Table of Contents

AUTOMATIC TRANSMISSIONS

Subject Page

A5S 360R GM 5.3

Introduction .4

System and Components Overview

Components

Case and Pan .6

Torque Converter.6

Vane Pump .7

Electro/Hydraulic Valve Body .8

Accumulator Chambers .9

Multi plate Drive and Brake Clutches.10

Free Wheel Clutches .11

Planetary Gearset .12

Transmission Fluid Heat Exchanger.14

A5S 360R Power Flow .15

GS 20 Control System .16

GS 20 IPO.17

GS 20 Input Signals.16

GS 20 Output Control Signals.20

CAN Bus Communication.21

GS 20 Program Features Overview

AGS (Adaptive Transmission Control) .22

Non AGS Functions.22

Adaptive Hydraulic Pressure Control.25

Emergency Program .26

Service Information

Transmission Fluid .27

Checking Transmission Fluid.27

Service & Replacement Parts .28

Subject

Page

Diagnosis & Programming

Fault Codes.30

Programming.31

Basic Troublshooting.32

A5S 325Z 5HP 19 .33

Converter Clutch.37

Oil Pump.38

Clutches.39

Transmission Diagram.41

Planetary Gear Set.42

Oil Pan.43

Transmission Weight.43

Position of Selector lever and Steptronic Function.43

Modifications to Electro-hydraulic Control System.43

Solenoid Valve and Clutch Logic.45

Electronic Control Unit.46

Recording Turbine Speed.48

Programming.49

Modifications to the Adaptive Transmission Control.50

System Overview with Steptronic for E46.51

Service Information.52

Transmission Application Chart .53

Review Questions

54

A5S 360R GM 5
Model: E46 All Versions

Production Dates: 323i/Ci/Cic : 6/98 to 3/00, 323it: 1/00 to 3/01,

328i/Ci/Cic: 6/98 to 6/00, 330Xi: from 6/00,
325Xi: from 9/00

Objectives

After completing this module you should be able to:

• List the electronic solenoids used in the valve body of the transmission.

• Explain the purpose of the accumulator chambers.

• Describe the installed location and operation of the range selector switch.

• Identify the communication between the AGS and other modules in the vehicle.

• Describe the features of the AGS driving programs.

• Recognize the symptoms of a vehicle in the transmission emergency program.

• Know how to check and fill the transmission fluid.

• Understand the scope of repairs possible on the A5S 360R transmission.

INTRODUCTION

The E46 introduces a new 5 speed automatic transmission manufactured by General
Motors Powertrain division of Strasbourg, France. The transmission is designated:

• A5S 360R - BMW Designation

• 5 L40-E: GM Designation

The transmission will be available as an option in both the 323i and 328i models from start
of production. The A5S 360R will also be available in the 1999 528i (9/98 production).

SYSTEM OVERVIEW

The A5S 360R transmission offers the following features and benefits:

• The A5S 360R’s has a maximum torque rating of 360Nm.

• Designed and manufactured to provide maintenance free lifetime operation,

• Transmission fluid is designated as “sealed for life”.

• Gradual torque converter lock up providing a controlled degree of clutch slippage and
smooth transition to full lock.

• Torque converter variable lock up control can occur in 3rd, 4th and 5th gears.

• New GS 20 control system designed and manufactured via a joint effort with BMW,
Siemens and GM.

• AGS shift program logic controlled,

• Transmission diagnostics improved due to the new E46 diagnostic concept,

• Drivetrain management system communication via CAN

• Emergency Program (Safety Mode) activates if certain faults are present
4

Automatic Transmissions

OVERVIEW OF COMPONENTS

The A5S 360R is an assembly of the following:

• Four case housing design (Torque converter bell housing, pump cover plate, main and
extension cases)

• Single piece sump pan

• Replaceable oil filter unit

• Four element torque converter assembly with variably controlled lock up clutch.

• Vane type oil pump.

• Four multi-plate drive clutches with single sided friction plates

• Five multi-plate brake clutches with single sided friction plates,

• Four Free Wheel One Way Clutches (sprag type)

• One Planetary Gearset Assembly

• One Valve Body with solenoids for pressure regulation, shift control, torque converter
regulated lock up and reverse lock out (combined function).

5

Automatic Transmissions

COMPONENTS

Transmission Cases and Pan:

Made of aluminum alloy, the cases are light weight. The single piece oil pan is made of sin¬
gle wall sheet metal. It includes a drain plug on the bottom surface at the rear.

Mmn ChhFsi

=^3 —'■

&etl Hqus-Iimj

Pump Cauor wt Eitcnaion cnsc

The oil pan is mounted to the main case by 20 bolts. Oil pan sealing integrity is ensured
by a controlled compression gasket. Cross tightening is required to ensure an even seal.
Final torque of pan bolts is 10-12 Nm.

Torque Converter:

The 4 element torque converter consists of the Turbine, Rotor,
Stator with one way clutch and Lock up clutch. Similar in
function to previous torque converters, this unit’s lock up
clutch is:

• Fully disengaged

• Variable engagement providing precise slippage,

• Fully engaged (locked)

The various clutch application hydraulic pressures are regulat¬
ed by the control module activated torque converter lock up
solenoid.

The torque converter is manufactured specifically for the
model it is installed in and is part number specific.

6

Automatic Transmissions

Vane Pump:

The A5S 360R uses a vane pump to provide the transmission main line oil supply for opera¬
tion and cooling requirements. The pump rotor is mechanically driven by the torque convert¬
er oil pump drive tangs at 1:1 engine speed rotation providing pump operation.

The rotor with 13 vanes is located in a recess on
the rear surface of the bell housing covered by the
pump cover plate. The rotor and vanes are
placed inside a slide mechanism. As the rotor
spins, the vanes “sweep” the oil from the pump
intake to the output along the mating surface of
the vane ends and the interior surface of the slide.

The slide is mounted on a pivot pin. As it pivots, it
changes the eccentricity of the rotor to slide mating
surface changing the pump output volume.

The slide’s position is influenced by a calibrated
spring and hydraulic input pressure from the main
pressure regulator solenoid in the valve body.

The benefit of changing the slide position is to optimize pump output volume to meet the

needs of the operating conditions.

• Max volume during
engine startup. This
condition provides a
fast priming action
of the pump for
immediate lubrica¬
tion and hydraulic
pressure for opera¬
tion.

• Regulated output
volume for varied
driving conditions.

Maximum volume is
not required at all
times.

The GS 20 regulates the pump output volume as well as main line pressure regulation

7

ROTARY VAN E P U M P ° ECR F ^w ™ E

SLIDE ADJUSTMENT

THE FLOW PRESSURE

Automatic Transmissions

Electro/Hydraulic Valve Body:

Located in the oil sump, the valve body is the electro/hydraulic control center for regulating

and distributing pressurized transmission fluid for activating the various clutches, torque

converter variable lock up, and regulation of main line oil pressures.

Sub components of the valve body assembly include:

• Manual valve

• One main pressure regulator solenoid (Pressure Regulator Force Motor Solenoid - "GM
term")

• One torque converter regulator solenoid (also serves the Reverse Lock out function)

• Three MV shift solenoids (When activated in a coded sequence provide shifts for 1 -2,2-
3,3-4,4-5)

• The spool valves and springs for controlling apply pressures, activating shifts, regulat¬
ing torque converter lock up, etc.

• Four accumulator chambers for "cushioning" the transmission fluid apply pressure dur¬
ing upshifts 1-2, 2-3, 3-4, 4-5.

TORQUE CONVERTER MANUAL VALVE

8

Automatic Transmissions

Accumulator Chambers:

The accumulator chambers are similar in function to "fluid dampers". The accumulators are
used to improve shift quality by absorbing apply pressures on the multiplate clutches pro¬
viding a cushioned clutch engagement.

Clutch apply fluid pressure
directed to an accumulator
piston and helped by a
spring force opposes an p^ofpuMP^
accumulator fluid line pres¬
sure creating an action
similar to a shock
absorber.

The apply pressure pushes the clutch piston
against the steel/friction plates causing ini¬
tial engagement.

Once the clearance between the clutch plates is taken up by the piston travel and the
plates begin complete engagement the fluid pressure builds very rapidly.

The accumulator is connected to the clutch

apply circuit which at this

point starts to absorb the line pressure ^. r

.... .. .. FROM OIL PUMP

rapidly building pressure.

The accumulator piston
moves upward accommo¬
dating the high pressure
fluid causing a delayed
complete engagement.

9

Automatic Transmissions

Multi plate Drive and Brake Clutches:

Located in the main case are four drive
and five brake clutches. When cush¬
ioned hydraulic control pressure is
applied, the clutches engage smoothly
with a slight delay.

The valve body activates the various
drive and brake clutches in a coded
sequence to transmit engine drive
torque to the planetary gear set provid¬
ing the various output shaft ratios.

The clutches are multiplate units with
both steel and friction plates. The fric¬
tion plates are single sided.

CLUTCH HOUSING FRICTION DISC CLUTCH HUB

CLUTCH RELEASED

CLUTCH APPLIED

10

Automatic Transmissions

Free Wheel Clutches (Sprag Type)

Free wheel clutches spin freely in one
direction and lock in the opposite
direction.

They consist of an inner race, an
outer race and the sprag assembly.

The sprag assembly contains individ¬
ual, asymmetrically shaped wedges
(sprags).

• When the inner race is driven, the
sprags allow free wheel rotation.
There is no effect on the outer
race.

• When the outer race is driven, the
sprags wedge between the inner
and outer races causing them to
lock. The inner race is then driven
by the outer race.

Free wheel clutches are used to:

• hold components stationary,

• drive components when driven

• free wheel, allowing power to spin
the inner or outer race without an
output reaction.

(OUTER RACE)
SPRAG RACE ASSEMBLY

The A5S 360R utilizes four Free Wheel clutches to perform various shifting and component
holding functions during the delayed, cushioned multi plate clutch engagement preventing
an interruption in the power flow during upshifts.

The clutches are identified as FW1, FW2, FW3 and FW4.

11

Automatic Transmissions

Planetary Gearset (Ravigneaux)

Based on the Ravigneaux design, the A5S 360R planetary gearset is made up of two sec
tions; front & rear. It functions as a single integral assembly with a common planetary car
rier and a set of common long planetary gears. It consists of the following components:

• Two separate ring gears,

• Two separate input sun gears (one front, one rear)

• One set of three long planetary gears common to both sections (front-rear).

• One set of three short planetary gears (rear)

• One set of three short planetary gears (front)

• One common planetary carrier.

The gearset has three possible torque inputs:

1. Planetary carrier

2. Front input sun gear

3. Rear input sun gear

Three possible reaction components:

1. Planetary carrier

2. Front ring gear

3. Front input sun gear

and one torque output:

1. Rear ring gear.

Planetary Gearset “Input - Reaction - Output” Chart

Gear

Input

Reaction

Output

Ratio

First

Rear Input Sun Gear

Planetary Carrier

Rear Ring Gear

3.45:1

Second

Rear Input Sun Gear

Front Ring Gear

Rear Ring Gear

2.21:1

Third

Rear Input Sun Gear

Front Input Sun Gear

Rear Ring Gear

1.59:1

Fourth

Rear Input Sun Gear
& Planetary Carrier

None

Rear Ring Gear

1.00:1

Fifth

Planetary Carrier

Front Input Sun

Rear Ring Gear

0,76:1

12

Automatic Transmissions

FRONT VIEW

REAR VIEW

RING GEAR FRONT

REAR PLANETARY PINION-
(SHORT)

PLANETARY CARRIER

FRONT PLANETARY PINION
(SHORT)

PLANETARY PINION
(LONG)

INPUT SUN FRONT

INPUT SUN REAR

OUTPUT SHAFT GEAR

13

Automatic Transmissions

Transmission Fluid Heat Exchanger:

A transmission fluid heat exchanger is
located on the bottom edge of the radia¬
tor.

Transmission fluid inlet and outlet hose
fittings are located on the driver’s side of
the transmission.

The heat exchanger provides two func¬
tions:

• After initial start up, the transmission
fluid is warmed up by the engine
coolant as it passes through the heat
exchanger. The heat exchanger is
controlled by an integral thermostat
which regulates the transmission fluid
flow into the radiator exchanger. In
this state the heat exchanger acts as
a transmission oil heater.

• During operation at higher temperatures, the hot transmission fluid loses heat to the
engine coolant when it passes through the heat exchanger and into the core of the radi¬
ator.

14

Automatic Transmissions

A5S 360R POWER FLOW

The GS 20 module controls the hydraulic valve body through electrical activation of the var¬
ious solenoids. Electrical activation is based on a programmed operation map and trans¬
mission operating conditions (vehicle speed, engine load, throttle position, range selection,
AGS program logic, etc).

Engine torque is transferred by the various drive clutches when activated. The various
torque paths enter the planetary gearset as input. Simultaneously, the planetary gearset
is provided with reactionary input (held components) from the various brake clutches and
Free Wheel clutches.

The output result is five forward drive gears with progressive ratios and a single reverse
gear.

Range

Gear

Ratio

Cl

C2

Cl

CD

CIl

COD

tches

CC1

LBC

CC2

CR

Fr

1

ee V

2

Vhe

3

els

4

A

Sole

B

;noids

C

TCC

D/4/3/2

1

3.45:1

X

X

X

X

X

OFF

ON

ON

NO

2

2.21:1

X

X

X

X

X

X

ON

ON

ON

NO

D/4/3

3

1.59:1

X

X

X

X

X

X

X

ON

OFF

ON

Y/N

D/4

4

1.00:1

X

X

X

X

X

X

OFF

OFF

ON

Y/N

D

5

0.76:1

X

X

X

X

X

OFF

OFF

OFF

Y/N

P/N

/

/

OFF

ON

OFF

15

Automatic Transmissions

TRANSMISSION CONTROL SYSTEM (GS 20)

The A5S 360R automatic transmission is
controlled by the GS 20 control module.
The acronym (GS) comes from the German
word "Getriebesteurung ", meaning
Gearbox Control.

The design, program development and
manufacturing of the GS 20 control system
is the result of the combined efforts of
BMW, Siemens and GM.

The GS 20 control module is located in the
E box in the engine compartment. It utilizes
the 134 pin, "SKE" (standard shell con¬
struction), modular connector, enclosure.

BMW Part Number
Version Identification
Software Level
Production Date
Serial Number
Siemens Part Number
GM Part Number

IMW PRODUCTION LINE LABEL

Its blue connector color designates it a Transmission Control Module. The GS 20 utilizes 3
of the 5 modular connectors.

Automatic Transmissions

ENGINE CONTROL POWER KL 87

BRAKE LIGHT
SWITCH

BRAKE TEST
SWITCH

RT

DIAGNOSIS &
PROGRAMMING

DIS

MoDiC

RANGE

SELECTION

SWITCH

TRANS. r
INPUT
SPEED L

TRANS.
OIL TEMP.

TRANS. r
OUTPUT
SPEED L

0

SUPPLY

TCM
(GS 20)

BACK UP LIGHTS
CONTROL RELAY

TO BACK UP LIGHTS
& REVERSE SIGNAL
(PDC, NAV, Electro-
chromatic rearview mirror)

17

Automatic Transmissions

GS 20 INPUT SIGNALS

Power Supply and Grounds:

The GS 20 receives:

• KL 30 (constant battery power),

• KL 15 (terminal 15 of the ignition switch)

• KL 87 (operating power from the Engine Control Main Relay)

• KL 31 (ground connection for the control module electronics and peripheral component
operation)

The GS 20 monitors the power/ground inputs for shorts (B+ and B-), open circuits and bat¬
tery voltage levels (high and low).

Range Selector Switch:

The switch is mounted inside the transmission main case on the dri¬
ver’s side. This location provides precise monitoring of the Manual
valve position and is sheltered from the harsh environment under the
vehicle external of the main case. Adjustment is not required.

The range selector switch has 6 wires. The GS 20 provides the switch with 12 volts on one
wire (pin 2 of connector X70004).

Depending on the range selector posi¬
tion, the switch provides coded high
signals over five wires to the GS 20.
The addition of the fifth wire (pin 1) is
new compared with previous four wire
range selectors providing a redundant
P/N signal circuit.

X70004

Pin 1

Pin 14

Pin 15

Pin 16

Pin 17

Park

X

X

X

Reverse

X

X

Neutral

X

X

X

Drive

X

X

4

X

X

X

X

3

X

X

2

X

X

X = High Signal

Electronic Brake and Brake Test Switch:

The GS 20 monitors the brake pedal position to activate sport mode, down hill recognition
and for the shift lock operation. The control module receives both the brake and brake test
hall effect sensor signals. When pressed;

• the brake light switch pulls a standing voltage in the GS 20 low,

• the brake test switch provides a high signal to a circuit monitor in the GS 20.

18

Automatic Transmissions

Kick Down Switch:

When the throttle pedal is pressed fully to
the floor, the kick down switch closes pro¬
viding a ground signal to the GS 20.

The GS 20 recognizes the ground as a
request to provide an immediate down shift
and to switch to the AGS sport mode shift¬
ing program.

Transmission Fluid Temperature Sensor:

Located in the transmission oil sump, the NTC oil temperature sensor’s
ohmic value decreases as the temperature increases. The GS 20 monitors
the fluid temperature by sensing the voltage drop across the sensor caus¬
ing a standing monitor voltage to "bleed" to ground. Rise and fall of the
standing voltage value is a direct correlation of the fluid temperature.

Detection of high fluid temperature modifies the torque converter regulation control and
modifies the shift program to aid in reducing transmission fluid temperature.

If the signal becomes impaired, the GS 20 applies a substitute temperature value based on
Engine Temperature via CAN and stores a specific fault code.

Transmission Input and Output Speed Sensors:

The transmission speed sensors (turbine and output shaft) are analog induc¬
tive sensors that produce an AC sine wave similar to an ABS/ASC wheel
speed sensor. The AC signal frequency is proportional to the rotation speed
of the monitored components .

• The turbine speed sensor scans a pulse wheel attached to the forward clutch housing.

• The output shaft speed sensor scans a pulse wheel attached to the rear ring gear.

The GS 20 monitors these signals along with the engine speed signal (CAN) to calculate
transmission slip ratio for plausibility and for the adaptive pressure control function.

The sensors are monitored for plausible signals, opens and shorts. Specific fault codes are
stored for defects with these sensors.

19

Automatic Transmissions

GS 20 OUTPUT CONTROL SIGNALS

Valve Body Solenoid and Pressure Regulator Control

The GS 20 activates the 3 shift solenoids by individual switched
ground output control signals.

The Main Oil Pressure and Torque Converter Lock up regulators are
controlled by a Pulse Width Modulated (PWM) control to ground.

PWM control modulates the hydraulic control pressures based on the
current AGS shift program and maintains adaptive pressure control.

Shift Lock Solenoid Control:

The shift lock feature prevents the uninten¬
tional movement of the shifter from Park or
Neutral.

When KL 15 is switched on, the shift lock is
engaged, when the brake pedal is pressed,
the GS 20 releases the ground control cir¬
cuit of the shift lock solenoid unlocking the
shift gate. Additionally, above 2500 RPM,
the selector lever remains locked in Park
even if the brake pedal is applied.

P/N Signal:

As an output function, the GS 20 provides the EWS 3.3 with a switched high/low signal for
P/N status.

• p or N = high

• all other ranges = low.

The EWS 3.3 provides the P/N safety feature preventing the starter motor from operating
unless the shifter is in P/N (high signal).

Back Up Light Relay Control:

As an output function, the GS 20 provides a switched ground to activate the control circuit
of the back up light relay when the range selector is in R. The Back Up Light Relay pro¬
vides power directly to the back up lights. The lighting circuit is also used as a high signal
indicating Reverse status for PDC, NAV and the electro chromatic rearview mirror systems.

20

Automatic Transmissions

CAN BUS COMMUNICATION:

The E46 utilizes the now familiar “twisted pair” CAN bus wiring configuration for drivetrain
and instrument cluster communication interface. The MS 42.0 to GS 20 link is a dedi¬
cated CAN circuit. The MS 42.0 is the gateway for data exchange between the GS 20 and
Mark 20 El (traction control) and the Instrument cluster.

INSTRUMENT
CLUSTER

CAN bus data exchange for the GS 20
includes:

• Engine Speed (input),

• Engine Temperature (input),

• Accelerator pedal position and
application (input),

• Engine intervention signalling (input and
output)

• Shift delay for traction control and warm
up phase (input)

• Active shift program (output)

• Cruise control requirements (input)

• Turn recognition (input)

• Current Range and program selection (output)

• Torque Converter lock up signalling (output)

• Transmission fault indication lamp (output)

• etc..

MK 20 El

(combined hydraulic/
electronic control module
traction control system)

21

Automatic Transmissions

GS 20 Program Features Overview

AGS (ADAPTIVE TRANSMISSION CONTROL)

The GS 20 adaptive transmission control feature automatically selects suitable shifting pro¬
grams based on driving style, selected range, monitored signal activity and road/environ¬
mental conditions. Advantages to the AGS shift control include:

• Shift points adapted to the driving style

• Improved safety - no unwanted up shifting while in a tight curve,

• Automatic determination and selection of the winter program for better driveaway trac¬
tion and reduced shift activity.

• Improved comfort - Starting in second gear in stop and go traffic.

The AGS can be divided into two functional groups:

1. Driver influenced features

2. Features that react automatically to the driving style and environmental conditions.

DRIVER INFLUENCED FEATURES OF AGS

The adaptive drive program is based primarily on throttle input from the MS 42.0 control
module via the CAN bus. The calculated rate of pedal position change influences the selec¬
tion of the shift points.

Moderate movement
causes moderate
downshifts while a
quick application of
the throttle initiates a
downshift.

The GS 20 also
monitors braking
and kickdown
request.

THROTTLE

POSITION

SENSOR

-AMV-* +

A_

KICK DOWN
SWITCH

KICK DOWN EVALUATION

Economical driving: Shifter in D. Drive with slow application of throttle. This provides low
and comfortable shift points providing high fuel efficiency.

Quick accelerator pedal activity automatically leads the GS 20 into the intermediate power
mode. Based on this input data, the AGS automatically selects a sporty shift strategy.

Sport: Shifter in "D", shift points are higher to take advantage of the full engine perfor¬
mance. The sport program is also immediately activated by a kick down request or exces¬
sive braking.

22

Automatic Transmissions

The AGS driving programs are not adapted on a long term basis - nor is it stored
in the GS 20 control module memory when the ignition key is switched off.

The GS 20 continuously monitors the driving style and adapts to meet the current
driver requirements.

AGS FEATURES THAT REACT TO OPERATING CONDITIONS

Stop and Go Driving: This feature is activated by a defined sequence of shifts which are
as follows:

• Upshift from first to second - followed by a downshift from second to first - followed by
another upshift from first to second. This is then followed by the vehicle coming to a
complete stop.

After this sequence, the transmission will stay in second gear. The GS 20 AGS program
has recognized stop and go driving and this function prevents excessive shifting during
heavy traffic conditions. The second gear start is cancelled when:

• The throttle pedal movement exceeds limits (quick step on the pedal)

• The range selector is moved to P, N or R.

Curve Recognition: This feature is activated when the GS 20 detects a variation of front
wheel speeds via the CAN bus. The Mark 20 El control module broadcasts the wheel
speed sensor signals and their speed variations for any control module programmed to
monitor this condition. When curves are recognized, the GS 20 inhibits up shifting until the
front wheel speed signals equalize indicating the vehicle is driving straight ahead. This fea¬
ture enhances the vehicle handling characteristics when cornering at higher speeds.

Winter Drive Program: Wheel slip is calculated by the GS 20 based on wheel rotation
data provided by the traction control system via CAN bus. The GS 20 modifies shift char¬
acteristics to match winter mode for better traction. When active, the transmission will
start in second gear and the shift points are lowered. The purpose of this program is to
improve the drivability of the vehicle with slippery road conditions.

Cruise Control Program: When cruise control is activated, the MS 42.0 control module
communicates this status via the CAN bus. The GS 20 activates a program suitable for
active cruise control operation preventing pendulum locking/unlocking of the torque con¬
verter and minimizes up/down shifting. Additionally, the MS 42.0 can request a downshift if
the vehicle speed exceeds the set speed limit when coasting downhill.

Hill Recognition Program: The GS 20 activates this feature when it detects a high engine
load condition at lower road speeds. When the vehicle is traveling up hill the shift points
are raised to prevent repetitive up/down shifting.

23

Automatic Transmissions

NON AGS FUNCTIONS

The following features are part of the GS 20 automatic control system - but not AGS spe¬
cific control features.

Manually Selected Extra Sport Program: Longer delay shift pattern with higher engine
RPM. This program is similar to the AGS detected sport program but requires the driver to
move the range selector from D to 4th gear or lower.

This program automatically returns to AGS shift program selection when the shifter is
returned to the D position.

Engine Warm Up Cycle: Based on the detected engine coolant temperature (CAN), the
shift points are raised during cold engine operation. This is implemented to speed up the
warm up cycle of the catalytic converter.

Downshift protection: If the driver moves the range selector to a lower gear at higher
vehicle speeds, the GS 20 delays the down shift until the road speed drops below a pro¬
grammed value. This feature protects the powertrain from unnecessary loads ensuring long
life operation.

24

Automatic Transmissions

ADAPTIVE HYDRAULIC PRESSURE CONTROL:

The GS 20 monitors engine speed via the CAN bus along with the transmission input and
output speed signals simultaneously to determine the slip ratio and slip time during a shift.
Slip ratio and slip time are influenced by production related differences between transmis¬
sions and by aging.

The comparison of target & real slip allow the GS 20 to perform the adaptive pressure con¬
trol function by modifying the PWM control of the main pressure regulator solenoid increas¬
ing the clutch apply pressures to compensate for internal slip. The adaptive pressure con¬
trol function optimizes the shift quality and increases the life span of the clutch plates.

The adaptive pressure control feature is not an AGS function.

Clearing adaptation values with the DIS or
MoDiC only clears this pressure control
adaptation values. Clearing these values
can lead to bad shift quality until the shift
pressure is again optimized by the adapta¬
tion.

OUTPUT

SPEED

uuuxi m iui n

CAN BUS

- ENGINE SPEED (TD)

ADAPTATION VALUE
CONTINUALLY UPDATES
THE PULSE WIDTH
MODULATION
CONTROL OF THE
MAIN PRESSURE
REGULATOR

25

Automatic Transmisions

EMERGENCY PROGRAM (SAFETY MODE)

If a malfunction causes the GS 20 to activate the Emergency Program, the
transmission fault indicator and the Check Engine Light in the instrument cluster
both illuminate (CAN signal activation) and electronic control terminates.

The transmission shifts manually in the following sequence:

• For range selector lever positions D, 4, 3 or 2, Fifth gear is immediately activated (no
electrical control). P, R and N positions operate normally.

• Torque converter lock up clutch is not functional

• Reverse lock out is also not functional.

If the vehicle is stopped and restarted with this condition, the vehicle drives normally until
the condition that initially caused the Emergency Program activation is once again detect¬
ed.

If the initial problem was a power down of the GS 20 control module, the transmission will
shift manually in the following sequence:

• For range selector lever position D, 4, 3 or 2, Fourth gear is immediately selected. P, R
and N positions operate normally.

• Torque converter lock up clutch is not functional

• Reverse lock out is also not functional.

26

Automatic Transmissions

SERVICE INFORMATION

TRANSMISSION FLUID:

• Initial production transmissions are factory filled with DEXRON III.

• Later production transmissions will be factory filled with Texaco ETL-7045 lifetime oil.

When the transition occurs, the fluid type will be noted by a label change on the transmis¬
sion pan indicating the actual fluid type in the transmission.

Transmissions filled with Texaco 7045 Dexron III can be "topped off" with the Texaco ETL-
7045 oil if required after performing the oil level checking procedure with the DIS/MoDiC.

Fill Capacity: Approximately 7 liters (not including torque converter)

Approximately 8 liters (including torque converter)

CHECKING TRANSMISSION FLUID LEVEL:

The Drain and Fill plugs are located as
shown:

Checking the transmission fluid level
requires the fluid temperature be
between 30°C and 50°C.

• Connect the DIS or MoDiC to the 20 pin
diagnostic connector of the vehicle.

• From the diagnosis start screen identify
the vehicle and press the continue arrow.

• From the vehicle identification screen
press the continue arrow.

• From the Fault Symptom Selection Menu press the "Function Selection" button on the
bottom left of the screen.

• From the "Operations" column, select "Service Functions", then "Drive", then "Electronic
transmission control"

Then select "Oil Level Check" from the Components list on the right side of the screen
and press the "Test Schedule" button.

From the Test Schedule listing, select "Oil Level Check" and press the continue button.

Select 1. Oil Level Check by pressing the #1 button. Follow the instructions on screen
to carry out the oil level check procedure.

27

Automatic Transmissions

SERVICE AND REPLACEMENT PARTS

For a severely malfunctioning A5S 360R transmission, the service procedure is to exchange
it with a replacement core once an authorization has been obtained. However, there are
replacement parts available for Limited Service Repairs.

Transmission Identification:

As with all BMW transmissions, an identification plate is attached to the transmission hous¬
ing. The plate provides a two character alpha code signifying identification.

Refer to the alpha code when ordering a replacement transmission. This code must be
checked against the parts system verifying the code is correct for the specific vehicle and
for possible code/part number supersession.

The ID plate of the A5S 360R pro¬
vides the following data:

TWO CHARACTER
ALPHA CODE

GM PART NUMBER

SERIAL NUMBER

TRANSMISSION CONTROL

CALIBRATION CODE

Alpha codes for the E46 as introduced are
“SW” for the 328i and “SX” for the 323i.

28

Automatic Transmissions

Limited Service Repairs:

Minor electrical and mechanical repairs can be performed on the A5S 360R. The following
are included in the repair scope of the A5S 360R:

Service Parts: Oil Filter unit, Pan Gasket, Oil Filler and Drain plugs with seals.

Oil Leaks: Radial Seals and Gaskets

Mechanical Faults: Torque converter core replacement, Parking Pawl mechanism,

Hydraulic control faults - Valve Body Replacement

Electrical Faults - Shift Solenoids. Torque converter pressure regulator and Main Line oil
pressure regulator, Wiring harness (fluid temperature sensor), Range Selector Switch,
Turbine and output speed sensors.

Automatic Transmissions

DIAGNOSIS AND PROGRAMMING

The E46 diagnostic concept provides an minimization of Fault Symptom selections based
on areas of selection. Follow the test schedule provided by the DIS / MoDiC. The test
schedule is based on the selected fault symptom and stored fault codes.

FAULT CODES: The GS 20 monitors the A5S 360R and interfacing systems. When
faults are detected, the GS 20 stores the following fault codes

Fault Codes

Description

BMW Code

DTC

Hex code

61

None

3D

Transmission Fluid Over Temperature

96

PI 750

60

System Voltage Low

96

PI 751

60

System Voltage High

80

PI 749

50

TCM Memory RAM/ROM/Programming fault

81

PI 748

51

TCM NVM not Copied to RAM at Startup

60

P0705

3C

Position Switch Assembly
(Range Switch signal not plausible or faulted)

34

None

22

Fluid temperature Sensor Circuit Voltage Low/High

33

P0715

21

Transmission Input Speed Sensor Circuit

32

P0720

20

Transmission Output Speed Sensor circuit

150

P0727

96

CAN - Engine Speed Signal

50

P0731

32

Incorrect 1st Gear Ratio

52

P0732

34

Incorrect 2nd Gear Ratio

53

P0733

35

Incorrect 3rd Gear Ratio

54

P0734

36

Incorrect 4th Gear Ratio

55

P0735

37

Incorrect 5th Gear Ratio

48

P0740

30

Torque Converter Clutch System - Mechanical

0

None

1

Main Pressure Control solenoid circuit

129

PI 747

81

CAN Time out DME / TCM

131

None

83

CAN Time out Instrument Cluster

130

None

82

CAN Time out ASC

144

PI 747

90

CAN BUS ERROR Protocol

145

None

91

CAN Torque Reduction Signal

146

None

92

CAN Engine Torque Signal

19

None

13

Shift Lock Control Solenoid/Circuit

147

PI 765

93

CAN Throttle Position Signal

148

None

94

CAN Engine Coolant Temperature Signal

149

None

95

CAN Wheel Speed

151

None

97

CAN Brake Switch

113

None

71

Kickdown switch circuit malfunction

83

PI 746

53

Shift Lock Power Control Solenoid Circuit High

84

PI 746

54

TCC/Shift Solenoid Power Control Circuit High

16

P0753

10

Shift Solenoid ‘A’ Control Circuit Low/High Voltage

17

P0758

11

Shift Solenoid ‘B’ Control Circuit Low/High Voltage

4

P0743

4

Torque Converter Clutch PWM Solenoid Control
Circuit

18

P0763

12

Shift Solenoid ‘C’ Control Circuit Low/High Voltage

30

Automatic Transmissions

GS 20 PROGRAMMING:

The control module must be programmed to update resident program data in an existing
or after replacing a defective GS 20 control module. As with previous systems, the fault
memory must be cleared and the system fully functional.

Connect a battery charger to the vehicle prior to programming to ensure adequate voltage
supply during the programming procedure. When programming is completed, clear the
system adaptation values using the DIS or MoDiC.

Always make sure the programming software is the latest version.

31

BASIC TROUBLESHOOTING

• Always personally verify the customer complaint.

• Always verify that the complaint is truly a system malfunction.

• Perform a Quick Test to determine if the vehicle systems have logged fault codes.

• Call up the faulted system or appropriate test schedule to verify the correct control
module is installed in the car.

• Follow the Diagnostic Information System (DIS) on screen instructions and perform all
tests as specified.

• Use the DIS and fault symptom diagnostic procedures as trained.

• Follow the appropriate test module procedures for systems that malfunction but fail to
set faults in memory.

• To get a thorough understanding of automatic transmission issues, a GM or ZF
Technical Specialist must be contacted whenever a vehicle is brought into the workshop
with an automatic transmission related concern. Always have the printouts of fault
codes stored in the DME and EGS and the transmission serial number available when
calling.

• If there is no Service Information Bullitin published which addresses the specific
complaint, do not make any repairs to a 5 speed automatic transmission prior to
contacting a GM or ZF Technical Specialist. Contacts may be made by calling the
BMW Technical Plotline: 1-800 472-7222

32

Automatic Transmissions

A5S325Z 5HP 19 ZF TRANSMISSION
Model: E46 All Versions

Production Dates: 323i/Ci/Cic : 3/00 to 8/00, 323it: from4/01,

330i/Ci/Cic: from 6/00, 325i/Ci/Cic: from 9/00

Objectives

After completing this module you should be able to:

• Recognize the differences between the torque converters used in the 323i/325i and
the 330i.

• Understand the purpose of overlap shifts.

• Describe the method used to program the control unit.

• Know how to check and fill the transmission fluid.

Automatic Transmission

1.1 Automatic
Trans¬
mission
A5S325Z

The A5S325Z automatic transmission was jointly designed
by BMW and ZF for BMW six-cylinder models with a power
output of up to 150 kW/204 bhp. It has electronic-hydraulic
control and operation, as is usual for BMW. In addition, it is
fitted with an adaptive transmission control system of the
kind used, for instance, in the A5S440Z.

The new automatic transmission offers:

- Better shifts

- Enhanced dynamics

- Improved fuel economy

- Quieter operation

KT-2352

Fig. 1: A5S325Z Automatic Transmission

34

Automatic Transmissions

Fig. 2: A5S325Z Transmission

1

Torque converter housing

12

Clutch G

2

Turbine

13

Clutch F

3

Impeller

14

Output flange

4

Torque converter clutch

15

Output speed sensor

5

Transmission case

16

Single planetary gear set

6

Clutch C

17

Oil filler plug in side of oil pan

7

Clutch B

18

Oil pan

8

Clutch E

19

Turbine speed sensor

9

Clutch A

20

Oil filter

10

Planetary gear set

21

Drain plug

11

Clutch D

22

Shift unit

35

Automatic Transmissions

Technical Data:

Transmission automatic passenger-car transmission with five

type gears as standard.

Torque capacity max. torque

300 Nm at

max. output

150 kW/204 bhp at

Torque converter 2.8 It.

2.5 It.

2.0 It.

Transmission first gear
ratios

fourth gear

W254 with double CTC
W254 with single CTC
W254 with single CTC

3.67 second gear 2.00 third gear

1.00 fifth gear 0.74 reverse

Selector

positions

Control

Weight

On tow

P-R-N-D and Steptronic
electronic-hydraulic with adaptive control

transmission 61.7 kg

torque 10.4 kg

converter

oil 6.9 kg

total approx. 79.0 kg

200 km at 70 km/h

36

3500 rpm
6000 rpm

1.41

4.10

Automatic Transmissions

1.2 Converter
clutch

As in all automatic transmissions, power is transmitted via
the torque converter with converter clutch and via the drive
and brake clutches to the planetary gear and on to the
output flange.

The basic functions of the torque converter and the torque
converter clutch are described in the training manual "BMW
Automatic Transmission: Design and Function".

The features in which the torque converter and torque
converter clutch differ from the A5S310Z are as follows.

- The weight of the torque converter has been reduced and
the converter clutch has no torsion dampers, so the mass
moment of inertia has been optimised.

- No torsion damper in the torque converter clutch, further
optimising the mass moment of inertia.

- This transmission permits oil flow to continue when the
torque converter clutch closed. This reduces the oil
temperature in the torque converter.

The torque converter clutch linings have small ducts to
permit this flow of oil.

- The torque converter clutch is closed in third, fourth and
fifth gears. As in the A5S440Z, clutch closure is slip-
controlled.

Control is in the speed range from approximately
25 km/h to approximately 120 km/h, depending on the
load situation. The torque converter clutch is always
closed at speeds in excess of 120 km/h.

- The torque converter clutch for the 2.8 litre has two
linings (as in the A5S440Z). The version for 2.5 litre and
2.0 litre models has only one lining. This lining is on the
torque converter housing, not (as in the A5S310Z) on the
clutch.

Fig. 3: Torque converter clutch 2.5 litre (left) and 2.8 litre (right)

37

Automatic Transmissions

1.3 Oil pump The basic clutch functions are described in the training

manual "BMW Automatic Transmission: Design
and Function".

The delivery rate of the oil pump has been increased from
16 cm per revolution to 24 cm per revolution. This higher
delivery rate means that a controlled converter clutch can
be used.

The pump draws in oil via a filter and discharges the pres¬
surized oil via a flow control valve which returns excess oil
not needed at high engine speeds to the pump intake side.
The flow control valve directs the pressurized oil via the
main pressure valve in the hydraulic shift unit. This valve
regulates the oil pressure and returns excess oil to the
intake duct, releasing energy to increase pressure on the
intake side in the same way as the flow control valve. This
increase in pressure prevents cavitation and reduces noise.

1 Retaining ring 6

2 Shaft seal 7

3 Round seal 8

4 Pump housing 9

5 Pump ring gear

Needle bearing
Impeller
Centring pin
Corrugated washer

38

Automatic Transmissions

“1.4 Clutches The basic clutch functions are described in the training

manual "BMW Automatic Transmission: Design
and Function".

The ring-type multi-disc clutches A-B-E and F are drive
clutches which transmit engine power to the planetary gear
set. Clutches C-D and G are brake clutches which brace the
torque against the transmission case.

Shifts from first to second gear are assisted by a freewheel.
In these shifts, therefore, there is no clutch overlap.

Shifts from second to third, from third to fourth and from
fourth to fifth are overlap shifts. This means that one clutch
must continue to transmit drive at reduced main pressure
until the other clutch engages.

The transmission dispenses with brake bands, which has
led to improved shift quality.

39

Automatic Transmissions

Fig. 5: A5S325Z clutches

1 Clutch A

2 Clutch B

3 Clutch C

4 Clutch D with freewheel

5 Clutch E

6 Clutch F

7 Clutch G

Tolerance limits for the dished-spring forces were reduced
for all clutches, so fill-pressure tolerance is down. The gap
is now set by the snap ring so fill volume tolerances are
narrower. The increase in wear reserves boosts operational
dependability and transmission durability.

40

Automatic Transmissions

1.5 Transmission
diagram

D G

Closed shift elements:

Gear

(

A

Dlutch

B

C

D

Brc

E

ike

F

G

Freewheel

1

1

•

O

•

•

2

•

•

•

3

•

•

•

4

•

•

•

5

•

•

•

R

•

•

O = depending on operating status

Automatic Transmissions

1.6 Planetary The basic functions of the planetary gear set are described

. in the training manual "BMW Automatic Transmission:

gGar set Design and Function".

As in the A5S310Z, the A5S325Z transmission uses a
Ravigneau planetary gear set.

The bearings of the planetary gears have been improved in
this transmission (e.g. double bearings for short planet
gears and cage bearings for long planet gears). These
design modifications reduce gear noise and improve driving
characteristics.

Tail planetary gear set

The tail planetary gear set consists of a sun gear with its
four planet gears, a planet spider and a ring gear.

1

Fig. 7: Planetary gear set with tail planetary gear set

The planetary gear set consists of the following
components:

- Ring gear

- Small sun gear

- Large sun gear

- Planetary gears

The tail planetary gear set consists of the following
components.

- Ring gear

- Planetary gears

- Spider

- Sun gear

42

Automatic Transmissions

1.7 Oil pan AsintheA5S440Z,theA5S325Zhasaflatgasketfortheoil

pan. This modification maximizes the sealing properties.

In order to enhance accessibility for maintenance
personnel, the oil filler plug is in the side of the oil pan.

1.8 Transmission
weight

At approximately 79.0 kg, the A5S325Z is about 5 % lighter
than the A5S310Z. This increases fuel economy.

1.9

Position of
selector lever
and Steptro-
nic function

The position of the selector lever and the Steptronic
function are the same as in the A5S310Z.

1.10 Modifications
to electronic-
hydraulic
control
system

The basic functions of the electronic-hydraulic control
system are described in the training manual
"BMW Automatic Transmission: Design and Function".

Hydraulic shift unit

The A5S325Z has three solenoid valves and four electrical
pressure control valves to control the shift unit. Two of the
pressure control valves are for gear shifts. One controls the
modulation pressure and one operates the torque converter
clutch. Controlled converter clutch operation would not be
possible without a pressure control valve.

43

Automatic Transmissions

Key

1 Clutch valve with damper

2 Torque converter

3 Oil cooler

4 Lubrication

5 Electronic control unit

6 Pump

7 Position switch

Key to abbreviations

MV

Solenoid valve

EDS

Pressure switch

WS

Selector lever

D-EDS

Damper for pressure actuator

HV

Retaining valve

KV

Clutch valve

SV

Shift valve

ZS

Thrust/coasting valve

ZV

Thrust valve

MOD-V

Modulation valve

SCHM.-V

Lube-oil valve

RG-V

Valve for reverse lockout

DR-V

Pressure relief valve

HD-V

Main valve

WD-V

Torque converter pressure valve

WK-V

Torque converter clutch valve

NX

Breather

\/

/\

Restrictor

- f—

Baffle

- f -

Branch

44

Automatic Transmissions

1.11 Solenoid
valve and
clutch logic

A5S325Z

SOLENOID VALVE LOGIC

CLUTCH LOGIC

POS/

GEAR

MV

EDS

Clutch

Brake

Free¬

wheel

1

2

3

1

2

3

4

A

B

E

F

c

D

G

i g

R =

Reverse

★

-

-

★

-

★

-

-

★

-

-

-

★

★

-

N = Neutral

★

★

-

★

-

★

-

-

-

-

-

-

-

★

-

D, 1st gear

★

★

-

★

-

★

-

★

-

-

-

-

-

★

★

D, 2nd gear

★

★

-

★

★

★

-

★

-

-

-

★

-

★

-

D, 3rd gear

-

★

-

★

★

-

(*)

★

-

-

★

★

-

-

-

D, 4th gear

-

-

-

★

-

-

(*)

★

-

★

★

-

-

-

-

D, 5th gear

★

-

★

★

-

(*)

-

-

★

★

★

-

-

-

2, 1st gear

★

-

-

★

-

★

-

★

-

-

-

-

★

★

(*>

D, 5-4 drive

★

-

★

★

★

-

(*)

©

-

★

★

©

-

-

-

TC

-

-

-

-

-

-

★

45

Automatic Transmissions

1.12 Electronic
control unit

A new control unit is used for A5S325Z transmissions. This
control unit has also been fitted to A5S440Z transmissions
since model year '98. The new control unit has a modular
plug-in system with five chambers. Not all the plug modules
are used in the automatic transmission control unit. The
ground connections in module 1 are longer. This ensures
that these pins are the first to make contact when the plug
is pushed onto the control unit.

Ml M2

M 3

M 4 M 5

KT-1468

Fig. 9: Plug

Key

M 1

Module 1

M 4

Module 4, automatic transmission

M 2

Module 2

M 5

Module 5

M 3

Module 3, body

1

Pins used

2

Pins not used

These new high-end standard control units have shorter
access times on account of a new, more powerful 32-bit
processor with 256 k memory and a program run time of
approx. 10 ms. The old control units had an 8-bit processor
with 64 k memory and a run time of approx. 24 ms.

The new control units exclude the possibility of skip down¬
shifts, for example from fifth to third. Downshifts can only be
sequential through the gears.

The control units optimise shift quality. The transmission
reacts faster to load changes when, for example, the driver
allows the car to coast and then immediately presses the
accelerator pedal to the floor. Under these conditions, the
A5S310Z transmission shifted up a gear and then shifted
back down. The A5S325Z transmission cancels the upshift,
so the transmission remains in the original gear. Shift
transition control, too, has been improved, and clutch
draining and filling are better matched. These measures
have considerably enhanced levels of shift comfort.

46

Automatic Transmissions

Key

1 Gear signal

2 Turbine speed

3 Clutch opening under pressure

4 Clutch closing under pressure

5 Slip speed

6 Synchronization point

(D Controlled load transfer (CLT)

(2) Controlled load shift (CLS)

47

Automatic Transmissions

1.13 Registering
turbine speed

A Hall sensor (1) registers turbine speed (spider speed) in
the A5S325Z transmission. The magnetic pole wheel (3) at
cylinder A (4) rotates at turbine speed and generates a pulse
frequency. This pulse frequency is registered by the Hall
sensor through the non-magnetic bowl (2).

This innovation enables speed to be measured much more
accurately than was the case with the A5S310Z trans¬
mission.

Synchronisation, in turn, can be calculated to a much finer
degree of precision. Shift quality benefits accordingly.

Fig. 11: Registering turbine speed

Key

1 Hall sensor 4 Cylinder A, rotating at

turbine speed

2 Non-magnetic bowl 5 Turbine speed

3 Magnetic ring with 18 pole pairs 6 Bowl speed

uniformly spaced around the

circumference

48

Automatic Transmissions

1.14 Programming Flashcode programming is the same as that used for the

GS 8.55 control unit for the A5S440Z automatic trans¬
mission. The programming procedure is largely an adapta¬
tion of digital engine management programming with
features tailored to electronic transmission control. As in
digital engine management, flashcode control units can be
programmed 14 times.

Note: The adaptation values always have to be

deleted once the electronic transmission
control unit has been programmed. The control
unit has to re-adapt after the adaptation values
have been deleted. The control unit adapts
automatically when the car is on the road.

It is, however, advisable to perform a test run
covering upshifts and downshifts through all
the gears.

The CAN bus is interrupted during pro¬
gramming, with the result that a CAN error
is stored in the control units connected
(ABS/ASC, DME etc.). Programming should
always be followed by diagnosis to clear
the fault memories of all the control units
connected to the CAN bus.

49

Automatic Transmissions

1.15 Modifications
to adaptive
transmission
control

How adaptive transmission control for A5S325Z trans¬
missions differs from the implementation for A5S31OZ
transmissions.

The basic function of adaptive transmission control is
described in the training manual "Adaptive transmission
control unit".

Adaptive transmission control is the same as that imple¬
mented for the A5S440Z transmission. This transmission
therefore, has two adaptation modes for the A and S pro
grams.

A program

Basic shift characteristic XE and shift characteristic E
are selected in the A program.

It is not possible to switch to the S or XS shift
characteristics.

S program

Basic shift characteristic S and performance-oriented
shift characteristic XS are selected in the S program.

It is not possible to switch to the XE or E shift
characteristics.

50

Automatic Transmissions

1.16 System
overview
with Steptro-
nic for E46

*

— 1 EPI

431™

1 pi "TT

' m • W

1 _

■ H

r —-—

J

™ 1 ro

IB -

■if

K j A -■

*11

1 ['<

■m

"l

a

J2r“

*1C* '

j

a 07

— i 1

4 33™

: o

■133*

iQ! —

“nix

.

a

1 1

T

c

J QJ -

A 03®

J 33 “

1

_

a ii

jy

m 2 CO

"Jji ™

-

i M -

a ?i 1 ■. 1 1

4

® a i.i

■a m™

aiM™

•

3E

■ 17

H

■ ft

4 4G™

* rj

■ S.U D

■ aii

an™

_D

m

a J£

a i ft

Fig. 12: System overview with Steptronic for E46
Key

i

Ignition

11

Solenoid valves

2

DME master relay

12

Pressure regulator

3

Starter motor

13

Hall sensor

4

Electronic immobiliser

14

Inductive sensor

5

Shift lock

15

Temperature sensor

6

Selector lever and Steptronic

16

Selector lever switch

7

Auto down

17

Reversing light in E46

8

Manual gate

18

Instrument cluster

9

Auto up

19

ASC

10

Transmission control unit

20

DME

51

Automatic Transmissions

Service Information

The 5HP19 identification tag (1) is located on the left
rear of the transmission.

The filler plug (2) is located on the left-rear side
(driver-side) of the transmission.

52

Automatic T ransmissions

Transmission Application Chart

Trans.

Model

Vehicle

Engine

Model Year

4HP 24 E9

750il_ (E32)

M70

1988-94

850i, Ci

1990-94

A4S 31 OR

525i (E34)

M50,

1990-92

M50 TU

1993-95

325i,is,ic

M50

1992

M50 TU

1993-95

318i,is,ic (ti 95)

M42

1992-95

A4S 270R

328i,(is,ic, -97)

M52

1996-98

Z3 2.3/2.8

M52/TU

1997-2000

323is,ic

M52

1998-99

318i,(is,ic, -97),ti,

Z3 1.9

M44

1996-99

528i (E39)

M52/TU

1997-99

A5S 360R

323i/328i (E46)

M52TU

1999-2000

390R

325it (E46)

M54

9/00-3/01

325xi/it/330xi (E46)

M54

2001-

Z3 2.5/3.0

M54

2001-

528i (E39)

M52TU

9/99-9/00

525i/530i (E39)

M54

9/00-3/00

X5 3.0i (E53)

M54

2001-

A5S 31OZ

530i, it, (E34)

M60

1994-95

M3

S50 US

1995

M3

S52

1996-99

A5S 325Z

323i (E46)

M52TU

3/00-9/00

325i/330i (E46)

M54

6/00-

525i/530i (E39)

M54

3/01-

A5S 440Z

840Ci (E31),

M62

9/96-End prod.

540i (E39),

M62/TU

1997-

740i/iL (E38)

M62/TU

1/97-2001

X5 4.4i

M62TU

2000-

A5S 560Z

740i/iL (E32)

M60

1993-94

540i (E34)

1994-1995

840Ci

M60

1994-1995

740i/iL (E38)

1995-1996

750iL (E38)

M73/TU

1995-2001

840Ci (E31)

M62

1996-8/96

850Ci (E31)

M73

1995-End prod.

53

Automatic Transmissions

Review Questions

1. How does the vane pump of the A5S 360R transmission regulate fluid volume?

2. What type of signal is used to control the pressure regulator solenoid? What happens
to the fluid pressure if the control signal is switched off?

3. Describe how the transmission fluid heat exchanger operates.

4. How can the AGSATCM module be distinguished from the DME/ECM?

5. Why does the AGS module monitor the brake pedal switch?

6. If no repairs are performed to the transmission, why is clearing the adaptation values not
recommended?

7. What steps must be performed before determining a transmission needs to be
replaced?_

8. What is the difference between the torque converter lockup clutch between the two
engine displacements?_

54

Automatic Transmissions