Table of Contents

E70 Steering Column Switch Cluster

Subject Page

Introduction .3

System Overview .4

System Circuit Diagram .4

System Components.6

Sensor System.7

Steering Angle Sensor.7

Code Disc .7

Optical Sensor.7

LED and FiberOptics Unit.8

Line Camera .8

Steering Column Switches .8

Function .8

Steering Column Stalk.10

High Beam/Direction Indicator Switch.10

Cruise Control .10

Wiper Switch .10

Coil Spring Assembly.11

Locking.11

Steering Wheel Heating.11

Principles of Operation.13

Detecting Steering Angle and Speed .13

Relative Steering Angle (±180°) .13

Absolute Steering Angle.13

Steering Wheel Rotation Information .13

Detecting the Controls in the M ultifunction Steering Wheel .15

Detecting the Signals ofthe Steering Column Switches .15

Direction Indicator/High Beam Switch .15

Wiper Switch.15

Cruise Control Switch .15

Signal Flow.16

Initial Print Date: 10/06

Revision Date:

Steering Column Switch Cluster

Model: E70

Production: From Start of Production

After completion of this module you will be able to:

• Explain the technology used for the stalk levers

• Understand and identify the different components used in the SZL

2

E70 Steering Column Switch Cluster

Introduction

A steering column switch cluster SZL is used on the E70 that can detect the steering
angle and the settings of the steering column switches for wiper, direction indicator light
and cruise control by means of optical sensors.

In addition to the optical sensors, buttons based on switching-mat technology are used
for the buttons on the multifunction steering wheel and various buttons on the steering
column stalks. The voltage signals are read by the steering column switch cluster.

The information from the switches and steering angle sensor are in part processed in
the steering column switch cluster and transferred to other systems via the F-CAN. A
part of the information is forwarded directly to other control units.

Note: In terms of design and function, the steering column switch cluster
essentially corresponds to the steering column switch clusteron the
E 90. A new feature is the electronic steering wheel module that is
responsible for controlling the steering wheel heating.

3

E70 Steering Column Switch Cluster

System Overview

System Circuit Diagram

4

E70 Steering Column Switch Cluster

Legend for System Circuit Diagram

Index

Explanation

Index

Explanation

1

Horn switch

17

Footwell module FRM

2

Multifunction steering wheel

18

Control unit for steering column switch cluster

3

2-stage driver airbag

19

Instrument cluster KO M B1

4

Temperature sensor for steering wheel heating

BC

On-board computer

5

Electronic steering wheel module

F-CAN

Chassis CAN

6

Steering wheel heating

FL

High beam

7

Steering wheel

FRAL

Direction indicator light, left

8

Horn

FRAR

Direction indicator light, right

9

Horn relay

Kl. 30

Terminal 30

10

J unction box control unit

Kl. 30g

Terminal 30 switched

11

Coil spring assembly

Kl. 31

Terminal 31

12

Housing of steering column switch cluster

Kl. 58g

Terminal 58g

13

Advanced crash safety module ACSM

LWS

Steering angle sensor

14

Steering column switch, wipers

Power

Down

Command from the IHKA control unit to shut
down or reduce the electronic steering wheel

module

15

Steering column switch, cruise control

WUP

Wake-up line

16

Steering column switch, direction indicator lights

5

E70 Steering Column Switch Cluster

System Components

The steering column switch cluster SZL consists of the following components:

• Electronic steering column switch cluster module

• Steering angle sensor

• Steering column switch, cruise control

• Steering column switch, direction indicator stalk

• Steering column switch, wipers

• Coil spring assembly

The steering column switch cluster SZL can only be replaced as a complete unit. The
coil spring assembly is fitted on the steering column switch cluster. The coil spring
assembly can be removed and individually replaced.

Index

Explanation

1

Steering column switch, direction indicator stalk

2

Steering column switch, cruise control

3

Code disc

4

Steering column switch cluster with optical sensor

5

Steering column wiper stalk with buttons for rain/driving lights/solar sensor

The electronic steering column switch cluster module contains a processor, the power
supply and following interfaces:

• F-CAN

• Optical switches

• Electrical switches

The optical sensorfor measuring the steering angle is integrated in the pc-board of the
control unit.

6

E70 Steering Column Switch Cluster

Sensor System

Steering Angle Sensor

The steering angle sensor is designed as a contactless,
optical angle measuring system.

The system consists of a code disc and an optical
sensor.The code disc is connected via a drive element
directly to the steering wheel.

The code disc turns within the optical sensor when the
steering wheel is moved.

Code Disc

The code disc is died black and features a line pattern. This pattern consists of two con¬
tinuous lines on the outside and inside ofthe code disc.

Broken lines are located between the two continuous lines at a defined spacing with
respect to each other. These lines represent the digital area ofthe sensor. The digital
code changes every 2°.

The obliquely arranged lines in the outer area represent the analog area ofthe sensor.

These lines permit exact measurement (0.1°) ofthe steering angle.

The steering angle sensor detects the steering angle setting ofthe steering wheel and is
evaluated in the SZL.The information is mainly required by the DSC control unit.

Optical Sensor

The optical sensor is designed as follows.

Index

Explanation

1

Fiber Optics Unit

2

Code Disc

3

Steering Column

4

Line Camera

5

Output: Conversion to Electrical Signals

6

PC-Board

7

LED

7

E70 Steering Column Switch Cluster

LED and FiberOptics Unit

The task of the LED in connection with the fiber optics unit is to project light from the top
onto the code disc. The LED is soldered directly to the pc-board ofthe SZL.The fiber
optics unit is secured to the pc-board by means of two screws. Together, the LED with
the fiber optics unit and line camera make up the optical sensor.

Line Camera

The line camera is located underthe code disc.The line camera converts optical signals
that penetrate through the code disc into electrical signals.

Index

Explanation

1

Line Camera

2

FiberOptics Unit

Steering Column Switches

The positions of all steering column stalks are determined optically. The steering column
stalks are mounted such that they can be swivelled and run in a curved path at the lower
end ofthe stalk to define the switching characteristics in the respective positions. The
advantage of optical acquisition ofthe stalk position is that it is possible to precisely
determine the pressure point. The spring force ofthe microswitch need not be taken into
account when defining the stalk force required for switching.

Function

Depending on the type of steering column stalk, there are three orfour LEDs on the out¬
side and one optical receiver (light dependent resistor LDR) on the inside ofthe steering
column housing ofthe steering column stalk. A shutter is provided on the steering col¬
umn stalk which, when in rest position, is located between the center LED and the LDR.
As a result, the shutter blanks out the light ofthe center LED when in rest position.

As soon as the steering column stalk is moved, the shutter moves up or down. One of
the outer LEDs is now covered. The LEDs are never activated together but always
clocked one afterthe other. In this way, the electronic SZL module can detect which LED
is currently blanked out. The function can be monitored by measuring the current at the
LED.

The buttons and thumbwheels in the steering column switches are realized by means of
buttons based on switching mat technology. The resulting voltage signals are either rout¬
ed to the SZL and distributed to the corresponding control units (wiper switch - junction
box control unit) or forwarded directly to other control units.

8

E70 Steering Column Switch Cluster

The functional principle of the optical sensors of the steering column switches is repre¬
sented in simplified form in the graphics below. As the result of vertical movement, the
upper diode is blanked out then followed by the center diode. In actual fact, both the hori¬
zontal as well as the vertical stalk movement is detected.

Steering Column Stalk in Rest Position

Index

Explanation

Index

Explanation

1

Steering column stalk

5-7

LED

2

Pivot point of steering column stalk

8

Cover

3

Retaining fixture

9

Light-dependent resistor (LDR)

4

Conductor

Steering Column Stalk in Operated Position

9

E70 Steering Column Switch Cluster

Steering Column Stalk

High Beam/Direction Indicator Switch

The steering column stalk features the buttons for the on-board computer and the rocker
switch for scrolling through the menus of the on-board computer.

Index

Explanation

1

On-Board Computer Button

2

Rocker Switch

Cruise Control

The steering column stalk contains the button for the cruise control. The set speed value
can be changed by pushing the stalk forward or pulling it back.

Index

Explanation

1

Rocker Switch

2

Button fro RLSS

Wiper Switch

The steering column stalk contains the button for switching the automatic wipe function
ON/OFF with the rain/driving lights/solar sensor.

The sensitivity of the rain/driving lights/solar sensor or the automatic interval can be set
with the rocker switch.

Index

Explanation

1

Cruise Control Button

10

E70 Steering Column Switch Cluster

Coil Spring Assembly

The coil spring assembly can be replaced only as a complete unit. The task of the coil
spring is to transmit the following electrical signals from and to the multifunction steering
wheel:

• Activation of driver airbag

• Control buttons SMG (being prepared)

• Multifunction buttons

• Horn

• Steering wheel heating

Locking

To avoid damaging the coil spring assembly, it must be set to the correct position when
dismantling the steering wheel and coil spring assembly.

The front wheels and steering wheel must be set to the straight-ahead position as the
prerequisite for disassembly.

During disassembly of the steering wheel, the load on the lock pin of the coil spring
assembly is relieved and the pin can lock in the straight ahead position.

When the steering wheel is reinstalled, this arrangement ensures that the coil spring is
not damaged when the steering wheel is turned to full left and right lock.

Steering Wheel Heating

The steering wheel heating is controlled by the electronic steering wheel module. The
electronic steering wheel module is accommodated in the steering wheel.

Index

Explanation

1

Steering Wheel Heating Button

2

Electronic Steering Wheel Button

11

E70 Steering Column Switch Cluster

The steering wheel heating is activated by means of a switch on the steering wheel. The
switch is connected directly to the electronic steering wheel module. The power is sup¬
plied via two dedicated connections.

To prevent overloading the electrical system, the function can be deactivated by the IHKA
by means of a power-down connection.

Standard Steering Wheel Sport Steering Wheel

Index

Explanation

1

Steering Wheel Heating Indicator Light

2

Steering Wheel Heating Button

12

E70 Steering Column Switch Cluster

Principles of Operation

The functions of the steering column switch cluster are:

• Detecting switching signals in the steering column switches

• Detecting steering angle and steering speed

• Detecting the controls in the multifunction steering wheel

• Sending and receiving information to/from the interlinked control units

Detecting Steering Angle and Speed

The steering column switch cluster must detect the steering angle and steering speed
information as the basis for calculating various functions in the DSC.

Further information such as the absolute steering angle or the steering wheel rotation
information is calculated. A steering angle of - 1807+180° is detected.

An LED and fiber optics unit illuminate the code disc from above. Due to the pattern on
the code disc, the light from above reaches the bottom only in certain areas where the
light beams hit the line camera.

The line camera converts the line signals into electrical signals and transfers them to the
steering column switch cluster.

Relative Steering Angle (±180°)

The relative steering angle indicates the angle position of the steering wheel. The infor¬
mation relating to the relative steering angle is always retained even when power to the
control unit is disconnected. Renewed zero point adjustment is necessary only afterthe
steering column switch cluster has been replaced. This requirement also applies when
replacing the DSC or performing repairs on the steering/steering column systems.

Absolute Steering Angle

The absolute steering angle is a calculation based on the relative steering angle and
steering wheel rotation information.The absolute and relative steering angles are
defined during zero point adjustment of the steering column switch cluster. The SZL
detects each position of the steering wheel over the entire steering lock range.

The precondition for the zero point adjustment is that the wheels and steering wheel are
set in the straight-ahead position.

Steering Wheel Rotation Information

The steering wheel rotation information indicates the turn position of the steering wheel.

The steering wheel rotation information is determined automatically by a virtual calcula¬
tion model.

If lost, e.g. if power to the SZL is disconnected, this information must be taught-in again.

13

E70 Steering Column Switch Cluster

Section of Code Disc

The code disc rotates dependent on the
steering wheel angle setting.The pattern on
the code disc changes in steps of 2°. A resolution
of 0.1° can be achieved forthe steering angle sen¬
sor by evaluating the linear track.

The pattern on the code disc changes as the
disc continues to turn.The light passes through
the code disc into other areas.

Optical Sensor

The light beams hit the line camera. The light pulses
are converted to electrical pulses in the line sensor.

The position of the light beams is displaced. The line
camera detects the light beams in other areas and
transfers the information to the SZL.

The steering column switch cluster uses data from the speed sensors of the front wheels
forthe calculation. The SZL assumes the vehicle is driving straightahead at constant
speeds and therefore detects its zero position. The minimum speed necessary for this
purpose is 20 km/h.This process need not be initialized via the BMW diagnosis system.
The SZL automatically determines the steering wheel rotation information as soon as the
vehicle exceeds the minimum speed.

Problems may occur in calculating the steering wheel rotation information under unfavor¬
able road conditions (icy road surfaces). The DSC sends a corresponding check control
message in this case.

14

E70 Steering Column Switch Cluster

Detecting the Controls in the Multifunction Steering Wheel

The voltage signals of the buttons on the multifunction steering wheel are routed via the
coil spring to the steering column switch cluster. The SZL evaluates the voltage signals
and sends the information to the corresponding control units.

The connections of the Steptronic switches, horn and of the driver airbag are wired
directly via the coil spring to the corresponding control units. This information is therefore
not evaluated in the SZL.

Detecting the Signals of the Steering Column Switches

Optical switches are used in connection with the steering column stalks on the E70.
Optical sensors detect the stalk position and make this information available to the steer¬
ing column switch cluster. Buttons based on switching mat technology are located in the
heads of the steering column switches. They transfer voltage signals corresponding to
the switch position to the steering column switch cluster SZL.

Note: The operating procedure and the resulting functions are described in the
Owner's Handbook.

Direction Indicator/High Beam Switch

The signals of the direction indicator and high beam switch are monitored by the SZL
and transferred via three voltage-coded lines to the footwell module. Only information
relating to the switch positions is transmitted.

The signals of the on-board computer button and the rocker switch are transferred via a
line from the SZL to the instrument cluster.

The functions in the respective switch positions are defined in the control units.

Wiper Switch

The signals of the wiper switch are calculated directly in the steering column switch clus¬
ter and transferred via the F-CAN to the DSC and to the junction box.

Cruise Control Switch

The signals from the cruise control switch are routed via the F-CAN to the DSC and fur-
thervia the PT-CAN to the DM E/DDE. The functions are calculated in the engine man¬
agement.

The signals for the dynamic cruise control DCC or active cruise control ACC systems are
made available to the longitudinal dynamics management LDM. Data are sent via the F-
CAN to the DSC. From the DSC, the data are placed on the PT-CAN making them avail¬
able to the longitudinal dynamics management.

15

E70 Steering Column Switch Cluster

Signal Flow

The acquired and calculated data of the steering column switch cluster are mainly trans¬
ferred via the F-CAN to the corresponding control units.

The information fordiagnosis is therefore also transferred via the F-CAN to the DSC.The
DSC establishes the communication interface with the BMW diagnosis system.

The steering column switch cluster cannot be addressed directly via the BMW diagnosis
system.

The DSC must be encoded after replacing the steering column switch cluster. The DSC
transfers the coding to the steering column switch cluster.

16

E70 Steering Column Switch Cluster