1.8
Turbo 20V
Front Wheel Drive transverse mounted
All Wheel Drive longitudinally mounted
General Information
|
Cylinders |
4 |
|
Displacement |
1781
cc / 108.7 ci |
|
Firing
Order |
1,3,4,2 |
Stock engine handles around 400 wheel
horsepower and around 7200rpm before issues. Head bolts, exhaust valves, valve
springs and retainers will then need attention.
Stock rods handle up to 300lbft
Stock engine and trans
mounts 250lbft
CAN
This vehicles uses CAN bus for various
devices throughout the vehicle. This can include the dashboard, ABS, and Body
Control.
These vehicles are supported by the
Elite 1500 and 2500 models.
Model
Variants
There are at least 45 variants of this
engine! Far too many to go into detail on each an
every variant, so the key technologies present on them are what will be covered.
Some models have a cable/psuedo DBW throttle system.
Some have narrow band O2 sensors, some
have a 4.2 Wideband pre-cat sensor.
Some have switched VVT on the inlet cam
Some are transverse Front Wheel or All
Wheel Drive
Some are longitudinal Front Wheel or
All Wheel Drive
Various turbochargers have been used
throughout the years. Some extremely small, some much larger supporting more
power. Either K03 or K04.
Various injector flow rates have been
used
There are a number of different head designs.
All are 20V but some use small and some use large ports.
Some Audi A4 models use twin
intercoolers, one in front of each front wheel.
Sensor Information
Crank/Cam Sensor
This engines uses a Crank Position Sensor and a Cam Position Sensor.
The crank trigger has a 60x tooth wheel with 2x missing teeth (60-2). The
cam trigger has 4x teeth with 2x larger and 2x small teeth. The ECU expects to
see a different number of cam trigger teeth between each crank trigger missing
tooth event. i.e. in one crank revolution, from
the missing tooth event ocuring until the next time
the ECU sees the missing teeth event we should see 1x cam tooth event. In
the next crank revolution we should see 3x cam trigger teeth. This
counting of the cam trigger teeth tells the ECU which cycle the engine is on
but all timing itself is done by only the crank trigger, as for all missing
tooth crank trigger systems.
Crank
Trigger Wheel
For Skoda Octavia use part number 050 105 189
B
Cam
Trigger Wheel
Crank Sensor
A Reluctor
crank position sensor is used. This is located near the oil filter
towards the front of the engine. There are two different sensor variants,
both are reluctor but have different pinouts.
To verify which sensor type you have
you will need to do a resistance check on pins 1 and 2. If there is no
resistance you have the first type listed below. If there is resistance you
have the second type.
Reluctor Wiring AUQ/AUM/BAM
|
Pin |
Description |
Haltech
Connection (Trigger 4-core) |
|
1 |
Shield Ground |
Haltech Trigger
Shield |
|
2 |
Reluctor - |
Green |
|
3 |
Reluctor + |
Yellow |
Reluctor Wiring AEB/APU
|
Pin |
Description |
Haltech
Connection (Trigger 4-core) |
|
1 |
Reluctor + |
Yellow |
|
2 |
Reluctor - |
Green |
|
3 |
Shield Ground |
Haltech Trigger
Shield |
Cam Sensor
A Hall Effect cam sensor is used.
This is located on the cam timing belt end of the cylinder head.
Hall Effect Wiring
|
Pin |
Description |
Haltech Connection
(Home 4-core) |
|
1 |
12V+ Switched |
Red |
|
2 |
Signal (Home +) |
Yellow |
|
3 |
Signal Ground |
Blue |
Trigger
Configuration
Ignition
Coils and Igniter
The ignition coils on this engine
require an external igniter module. The vehicles fitted with this engine
come with a 4x channel igniter module. if no igniter
module is present the Haltech HPI4 igniter can be
used. The Haltech Quad Channel OEM Igniter has
the same wiring as the VW OEM igniter module.
Ignition
Coils
|
Pin |
Description |
|
1 |
Signal From Igniter |
|
2 |
Ground (to cylinder head) |
|
3 |
12V+ Switched |
Igniter
Module
Haltech HPI Igniter
A Haltech HPI
4 igniter is recommended for this application.
See the Haltech
HPI Quick Start Guide for wiring information on these igniters.
Dwell Time
The dwell time shown below is taken
from our 1.8 Turbo base map
DBW
Throttle System
This engine uses two different Drive By Wire throttle body systems.
Early models have a cable throttle but
use a DBW style system to act as moving throttle stop. This provides idle and
cruise control to the throttle body but a cable is used to open the throttle
from there. If a throttle cable is present then this is the type of
system being used. This type of throttle is not currently supported by Haltech.
Later models use a normal DBW throttle
body and do not have a throttle cable. This is supported by Haltech.
DBW
Throttle Wiring
Position Sensors
|
Pin |
Description |
Haltech
Connection |
|
1 |
TPS2 |
AVI 3 |
|
2 |
5V+ |
5V+ |
|
4 |
TPS1 |
AVI 2 |
|
6 |
Signal Ground |
Signal Ground |
Drive Motor
|
Pin |
Haltech
Connection |
|
3 |
DBW1 |
|
5 |
DBW2 |
DBW
Accelerator Pedal Position Sensors Connection
|
Pin |
Description |
Haltech
Connection |
|
1 |
5V+ |
Signal Ground |
|
2 |
5V+ |
AVI5 |
|
3 |
Signal Ground |
Signal Ground |
|
4 |
APP Signal 2 |
AVI 5 |
|
5 |
Signal Ground |
Signal Ground |
|
6 |
APP Signal 1 |
AVI 4 |
MAP Sensor
These engines do not come with a MAP
sensor. They do have a Baro sensor but this
cannot be used for tuning.
Use the internal MAP sensor that comes
with your ECU. For higher boost levels an external MAP sensor should be
used instead, connected to a spare AVI.
Variable Cams
Some variants of this engine have a
switched on/off variable intake cam system.
Idle Valve
All variants use the DBW throttle body
for idle control. Engines equiped with a cable
throttle body have a motor controlled throttle stop that acts in a similar way
to DBW, moving the throttle blade to achieve idle control.
Coolant
Temperature
These engines come with a 4-pin Coolant
Temperature Sensor
|
Pin |
Function |
Haltech
Connection |
|
1 |
Signal
Ground |
Signal Ground (Black/White) |
|
2 |
Gauge
Sender Ground |
--- |
|
3 |
ECU
Signal |
Spare
AVI (AVI 8) |
|
4 |
Gauge
Sender Signal |
--- |
An AVI with a selectable Pullup should be used. If not and external 1k pullup to 5V should be connected.
Air Temp
An inlet air temperature sensor is
located in the inlet plenum.
Wiring is not polarity sensitive.
|
Pin |
Haltech
Connection |
|
1 |
Any Spare AVI* |
|
2 |
Signal Ground |
An AVI with a selectable Pullup should be used. If not and external 1k pullup to 5V should be connected.
Knock Sensor
These engines come with 2x knock
sensors. Both can be used with an Elite 2500, however only 1x knock
sensor can be used with an Elite 1500.
|
Pin |
Haltech
Connection |
|
1 |
Knock Signal |
|
2 |
Shield |
|
3 |
Signal
Ground |
MAF Sensor
Although most users of Haltech ECUs will be deleting the MAF, it is possible to
use a MAF if you prefer.
|
Pin |
Description |
Haltech
Connection |
|
1 |
Engine Ground |
--- |
|
2 |
Sensor Ground |
Sensor Ground |
|
3 |
12V+ Switched |
--- |
|
4 |
Signal 0-5V (AVI) |
Any Spare AVI |
O2 Sensors
Early models have narrow band sensors
for pre and post catalytic converter. Later models have a Bosch 4.2
Wideband Sensor. At this point the 4.2 sensor cannot be used and should
be swapped for a Haltech WB1
Adding a Haltech Single-Channel Wideband WB1
Kit (highly recommended)
For correct operation a Haltech WB1 kit is highly recommended for this application,
with the provided 4.9 sensors replacing the pre-cat sensors. Sensors use
a 22mm socket or spanner to remove and replace.
Vehicle
Speed Sensor
This engine uses a Hall Effect Vehicle
Speed sensor.
Hall Effect Speed Sensor
|
Pin |
Description |
Haltech
Connection |
|
1 |
12V+ Switched |
--- |
|
2 |
Signal |
Spare SPI or DPI |
|
3 |
Ground |
Sensor Ground |
Injector Data
Flow
The injector flow rate is measured with
the injectors held wide open at 100% duty. For fuel systems with a fixed
regulator pressure (often returnless systems) that is
not referenced to manifold pressure the flow needs to be mapped over Manifold
Pressure for accurate tuning.
There are numerous injector flow rates
that have been used on the 1.8 Turbo engine.
Most models: 282cc/min
Some models: 317cc/min however these
appear to be rated at 4bar pressure instead of 3bar, so they may be the same as
280cc
Some Passat Models: 210cc/min
Audi TT Quattro/225/Audi S3: 386cc/min
Dead Time
When an injector is commanded to open
for a certain amount of time, the dead time is the amount of time the injector
is not actually open during this period. It covers the time to energise the solenoid and begin to open and the time to
close as well. There are also transient periods during which the injector
is opening and closing where fuel flow is not at full capacity so this lost
peak flow period is also taken into account.
From the Haltech
Base Map:
OEM ECU
Information
Location
Golf 4: ECU is
located under the windscreen wiper trim panel.
ECU Pinout
Base Maps
Base maps have been created for use
with the Haltech Elite Adapter Harnesses and come
included with the ESP Software package
To use these maps they should be
IMPORTED into your ECU. Follow the IMPORTING A BASE MAP guide.