N75 test
Engine running at idle.
Select the ENGINE Controller
Choose BASIC SETTINGS -04,
Choose GROUP 011 (or turbo controls from the
pull-down menu)
Choose GRAPH if you want, or just watch the
numbers.
The N75 duty cycle will cycle from OFF to ON
every 5 seconds or so. (about 10% duty cycle to about 90% duty cycle.)
The MAP actual pressure should cycle at least 30
mbar with a stock turbo if the test is done at idle - as the ALH engines do.
(less change will probably occur with a larger than stock turbo.) If the engine
accelerates to 1400 rpm (as the PD engines do that I am familiar with) then the
MAP should change by at least 80 mbar. I would say that most PD engines with
stock turbos change about 150 mbar from min boost to max boost at 1400 rpm.
The turbo vane actuator should cycle up and down
about 11-14 mm (depends upon turbo - others may have different travel) and it
should pull up firmly onto the full travel stop set screw.
You can hear a definite sound change in the
exhaust - very noticeable.
If you hook up a vacuum gauge to the N75 output
to the vane actuator it should change from about 2" hg vacuum (or less) to
about 20" hg vacuum (or more).
So with this test you can check whatever you need
on this control loop for basic troubleshooting.
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When you're in basic setting 011 and you press
the "On/Off/Next" button, the engine RPMs come up to about 1400 and
the N75 will cycle between full vacuum and no vacuum every 5-10 seconds or so.
When it's doing this, either use a mirror to look
behind the engine or get underneath the car and watch the turbo actuator.
Verify if it's getting the VNT arm pulled all the way down to the stop screw or
not when the computer tells the N75 to switch full vacuum to the turbo.
If it does NOT pull all the way down to the stop,
we need to figure out why. You will need a vacuum pump with gauge to further
diagnose. First things, put the vacuum pump to the turbo actuator directly and
measure how much vacuum it takes to pull the actuator to the stop. It should be
about 18" mg. If it moves very little and leaks back down quickly, you
have a bad actuator.
If it does move all the way to the stop at about
18" of mg and it doesn't leak vacuum, the actuator is fine and correctly
adjusted. Move on to checking vacuum.
Run basic setting 11 again, this time measure how
much vacuum the hose you just removed from the turbo actuator is getting. It
should cycle from at least 25" mg to zero every few seconds. If it can't
get more than a max of 20" of mg, there's a leak somewhere and it is
absolutely affecting boost control.
I generally start by removing the small hose that
goes to the large vacuum pipe going to the brake booster. That small hose feeds
the vacuum to the n75 and the various other vacuum changeover valves the BEW
has (one for intake manifold runner flaps, another for EGR cooler flap...). Put
your hand vacuum pump with gauge onto the nipple that you just removed the hose
from. You're now measuring how much vacuum is coming out of the vacuum
pump/tandem pump directly.
On the BEW, I've had that black plastic pipe
crack on the underside of one of the 90 degree bends it has and create a big
vacuum leak. I've also seen a few tandem pumps where that large nipple that the
vacuum pipe connects to is worn or loose and is creating a vacuum leak...
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Maf test
Yes the MAF test is BASIC SETTINGS-04, then choose
group 003. It will raise the idle (on most PDs) to 1400 rpm and vary the EGR.
You should see the MAF reading go from about 470 to about 230 as it shifts
every 5 seconds or so.