JAGUAR X308 1998 2.G Workshop Manual

5. Tigh
ten the EGR valve to throttle body retaining bolts.
Tigh

ten to 12 Nm.

6. Con
nect the EGR valve electrical connector.

7. NO
TE: Un-cap the coolant hose.
Connect the coolant hose.
8. Attach the evaporative emission canister purge valve.
Tigh
ten to 6 Nm.

9.
Connect
the evaporative emission canister purge valve
electrical connector.
10. Check and if necessary to p up the cooling system.
11. Install the engine cover.
For additional informat ion, refer to Section 501
-05
Interior
Trim and Ornament

ation
.

E
ngine Emission Control - Exhaust Ma
nifold to Exhaust Gas Recirculation
(EGR) Valve Tube
Re
moval and Installation
Remov

al
1.
R
emove the engine cover.
For additional informat ion, refer to Section 501
-0
5 Interior
Trim and Ornamen

tation
.

2. Di
sconnect the evaporative emission canister purge valve
electrical connector.

3. De
tach and reposition the evaporative emission canister purge
valve.

4. Di
sconnect the exhaust gas recirc
ulation (EGR) valve electrical
connector.
5. Remove the exhaust manifold to EGR valve tube retaining
bolts.
Remove an
d discard the exhaust manifold to EGR valve
tube gasket.

In
stallation


6.
Re
move the exhaust manifold to EGR valve tube.
Remove and discard the ex

haust manifold to EGR valve
tube gasket.

1. NOTE:
Install a new exhaust manifold to EGR valve tube
gasket.
Loosely install the exhaust manifold to EGR valve tube.

2. NOTE:
Install a new exhaust manifold to EGR valve tube
gasket.
Install the exhaust manifold to EGR valve tube retaining bolts.
Tigh te
n to 21 Nm.
3. Tighten the exhaust manifold to EGR valve tube retaining bolts.
Tighte
n to 21 Nm.

4.
Att
ach the evaporative emission canister purge valve.
1. Tighten to 6 Nm.

5. Conne
ct the evaporative emission canister purge valve
electrical connector.
6. Install the engine cover.
For additional informat ion, refer to Section 501
-0
5 Interior
Trim and Ornamen

tation
.

Intake Air Distribution and Filtering -
Torque Specificat
ions


Comp

onent
Nm
Thr
o
ttle intake elbow to intake manifold
18
-
24
Thro
tt
le body to throttle intake elbow
18
-
24
Left-hand support
bracket to
th
rottle intake elbow
16
-
20
Right-hand support
bracket to
throttle intake elbow
16
-
20
B
l
anking plate to throttle intake elbow
18
-
24
Inta
k
e manifold to engine
20
-
22
Supe
rcharger
drive belt idler pulley bolt
34
-
46
Supercharger
drive belt te
nsioner to alternator mounting bracket bolt
39
-
51
Supercharger
to eng
ine bolts
18
-
24
Charge air cooler in
let assembly to charge ai
r cooler bolts
18
-
24
Supercharger
outlet duct to supercharger bolts9-1
1
Charge air cooler in
let assembly to superchar
ger ou
tlet duct bolts
18-
24
Charge air cool
er to charge
air cooler adaptor
11
-
13
B
y
-pass valve to throttle intake elbow
8-
1
2

Intake Air Distribution and Filtering - Intake Air Distribution and Filtering
Description an
d Operation
I

ntake Air Distribution and Filtering - Normally Aspirated Vehicles
Air Intake Asse
mbly

The air cleaner assembly consists of a two piece box containing the air filter, an airflow/temperature unit and the air intake
duct which connects to the top of the throttle assembly. The en gine full load breather feeds into the intake duct from the
bank 1 camshaft cover. A tuned stub on the ai r intake duct reduces the intake noise level.
Mass Air Flow and Temperature Sensors

The intake air is monitored by the Mass Air Flow (MAF) sensor assembly which is fitted at the outlet of the air filter
assembly. Two sensors are incorporated in the MAF sensor assembly, measuring air flow and temperature (temperature
sensor arrowed); both sensors provide anal ogue signal inputs to the engine control module (ECM) and are further described
in Section 303-14.

P a
rts List
It
e
m
Par
t
Number
De
scr
iption
1—Inta
k
e Manifold
2—E
l
ectronic Throttle
3—Inta
k
e Elbow
Throttl
e
and Manifold Assemblies

P
arts List
CAUTION: Do not attempt to renew or adjust the throttle cable without consulting the relevant procedure. Two
procedures apply: reconnection of an original cable (19.70.04) or the fitting of a new cable (19.20.06).
The filtered air from the intake duct is drawn downwards through the throttle body to the intake elbow on which the throttle
body is mounted. The airflow through the throttle body is vari ed by the electrically operated throttle valve according to
driver demand and engine mana gement system requirements.
The throttle body assembly has the following features:
Con
vential cable operated input shaft connected to the accelerator pedal.
M

echanical guard to limit throttle angl
e should driver demand exceed ECM co ntrolled parameters and a mechanical
back-up in the event of a throttle motor failure.
Vacuum actuator for operation of the mech anical guard in cru
ise control mode.
Thr

ottle valve (blade) to regula
te air flow into the engine.
Thermostatic air valve to allow and con
t
rol air by-pass around the throttle.
D
C electric motor to operate the thro
ttle in response to ECM control.
Three
sensors (accelerator pedal, mechan
ical guard and the throttle valve) to relay positional information about the
input shaft to the ECM.
R
eturn and control springs fitted to th
e input shaft, mechanical guard, thro ttle valve and dc motor drive gear.
Throttle Cont
rol Modes
There are seven throttle control

modes:
1. 1. Normal
It
em
Par
t Number
De
scription
1—Acce

lerator pedal and mechanic
al guard position sensors
2—Throttl
e (blade)
position sensor
Throttle Body

2.2. Cruise
3. 3. Mechanica l
guard
4. 4. Fixed idle
5. 5. Redundancy
6. 6. Full authority
7. 7. Engine shut-down
Normal mode occurs when the EC M uses the mechanical and monitoring arrangem ent of the throttle valve to control throttle
opening. The ECM does not permit driver demand to be exceeded but it can be restricted to allow for such features as
stability / traction control, or engine power limitation.
The ECM determines engine idle speed by controlling the throttle valve motor to vary the blade angle between the non-
adjustable preset limits of the mechanic al guard and the throttle valve motor.
Cruise mode is engaged as a result of the ECM calculating and controlling the required throttle valve opening via the
vacuum system. When the driver releases the throttle pedal, the input shaft disengages from the mechanical guard or the
vacuum actuator pulls the guard away from th e throttle valve. The throttle pedal will feel light should it be pushed again to
accelerate (pressing the pedal further will re-engage the input shaft with the mechanical guard and restore normal feel).
The ECM utilizes sensors to monitor the relative positions of the mechanical guard and throttle valve and adjusts them to
maintain the set cruise speed.
Mechanical guard mode permits full mechanical operation of the throttle if the ECM detects that a problem has been
encountered with the throttle valve position sensor, dc motor, associated harnesses / connecto rs or the ECM.
Fixed idle mode occurs when any two of the three sensors (two input shaft sensors and the mechanical guard sensor) fail.
The ECM will assume values which represent a blade angl e of approximately 2,5° and 1200 rpm (unloaded) maximum
engine speed.
Redundancy mode occurs when any one of the three sensors (two input shaft sensors and the mechanical guard sensor)
fails. The operational pair will be deemed to be safe to co ntinue without intervention, but cruise will be inhibited.
Full authority mode is invoked when a mech anical guard failure occurs which indicates that the guard is stuck fully open.
The red warning lamp will be lit and road speed will be li mited to 120 kph.
Engine shut-down mode will occur followin g multiple failures, such as mechanical guard mode following full authority mode
(or vice versa) or the throttle blade sticks.
Intake Elbow

The intake elbow directs the metered airflow from the electronic throttle to the intake manifold. Stub pipes on both sides of