1999 BMW 540i steering wheel

Downloaded from www.Manualslib.com manuals search engine
Steering and Wheel Alignment
- Tighten nut while counterholding adjusting bolt,
- Tighten nut only after car has been lowered to ground and
suspension has settled.
Preparing for alignment
- The following conditions are necessary prior to wheel align-
ment:
Correct wheels and tires are installed, in good condition,
and are at the correct inflation pressures.
All steering and suspension parts and bushings are un-
damaged and show no signs of abnormal wear. Wheel
bearings are in good condition.
Ride height is in accordance with specifications. See
300
Suspension, Steering and Brakes-General.
Car is in normal loaded position. See below.
* Cars with air suspension: Remove air suspension power
fuse.
Normal loaded position
Each front seat
68 Kg (I50 lb)
Center of rear seat
Trunlc
Fuel tank
68 Kg (150 lb)
21 Kg (46 lb)
Full
Alignment specifications tables
In the alignment specification tables that follow, reference is
made to the various types of suspension used in
E39 cars.
The type of suspension can be identified by loolting at the la-
bel on the front strut tube.
Identifying symbol
None
Solid circle
Solid triangle
M5
Circle
Triangle Version
Standard suspension
Sports
suspension
Sports suspension
M sport package
Standard suspension
Sports suspension Model
Sedan
6-cylinder sedan
V-8 sedan
V-8 sedan
Touring (Sport Wagon)
Touring (Sport Wagon)

Downloaded from www.Manualslib.com manuals search engine
Isteering and Wheel Alignment
6-cylinder sedan (5251,5281,530i)
Parameter
Front axle
. .. I I I
Outside wheel (approx. ") / 33.5 133 133
M Sport
suspension
Standard
suspension
With
i 20" wheel loclc
Front wheel displacement
Inside wheel
(approx. ")
Sport suspension
O0 5' i 10'
- 36' i 30'
-ID56'-t30'
N/A
6" 41' i 30'
Total toe
Camber (difference between lefffright maximum
40')
Track (differential angle with 20" lock on inside wheel)
Caster (difference between lefffright maximum
30')
With i 10" wheel locic
6" 42' i 30'
0°i15'
42
. .. I I I
Rear axle
6-cylinder Sport Wagon (5251,5281)
0"5'il0'
-13'+30'
-1" 56' -t 30'
N/A
6" 28' i 30'
OD5'i10'
- 36' i 30'
-1" 56' i 30'
N/A
6" 41' i 30'
6" 55'
i 30'
0'2 15'
41.5
0" 22'
-t 4'
0" i 12' Geometrical axis deviation
6' 55' i 30'
0"
i 15'
41.5
0°22'i4' Total toe 0" 22' i 4'
Camber (difference between leitlright maximum 15') 1-20 04' ?- 5' 1-2" 04' i 5'
O"i12'
Sport suspension
Parameter
- I I
. .. I I
Outside wheal (approx. ") 133.5 133
-2' 04' -t 5'
OO-t 12'
Standard suspension
Wlth i 10" wheel lock
I I
Front axle
With
i 20" wheel lock 16" 42' i 30' 16" 55'i30'
6" 28' i- 30'
0"
i 15' Front wheel displacement
. .. I I
Rear axle
D"5'iIO'
- 36' i 30'
-I056'i30'
NIA
Total toe
Camber (difference between
IeWright maximum 40')
Track (differential angle with 20" lock on inside wheel)
Caster (difference between
lefffrioht maximum 30') 6" 41'
+ 30'
Inside wheel (approx. ") 142 141.5
OOi 15'
0"5'i10'
- 13'i30'
-1" 56' i 30'
N/A
0" 16'i 10' Total toe
0" i 12' Geometrical axis deviation
Camber (difference
between iefffright maximum
15') /-lo 50' i 20' 1-1" 50'i20'
0" 16'f 10'
0" il2'

Downloaded from www.Manualslib.com manuals search engine
Steering and Wheel Alignment
V-8 Sedan (540i)
I Front axle I
Parameter Standard
suspension
Total toe
.
Track (differential angle with 20" ioclc on inside wheel)
Caster (difference between
leftiright maximum 30')
With i 10° wheel loclc
With i 20" wheel lock
Front
wheel displacement
Inside
wheel (approx. ")
Outside wheel (approx. ")
M Sport suspension
Camber (difference between
leitiright maximum 40') 1- 13'i30' 1- 30' i 30' 1- 37' i 30'
0" 10'i 10' 0" 14'ilO'
Sport suspension
0" 14'i 10'
Rear axie
-1°35'i30'
N/A
6" 18'+30'
6' 36' i 30'
0"
i 15'
42
32.6
Total toe
Camber (difference between
IeWright maximum 15')
Geometrical axis deviation ~~
V-8 Sport Wagon (540i)
O"10'iW
-lo 49' i 5'
O"i12'
0" 22' i 4'
-2' 04' i 5'
0"
i 12'
Parameter
-1 " 43 'i 30'
NIA
6" 27'
i 30'
6"49'i30'
Pilo'
41.5
32
0°22'i4'
-2" 04' i 5'
O"i 12'
-ID 44' i 30'
N/A
6" 34' i 30'
6' 50' 130'
0" i 15'
42
31.8
Standard suspension Sport suspension
Front axie
0" 14'210'
-37i30'
-la44'+30'
N/A
6" 34' i 30'
6' 50' i 30'
O0i15'
42
31.8
0"
16'2 10'
-I050'i20'
0" i 12'
Total toe
Camber (difference between
ieftiright maximum 40')
Track (differential angle
with 20" loclc on inside wheel)
Caster (difference between
leftiright maximum 30')
With i 10" wheel lock
With i 20° wheel lock
Front wheel displacement
Inside wheel (approx.
")
Outside wheel (approx. ")
0" 14'i 10'
-13'i30'
-1" 35' i 30'
N/A
6' lS'i30'
6' 36' i 30'
On+ 15'
42 32.65
Rear axle
Total toe
Camber (difference between
lettiright maximum 15')
Geometrical axis deviation
0" 16'i 10'
-I050'i20'
0" i 12'

Downloaded from www.Manualslib.com manuals search engine
--
C. -- -- - -- Rear ~us~ensionl
Depending on year and model applications, the Sport Wagon
rear suspension may be equipped with:
Conventional shock absorbers and coil springs
Electronic height control (EHC) system which incorporates
air springs
NOTE-
. Suspension and EHC troubleshooting is covered in 300
Suspension, Steering and Brakes-General.
EHC system repairs, other than air spring replacement,
are covered in Electronic height control
(EHC) compo-
nent replacement.
Replace shock absorbers and springs in pairs only.
Rear shock absorber, removing and
installing
- Raise car and remove rear wheels,
WARNING-
Male sure that the car is firmly supported on jack stands de-
signed for the purpose. Place jack stands underneath struc-
tural chassis points. Do not place
jack stands under
suspension parts.
CAUTION-
If working on a vehicle with compressedairshock absorbers,
disable air supply pump by disconnecting electrical plug be-
fore performing any repairs. Pump is located beneath a cover
under the spare tire in the floor of the cargo compartment.
- Support swing arm from below
CAUTIOG
The shock absorber prevents the drive axle and wlieel bear-
ing carrier from dropping too far. Supporting the wheel bear-
ing carrier before disconnecting the shock absorber
mounting fasteners prevents damage to the
brake hose,
parking
brake cable and drive axle CVjoints.
- Working in cargo compartment, remove carpet. Remove tri-
angular upper shock mount covers located beside spare tire
well.
- If applicable: Detach air supply line from shock absorber.
Plug ports and lines to keep out dirt.

Downloaded from www.Manualslib.com manuals search engine
---
Rear Suspension
ELECTRONIC HEIGHT CONTROL
(EHC) COMPONENT REPLACEMENT
Sport Premium rear suspension is an option on Sport Wagon
models and standard on
1999 and later V-8 Sport Wagons.
This suspension incorporates electronic height control
(EHC)
using air springs.
With vehicle lifted off the ground,
if the rear air springs can be
compressed by hand, either the spring is defective or the sys-
tem is depressurized.
Locate
EHC faults using BMW scan tools DIS or MoDiC. EHC
description and some troubleshooting is covered in 300 Sus-
pension, Steering and Brakes-General.
Air spring replacement is covered earlier in this chapter. See
Air spring, removing and installing.
CAUTION-
Maintain high levels of cleanliness around air line connec-
tions when disassembling and assembling air suspension
components. Even
small dirt particles can cause leakage in
the pressurized system.
Electronic height control
(EHC) components
1. Air spring
2. 1 liter air reservoir
3. EHC control module
4. Air supply distributor
5. Airsupply pump
(under spare tire)
6. Air spring mounting bolt
(at wheel bearing carrier)
7. Rear ride height sensors
(Hall effect)
8. Air supply pump relay

Downloaded from www.Manualslib.com manuals search engine
General ........................... .34 0.2
Special Tools
....................... .34 0.2
E39 brake system
.................... .34 0.4
Electronic braking and stability control
.... .34 0.4
Troubleshooting
..................... .34 0.5
Warnings and cautions
................ .34 0.7
Bleeding Brakes ................... .34 0.8
Brakes, bleeding
..................... .34 0.9
Brake Pads, Calipers and Rotors ... .34 0.1 1
Braking system components .......... .34 0.11
Brake pads,
checking and replacing ..... .34 0.12
Brake rotors, removing and installing
.... .34 0.15
Master Cylinder .................. .34 0.16
Master cylinder, removing and installing
. .34 0.17
Brake Booster .................... .349 0.1
Brake booster check valve
............ .34 0.19
Brake booster, removing and installing
.. .34 0.20
Parking Brake .................... .34 0.22
Parking brake components
............ .34 0.22
Parking
brake, adjusting .............. .34 0.22
Parking bralte shoes, removing
and installing
....................... .34 0.23
Parking
brake cable, replacing ......... .34 0.24
ABS Component Replacement ..... 340-26
Wheel speed sensor. replacing
......... 340-26
ABS impulse wheel
.................. 340-27
DSC lateral acceleration or
rotational rate (yaw) sensor. replacing
... 340-27
DSC steering angle sensor.
removing and installing
............... 340-28
DSC precharge pump.
removing and installing (1998 models)
... 340-29
DSC pressure sensor
(1 999 - 2002 models) ................ 340-30
ABS /traction electronic control
module
(1 997 -1 998 models) .......... 340-31
ABS
/ DSC control module
(1 999
- 2002 models) ................ 340-31
ABS
/ traction control hydraulic unit.
removing and installing
............... 340-31

Downloaded from www.Manualslib.com manuals search engine
E39 brake system
BMW E39 models are equipped with vacuum power-assisted
four-wheel disc brakes with an integral
Antilock Brake System
(ABS). Single-piston calipers act on vented front and rear ro-
tors. A brake pad wear sensor for each axle indicates when
brake pads need replacement. The dual drum-type parking
brake system is integrated with the rear brake rotors.
Electronic braking and stability control
E39 models were introduced with Automatic Stability Control,
a computer controlled traction control system that uses the
AB5 system in conjunction with engine management controls
to control wheel spin during take-off and maintain vehicle sta-
bility while braking.
Added in the
1998 model year was Dynamic Stability Control
(DSC). This system implements wheel speed modulation
throughout all stages of driving. For example, DSC is able to
reduce understeer by applying differing amounts of braking
force to each wheel, or it can override the engine manage-
ment system during hard cornering.
A summary of distinguishing characteristics of the various
systems is shown in the table
E39 electronic braking and
stability control systems.
For ABS, ASC and DSC system and component descriptions,
see
300 Suspension, Steering and Brakes-General.
WARNING-
A car with electronic stability control is still subject to normal
physical laws. Avoid excessive speeds for the road conditions
encountered.
E39 electronic braking and stability control systems
Year (model)
manuf. up to 911998
(528i, 540i)
manuf. from 911999
(540i optional)*
From
911 999
(ail models) System
Automatic Stability Control (ASC) Identifiers
Electronic control module next to glove compartment
Hydraulic unit in right rear of engine compartment
No precharge pump
Dynamic Stability Control
(Bosch DSC
Ill v. 5.3)
Dynamic
Stabil~ty Control
(Bosch DSC
Ill v. 5.7) Electronic
control module next to glove compartment
Hydraulic unit in right rear of engine compartment
Precharge pump in left front of engine compartment, below steering
fluid reservoir
Separate rotational rate (yaw) and lateral acceleration sensors
Control
modulelhydraulic unit in right rear of engine compartment
No precharge pump
Combined rotational rate (yaw) and lateral acceleration sensors

Downloaded from www.Manualslib.com manuals search engine
Brakes
Troubleshooting
Brake performance is mainly affected by three things:
Q Level and condition of brake fluid
Ability of bralte system to create and maintain pressure
Condition of friction components
Air in bralte fluid will
make the brake pedal feel spongy during
braking
orwill increase the bralte pedal force required to stop.
Fluid contaminated by moisture or dirt can corrode the sys-
tem. lnspect the brake fluid inside the reservoir. If it is dirty or
murky, or is more then two years old, replace fluid.
To
check the function of the master cylinder hold the bralte
pedal down hard with the engine running. If the pedal slowly
falls to the floor, either the master cylinder is leaking internal-
ly, or fluid is leaking externally.
lnspect the rotors for glazing, discoloration and scoring.
Steering wheel vibration while braking at speed is often
caused by warped rotors, but can also be caused by worn
suspension components.
When troubleshooting, keep in mind that tire inflation, wear
and temperature can all have an affect on braking. See
300
Suspension, Steering and Brakes-General for additional
suspension and brake system troubleshooting.
The table Brake system troubleshooting lists symptoms of
brake problems, probable causes, and suggested corrective
actions. Unless noted otherwise, relevant repairs are de-
scribed later in this repair group.