VW
VOLKSWAGEN AUDI 1.8T TROUBLESHOOTING GUIDE READ ME
Section 1.
Rough Running At Idle - MAF, Ignition Coil, Spark
Plug, VAC Leak, O2 Sensor, TB, CTS
Missfires under Boost Flashing CEL – Ignition
Coils, Spark Plugs
Running Rich – Boost Leak, MAF, O2 Sensor,
Coolant Temp Sensor
Running Lean – VAC Leak, MAF, O2 Sensor, Fuel
Filter
Low Boost – Limp Mode, MBC, BOV, DV, Boost Leak,
N75,
High Boost – MBC Setting, N75, Spark Plugs,
Ignition Coils
Cold Start Problems – MAF, Spark Plugs, Fuel Pump
Relay, CTS
Poor Gas Mileage – MAF, CTS, O2 Sensor, AIT
Sensor
Cat Efficiency Below Threshold – Down pipe, CAT,
Rear O2, RACE FUEL
No Start – Battery - ECU, Fuel Pump Relay, Ground
Start For 1 Second - Stall – Immobilizer
Overheating - Waterpump, Thermostat, Head Gasket
oil in coolant - Oil Cooler, head Gasket, Water
Wetter
Dies While Driving Timing belt, Boost Leak, MISC
Shorts To ground CEL Fuel Pump Relay, Bad Grounds
Section 2 – Troubleshooting
Most of these procedures require a VAG com to scan
the car for diagnostic codes. While you can fix things without a VAG you will
most likely be replacing parts that really are not bad just to rule them out. A
VAG COM is a must have for any 1.8T mechanic.
AIT – Sensor – This is a small sensor located in
the intake manifold just after the throttle body. It is responsible for
monitoring the intake temperature. It can get coated with oil, and can affect
gas mileage, and a loss of power. It is common to remove it and clean it with
alcohol, or electronics cleaner.
Boost Leak – View Block 032 with VAG Com. If Fuel
Trims are Negative more than 5% in the load range there is a very good chance
that there is a leak after the turbo. Visual inspection of clamps, hoses for a
loose connection is the best way to look for leaks. A common place for leaks is
at the entrance to the pancake pipe located in the passenger side fender. Also
the small line on the DV can rip.
BOV – Blow off Valve’s vent off air metered by
the MAF, and can cause many problems, and make it more difficult to
troubleshoot a car. Best way to troubleshoot a BOV is to replace it with a DV
and see if the problems continue.
CAT – Aftermarket high Flow Cats often sacrifice emissions
for power. It is not uncommon for aftermarket cats to give codes for
“efficiency below threshold” right away. Some people have had success using O2
adapters to move the rear O2 sensor away from the exhaust gas and eliminating
this code. O2 simulators do not work on the 1.8T. Sometimes cats can melt or
clog up. Running hig exhaust gas temps for extended periods of time can cause
this. Usually you will get the cat code, and see that the max boost and
sustained boost levels drop off. After checking everything else on the list,
remove the down pipe/cat and check to see that light shines through brightly.
If there is very little light passing through it is clogged and requires
replacement.
CTS – Coolant Temp Sensor – This part is prone to
failure. 2002 and older vehicles had a bad coolant temp sensor from the factory
that VW updated. It was a black sensor, and now the good one is referred to as
a green top coolant temp sensor. Block 011 in the VAG COM can monitor coolant
temp for erratic readings. This is a 7$ part. Do not change while engine is
hot.
Down-Pipe – See CAT
DV – Diverter Valve – When the throttle is closed
on a turbo car, the turbo is spinning rapidly, and trying to push air into the
engine. By closing the throttle the air has nowhere to go, and will cause a
large pressure spike. The diverter valve is actuated by a vacuum line, and when
the throttle closes creating vacuum behind it, the diverter valve will open and
provide a path for the air. The air is returned back to the intake of the car
after the MAF. When A DV fails it leaks air in this circular pattern causing
boost problems.
2001 and older cars have a weak DV that is prone
to failure. 2002 and newer cars have an improved design. It is durable,
inexpensive (35$) and it responds very quickly. The part number for the good
valve ends in 710 N. The DV is located at the back right side of the engine, it
has 1 large hose, and 1 small line connected to it, and the other end is
connected to your intake hose running to the airbox. To test if your DV has
failed remove the DV, press the diaphragm up, put your thumb on the top nipple,
and then release the diaphragm. There should be suction created on the top of
the DV that prevents the diaphragm from returning. If there is no suction then
the diaphragm is leaking and the valve should be replaced. IF the valve is
good, check the VAC line leading up to the valve for any cut’s/ tears.
ECU – The ECU is responsible for nearly all
functions on the car. If the ECU is suspected as a bad part, you need to use a
scan tool such as a VAG com to attempt to communicate with the ECU. If you
can’t communicate with the ECU, then the ECU needs replacement. Check all
electrical connections. Check your Fuses for blown fuses. Whatever killed the
ECU might kill the new one.
Fuel pump Relay – The fuel pump relay is located
under the driver’s side kick panel. Remove the lower panels to gain access to
the relay box. When the fuel pump relay goes bad it will trigger many fault
codes with electrical shorts to ground. The fuel pump relay is also used to
turn on the injectors, and will show injector short to ground failures. If you
open your door you hear the pump kick on, if the pump no longer kicks on, and
you experience these codes repeatedly, replace the fuel pump relay.
Fuel Filter – The fuel filter on these cars is
rated as a lifetime filter by VW. What the aftermarket has found is that high
HP applications can run into fuel delivery problems with dirty fuel filters.
30K miles is a more realistic interval for replacement when pushing the
system. The fuel filter is located under
the car near the gas tank. It has small clip on hoses. To remove the hoses
press in on the clip on the end of the hose and it will come off easily. You may
need a small screwdriver for this, and be prepared to have fuel leaking out.
Head Gasket Head gaskets can be a cause of
overheating, oil consumption or coolant in the oil. I have only heard of one
case of a head gasket failure on a 1.8T and it was on a car running 30 lbs of
boost and used head bolts. This is a
repair better left to an experienced mechanic and is generally a last item to
do after all other possibilites have been evaluated. overheating is usually the
water pump, and coolant in the oil is usually the oil cooler failing internally.
Immobilizer – These cars are equipped with
immobilizers to prevent theft. If you swap an ECU without matching up the ECU
and the cluster, it will start briefly and then die repeatedly. There are 2
kinds of immobilizer. Immo II used on pre 2002, and Immo III used on 2002+.
Immobilizer and ECU info can be found on the VAG COM / Ross-Tech Site.
Ignition Coils – These are famous parts for the
1.8T they are very prone to failure. VW has had a recall on these because they
were failing rapidly on 2001+ cars. To check for bad coils the best way is with
a VAG COM. Log Blocks 015, and 016. This will be a misfire counter. Drive the
car or let it run, and look for misfires. If you have a bad coil you will see
the counter increase on a cylinder. If you have one counting up then it’s
probably a bad coil. Turn off engine and take that coil out and swap it with
another coil. The cylinders read left to right 1,2,3,4 when looking at the
engine from the front. Use the VAG again
to see if the misfires have also swapped to another cylinder. If it moved, then
you have a bad coil. Replace it. If they do not move, then you likely have a
plug problem. On some cars the ignition coils have problems and they will pop
up out of the cylinder head and lose contact with the plug. Plugs should be
torqued to 22 ft-lbs when changed.
Limp Mode – These cars are designed to protect
themselves from engine damage. If the engine boosts too much, or the engine
does not get enough fuel it will go into a limp mode where boost is limited to
protect the engine. It limits boost by controlling a solenoid on the wastegate
line (N75), by closing the electronic throttle or by opening the DV valve. If
you are experiencing a limp mode the best thing to do is get the car scanned
for codes and to see what is wrong. Look at fuel trims for signs of running
lean, and to look for MAF problems, or O2 sensor problems. To look for
potential boost problems log Block 115 and you can see the specified Vs actual
boost. If you exceed the specified then there is a good chance that you will go
into this limp mode. Stock specified is a max of 14 psi for a 2002+ car.
MAF – Mass air flow meter is used to measure the
air going into the engine. It is located on the outlet of the airbox, and
housed in a cylindrical tube. The ECU reads the MAF signal, and injects fuel in
proportion to the airflow. There are a few different ways the MAF can fail. The
MAF can get coated with oil, and will not read properly. This is common if it
happens right after installing a CAI, or a K&N filter. It can be cleaned
out with 99% isopropyl alcohol, or a quality electronics cleaner. Remove the sensor
from the housing and clean the sensor element.
MAF sensors also go bad due to too much airflow.
On a car with a larger turbo the airflow is so high that the MAF element will
get burned out from the excess air flow. It is common to increase the size of
the housing to prevent this (other modifications required).
To check for a BAD MAF the best way is with a VAG
com. Block 002 show air mass from the sensor. At idle the air flow should be
2-4 grams/second. With a wide open throttle run to redline the reading should
show up to 170 g/s on a chipped car. Look for jumpy readings in the MAF, which
can indicate a problem. If you suspect your MAF is bad, one way to test it is
to unplug the MAF, often if the MAF is giving false readings and upsets the
fueling. If you unplug it, the ECU will ignore the MAF and run off of baseline
tables. Be careful, as a boost leak or a vacuum leak can be miss-diagnosed as a
bad MAF, because they will throw off the readings on the MAF. (Air sneaks
around the MAF).
MBC – Manual Boost Controller. Often people want
more boost from their car, and use a MBC. While MBC’s can get you more boost
they will cause a jerky part throttle driving, and can cause over boost, often
put the car into a limp mode. The way a MBC works is by bleeding off air from
the wastegate control line. A wastegate is a mechanical flapper valve in the
turbocharger that opens to allow exhaust gas to sneak around the turbo. By
bleeding off air from the line, the wastegate opens less, more exhaust goes
through the turbo, and you get more boost.
N75 – The N75 is an electronic solenoid valve
that the ECU uses to control boost. It is located in the intake hose near the
back right side of the engine. It has 3 connections.
1.
Connects to charge pipe = pressure source
2. Connects
to wastegate actuator
3.
Connects to intake hose – bleed line.
The ecu will pulse this valve at a high frequency
to bleed air off from the wastegate line. It does this based on throttle
position and engine load. If the valve, or any of the liens connected to it
have leaks then there can be severe boost regulation problems. It’s function is
similar to the MBC above. To get more
boost people often swap in different N75 valves. These different valves simply
have a different response characteristic, and will act different when given the
same signal by the ecu. They can get more boost, less boost, or even a big
boost spike by swapping N75’s.
O2 Sensor – Because of strict emissions these
1.8T’s are very sensitive to readings from the O2 sensors. 2001+ have a
wideband front O2 sensor with high accuracy and a linear response. The car will
adjust the fueling based on the readings from the sensor. If the sensor is over
heated, exposed to lead (race gas), flooded with soot (too rich) or is just
old, it can provide the car with false readings and the car will not provide
the proper fueling. When the O2 sensors go bad and the ECU detects this the car
will run on reserve fueling maps and will not be able to adjust for boost
leaks, fuel pressure, MAF readings or any other parameter that affects fueling.
To check for a bad sensor the first thing to do is run block 032 on the VAG
com. If the sensors are bad, the readings will both be 0%, replace the Front O2
sensor. If the sensor is bad, it will also respond slowly, or reach a peak.
Logging block 031 will show the lambda reading from the O2 sensor as well as
the requested lambda from the ECU. To get air fuel ratio multiply lambda by
14.7. If the lgo shows the lambda jumping wildly when running through a gear,
or perhaps it flat lines at an unreasonable level, then the O2 sensor should be
replaced. It is a 50$ part. If the o2 sensors get shorted out or the wires get
pulled, they will damage the ECU, be careful with the wiring on these sensors. 2000 and older cars do not have a wideband
sensor, however they will still perform some adjustment of fueling based on the
sensor.
Oil Cooler The Oil cooler on these cars uses a
plate and plate heat exchanger. Oil on one side, coolant on the other side.
Often the brazing on teh cooler can fail and oil and coolant mix together. This
is often misdiagnosed as a bad head gasket. To test this remove the coolant
hoses and apply air pressure to the oil cooler and watch for leaks. Oil cooler
is located above the oil filter.
Spark plugs – With the weak coil packs that these
cars have, and the high boost pressures that they run, the spark plugs are very
important. Spark plugs on turbo cars need a nice tight gap 0.0025-0.028” is
recommended. Spark plugs may come “pre-gapped” however you should always check
the gap, as the variation can be severe and will cause problems. Plugs are
cheap, so the best way to troubleshoot is to replace them or pull them and
check the gap. A good cheap replacement plug that is a bit cooler is an
NGK-BKR7E copper plug. They need changing more frequently, however they are
cheap.
Thermostat - Thermostats can be a source of
overheating. Most common is the waterpump. Thermostats are relatively
inexpensive, and can be change din a half hour. If your car overheats, or has a
tendency to spike up in temp and then drop down to normal temp, it may be a
thermostat.
Timing Belt If your driving along and your 60+K
mile car runs great and all of a sudden dies, there is a good chance that your
timing belt has broken, or stripped some teeth. This is a very costly repair
and could have been prevented had the factory recommended a better service
interval for the belt. Damage estimates are anywhere from 600 - 1800$ to repair
this kind of failure. 60K miles is a good time to change the timing belt, some
belts have lasted 90K, but it's not worth the risk. To test for this failure,
pull off the timing belt cover and crank the engine by hand. If the cam gear
doesn't turn you have a bad timing belt. Repair is best left to a good
mechanic. - If your going full throttle
and the car all of a sudden dies, check for a boost hose blown off -
TB – The throttle on these cars is drive by wire,
it is an electronic throttle with a wire attached. Most common TB problem just
requires adaptation, or cleaning out with carb cleaner. This procedure shows
how to do a TBA. TBA can improve idle, and part throttle operation. To clean the TB remove it, and spray inside
with carb cleaner. Wipe out the residue that gets built up in there. NEVER port
a TB on a 1.8T it won’t idle properly.
Race Fuel – 1.8T engines love high octane fuel,
however they can have cold startup problems, and if you run leaded race fuel
you will ruin your Cat and your O2 sensors. Always run unleaded fuel in a 1.8T
unless you are cat less, and you have extra o2 sensors.
VAC Leak – A VAC leak will cause un-metered air
to enter the engine and it will run lean. If the air is not measured by the MAF
then the fuel will not be injected. The O2 sensor will compensate for much of
this, however it has limits. To check for a VAC leak, log block 032 and check
the idle fuel trims. If it’s more than +2% you probably have a VAC leak
somewhere. Check hoses and connections for loose clamps of cut hoses here are
come common areas for VAC leaks.
Turbo inlet pipe not secured, DV line leaking,
Crank case breather Y pipe split, Line on Fuel pressure regulator gets worn and
leaks, intake manifold gasket can leak, and PCV line under intake manifold
leaks. To find leaks some people spray ether, or starter spray around in the
engine bay and listen for changes in idle speed. If you get a change from
spraying in a certain area look for leaks there.
Waterpump - Nearly all overheating problems I
have seen on these engines has been from the water pump. VW uses a plastic
impellar that is splined/molded onto the shaft. These splines strip, or the
pump cracks and the impellar slips on the shaft at high speeds. If your car is
overheating best bet is to change the waterpump. You can do the T-stat first to
see if your lucky but every time I have seen people try this it's the water
pump anyways. This happens as early as 35K miles. While your in there doing the
water pump, change the timing belt. Timing belts on these can go as early as
60K miles. There are several companies that make kits to do the timing belt and
water pump.
Water wetter - Water wetter is an additive used
to remove surface tension from water. It improves waters cooling ability in a
cooling system as it prevents beading of the water, and raises the boiling
point. Water wetter should not be used with G12 coolant. It is best for race
cars running only water. If you add this to the coolant reservoir you get a
nasty oily sludge in the reservoir. Flush coolant system and remove this.