Originally Posted by Spartarus
First, yes it could, but I doubt it did.
Second. Wow. Time for a new tuner. That's a big fat crock of sh*t. (If that is indeed what he said.. If not, benefit of the doubt for things lost in translation. Whatever.)
Let me give you a quick (simplified) background.
The MAF sensor is an ingenious device that uses a hot piece of wire to translate the mass of air passing the sensor, and entering the engine, to a voltage signal with a range of 0 to 5 volts.
The ECU uses a primary table, and a series of corrective tables, to determine how much fuel to deliver, based on the mass of air entering the engine.
Say you turbocharge the engine. The mass of air passing the MAF sensor dramatically increases, and you get to use more of the voltage range of the sensor.
Problem is, eventually you can flow so much air that you hit the limit of the sensor and keep right on going. OH NO! How do you figure out how much fuel to deliver? More on that soon.
The limit of the sensor is somewhat affected by the diameter of the pipe in which it sits, but suffice to say you're not going to be anywhere close to the limit of that sensor at 7 PSI on a GTX 2-anything. Ptuning's turbo kit has a perfectly good MAF housing. On a cold (like, snow cold) day, you might hit 5V at 10 PSI. Basically, it's bullsh*t to say it "can't" be tuned on MAF. This is why you need a new tuner. An honest one would explain the seemingly arbitrary switch to Speed/Density.
Ok, back to SD.
One suitable alternative to MAF'ing it is called "Speed / Density" tuning. Using the Ideal Gas Law PV = nRT* a table**, and some sensors*** we can determine the amount of air entering the engine, and figure out how much fuel to deliver.
That simple.
That said, your torque curve looks suspiciously like a magnified version of the OEM curve. That troubles me.
Footnotes:
* PV= nRT (Pressure x Volume = [amount of gas (mass, in moles.)] x [universal gas constant] x [Temperature]
** The table has the independent (measurable) variables on the axes, and uses these to look up the (experimentally determined) dependent variable. That variable is Volumetric Efficiency. More on this to come.
*** The sensors are Manifold absolute Pressure (MAP) and Intake Air Temperature (IAT)
OK. "Volumetric Efficiency" ... Big words. We want to determine the amount (mass) of gas entering the engine. From this, we can deliver an appropriate amount (mass) of fuel for the desired air-fuel ratio.
Simple then, we solve the Ideal Gas equation for "n." Reading the Ideal Gas Law, one can surmise that if we know pressure and temperature from sensors, and the gas constant from a textbook, the only missing variable is volume. AHA! We know that our 4-stroke, 2-liter engine theoretically displaces 1 liter of air per rev. This is where VE comes in. The 2 intake strokes per 360 crankshaft degrees sweep a 1 liter area, and pull some air through the intake valves. We know the density of the air in the intake manifold from MAP and IAT. "Volumetric Efficiency" is the ratio of the density in the manifold to the final density in the cylinder when the intake stroke is finished. Lots of complex variables affect this ratio, and it varies with RPM.
Rather than try to solve for all of them at all times, (this is not practical for many reasons) we simply say for this rpm, (SPEED) on one axis, and this air density, (DENSITY) on the other, the Volumetric Efficiency is X. There's your table. The table is determined experimentally, and then largely left alone, unless a relevant component of the intake or exhaust system is changed.
Now you know how much air is there, you can accurately deliver fuel.
That said, you can figure out if SD did indeed negatively affect your tune by doing the following: Log commanded AFR, and compare it to actual (observed) AFR on a wideband sensor (there's a wideband on every dyno.) If the difference between the two is minor, the SD tuning has been done correctly, and is not to blame. That said, your AFR's could be far from ideal, but if they're accurate to command, the VE table is accurate, and you can cross that off the list of potential problems..
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