Table of Contents

E46 CENTRAL BODY ELECTRONICS

Subject Page

ZKE V Introduction.3

Power Distribution.5

Windshield Wiping/Washing.7

Sport Wagon Rear Wiper/Wash System.9

AIC (Rain Sensor).12

Central Locking.16

E46 Convertible Central Locking.18

E46 Sport Wagon Central Locking.19

Remote RF Key less Entry .26

Model Year 2000 Key.30

Power Windows .34

Convertible.36

Sunroof.40

Interior Lighting .43

Anti-Theft (DWA) System .46

Power Seat Control and Memory Function .54

E46 Convertible Front Seats.60

Passenger Seat Memory..65

Mirror Memory System.68

Seat Heating (up to 9/99).70

SZM.72

Lumbar Support.75

Dual Power/Heated Outside Mirrors .76

Consumer Cutoff.77

Review Questions.79

Initial Print Date: 7/98 Revision Date: 11/22/00

E46 CENTRAL BODY ELECTRONICS

Model: E46 (all models)

Production: From 6/98

Objectives

After completing this module you should be able to:

• Explain what functions are controlled by the GM V.

• Describe the operation of the windshield wipers and the interaction with AIC.

• Understand the different methods of locking and unlocking the vehicle.

• Identify the internal components of the model year 2000 key and describe it’s operation.

• Describe the window anti-trap circuit used on various E46 models.

• Explain the operation of DWA.

• Describe the purpose and operation of the UIS sensor.

• Understand how seat and mirror memory systems operate.

• Explain the construction of the E46 Convertible seat and the SGS system.

2

E46 Central Body Electronics

ZKE V INTRODUCTION

ZKE V is the Central Body Electronics system installed in the E46. Many of it’s features
and functions are similar to previous BMW ZKE systems with minor changes, added
features, and refinements.

The following functions are directly controlled by the General Module V (GM V):

• Windshield wiping/washing

• Central locking with power trunk/tailgate
release

• FZV Key less Entry

• Power window control

• Car Memory/Key Memory Capabilities

• Interior lighting

• DWA alarm system (optional)

• Consumer cut-off/sleep mode

The following functions are included as body electrical systems but are not directly
controlled by the GM V:

• AIC (Rain Sensor) if equipped.

• Sunroof operation (Sunroof Control module on K Bus).

• Driver’s seat electrical adjustment with memory (Seat Memory control module on K Bus)

• Passenger seat electrical adjustment

• Comfort Entry Aid (Convertible only)

• Seat Heating

• Side Mirrors - Memory/adjustment/heating
ZKE V includes the following features:

• Similar to the E36 GM IV, the E46 GM V controls it’s respective peripheral components
directly (no P Bus). It does however communicate with other pertinent control modules
via the K-bus.

• The Central Locking system uses a door lock actuator with hall effect sensors.

• The GM V is responsible for the Key Memory feature. It provides the added
convenience of identifying users of the vehicle. Whenever the vehicle is locked or
unlocked via the FZV key less entry system, a unique key identification signal (key
number) is transmitted to the General Module.

The key identification signal alerts the GM V to communicate with other control systems
over the K Bus to store (when locked) or reset (when unlocked) certain driver adjustable
settings for the driver using the specific key. The GM also resets certain driver
adjustable settings that it controls directly.

3

E46 Central Body Electronics

The E46 Body Electronics system control modules are:

• General Module V: main controller for ZKE functions. The GM V communicates with
other vehicle control modules via the K bus.

• Seat Memory Module - SM: Located in the driver’s seat base, the SM controls and
memorizes the driver’s seat position(s). The SM communicates with the GM V via the
K bus.

• Sunroof Module - SHD: Located above the rear view mirror, the sunroof module
controls it’s integral sunroof motor as on previous systems. The SHD communicates
with the GM V via the K bus.

LOWER ANTENNA GRID

DWA ALARM
SIREN (OPTIONAL)

FZV SIGNAL VIA THE
ANTENNNA AMPLIFIER

GM V LOCATED IN CARRIER
FORWARD OF GLOVE BOX

FZV

dCGWiiD

DWA

(optional)

DOOR LOCK & FUEL
FLAP ACTUATORS

WINDOW MOTORS
INTERIOR LIGHTING

Optional Rain

Sensor (AIC)

Sunroof Motor
Module - SHD

Seat Memory
Module - SM

4

E46 Central Body Electronics

POWER DISTRIBUTION

The maintenance free battery is connected to the power distribution system by the Battery
Safety Terminal (BST). The BST is activated by the MRS system in the event of a severe
impact preventing the main B+ cable to the starter and generator from shorting to ground.

B+ TERMINAL

BATTERY SAFETY TERMINAL (BST)

TO 250 AMP FUSE IN TRUNK

X

TO B+, STARTER
AND GENERATOR

INTEGRAL

IGNITOR

CAPSULE

TAPERED
B+ CABLE
CONTACT
POINT

SPRING

TABS

BST

ENCAPSULATED

HOUSING

A single 250 amp main
harness fuse (FI 08)
located in the trunk
protects the power
distribution circuit to
the fuse panel in the
glove box.

STARTER/GENERATOR

CIRCUIT

BATTERY

SAFETY

TERMINAL

E46 Central Body Electronics

GLOVE BOX MOUNTED FUSE PANEL

The power distribution center of the E46 is
located in the glove box. The fuse panel is
accessed by rotating two twist locks 90°
allowing it to drop into view as shown.

The fuse panel includes fuses 1 - 71.

The two large red 50 amp fuses (F36, F37)
provide power protection for the IHKA blower

m , t _ .

■*’ .

hllH lII Ik

!3

rf

IP

:a iiti
M

iZ

A?

43

m

0,4

Su

i 1 M I I ■

31

1 U

ii i r

M.U.4J

Koi- r

t i ua2‘ , m

I ■ I ■ ! ■ ■ | j

I F 1 f!■ I 1 I ■
4 I I F ■ : 1 1 I F

yp j r r-j 7]yi>'

ml 1 Ln TlTITir

r«la

uh nn

UM^VIU

|p4

Fuse Locations
(FI 01-FI 07)

Located above the fuse panel are
additional high amperage power
distribution fuses (FI 01 -FI 07).

This location replaces the front
passenger seat (under carpet) and
trunk location of the E38/E39 vehicles.

Fuel Pump Relay

Horn Relay

Fog Light Relay

I T

The electronics carrier is located forward of
the glove box. It contains the following
components as noted in the photograph.

IHKA Blowers
Relay ) $

General Module V (GM V)

E46 Central Body Electronics

WINDSHIELD WIPING/WASHING

All wiping/washing functions are
controlled by the GM.

The E46 Windshield Wiping System may
be optionally equipped with a Rain
Sensor. This added function detects rain
drops on the windshield and
automatically activates the wipers in the
intermittent mode if the stalk switch is in
the intermittent position.

Output control of the wiper motor is
through a double contact relay. The relay
is located in the engine compartment E-box and is tan in color.

• The system has four wiping stages and four interval wiping speeds. The wiping stage
inputs are coded signals through a two wire link with a combination of high/low inputs
as on previous systems. The wiping stages include:

SINGLE: Holding the wiper switch down in the single position provides a ground signal to
activate the slow speed circuit providing wiper operation until the switch is released.

INTERMITTENT: The intermittent wiping time inputs are provided by a potentiometer
mounted in the wiper stalk switch.

• The intermittent
wiping intervals are
dependent on the
road speed.

• As road speed
increases, the
wiping interval
delay is decreased.

WIPER TIME DELAYS (SECONDS) BASED ON SET POSITIONS 1 - 4

THUMB

VEHICLE SPEED IN MPH

WHEEL

POSITION

<4

5 - 22

23-45

46 - 60

61 - 87

>87

1

26

19

17

15

15

13

2

17

12

11

10

9

7

3

10

6

6

5

4

3

4

5

3

3

2

2

2

SLOW (I) AND FAST (II): The stage I and stage II wiping speeds are also affected by road
speed. The factory encoded settings are the same as previous systems:

• Stage I automatically switches to intermittent when the vehicle is stopped

• Stage II switches to stage I when stopped.

Note: This feature is known as “Switch Back when Stationary” and may be de-activated or activated in CKM.

7

E46 Central Body Electronics

Switch Logic

1

2

Single Wipe

H

L

Intermittent Wipe

L

H

Slow Wipe (Stage 1)

H

L

Fast Wipe (Stage II)

L

L

KL R KL 30

WIPER/ ®(J)

WASHER (T\

SWITCH ' (

KL 31

SLOW

KL 30

GM V

WIPER

MOTOR

KL 30

WINDSHIELD

WIPER

DOUBLE

RELAY

O

_i

c/)

r\

WINDSHIELD
WASHER PUMP

KL 31

WINDSHIELD WASHING: Pulling the Windshield Wiper Switch rearward closes the
“windshield wash” contacts and provides a switched ground input to the GM. The GM
activates the windshield washer pump directly via a power output final stage transistor.

8

E46 Central Body Electronics

SPORT WAGON REAR WIPER/WASH SYSTEM

The rear wiper/washer is a function of the ZKE system. The rear wiper motor and gear
assembly is mounted in the tail gate through insulating bushing to prevent operation nois¬
es from being transmitted into the body’s interior.

WIPER ARM
DRIVE SHAFT

DRIVE WHEEL

CONTROL

MODULE

WIPER
BASE
HOUSING

■><. NUT

GEAR DRIVE

MOTOR

SPRING LOADED
DRIVE PIN
(drive wheel to
wiper arm drive shaft)

WIPER

ARM WIPER
ARM
NUT

SPRING

WASHER

The wiper pivot bearing, wiper shaft and wiper arm are mounted on the rear window. A
mechanical coupling is used to connect the two components as on the E39 wagon.

9

E46 Central Body Electronics

SPORT WAGON REAR WIPER/WASH SYSTEM

Operation

Operation of the rear wiper/washer is controlled from the wiper stalk switch on the steering
column. The scope of operation is as follows:

• INTERMITTENT WIPE - Standard operation

• PROGRAMMED INTERMITTENT WIPE

• CONTINUOUS WIPE

• WASHING CYCLE

Pressing the wiper stalk switch forward to the first detent activates the rear wiper in the
intermittent mode. The timed interval is approximately 7 seconds. The full sweep and park
positions of the wiper arm are recognized by two hall sensors on the motor gear assembly.
If the wiper is switched OFF, the wiper arm will return to the park position.

Programming Procedure - for the wiping interval is as follows:

• Briefly switch the wiper ON/Off.

• Wait the desired interval time.

• Switch the wiper back ON again

• The OFF time will be the programmed interval - up to approximately 30 seconds.

Continuous wiping - is activated any time the transmission is shifted into reverse. The rear
wiping module receives the reverse signal for continuous wiping activation.

Rear window washing - is activated by pressing the stalk switch forward past the wiping
detent. The washer cycle is as follows:

• Wash cycle 1 - washer pump is switched ON for 1.5 seconds. The wiper activation starts
1 second later.

• Wash cycle 2 - washer pump is switched ON for .5 seconds - after a delay of of .8 sec¬
onds. Wiper continues to operate.

• Wash cycle 3 - washer pump is switched ON for .5 seconds - after a delay of .8 seconds.
This is followed by two wipe dry cycles.

NOTE: The wiper will remain in the intermittent wiping mode after washing until wiper is
switched off.

10

E46 Central Body Electronics

SPORT WAGON REAR WIPER/WASHER I P O

WIPER/

WASHER

SWITCH

OFF

REAR

WINDOW

WASHER

REAR
WIPER

Y

KL 30
KL R

REVERSE

BACK-UP LIGHTS

SIGNAL

RELAY OR SWITCH

KL 31

+/-

HALL
SENSOR
MONITORING
- 7K -

CONTINUAL

OPERATION

+/-

REAR WINDOW WASHER PUMP

REAR

WINDOW

MOTOR

GMV

REAR WINDOW
WIPER/WASHER
MODULE/MOTOR

11

E46 Central Body Electronics

AIC (RAIN SENSOR)

The Windshield Wiping System will also be available with an optionally equipped Rain
Sensor. The Rain Sensor provides added driver convenience and enhances safety by
automatically activating the intermittent function of the windshield wipers when water
droplets are detected on the windshield.

COMPONENTS:

The rain sensor unit is mounted on the top center area of the interior windshield surface
directly behind the rear view mirror. The unit contains:

• Optical Prism Body: This portion of the unit is
permanently fixed to the windshield. It can not be
removed and can only be replaced with a
replacement windshield.

The prism body has a reflective surface that faces
the back of the windshield. The prism body also
acts as the windshield mount for the Rain Sensor
Control Module.

• Rain Sensor Control Module: The control module incorporates the following;

- Infra Red Emitter and Detector Diodes

- Optics heater (prevents condensation from forming on the diodes and prism)

- Optics evaluation and control electronics

The control module requires four signals for operation; KL R, KL 31, Windshield Wiper
Motor Park Signal Feedback and K Bus interface.

OPTICAL

PRISM

KL 31

WIPER

MOTOR

12

E46 Central Body Electronics

THEORY OF OPERATION:

The optical infra red portion of the sensor operates by the principle of refraction (bending
of a light ray). The rain sensor control module activates the emitter diode which sends a
beam of infra red light through the windshield on an angle. The set angle is important
because it provides the beam with a calculated reflective path back to the detector diode.

The beam is reflected back into the windshield due to the density difference of the glass
compared with the ambient air on the outside surface of the glass. When the windshield is
clean (no rain drops, moisture or dirt) the detector diode receives 100% of the infra red light
that the was sent by the emitter. With this condition, the rain sensor evaluation electronics
determines the windshield is free of rain drops.

1

RAIN SENSOR PRISM OPTICS

The density of water is closer to that of glass than air. When rain starts to accumulate in
the sensor monitoring area, it causes part of the infra red beam to extend past the outside
surface of the glass and into the rain drop. When this occurs, the beam is refracted and
only part of the beam returns to the detector diode.

The rain sensor evaluation
electronics determines the
windshield has a few rain drops
(or dirt) on it.

g&€€ windshield

droplet Of water

The intensity of the returned infra red beam diminishes proportionally with an increase of
water droplets. The rain sensor control module generates a signal proportionate to the
amount of rain on the windshield and broadcasts it to the GM V via the K bus.

The GM V activates the intermittent wipe cycle if the windshield wiper stalk switch is in the
intermittent position. It also adjusts the frequency of wiping the windshield depending on
the four position thumb wheel.

13

E46 Central Body Electronics

RAIN SENSOR FUNCTION:

The rain sensor is online as soon as it receives KL R operating power.

• When the windshield wiper stalk switch is placed in the intermittent position the GM
signals the rain sensor control module via the K Bus of the request for intermittent
wiping and the position of the knurled wheel (sensitivity).

• As an acknowledgement, the rain sensor sends a command via the K Bus to activate
the wiper motor. If more than 12 seconds pass before the GM receives the
acknowledgement, the GM concludes the rain sensor has a defect and operates the
intermittent wipe function as a system not equipped with a rain sensor. The wiper
intermittent cycling is based solely on the knurled wheel setting.

• The rain sensor continuously monitors the windshield for rain accumulation and signals
the GM to activate the wipers based on the knurled wheel position and how fast the rain
accumulates on the windshield.

• The knurled wheel position signal (1 -4) via the K bus informs the rain sensor of the
selected level of sensitivity.

- Position 1 (least sensitive) delays the wiper activation signal.

- Position 4 (most sensitive) sends the wiper activation signal to the GM sooner.

• When the wiper motor park contacts signal the GM of the wiper arm position, the signal
is simultaneously sent to the rain sensor as an indication that the windshield has been
cleared of water drops and causes the rain sensor to reset the sensitivity delay timer
back to 0.

• Depending on the intensity of the rain the wipers will be operated continuously as if set
in the normal wiper stalk switch position regardless of the knurled wheel setting. For
this reason, the vehicle speed signal on the K bus is not utilized on rain sensor equipped
wiper systems.

• If the ignition switch is turned off with the wiper switch in the intermittent position, the
rain sensor will only become active after the ignition is switched back on and one of the
following occurs:

- The stalk switch is moved from the intermittent position and then back.

- The knurled wheel setting is adjusted.

- The wash function is activated.

The reason behind this switching strategy, is to have the driver make a conscious
decision to activate the system.

14

E46 Central Body Electronics

RAIN SENSOR CONTROL MODULE ADAPTATION

The rain sensor control module adapts to the optics system environment as follows:

Windshield Aging: As the vehicle ages the possibility of stone chipping in the rain sensors
monitoring area may occur which will cause a loss of light in the optics system.

The control module adapts for loss of light based on the intensity of the detected infra red
light with a cleared windshield (wiper motor park signal). Therefore, the rain sensors
function is not adversely affected due to windshield aging.

Dirty Windows: The rain sensor adaptation reacts less sensitively to a dirty windshield (dirt,
road salt, wax residue) after a completed wipe cycle. A dirty windshield has a film on it that
diminishes the ability of the infra red to refract into present water droplets. This causes a
delay in the rain sensor detection capabilities which lengthens the time intervals on an
intermittent wipe.

SERVICE NOTE FOR VEHICLES EQUIPPED WITH THE RAIN SENSOR:

Make sure the wiper blades are in perfect condition. Only use window cleaner to clean the
windows. Dirty windows can cause the Rain Sensor control module to set a fault
due to the end limits of its adaptation abilities.

WINDSHIELD WIPER SYSTEM FAILSAFE OPERATION

The GM provides failsafe operation of the wiper system if faults are detected with any of the
following input signals:

FUNCTION

FAULTED INPUT DETECTED

FAILSAFE FUNCTION

Intermittent wipe

Short or open circuit of
the knurled wheel signal

Delay value for setting 3
used.

Intermittent wipe

Faulted Rain Sensor or K Bus

Normal intermittent wipe

with Rain Sensor

Signal corrupt

implemented

Wiper motor not

Park contact feedback signal

Wiper motor control

functional moving

takes longer than 16 seconds

deactivated for 3 minutes

WINDSHIELD WIPER SYSTEM DIAGNOSIS

The GM monitors the circuits of the wiper potentiometer, wiper motor, double relay, the
windshield washer pump and terminal 30. The DIS or MoDiC provide fault symptom
troubleshooting following the new E46 Diagnostic concept as well as Status and
component activation functions.

15

E46 Central Body Electronics

CENTRAL LOCKING

SYSTEM FEATURES:

• The Central Locking system of ZKE V controls the door lock, trunk lock and Fuel Filler
Flap actuators.

• The familiar single/double locking strategy is maintained from
previous systems with the introduction of a new style door
lock mechanism combined with dual actuator motors.

The new style actuators are sealed, self contained units with no
replaceable parts. The door lock actuators use hall effect
sensors in place of pin contacts and microswitches to provide:

• Door lock key position (driver’s door only),

• Door open/closed status (replaces door jamb switch).

The mechanical interior lock rods only lock the actuator they
control. There is no affect on the central lock control of other
doors. The rear doors are equipped with the child lock out lever
preventing the door from being opened from the inside
regardless of the actuators position.

• The automatic locking feature activates the door lock
actuators when a road speed signal of 5 MPH is detected via the K-Bus. The factory
default encoding of this feature is off, but can be encoded on for individual users with
the Key Memory function.

• The Driver’s door lock location is the only point outside of the vehicle where the key can
mechanically control all of the central locking system functions. The outside locks
(driver’s door and trunk) incorporate the familiar overrunning lock cylinder that breaks
away and freewheels if an attempt is made to destroy the lock with a screwdriver, dent
puller, etc.

• The trunk can be locked/unlocked with the key but does not lock/unlock the entire
vehicle as on previous systems. When unlocked, the trunk can be opened by
depressing the trunk release switch pad located above the license plate or from the
remote trunk button in the left kick panel as on previous systems. Pressing the trunk
release button on an FZV key also opens the trunk.

• GM V and EWS 3.3 interface via the K bus to monitor double lock status and to initiate
double lock override. This feature allows the doors to be opened from the inside if an
accepted EWS key is switched on in the ignition when double locked. 2000M.Y
vehicles allow a double locked vehicle to be opened using the central locking switch
inside of the vehicle.

16

E46 Central Body Electronics

The central locking switch is housed in a combined housing with the hazard flasher
switch. Locking the vehicle from the central switch single locks the vehicle except for
the fuel filler flap.

Continuous locking/unlocking will initiate a timed arrest of the locking system. The GM counts
each time the locks are actuated. After approximately 12 cycles, the timed arrest is active.
The timed arrest is deactivated one actuator cycle for every 8 seconds until the counter is
reset to 0. The timed arrest is overridden if a crash signal is received from the MRS II.

The Selective Unlocking feature is used by the GM V. A single unlock request from the
driver’s door with the key or via the remote transmitter unlocks the driver’s door only. A
second unlock request unlocks the remaining doors and trunk. This feature can be
modified for individual users in Key Memory to activate all lock actuators simultaneously.

17

E46 Central Body Electronics

E46 Convertible Central Locking

The glove box is integrated into the scope of the central locking system on the E46iC. An
additional actuator is positioned above the glove box to lock it whenever the central lock¬
ing system is activated. Additionally, the trunk is locked out whenever the top storage cover
is unlocked while the top is being raised or lowered. The top storage cover motor hall sen¬
sor signals the GM any time the cover is unlocked.

The CVM receives a signal from the GM over the K-Bus, whenever the trunk is opened,
which locks out the soft top operation.

A micro switch on the glove box lock cylinder signals the GM to lock the trunk electrically
for the valet key position. The trunk can only be opened mechanically with either FZV key
or the wallet key.

All other functions of the central locking system remain the same as the E46 Sedan and
Coupe.

The antenna for the FZV system is incorporated with the receiver into the interior rear view
mirror.

KL 30 KL R

KL 31

DRIVER’S DOOR

(m)

(m)

PASSENGER’S DOOR

(m)

(m)

GLOVE BOX

(M)

FUEL FILLER FLAP

TRUNK

18

E46 Central Body Electronics

E46 Sport Wagon Central Locking

Tailgate and Window Locking System

The tailgate can be opened from any of three input signals including:

• Remotely from FZV

• Interior tailgate release button - on left kick panel

• Unlock switch pad - located above the license plate

Any of these input request signal the GM to activate the tailgate latch motor. The GM will
also switch on the interior lights with a unlock request for the tailgate.

The window is opened from the release switch located on the rear wiper arm cover.
Pressing the switch signals the GM to activate the rear window release relay.

GM V

REAR

WINDOW

SWITCH

? WIPER
MODULE

►

INTERIOR LIGHTS

►

LATCH CLOSED

OPEN

WINDOW

REAR WINDOW
ACTUATOR RELAY

+ +

WINDOW

ACTUATOR

19

E46 Central Body Electronics

DRIVERS DOOR LOCK ACTUATOR

The driver’s door lock provides
the following familiar signals to
the General Module:

• Lock / Unlock,

• DWA arm/disarm

• Convenience closing and
opening signals.

It also provides a mechanical link
to manually lock/unlock the
actuator in the event of a failure.

The GM monitors these key positions over two wires. The signals are generated by two
hall effect sensors (Hall Sensor 1 & 2) located in the actuator.

When the key is turned, a plastic cylinder in the lock actuator is simultaneously rotated by
the lock tumbler extension rod. An asymmetrical shaped magnet is incorporated in the
plastic cylinder, which when rotated changes the magnetic influence on the hall sensors.
The presence of a magnet in close proximity to the sensing surface of either hall sensor
creates a coded input over the two wires that the GM uses to determine the key position.

• Magnet in front of sensor, current flow through the sensor is <5 mA (0).

• Magnet rotated away from sensor, current flow through the sensor is >12 mA (1).

Hall effect sensors improve the actuators reliability since they are impervious to moisture
and there are no wear contacts.

• Key in the neutral position, both
sensors are simultaneously
influenced by the magnet - 0 / 0 .

• Key turned to the unlock position
from neutral, hall sensor #1
magnet segment moves away
from hall sensor -1/0.

• Key turned to lock position from
neutral, hall sensor #2 magnet
segment moves away form hall
sensor - 0 / 1 .

PLASTIC CYLINDER
WITH ASYMMETRICAL MAGNET
(Shown in the Lock Position)

TUMBLER
EXTENSION ROD

1

HALL
SENSOR 2

E46 Central Body Electronics

There are two motors incorporated in each actuator that provide two separate functions:

• Single lock/unlock function. Also known as central lock, this motor controls the
mechanical lock mechanism when the central lock button is pressed to single lock the
vehicle. The lock mechanism is fully locked at this point but can still be opened from
the interior by pulling the appropriate interior door handle twice or by pressing the
central lock button again. When single lock function is activated, the fuel filler flap
actuator is not locked.

• Double lock/unlock function. Also known as central arrest, this motor is activated
only when the vehicle is locked from the outside at the driver’s door lock with a key or
when the GM receives a lock request from the FZV system. In this case the double
lock motor is activated simultaneously with the single lock motor. The function of the
double lock motor is to mechanically offset an internal rod disabling it from unlocking
the vehicle from the interior. This prevents the doors from being unlocked by any means
except from an unlock request at the driver’s door or via the FZV remote key.

PLASTIC HALL EFFECT SENSORS
CYLINDER 1 & 2

SINGLE

LOCK

DOUBLE

LOCK

MOTOR

ACTUATOR IN UNLOCKED POSITION

WHEN IN DOUBLE LOCK AN INTERIOR
ACTUATED UNLOCK ROD IS OFFSET
PREVENTING THE LOCK MECHANISM FROM
BEING MECHANICALLY UNLOCKED

ACTUATOR IN LOCKED POSITION

21

E46 Central Body Electronics

DOOR CONTACT HALL SENSOR

Also included in the drivers door actuator is a third hall effect sensor. This sensor signals
the door open/closed status to the GM. This sensor replaces the door jamb mechanical
switch of previous systems. The rotary latch plate position activates the door contact hall
sensor.

• When the door latch is closed, current flow through the sensor is <5 mA (0).

• When the door is open, current flow through the sensor is >12 mA (1).

The passenger side front door and both rear door lock actuators only include this hall effect
sensor (hall sensor 3). Hall sensors 1 & 2 are not required.

DRIVER'S DOOR

LOCK ACTUATOR

HALL
SENSOR 1

HALL
SENSOR 2

SINGLE

LOCK

MOTOR

DOUBLE

LOCK

MOTOR

LEFT REAR DOOR
LOCK ACTUATOR

SINGLE

LOCK

MOTOR

DOUBLE

LOCK

MOTOR

GM V

PASSENGER DOOR
LOCK ACTUATOR

SINGLE

LOCK

MOTOR

DOUBLE

LOCK

MOTOR

HALL

SENSOR

LATCH PLATE

RIGHT REAR DOOR
LOCK ACTUATOR

SINGLE

LOCK

MOTOR

DOUBLE

LOCK

MOTOR

HALL

SENSOR

LATCH PLATE

22

E46 Central Body Electronics

LOCK ACTUATOR CONTROL

All door lock actuators and the fuel filler flap actuator are controlled directly by the GM via
four internal load relays. The drivers door lock actuator has a separate circuit for the
selective unlocking feature. If this feature is disabled by key memory encoding, the driver’s
door lock actuator selective unlock circuit is activated simultaneously with the balance of
the motors during unlock.

DOUBLE LOCK CONTROL
-SWITCHED POWER-

GROUND

SINGLE LOCK CONTROL
- SWITCHED POWER -

LEFT RIGHT PASS.
REAR REAR DOOR
DOOR DOOR

FUEL

FILLER

FLAP

SELECTIVE SINGLE LOCK

DRIVER’S

DOOR

CONTROL DURING DOUBLE LOCK:

LEFT

REAR

DOOR

NOT ACTIVE

GROUND

SINGLE LOCK CONTROL
- SWITCHED POWER -

FUEL

FILLER

FLAP

SELECTIVE SINGLE LOCK

RIGHT PASS.
REAR DOOR
DOOR

DRIVER’S

DOOR

CONTROL DURING SINGLE LOCK:

DOUBLE LOCK CONTROL _

-GROUND-

UNLOCK CONTROL
- SWITCHED POWER -

FUEL

FILLER

FLAP

SINGLE UNLOCK CONTROL
- SWITCHED GROUND - -**

LEFT RIGHT PASS.
REAR REAR DOOR
DOOR DOOR

DRIVER’S

DOOR

SELECTIVE SINGLE UNLOCK

23

E46 Central Body Electronics

TRUNK LID SWITCH CONTACTS

The trunk lid position (open/closed) and trunk lock key positions are input signals to the GM V.
The trunk lid closed/open signals come from the trunk lid switch contact located in the
trunk lock actuator motor assembly.

When closed, the trunk contact provides a
ground signal to the GM signifying a "closed
trunk". This contact also serves as the trunk
light switch when the trunk lock is open.

TRUNK LID SWITCH CONTACT

The actuator motor only runs in one direction
to release the latch mechanism. The latch
mechanism can also be manually unlocked
with the key.

Located on the trunk lock are two
additional microswitches for key
position status signalling to the
General Module.

• Valet position
switch: With the
key lock in the valet
position, this switch
provides a ground
signal to the GM.

The GM locks out
the interior trunk
release button
preventing the trunk
from being opened.

• DWA Cancel Switch: When the trunk is opened with the key, this switch provides a
ground signal to the GM preventing the DWA from activating if armed.

MECHANICAL UNLOCK
ROD FROM KEY

LOOKING UP FROM FLOOR 1 . DWA CANCEL ACTIVATE SWITCH

2. VALET KEY POSITION SWITCH

24

E46 Central Body Electronics

CENTRAL LOCKING BUTTON

The central lock button in the center console
provides a momentary ground input signal to the
GM. This input initiates a single lock for each
door and the trunk. The fuel filler flap remains
unlocked for refueling purposes.

If a door is manually opened while centrally
locked, the remaining doors stay locked.

The opened door can be re-locked when closed
by manually locking or pushing the central button
twice. This allows the locks of the remaining
doors to be re-synchronized again.

On M.Y. 2000 vehicles, a vehicle that is Double Locked may be opened from inside by
pressing the central button once and then manually opening the door from the inside.

TRUNK REMOTE UNLOCK (328i & 330i)

The trunk can be opened from inside the vehicle by
pressing the remote trunk button when the vehicle is
unlocked or single locked from the central lock button.

The remote trunk button is locked out when the trunk is
locked in the hotel setting and when the GM detects a
vehicle speed signal > 4 MPH via the K-bus.

The switch provides the GM with a momentary ground
signal when pressed.

CRASH SIGNALLING

The Multiple Restraint System control module provides a switched signal to the GM in the
event of an accident. The signal is an output function of the MRS control module and
becomes active when MRS determines a crash has occurred.

When active, the GM unlocks the door lock actuators, switches on the interior lights and
signals the LSZ via the K bus to activate the hazard warning flashers.

Once the crash signal is active, the GM will not respond to lock requests from the system
until the ignition switch is cycled or a front door is opened.

25

E46 Central Body Electronics

REMOTE RF (KEY LESS) ENTRY

• The remote key receiver is part of the antenna amplifier and is installed in the left “C”
pillar.

The receiver produces a digital
signal based on the transmitter
command and sends it to the GM
for processing.

The GM then carries out all remote
lock system, window and sunroof
opening features, along with DWA
arming/disarming functions.

• The frequency at which the key
transmits the radio signal to the
antenna amplifier is 315 MHz.

• The system is also used to convey the key identification number being used to
lock/unlock the vehicle. This is a requirement of the Key Memory feature.

Antenna

□mpliher

26

E46 Central Body Electronics

Features of the key less entry system include:

• Locking/unlocking of doors, trunk,
fuel filler lid.

• Selective unlocking of driver’s door
(as with key in lock)

• Arming/dis-arming of DWA alarm
system (if equipped).

• Remote unlocking of the trunk only.

• Comfort opening of windows and
sunroof

• Interior lighting activation (search
mode).

• Panic mode alarm activation (if
equipped).

• Automatic correction for up to 1000
erroneous activation signals.

• Low transmitter battery fault code
storage in the GM.

• 3 volt lithium battery (commercially
available CR 2016) is used as the
power supply for the key
transmitters.

• An EEPROM is used to store the key
data. The data is no longer lost when
the battery is replaced and
initialization is not required.

BUTTON #1

PRESS ONCE =

• LOCkING,

• DWA ARMING
(if equipped),

• INTERIOR LIGHTS
ON WHEN
VEHICLE LOCkED

PRESS TWICE WITHIN
10 SECONDS =

• DEACTIVATE UIS &
TILT MONITORING

BUTTON #2

PRESS ONCE:

• UNLOCK
DRIVER'S DOOR

• DWA DISARMED
(if equipped)

• INTERIOR LIGHTS
ON

PRESS TWICE:

• TOTAL UNLOCKING

HOLD:

• CONVENIENCE
OPENING

BUTTON #3

Radio Transmitter Key up
to 1999 M.Y.

MOMENTARILY PRESS: PRESS AND HOLD:

• TRUNK LID OPENS • PANIC MODE (ALARM-

If equipped)

• The key incorporates an LED that signals the
operator of signal transmitting, key initialization
status and key self test indication.

• The keys are now delivered with a four color label
sheet containing four different colored labels for
each of the four possible FZV keys.

This is a helpful addition to differentiate the FZV
keys during initialization preventing the possibility
of mis-assigning the key ID which would change
the encoded Key Memory functions.

27

E46 Central Body Electronics

REMOTE KEY INITIALIZATION

The initialization of the FZV keys is required to establish the Lock/Unlock signal
synchronization with the GM V. The initialization procedure provides the GM with a key
identification number and a “rolling code” for each key. If the initialization is not performed,
the GM will not respond to the key signals.

Up to 4 remote keys can be initialized. They must

be initialized at the same time. Key initialization is

only possible with the vehicle unlocked.

Procedure:

1. Close all doors and have all keys available.

2. Using key number 1, turn the ignition switch to
KL R, then switch off within 5 seconds and
remove the first key.

3. Within 30 seconds of turning the ignition
switch to “off” Press and hold button #2.

4. While holding button #2, press and release
("tap”) button #1 three times within 10
seconds.

5. Release both buttons. The LED in the key will
flash momentarily. The GM will immediately
lock and unlock the doors signaling a
successful initialization.

6. If additional keys need to be initialized repeat steps 3 - 5 within 30 seconds.

7. Switching the ignition to KL R completes the initialization.

SERVICE NOTE: The key memory function of the GM responds to the key identification
number of each key. If the keys are not initialized in the same order prior to initialization,
the key memory functions activated by the keys will not be assigned correctly.

Always initialize the keys in the same order.

28

E46 Central Body Electronics

LED STATUS

The following functions can be checked with the LED:

• Flashing LED when pressing a button. Indicates that the data is being transmitted,
(battery voltage between 3.2 - 2.6 volts)

• No LED activity when pressing a button:

1. ZKE responds to pressed button only to unlock a locked vehicle. Indicates the battery
is between 2.6 - 2.2 volts. Replace battery.

2. No unlock of vehicle. Indicates battery is below 2.2 volts. Replace battery.

FZV KEY TEST

Pressing the trunk release and lock buttons together activates the key test. If the battery and
FZV key EEPROM are “OK”, the LED will come ON for approximately 1 second.

29

E46 Central Body Electronics

MODEL YEAR 2000 FZV KEY

Visual Changes:

• New appearance with blue and white BMW roundel.

• New button arrangement (larger buttons) with sequential operation (enhanced operating
convenience)

• Rechargeable battery replaces replaceable batteries. Charged by EWS ring antenna.

• The key housing is encapsulated and can not be opened.

• The LED has been omitted.

• Key will be used in E46, E38 and E39 vehicles.

Features of the keyless entry system include:

• Up to 4 radio-control keys can be operated in conjunction with one vehicle.

• Locking/unlocking of doors, tailgate,
fuel filler lid.

• Selective unlocking of driver’s door (as
with key in lock)

• Arming/dis-arming of DWA alarm system
(if equipped).

• Remote unlocking of the tailgate only.

• Comfort opening of windows and
sunroof

• Interior lighting activation (search mode).

• Panic mode alarm activation..

• Automatic correction for up to 1000
erroneous activation signals.

• Low transmitter battery fault code
storage in the GM.

• An EEPROM is used to store the key
data.

• Keys delivered with a four color label
sheet containing four different colored
labels for each of the four possible FZV
keys.

ARROW

PRESS ONCE:

• UNLOCK
DRIVER'S DOOR

• DWA DISARMED
(if equipped)

• INTERIOR LIGHTS
ON

PRESS TWICE:

• TOTAL UNLOCKING

HOLD:

• CONVENIENCE
OPENING

ROUNDEL

PRESS ONCE =

• LOCKING,

• DWA ARMING,

• INTERIOR LIGHTS
ON WHEN
VEHICLE LOCKED

PRESS TWICE WITHIN
10 SECONDS =

• DEACTIVATE UIS &
TILT MONITORING

TRUNK

MOMENTARILY PRESS: PRESS AND HOLD:

• TAILGATE OPENS • PANIC MODE ALARM

E46 Central Body Electronics

REMOTE KEY INITIALIZATION

The initialization of the FZV keys is required to establish the Lock/Unlock signal
synchronization with the GM. The initialization procedure provides the GM with a key
identification number and a “rolling code” for each key. If the initialization is not performed,
the GM will not respond to the key signals.

Up to 4 remote keys can be initialized. They must be initialized at the same time. Key
initialization is only possible with the vehicle unlocked.

Procedure:

1. Close all doors and have all keys available.

2. Using key number 1, turn the ignition switch
to KL R, then switch off within 5 seconds and
remove the first key.

3. Within 30 seconds of turning the ignition
switch to “off” Press and hold the arrow

button.

4. While holding the arrow button, press and
release {“tap”) the roundel button three
times within 10 seconds.

5. Release both buttons. The GM will
immediately lock and unlock the doors
signaling a successful initialization.

6. If additional keys need to be initialized repeat
steps 3 - 5 within 30 seconds.

Switching the ignition to KL R completes the initialization.

SERVICE NOTE: The key memory function of the GM responds to the key identification
number of each key. If the keys are not initialized in the same order prior to initialization, the
key memory function activated by the keys will not be assigned correctly.

Always initialize the keys in the same order.

E46 Central Body Electronics

FZV KEY RECHARGEABLE BATTERY

From KL R, the battery inside the key head is charged inductively by the EWS ring antenna
via a coil antenna integrated in the key. The charging process is controlled by electronic
circuitry integrated in the key.

• The service life of a radio-control key used under normal conditions corresponds to the
vehicle lifespan.

• If the FZV keys are not used (ie: stored in a drawer), the battery will be discharged after
approx. 1.5 years.

• The time required to fully charge a discharged battery is approx. 30 hours.

• The remote control can be operated about 15 times after a charging period of approx.
30 minutes (driving time).

The key data is stored in a transponder chip. The transponder chip is a wireless read and
write EEPROM. It is powered via the ring coil at the steering lock. Power is applied
electromagnetically when the key is in the ignition switch from KL R.

The power supply is used both for data transfer as well as for charging the battery. This has
been made possible by new development of the transponder chip.

As with previous systems, every press of an FZV key also provides the battery charge
condition. When the FZV electronics receives a low power condition message three
successive times, the GM sets a fault indicating a low battery within a specific key. The
LCM is also informed via the bus system and alerts the driver via an instrument cluster
matrix message.

If the battery is recharged (used operate car), the fault will be automatically deleted when
five successive messages are received indicating a charged battery condition.

The battery has no affect on the EWS III communication function!

E46 Central Body Electronics

jimu

TXD

E46 Central Body Electronics

POWER WINDOWS ( Sedan, Coupe and Sport Wagon)

Features of the Power Window system:

• Control of the front and rear door window motors is carried out directly by the GM.

• One-touch operation in both directions on all windows.

• Cable type window regulator used for all windows.

• Anti-trap detection is provided by the pressure sensitive finger guard (same as E38/E39).

• A new style window switch was introduced with the E46. The switch is pulled up to raise
the windows and pushed down to lower them.

• The rear window switches located in the rear doors can be deactivated by the pressing
child lock out switch in the center console.

• Convenience closing/opening of the windows from the driver's lock cylinder or
convenience opening only from the FZV remote key (FZV operation can be owner
customized with the Car Memory Function).

• Window operation with the ignition switched off until a door is opened or 16 minutes has
elapsed after the key is switched off.

• Window load switching is through relays integral of the GM. The GM V monitors the
current draw for end limit position. The maximum run time for the window motors is
limited to 8 seconds. This allows the motors to be switched off if the end limit load
sensing fails.

34

E46 Central Body Electronics

POWER WINDOWS (Convertible)

Power window operation for the Convertible is slightly with the addition of the central power
window switch located in the console between the window switches on the left side. The
central switch allows all four windows to be opened with one touch operation or closed if
the switch is held.

The rest of the window switches allow one touch operation for opening. The driver’s win¬
dow switch is the only one touch close switch due to the elimination of the anti-trap pro¬
tection feature.

The power windows are also opened when the top is lowered for approximately 1.5 sec¬
onds to ensure clearance when the top is lowered into the storage compartment. If the top
switch is held after opening, the windows will close again.

DRIVER’S LF

PASSENGER’S
REAR LR

PASSENGER’S
FRONT RF

PASSENGER’S
REAR RR

36

E46 Central Body Electronics

COMPONENTS

NEW STYLE WINDOW SWITCHES

The E46 power window switch design is a new push - pull type switch. Each switch
provides the GM V with the familiar coded ground signaling strategy as previous two wire
switches.

Pushing a switch to the first detent and holding provides a single ground signal on one wire
requesting the GM to operate the window motor in the down direction. When released, the
ground signal is removed and the window motor stops.

Momentarily pushing the switch to the second detent and releasing provides an additional
ground signal on the second wire requesting the “one touch mode”, operating the window
motor automatically. The motor runs the window down until it reaches it's end stop.

The switch functions in the same manner for the upward run of the window motor but the
ground signal sequencing is reversed.

Four door vehicles have a single window switch located in the door handle trim.

REAR WINDOW CHILD LOCKOUT SWITCH

The rear window child lockout switch is incorporated in the driver's side window switch
block. It provides a constant ground signal to the GM preventing the windows from being
operated from the rear door switches.

The lockout switch ground signal is overridden by the GM if the MRS crash signal is
activated.

37

E46 Central Body Electronics

SERVICE NOTE:

Switch block removal from the console
has changed on the E46.

The console trim must be removed
from the console base. The switch
blocks can be removed by pushing the
lock tabs and dropping the switch
from the trim.

2. DROP SWITCH
ASSEMBLY DOWN

1. PUSH
TAB FORWARD

POWER WINDOW MOTORS

The window motors are mounted on the
cable regulators (E38/E39). The window
motor control circuit consists of two wires for
operating the motor in both directions.

The motors are activated by relays in the GM.

The relays provide either power or ground
depending on the direction of window travel.

The GM controls the polarity of the motor
based on a request to run the window
(window switch, Convenience Opening/

Closing).

The windows are run to their limit stops which is detected by an amperage increase in the
control circuit. Additionally, the window run cycle is limited to an 8 second duration if in
case the amperage increase is not detected or there is a malfunction with the regulator.

WINDOW MOTOR LIMIT STOP FUNCTION

If the windows are run up and down continuously a limit stop function is activated to
prevent the window motors from overheating. The GM monitors the number of times the
window motors are activated. It counts each cycle and stores the number in memory.

If the repetitive window activation (up/down) exceeds one minute, the GM deactivates the
internal relays and disregards any further input requests. The GM provides motor activation
after a short duration but not for the full one minute monitoring cycle.

Over time, the GM slowly reverses the stored count of activation until the stored number
equals 0.

38

E46 Central Body Electronics

WINDOW ANTI-TRAP DETECTION( Sedan, Coupe and Sport Wagon)

The window anti-trap detection feature is only active in the one touch and convenience
close modes of operation. If the window switch is pushed/pulled and held, the Anti-trap
feature will not function.

The rubber pressure guards are located at the
top edge of each door frame for the Sedan and
Sport Wagon and are incorporated into the felt
edge protector in the Coupe. Each guard
consists of two contact strips that close when
subjected to pressure. This provides anti-trap
detection and signal generation to the GM V.

When the contact strip closes, the window
immediately (10ms) reverses direction as with
previous anti-trap systems. The contact strip
does not require that the anti-trap feature be
initialized prior to operation.

1

EKS= ANTI-TRAP

TU - . . CONTACTSTRIP

The E46 pressure sensor finger guard has a

resistance of 3.0 KOhm and it is monitored for
open circuit. When pressed, the monitored

resistance changes to <1 KOhm. Faults with the anti-trap system require that the window
switch be held to close the window.

CONVENIENCE OPENING/CLOSING

As with previous ZKE systems, the GM V provides the convenience open/close feature

providing control of the power windows (and sunroof) from outside the vehicle with the key

in the driver’s door lock. The FZV provides the same function for the opening only.

• The anti-trap feature is active during convenience closing from the driver’s door lock.

• The convenience open feature provides outside activation of the windows and sunroof
in the same manner.

• If the GM receives a request to operate convenience close or open for more than 110
seconds, the function is deactivated and a fault code is stored.

• The Car Memory Feature can activate and deactivate the Convenience Open Feature
from the FZV’s control.

39

E46 Central Body Electronics

SUNROOF

The E46 optional sunroof is mechanically similar to previous systems. All of the electronic
controls and relays are contained in the sunroof module (SHD). The module is connected
to the K-Bus for comfort closing/opening, unloader signalling during engine startup,
diagnosis and fault memory purposes

Mounted in the sunroof motor trim cover is the sunroof switch. Also similar to previous
systems, the switch provides coded ground signals for system operation.

The following switch signals are generated over three wires through coded combinations:

• Rest position

• Slide open request (press and hold switch - first
detent of open position)

• Automatic slide open request (press further to
second detent and release)

• Tilt open (press and hold)

• Slide close request (press and hold switch - first
detent of close direction)

• Automatic slide close request (press further to
second detent and release)

40

E46 Central Body Electronics

SUNROOF MOTOR/MODULE (SHD)

The combined motor module has a 13 pin
connector for interfacing the switch, and
vehicle harness (power ground and K bus.)

The motor contains two hall effect sensors
that monitor the motor shaft rotation
providing sunroof panel position.

The hall sensors also provide the end limit cut
out function for the SHD once the system is
initialized. The SHD counts the pulses and
cuts the motor out prior to the detected end
run of the sunroof panel.

INITIALIZATION

Initialization is required for the SHD to learn the end positions of the motor's travel. The hall
sensors provide pulses for motor rotation, the SHD counts the pulses and determines
where the panel is by memorizing the stored pulses.

If the system is not initialized, the sunroof will only operate in the tilt up and slide close
positions. Initialize as follows:

• Press and hold the sunroof switch in either the tilt up or slide close positions for 15
seconds.

• The sunroof motor operates momentarily signifying initialization acceptance.

The SHD memorizes the pulses from the hall sensors on the next activation of the motor
by driving the panel to its end run positions. The SHD senses an amperage increase and
determines the end run position. The counted number of pulses is then used as the basis
for calculating the panel position.

ANTI TRAP FEATURE

The anti-trap feature of the sunroof uses a hall sensor to detect obstructions while the
sunroof is closing (pulse frequency slowed down) in the automatic close function. The anti¬
trap feature is shut down prior to full closing (4mm from full closed) to allow the sunroof to
seat into the seal.

Additionally, the anti-trap feature is not functional when the switch is held in the manual
close position.

41

E46 Central Body Electronics

SHD SELF DIAGNOSIS

The SHD monitors its operation and stores fault codes if a defect is determined: The SHD
monitors the following conditions:

• SHD motor relays: The relays are checked for sticking contacts (plausibility) and non
functional contacts.

• Hall effect position sensors: The SHD must detect a pulse frequency from the hall
effect sensor(s) during operation.

• Sunroof Switch: The SHD monitors the signal plausibility of the coded signaling from
the sunroof switch.

SUNROOF FAULT RESPONSE CHARACTERISTICS

If a fault occurs with any of these functions, the SHD responds as follows:

• Overrides the end run detection.

• Switches the motor off if the relay contacts stick for more than 500 ms.

• Switches the motor off if pulses are not received.

EMERGENCY OPERATION OF SUNROOF

If the sunroof motor does not respond to the switch signals, the hex key in the trunk lid tool
kit is used to manually turn the motor shaft drive as on previous systems

42

E46 Central Body Electronics

INTERIOR LIGHTING

The GM controls the interior lighting automatically with the status change of several
monitored inputs. The lighting can also be manually controlled using the interior light switch.

COMPONENTS

DOOR CONTACTS

As mentioned in the Central Locking Section, the new style door lock actuators contain a
hall effect sensor for the purpose of monitoring door open/closed status (hall sensor 3 in
the driver's door actuator). The hall effect sensor is located directly behind the rotary latch
plate encased in the actuator. The sensor is activated by the rotary latch plate's position.

• Door closed, the rotary latch plate is in the latched position. Current flow through the
hall sensor is < 5 mA.

• Door open, the rotary latch plate is in the open position. Current flow through the hall
sensor is > 12 mA.

A change in current flow informs the General module when a door is opened or closed.

43

E46 Central Body Electronics

INTERIOR LIGHT UNIT ASSEMBLIES

Front seat interior/map light unit:

The overhead front seat interior light
unit contains a single main interior
light. The light is controlled by the
GM automatically or by momentarily
pressing interior light switch located
on the light assembly.

The switch provides a momentary
ground signal that the GM
recognizes as a request to either
turn the light on (if off) or turn the
light off (if on).

If the switch is held for more than 3 seconds, the GM interprets the continuous ground
signal as a request to turn the interior light circuit off for the Workshop Mode as on previous
systems. The workshop mode is stored in memory and will not come back on even if the
GM is removed from it's power supply and reconnected. The switch must be pressed to
turn the lights back on.

There are two reading/map lights also located in the assembly. Each map light is
mechanically controlled by depressing it's corresponding on/off switch. The power supply
for the map lights is supplied by the GM through the Consumer Cut Off circuit.

Rear seat interior/reading light units:

In each C pillar trim panel is an interior/reading light unit. These units each contain an
interior light that is controlled with the front interior light and a mechanically switched
reading light on the consumer cut off circuit.

Front footwell lights:

In each front footwell, there is also a courtesy light. These lights are only operated when
the GM provides power to the interior lighting circuit.

44

E46 Central Body Electronics

AUTOMATIC CONTROL FUNCTION

The GM provides 12 volts (linear application providing soft on feature) to the interior lighting

circuit when the one of the following input signal statuses change:

• Door contact hall sensor active (door opened)

• An Unlock request from the driver's door key lock hall sensors are received. This only
occurs if the ignition switch is off.

• An Unlock request is from the FZV keyless entry system is received via the K bus. This
only occurs if the ignition switch is off as well.

• The ignition switch is switched off and the vehicle exterior lights (LSZ) have been on for
a minimum of 2 minutes prior. This information is provided to the GM via the K bus.

• Active crash signal from the MRS control module.

• Lock button of FZV key is pressed with the vehicle is already locked (interior search
function).

The GM gradually reduces the full 12 volt power supply (linear reduction providing soft off)

until the lights are off when the following input signal statuses change:

• Immediately after the ignition switch is turned to KL R with the driver's door hall sensor
door contact closed.

• When the vehicle is locked (single or double) with the door contacts closed.

• When the vehicle door contacts are closed. The lights remain on for 20 seconds and
then go to soft off.

• After the interior search function is activated, the lights will automatically turn off (soft off)
after 8 seconds.

• After 16 minutes with a door contact active (open door) and the key off, the lights are
switched off (consumer cutoff function).

• The component activation function of the DIS also has the ability to switch the lights.

The Interior lighting output circuit of the GM is approximately 3.5 amps with all lights on.

45

E46 Central Body Electronics

ANTI-THEFT (DWA) SYSTEM

(BMW Center installed accessory)

All E46 vehicles are factory prepared (prewired and GM programmed) to provide the DWA
function. The DWA system components are available as a retailer installed optional
accessory. Once the DWA system components are installed the GM must be encode to
recognize the installed components and carry out DWA functions. This is done with the
ZCS “Retrofit” program function using the DIS or MoDiC.

The GM utilizes existing components and/or circuits as part of the DWA system:

• Door lock hall effect sensor contacts (door open/closed).

• Trunk lid switch contact (monitored for closed trunk).

• Trunk lock key position switch (located on the trunk lock, this switch signal prevents
DWA from activating if armed when the trunk is opened with the key).

• Hood switch (monitored for closed hood, located under the hood).

• DWA status LED (part of rear view mirror).

The DWA optional accessory kit includes the following:

• Tilt sensor (pre wiring in area of installation in right trunk area).

• UIS Interior compartment monitoring sensor (pre wiring in area of installation in center
headliner).

• DWA siren (pre wiring in area of installation right cowl area next to IHKA housing).

46

E46 Central Body Electronics

COMPONENTS

DOOR CONTACTS

As mentioned in the Central Locking Section, the door lock contact hall effect sensors
provide status of door open/closed.

• When the door latch is closed, current flow through the sensor is <5 mA (0).

• When the door is open, current flow through the sensor is >12 mA (1).

The GM will activate the siren if a door open signal becomes active when the DWA is
armed.

TRUNK LID SWITCH CONTACTS

The trunk switch contact is located in the trunk lock actuator assembly. When closed, the
trunk contact provides a ground signal to the GM signifying a "closed trunk". The GM will
activate the siren if the trunk switch contact ground signal opens when the DWA is armed.

TRUNK LOCK KEY POSITION SWITCH

Mounted on the trunk lock cylinder are two switches:

• Valet position switch: With the
key lock in the valet position, this
switch provides a ground signal to
the GM. The GM locks out the
interior trunk release button
preventing the trunk from being
opened.

• Trunk opened with key switch:

When the trunk is opened
mechanically with the key, this
switch provides a ground signal to
the GM preventing the DWA from
activating if armed.

47

E46 Central Body Electronics

HOOD CONTACT SWITCH

Located on the right side engine
compartment, the hood contact switch
provides a ground signal to the GM
signifying an open hood.

The plunger of this switch can be pulled
up past a detent causing the switch
contact to open. This feature can be
used to simulate a closed hood with the
hood open when diagnosing the DWA
system.

DWA LED

As on previous systems, the DWA indicator is located in the rear view mirror. The LED is
equipped in all E46 vehicles and is not part of the retailer installed accessory DWA system.

The LED is provided with constant battery voltage (KL 30). The GM provides a switched
ground signal providing the various blinking signals used to convey DWA status to the
vehicle operator (covered further on).

48

E46 Central Body Electronics

TILT SENSOR

Located in the right trunk area
above the battery, the tilt sensor is
an electronic sensing device with
the sole purpose of monitoring
the vehicle's parked angle when
DWA is armed.

The sensor requires three signal wires to perform its function:

• KL 30 - Constant battery voltage

• Signal "STDWA"; switched ground input signal provided by the GM indicating DWA
armed/disarmed status. The tilt sensor is used as a splice location for the STDWA
signal to the Siren and UIS interior protection sensor.

• Signal "NG"; switched ground output signal provided to the GM. The signal is used for
two purposes,

1. As a momentary acknowledgment that the tilt sensor received STDWA and is
currently monitoring the vehicle angle.

2. If the tilt sensor detects a change in the vehicle's angle when DWA is armed, signal
NG is switched to inform the GM to activate the siren.

When the tilt sensor receives the STDWA signal from the GM it memorizes the vehicle's
parked angle. The angle of the vehicle is monitored by the solid state electronics. Once
armed, if the angle changes, the tilt sensor provides a switched ground signal to the GM to

activate DWA.

49

E46 Central Body Electronics

INTERIOR PROTECTION (UIS)

The E46 uses an interior protection sensor known as UIS. Similar to the FIS previously
equipped on the E38/E39, the UIS monitors the vehicle interior for motion through
ultrasonic sound waves. The UIS is a combined transmitter and receiver.

SENSOR IN HEADLINER

PHYSICAL CHARACTERISTICS OF SENSOR

The interior sensor is mounted in the center of the headliner panel even with the "B" pillar.
Due to the design of the vehicles interior, the sensor is uni-directional and must be installed
in the proper direction to ensure proper operation of the system (trim cover ensures
directional installation).

Every time the DWA system is armed (signal
STDWA), the sensor adapts to what ever
objects might be stationary in the interior.

The sensor emits ultra sonic waves in a
programmed timed cycle. It receives echos
of the emitted waves.

The UIS amplifies the received sound wave signals and compares them with the
transmitted waves. The UIS also checks the incoming echos for background hiss (wind
noise through a partially open window) and adapts for this.

• If the echos are consistently similar, no movement is detected,

• If the echos are altered, (inconsistent), the UIS determines motion in the interior
compartment.

If motion is detected, the UIS changes to a constant cycle and the echo is compared again.
If the inconsistency is still present the UIS sends the activate siren signal (INRS) to the GM.

As with the tilt sensor, the UIS is also switched OFF when the vehicle is locked two times
within ten seconds. This allows the sensor to be switched OFF for transportation purposes.

50

E46 Central Body Electronics

The siren from the DWA accessory kit is
installed in the vehicle cowl on the
passenger side of the vehicle. This
location provides a secure position with
loud acoustic output.

The siren contains electronic circuitry
for producing the warning tone when
the alarm is triggered. The siren also
contains a rechargeable battery that is
used to power the siren when the alarm
is triggered.

The rechargeable battery will allow the siren to sound if it or the
vehicle’s battery is dis-connected. The siren battery is recharged,
from the vehicle’s battery when DWA is not in the armed state.

The siren has four wires connecting it to the system; KL 30, KL 31,
Signal STDWA (arm/disarm signal from GM), and Signal SIRENE
(activate siren output signal to the GM)

CONNECTOR

The arm/disarm output signal from the GM (STDWA) is provided to the Tilt sensor, UIS
sensor and the siren simultaneously. The arm/disarm signal is a switched ground that
signals the components of DWA armed/disarmed status.

The activate siren signal (SIRENE) is high whether DWA is armed or disarmed. If a
monitored input activates the alarm, the high signal to the siren is switched to a 50% duty
cycle at the GM. The control circuitry in the siren activates the siren driver. If the DWA is
armed and the battery is disconnected the siren recognizes the normally high “SIRENE”
signal as suddenly going low, the siren is also activated.

KL 30 UIS SENSOR

TILT SENSOR

51

E46 Central Body Electronics

DWA ARMING/DISARMING

• The DWA is armed every time the vehicle is locked from the outside with the door lock
cylinder or FZV key.

• The LED in the rear view mirror flashes as an acknowledgment along with the exterior
lights and a momentary chirp from the siren.

• The GM monitors all required input signals for closed status (door closed, trunk closed,
etc.) The inputs must be in a closed status for a minimum of 3 seconds for the GM to
include them as an activation component. If after 3 seconds any input signal not in the
closed status is excluded (this is acknowledged by the DWA LED) preventing false alarm
activation's.

• If the DWA is armed a second time within 10 seconds, the tilt sensor and interior
protection sensor are also excluded as alarm activation components. This function is
useful if the vehicle is transported on a train or flat bed truck to prevent false alarm
activation's.

• While armed the trunk can be opened with out the alarm being triggered as follows:

- If opened with the trunk remote button via the FZV, the GM prevents the alarm from
activating. (This feature is customizable under the Car Memory function).

- If opened with the key at the trunk lock cylinder the trunk key position switch signals
the GM and in the same manner prevents the alarm from activating.

In either case, when the trunk is returned to the closed position, it is no longer
considered as an activation signal.

Panic Mode Operation: When the trunk button is pressed and held, the GM is signaled
to activate the siren for the Panic Mode. The panic mode is function with either an armed
or disarmed DWA system.

EMERGENCY DISARMING

Emergency disarming occurs automatically if a key is used to turn the ignition switch on and
the EWS accepts it. The EWS signals the GM to unlock the doors and deactivate the DWA.

52

E46 Central Body Electronics

ALARM INDICATION

When the alarm is triggered, the siren will sound for 30 seconds. At the same time the low
beam headlights and four way flashers will flash for 5 minutes. The GM signals the the LSZ
via the K bus to flash the lights.

Following an alarm trigger, the system will reset and trigger again if further tampering is
done to the vehicle.

DWA LED STATUS

DWA STATUS

DWA LED CONDITION

Disarmed

OFF

Armed

Continual slow flash

Armed with one or more monitored
inputs not in closed position
(ie: trunk not fully closed, etc)

Rapid flash for 10 seconds,
then continual slow flash.

Alarm activated

Rapid flash for 5 minutes,
then continual slow flash.

Rearmed in less then 10 seconds.

ON for 1 second

Disarmed after activated alarm

Rapid flash for 10 seconds,
then OFF.

53

E46 Central Body Electronics

FRONT POWER SEATS

SEAT CONTROLS

Located in each seat base are the
respective seat controls. The switch
modules are contoured to fit behind the
outboard seat base plastic trim. They each
incorporate the seat adjustment switches
and motor control circuitry.

As in the past there are no serviceable
replacement parts (switch levers, switch
buttons, etc.) they must be replaced as a
complete unit if necessary. They differ from
driver's to passenger seats as follows:

DRIVER’S SEAT= SEAT MEMORY CONTROL MODULE (SM)

• In addition to the position switches, the SM also contains the memory position switches
and monitors the seat motor positions via pulsed signals from hall effect sensors in each
driver's seat position motor.

• The SM communicates with the GM and Instrument cluster via the K bus to provide Car
and Key Memory seat adjustment functions.

• The SM is equipped with on board diagnostics which monitor motor circuits for opens,
shorts and not plausible operation. The SM communicates with the DIS or MoDiC for
diagnosis, and car memory encoding.

• The electronics are protected against polarity reversal and excess voltage. A non-volatile
memory maintains memory settings if the SM or battery is disconnected.

54

E46 Central Body Electronics

PASSENGER’S SEAT (without memory)

• The passenger seat control switch is purely a mechanical switching module that activates
the passenger seat motors without position monitoring capabilities.

• Due to it's limited operation requirements, the passenger seat control switch is not
equipped with on board diagnostics.

• The Passenger Seat control switch is equipped with an overload protection function. If
excessive amperage is drawn due to a defective motor or a switch is stuck driving a
motor to its' end limit , the function activates opening the motor control circuit.

55

E46 Central Body Electronics

SEAT POSITION MOTORS

There are either 3 or 4 electric motors in the front seats depending on the seat model.

The motors differ from driver’s to passenger seats as follows:

Driver’s seat motors:

• Each motor is individually controlled by the SM via a two wire circuit providing motor
activation in both directions.

• Each position motor incorporates a hall effect sensor that provides a single pulsed
square wave signal for each revolution of the motor. The hall sensor is required for the
memory feature of the driver’s seat and as feedback for motor load protection.

• When a motor is activated, the
SM also memorizes what
direction the seat switch was
moved to since it can not
determine the exact seat
position based on the hall sensor
signal alone. This is required if
the exact position is needed for
memory storage.

Passenger seat motors:

• Each motor is individually controlled by the Seat Control Switch.

• Each position motor is connected to the seat position switch by a two wire circuit
providing motor activation in both directions (no hall effect sensors).

• Each position motor is connected to the seat position switch by a two wire circuit
providing motor activation in both directions (no hall effect sensors).

56

E46 Central Body Electronics

SEAT MOTOR ACTIVATION

DRIVER’S SEAT ADJUSTMENT

When a position switch
is moved, the control
electronics of the SM
receives an input signal
to move the
corresponding motor
until the switch is
released.

The position switch is
also memorized for the
requested direction (ie:
slide forward/slide
backward).

The SM includes a
multiplexed switch unit
that handles the
polarity control and
motor selection
simultaneously.

Only one motor can be
activated at a time.

KL30

SEAT BASE
(UP/DOWN)

SEAT BASE
(TILT)

BACK REST

SEAT BASE
(FOWARD/BACK)

The multiplexer control activates the polarity contacts and then the individual motor
contacts to run the motors individually.

PASSENGER SEAT ADJUSTMENT

Operation of the passenger seat is always possible regardless of key position. Moving a
position switch operates a the motor control contacts directly, The switch applies voltage
and ground path directly to operate the motor. Reversing the switch simply changes the
motor polarity.. More than one passenger seat motor can be run simultaneously.

57

E46 Central Body Electronics

DRIVER’S SEAT MEMORY FUNCTION

As with previous systems, the seat memory feature of the SM stores three seat positions
for recall. The positions are stored in a non-volatile memory preventing loss of positions if
in case the SM or the battery is disconnected.

The additional buttons on the SM (M)
provide activation of recording memory
position and (1 -2-3) for storing or recalling a
specific seat setting.

Storing current seat position:

• Seat in desired position,

• Ignition switch in KL R,

• Press the M button until it illuminates

• Within 7 seconds press the 1,2 or 3
button to store.

The stored position can be recalled at any time by pressing the appropriate memory
location button (1-2-3).

MEMORY RECALL MODES OF OPERATION

Depending on current SM input signals via K-Bus, the memory recall operates in two
distinctly different modes:

• One-touch mode (TTB),

• or press and hold mode of operation (DTB).

If the following input signal status is current, the SM resets the seat position by a
momentary “one touch” of the selected memory button.

• Ignition switch off with the driver’s door open, or,

• KL R on, door open or closed

If the following input signal status is current, the SM resets the seat position by a continuous
’’press and hold” of the selected memory button.

• Ignition switch off with the driver’s door closed

• KL 15 on, door open or closed.

58

E46 Central Body Electronics

DRIVER’S SEAT MEMORY (CAR Memory Influence)

The SM can be encoded to recall a specific seat position for a vehicle user when the GM
signals the SM to automatically recall stored positions separate of the 1-2-3 button
selections.

This feature is encoded through the car memory function and activated by the key memory
function. The SM will monitor the seat position and store it in another area of it's memory
when the vehicle is locked with the remote keyless entry system. The GM sends a request
to memorize the seat position and store it for FZV key user 1,2,3 or 4.

If another user of the vehicle changes the seat position the SM restores the memory
position the next time the specific key is used to unlock the vehicle.

This feature can be further modified to activate the position recall based on the owner's
selected activation scenario, for example: The owner can choose to :

• Disable this feature,

• Initiate memory recall when the unlock signal is initially sent before a door is opened.

• Initiate memory recall when the unlock signal is sent but only when the driver's door is
opened.

POWER SEAT DIAGNOSIS

The SM communicates with the DIS or MoDiC via the K bus - instrument cluster gateway
- to the D bus. The SM monitors the seat motors and circuits as well as it's internal
operation. Any detected faults are stored in the SM fault memory and are called up when
diagnosing the system with the Fault Symptom diagnostic plan.

The SM also provides status display to the DIS of its input and output control signals as
well as component activation.

59

E46 Central Body Electronics

E46 CONVERTIBLE FRONT SEATS

Purpose of the System:

The front seats of the E46iC are designed in such a way that all forces acting on the occu¬
pants during collision are reduced to the floor pan by the defined design characteristics of
the seat. The front seat also incorporate the Seat Integrated belt System (SGS) and the
“Comfort Entry Aid System”.

Components of the System:

SEAT

INTEGRATED

BELT

HEADREST

MOTOR

COMFORT ENTRY
SWITCH

INERTIA

REEL

BACKREST

SEAT MEMORY
MODULE

SEAT

SWITCH SEAT-
MODULE TiLT

MOTOR

SEAT HEIGHT
MOTOR

SEAT FORWARD/
BACK MOTOR

BACKREST
MOTOR

ART-EBODY11

Seat Integrated Belt System (SGS)

The SGS seat is similar in design to the SGS in the E31. The backrest and seat frame are
reinforced to allow the belt system and deflection points to be integrated into the seat. All
of the belt fastening points move with the seat as it is adjusted. This ensures the best pos¬
sible body strapping irrespective of the seat position or body size. With the short free belt
lengths, the occupants are held quicker with any vehicle deceleration. The SGS design will
cause all forces occurring during a collision to be channeled into the reinforced floor pan.

60

E46 Central Body Electronics

Seat Belt Assembly

The fixed anchor point and seat belt tensioner are mounted on the seat frame. The upper
deflection point of the belt is attached to the head rest which causes the belt to be opti¬
mally positioned when the head rest is moved.

The inertia reel locking mechanism is attached to the backrest frame of the seat. It con¬
sists of two independent triggering devices which act on the inertia reel.

• The first triggering device locks the belt during fast cornering, heavy braking,
roll over or during impact.

• The second triggering device serves as an auxiliary safety lock and is controlled
by the “Mass Moment of Inertia”. The position of the mass moment of inertia is a
decisive factor for the belt to lock.

The inertia reel locking mechanism is connected through a lever and a cable drive to a gear
assembly on the seat back hinge. As the angle of the backrest is adjusted, the gear assem¬
bly and cable drive will change the angle of the inertia lock. This ensures that the lock is in
the proper position for locking at any seat back angle.

52460001

61

E46 Central Body Electronics

Comfort Entry Aid

The switch for the comfort entry aid feature is positioned at the top of the seat back. The
switch provides an input to the seat module which activates the seat forward/backward
motor.

When pressed forward, the motor rapidly moves the
seat to its most forward position.

When the switch is pressed rearward, the seat returns
to the previous set position.

When the lever for the backrest is raised and the back
rest is pulled forward, the back rest lock switch pro¬
vides an input to the seat module. The module acti¬
vates the head rest motor and it moves down to its
lowest position. When the seat back rest is relocked,
the module activates the head rest motor to return to
its previous set position. This feature will only activate
when the seat is moved forward far enough to cause
the head rest to interfere with the sun visor as the back
rest is pulled forward. The seat module recognizes the
position of the seat base for activation of this feature.

62

E46 Central Body Electronics

E46 CONVERTIBLE SEAT MEMORY SYSTEM
Purpose of the System:

The seat memory system uses two control modules on each front seat (driver and pas¬
senger). One processor is incorporated into the seat adjusting switch and a second
processor is mounted under the seat. The functions of the two control modules is to
process the following inputs and outputs to control the seat:

• Seat adjustments

• Comfort entry aid switch

• Seat back rest lock micro switch

• Seat belt fastened

• K-bus communication with the GM V and Instrument Cluster

As with previous systems, the Driver seat memory feature stores three seat positions for
recall. The positions are stored in the non-volatile memory preventing loss of positions in
case the SM or the battery is disconnected.

Components of the System:

Refer to the Driver’s and Passenger’s memory seat IPO.

System Operation:

The seat adjusting switch block communicates with the control module over dedicated
lines. The output stages for seat motor movement are in the control module. The seat posi¬
tions are recognized through the use of hall sensors on the motors. All components of the
seat memory system are monitored for faults.

Additional functions of the memory system include memorizing the position of the seat and
headrest when the entry aid feature is activated. The seat will return to its previous set posi¬
tion when the entry aid switch is pressed rearward or the seat back rest is locked.

63

E46 Central Body Electronics

MEMORY SEAT I P O

KL 30

ENTRY AID
SWITCH

DRIVER’S
SEAT BACK
LOCK MS

SEAT

ADJUSTMENT

MODULE

<00

[o]

VD rO

10

@

[si

KL 31

DRIVER’S

MEMORY

SEAT

MODULE

'Comfort

Entry

SIGNAL SEAT
BACK LOCK

&

TT

HALL

SENSOR

SEAT BASE
(UP/DOWN)

HALL

SENSOR

SEAT BASE

(TILT) * Sport Seats only

HALL

SENSOR

BACK REST

HALL

SENSOR

SEAT BASE
(FORWARD/BACK)

HALL

SENSOR

HEAD REST

64

E46 Central Body Electronics

PASSENGER’S SEAT MEMORY IPO

The passenger’s front seat incorporates a control module for seat adjustment and the entry
aid features. Only the seat forward/back and head rest adjustment motors incorporate hall

sensors for position recognition.

KL 30

ENTRY AID
SWITCH

PASSENGER'S
SEAT BACK
LOCK MS

SEAT

ADJUSTMENT

MODULE

KL 31

MEMORY

SEAT

MODULE

Comfort

Entry

GM V

K BUS

SIGNAL SEAT
BACK LOCK

k

C7

HALL

SENSOR

HALL

SENSOR

SEAT BASE
(UP/DOWN)

M) BACK REST

(M)

HEAD REST
(TILT)

MoDiC

65

E46 Central Body Electronics

COMPONENT LOCATIONS:

The memory control module for the seat is
mounted under the seat base on the seat
frame.

Three seat adjustment motors are mounted under the seat base on the seat frame as fol¬
lows:

66

E46 Central Body Electronics

COMPONENT LOCATIONS:

The backrest adjustment motor is mounted on the lower edge of the backrest frame.

The headrest adjustment motor is mounted at the upper edge of the backrest frame.

67

E46 Central Body Electronics

MIRROR MEMORY SYSTEM

Purpose of the System:

The function of the mirror memory system is to:

• Memorize mirror positions,

• Adjust mirrors,

• Control heaters for the outside mirrors.

• Communicate with the Driver’s seat memory module to recall mirror positions.

Components of the System

The mirror memory system consists of the following components:

• Mirror adjusting switch

• Driver’s mirror memory module

• Passenger’s mirror memory module

• Driver’s seat memory module

• Mirrors with adjusting motors and
feedback potentiometer

68

E46 Central Body Electronics

System Operation:

Each mirror module is responsible for mirror adjustment, storage of the mirror positions and
mirror heating. Operation of the mirror adjusting switch remains the same for initial setting
of the mirror positions. Feedback potentiometers are used for mirror position recognition for
memory storage purposes. The driver’s mirror module communicates with the passenger’s
mirror module and the seat module over the K-bus.

When a memory position is set with the seat module, a signal is sent to the mirror modules
over the K-bus and the current positions are stored in memory locations 1, 2 or 3 in the
respective modules.

When a memory button is pressed for recall of a stored position, the seat module signals
the mirror modules over the K-bus to return the mirrors to the stored settings.

KL 30

KL 31

DRIVER’S

SEAT

MEMORY

MODULE

KL 30

KL 31

DRIVER’S

MIRROR

MEMORY

MODULE

K-BUS

PASSENGER’S

MIRROR

MEMORY

MODULE

\ POWER
SUPPLIES

FEEDBACK

&

GROUND

*

I

03

c n

POWER

SUPPLIES

\ : EEDBACK
&

GROUND

ART-E46BODY28

69

E46 Central Body Electronics

OPTIONAL SEAT HEATING (1999 M.Y.)

The optionally equipped E46 Seat Heating feature is similar to previous systems with two
preset temperature settings. The seat heating system consists of the following
components:

• Console mounted, temperature regulating seat heater switches.

• Two section (Seat base and back) carbon fiber heating pad with temperature sensor. If
seat heating is equipped on the sport seat, a third heating pad is incorporated into the
thigh support.

SEAT HEATING SWITCH

Each seat push-button switch contains two LED's
that correspond with the two preset temperature
settings.

• Both LED's ON,

Higher
temperature
setting
selected

• Left LED ON
only, Lower
temperature
setting
selected

The

Switches TEMPERATURE

contain sensor

temperature regulation
electronics that provide
100% current flow to
the seat heating
element pad when first
activated providing fast
heat build up. Once the
temperature is attained, the
electronics regulates the current flow to
stabilize the set temperature.

The switches provide operating current to the seat heaters until switched off. There is no
preset time limit of operation.

70

E46 Central Body Electronics

If the battery voltage drops below 11.4 volts, the seat heating switch cuts the power supply
to the heating pads but the LED's in the switch remain illuminated. The seat heating
switches restore power to the heating pads when the battery voltage raises above 12.2
volts for more than five seconds.

CARBON FIBER HEATING PADS

In each seat is a two section (three section on sport seats), heating pad. The sections are
wired in parallel . The heating pads are resistors which when provided operating power
from the seat heating switches produce radiant heat to the following temperatures.

• High temperature setting selected (40°C at heating pad)

• Lower temperature setting selected (37°C at heating pad)

The seat base heating element also contains a temperature sensor for feedback to the seat
switch to provide the temperature regulation output control.

DIAGNOSIS

The seat heater switches contain a diagnostic mode of operation that provides a self check
of the system components when activated. The diagnostic information is provided via flash
codes from the LED's.

Diagnostic mode activation:

• Switch ignition OFF

• Press and hold the suspect seat heating switch button

• Switch the ignition ON

• Release the heating switch button

• Both LED's illuminate steady indicating the seat heating system is functioning.

• Within 10 seconds the LED will begin flashing the following codes:

• Single flash = Switch faulty due to overheating or short

• Double flash = Short or open in temperature sensor or it's circuit.

• Triple flash = Heating element shorted

Normal operation of seat heating can only be resumed after cycling the ignition key.

71

E46 Central Body Electronics

CENTER CONSOLE SWITCH CENTER (SZM)

OVERVIEW

From 2000 Model Year, E46 vehicles are
equipped with a new Center Console Switch
Center (SZM).

The SZM directly controls the front seat
heating and provides a diagnostic interface
with the DIS/MoDiC via the K BUS.

SZM also provides a unitized switching center
for Dynamic Stability Control (DSC III),

Convertible Top operation switches and
Harman/Karden sound system button.

The switch signal output for these systems is a direct output signal. All diagnosis functions
are carried out through their respective control systems.

SEAT HEATING OPERATION

The front seat heaters are adjustable through three ranges of heating output temperature.

Pressing the respective seat heater button once
provides stage 1. All three LEDs illuminate and the
heating elements are provided regulated output
current producing a seat temperature of 111°F.

Pressing the button a second time provides stage
2. The top LED switches off and the heating ele¬
ments are regulated to an output temperature of
102°F. Pressing the button a third time provides
stage 3. The top and middle LEDs are off and the heating elements are regulated to an out¬
put temperature of 95°F.

The SZM monitors the seat heating element temperature via an NTC feedback signal to
regulate the output current which maintains the seat temperature.

Seat heating is switched off by pressing the button a fourth time, pressing and holding the
button for more than 1 second or when the ignition is switched off.

72

E46 Central Body Electronics

SZM MONITORING OF SEAT HEATING

Battery Voltage: The SZM switches current supply to the heating elements off when bat¬
tery voltage drops below 11.4 volts. However, the heating stage LEDs remain on.
Regulated output current resumes when battery voltage raises above 12.2 volts for more
than 5 seconds.

SZM Internal Temperature: The power output stages for the seat heating elements gen¬
erate a considerable amount of heat when in stage 1 operation. The SZM monitors it’s own
internal temperatures and reduces the heating output when internal temperatures rise to a
temperature of 185°F or switches it off completely above 203°F.

As with battery voltage monitoring, the heating stage LEDs remain on when these temper¬
atures are exceeded.

Fault Monitoring: The SZM monitors the temperature sensors and heating mats for faults.
Detected faults are stored in the SZM. Fault Symptom Troubleshooting in conjunction with
stored faults will initiate the diagnostic paths using the DIS/MoDiC.

The following faults can be recognized:

• Shorts or opens in the wiring circuits.

• Shorts or opens in the temperature sensors

• Open in heating element.

If a short is detected in the temperature sensor, the seat heating is switched off to prevent
overheating. The Stage LEDs are also switched off with this fault present.

73

E46 Central Body Electronics

SZM IPO SCHEMATIC

KL 30 (BATTERY)

KL 31 (GROUND)

KL 15 (IGNITION ON)

KLR (ACC)

KL 87 (OPERATING POWER)

58G ( PANEL LIGHTING)

LSZ

r —

SZM

DRIVER’S SEAT HEATING

PASSENGER’S SEAT HEATING

•Yf t

K BUS

CVM CONTROL
MODULE

74

E46 Central Body Electronics

OPTIONAL SEAT BACK LUMBAR SUPPORT

The optional air bladder lumbar support system is similar to the E38/E39 comfort seat.
Each seat contains the following components:

• Four position circular rocker switch in the seat base trim in the area of the seat switches.

• Electrically controlled air compressor with over pressure cut out under each seat.

• Two solenoid activated air controlling valve blocks (one per air bladder). Each valve
block includes an inlet and an outlet valve. When energized they direct air into the
bladder(s) to inflate or relieve trapped air to deflate the bladders.

• Connecting hoses and air bladders in lower seat back

- KI_3U

OPERATION

The lumbar support
system can be operated
at any time regardless of
key position. The four
position circular rocker
switch provides power
switching to operate the
system as follows:

In

Zb

• Position 1: The internal switch contacts provide a power and ground path for both valve
block inlet valves and the air compressor. Both bladders inflate until the switch is
released. If the switch is held continuously, an overpressure bypass valve opens on the
compressor preventing damage to the bladders.

• Position 2: Compressor activated, upper bladder inflates, lower bladder deflates

• Position 3: Compressor activated, lower bladder inflates, upper bladder deflates

• Position 4: Compressor is not activated. Upper and Lower bladders both deflate.

DIAGNOSIS

The seat lumbar support system is purely electro-pneumatic control system. No electronic
diagnostic communication is possible.

75

E46 Central Body Electronics

DUAL POWER/HEATED OUTSIDE MIRRORS

(Sedans produced prior to 9/99 or vehicles equipped with manual seats)

The E46 is equipped with Dual Power/Heated Outside Mirrors and Windshield Washer
Spray Nozzle Heaters as standard equipment. Control of the mirrors is carried out directly
by the mirror switch located in the driver's door handle. The switch also provides power to

the heating element in the driver's door mirror. Passenger door mirror heating element
power supply is provided directly. The mirrors are heated regardless of outside ambient
temperature. The heating element resistance produces a mirror temperature of
approximately 60°C.

The switch utilizes the familiar four way button and a changeover switch. The switch is
provided with operating power (KL 15) and ground.

Each mirror has two motors providing horizontal and vertical adjustment. Pushing the four
way button to an up/down or left/right position activates the corresponding motor.

WINDSHIELD WASHER NOZZLE JET HEATERS

The windshield washer nozzle jet heaters are provided power when the outside temperature
switch closes at 6°C +/- 4°C. The switch open when the temperature raises to 16°C +/-
4°C.

The outside temperature switch is located on the lower edge (passenger side) of the air
dam.

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CONSUMER CUT OFF

The interior lights are connected to the consumer cut off circuit. These consumers are
connected to KL 30 and can remain on if one of the control switches are left on. This would
prevent the ZKE from going into the sleep mode. However, the consumer cut off will switch
Kl 30, to the interior lighting, off after 16 minutes (sleep mode active).

To achieve "sleep mode" in the workshop:

• Switch the ignition off

• Close all doors, trunk and hood (mechanically close latches with doors open if necessary

• Central lock vehicle

• Wait 16 minutes

If one of the following signals from the chart below are activated before the vehicle is in
sleep mode, the 16 minute cycle starts again. After the 16 minute wait period, the vehicle
will be in "sleep mode". To bring the system out of sleep mode, the GM responds to a
status change of the signals from the chart below.

SIGNAL

ACTIVITY

ORIGINATING

MODULE

K-BUS

High

General Module

Door jamb sensors (possibility of 4)

Low

it

Trunk lid lock cylinder microswitch

High

it

Interior Trunk lid pushbutton microswitch

Low

it

Central locking button

Low

it

Hood microswitch

Low

it

Trunk Key Position switch (DWA)

Low

it

Interior light switch

Low

it

UIS sensor

Low

tt

Tilt Alarm sensor

Low

it

Driver’s door lock sensors-(lock/unlock)

Driver’s door

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E46 Central Body Electronics

BATTERY STATUS

The GM monitors KL R on a dedicated circuit. If the ignition is switched on and detected
via the KL R circuit but the GM does not receive KL R status via the K Bus, the GM monitors
the KL R voltage level. If after an additional 0.3 seconds there is no K Bus activity, the GM
initiates an emergency running program.

A substitute value for vehicle speed is used to allow the GM to operate certain functions.

The emergency running program will terminate if the GM detects a vehicle speed or KL R
status via the K bus.

DIAGNOSIS/TROUBLESHOOTING

The GM V contains an EEPROM fault memory. Diagnosis and troubleshooting is carried
out with the DIS or MoDiC. The diagnostic link is through the Instrument cluster over the
K bus to the GM.

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Review Questions

1. List the functions directly controlled by the GM V.

2. How does the GM V communicate with other control modules?

3. What effect does road speed have on the wiper system? What effect does it have on
an AIC equipped vehicle? Where does the road speed come from?_

4. How does the GM V recognize the key position from the drivers door? What is the best
way to check those signals?

5. What additional output does the GM V use for the E46 convertible central locking

system?_

6. Describe the procedure used by the GM V to recognize an FZV key. Can the GM

differentiate between different keys? How many can it recognize?_

7. Explain why the model year 2000 FZV key no longer has replaceable batteries, and
describe the charging process._

8. What “convenience” features are available from the FZV key?

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9. Describe what happens when the GM V receives the crash signal from the MRS.

10. Why does the SHD (sunroof) module require initialization but the windows do not?

11 .How does the GM Vsignal the tilt sensor, UIS sensor and siren that the alarm system
has been armed?

12. When does the convertible seat “Comfort Entry Aid” system lower the headrest. Why
does the seat base move faster with comfort entry than with the normal switch?

13. What type of sensor is used to detect the position of a seat with Memory? What type
of signal does it produce?_

14.How does the Seat Module communicate a request for a stored memory position with
the mirror modules?

15. Where is the outside temperature switch located and what is it used for?

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