no solution for the problems. In fact, as soon as the engine had warmed up, from 3000 upwards the tach needle again started waving, with the engine again producing the same enervating bucking as before. The ECU at 3000 clearly got kicked out of sync.

Long story short: the problem were the cheap silicone connectors on the inner spark plugs which I had installed also 4 weeks ago. As the outer ones (this engine has dual plugs) have the standard 5kOhm connectors, electrically/theoretically (or v/v) this should have worked. That it obviously did not might be due to the fact that these shitty aftermarket caps are so cheaply designed that they don't securely contact the plug. The resulting firing then induces enough noise into the signal cabel to screw the ECU. Theoretically. Anyway, solid connectors now and all is fine.

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