Table of Contents

E46 CLIMATE CONTROL

Subject Page

E46 IHKA.4

Control Panel.4

Fresh Air Micro Filter..5

Temperature Regulation - Heating.6

Temperature Regulation - Cooling.7

Compressor Control.8

Stepper Motor M-Bus Control.9

Convertible Rear Window Defroster..10

IHKA Personalization.12

System Operation.13

Diagnosis and Troubleshooting.13

E46 IHKA I.PO.14

Solar Sensor. 15

Purpose of the System.16

Solar Radiation.17

Solar Sensor..17

Components.18

System Operation.20

Initial Print Date: 10/30/00 Revision Date: 12/05/00

Subject Page

Control Curves

Blower Intervention.21

Temperature Intervention.22

Ventilation Intervention.23

Diagnosis.24

Workshop Hints.25

E46 IHKR.26

Purpose of the System.27

System Components.28

IHKR I.P.0.29

IHKR Control Unit.30

IHKR Housing.30

Principle of operation.31

Blower adjustment.31

Air Distribution.31

Temperature Control.32

Engine Map Cooling.33

Service Station Feature.33

Air Conditioning Control.34

Air Intake.35

Ram Effect Air Compensation.35

Rear Window Defroster..36

Workshop Hints.37

Review Questions

39

E46 IHKA
Model: E46

Production Date: From 6/98

Objectives

After completing this module you should be able to:

• Know how to replace the Fresh Air Micro Filter.

• Describe the climate control functions performed by the IHKA control unit.

• Explain the compressor activation circuit.

• Recognize Car and Key Memory programming possibilities.

3

E46 Climate Control

E46 IHKA Climate Control

The IHKA heater/air conditioner in the E46 is similar to the system previously installed in the
E36. Design and component changes were made to improve the overall performance and
operation of the system. This module will deal with the changes and highlights of the E46
IHKA system. Features of the IHKA system include:

• Control Panel/Module

• Single heater core for temperature regulation

• M-Bus Control of all stepper motors

• Fresh air micro filter

• Regulated A/C compressor

• Regulated auxiliary fan operation

• Heater Control Personalization

CONTROL PANEL

All heating and air conditioning functions are carried out at the control panel. The panel is

constructed as follows:

• The three manual air distribution buttons are located on the left side of the panel for
upface vent and footwell distribution.

• The automatic air distribution button is located on the bottom of the panel along with
the temperature control - blower speed control and recirculation control buttons.

• The defrost, air conditions request and rear window defogger buttons are located on
the right side of the panel.

• The LCD matrix displays the requested temperature setting and blower speeds as on
the previous system. There is now only one setting for temperature control.

• The interior temperature sensor and blower fan are located on the left side of the LCD
matrix.

4

E46 Climate Control

FRESH AIR MICRO FILTER

The fresh air micro filter is installed in the fresh air inlet of the engine compartment. The fil¬
ter can be serviced quickly by removing the plastic cover and removing the filter.

5

E46 Climate Control

TEMPERATURE REGULATION-HEATING

The E46 uses one water valve/heater core as part of interior temperature regulation. The
water valve is pulsed to control the flow of coolant through the heater core as on other sys¬
tems.

Temperature regulation is based on the inputs from:

• Temperature control switch

• Interior temperature sensor

• Ambient temperature signal

• Heater core sensor

• Evaporator temperature signal

• "Y" factor

The rocker switch is used to select the desired cabin temperature which is displayed in the
matrix of the control panel. The range for temperature display is from 60 to 90 ° F.

\

WATER

MB

WATeq

VALVE

OUTLET

A

SERVICE STATION FEATURE - The "Service Station" feature introduced with the E38 IHKA
is integrated into the E46 IHKA. This prevents the heater core from being flooded with hot
coolant when refueling the vehicle.

6

E46 Climate Control

TEMPERATURE REGULATION - COOLING

Air conditioning control on the E46 is similar to the E39 IHKA system. The system uses the
variable displacement compressor. The swash plate of the compressor is hinged so that is
can vary the piston travel based on the output requirements of the system.

SWASH PLATE

CONTROL

VALVE

PRESSURE

SENSOR

AUX. FAN

7

E46 Climate Control

COMPRESSOR CONTROL

Control of the A/C compressor is a function of the Engine Control Module as in the E36.
However, the control has changed to include the regulated auxiliary fan operation.

Pressing the snowflake button is a request for A/C activation. As long as the evaporator
temperature is Above 36° F, the IHKA will signal the DME control module to activate the
compressor.

The IHKA control module sends the following signals to the DME over the K-Bus and CAN
Bus via the instrument cluster:

• Request for A/C activation (signal KO)

• Load torque for switching the compressor on

• Requested auxiliary fan speed

The IHKA determines the load torque for compressor activation and required auxiliary fan
speed from the pressure sensor mounted on the receiver/dryer.

The pressure sensor provides a linear voltage input signal (0 - 5 volts) to the IHKA control
module. The IHKA processes this signal and determines the load torque of the system (0
to 30 Nm with a variable displacement compressor). The higher the pressure in the system,
the higher the voltage input signal to the IHKA.

The output signal to the DME will enable the engine control module to modify the idle
speed, timing and fuel injection amount based on the load that will be imposed when the
compressor is activated.

The auxiliary fan is now a variable speed fan (15 stages) based on the system load. The
DME will activate the fan through a pulse modulated final stage control.

8

E46 Climate Control

STEPPER MOTOR M-BUS CONTROL

The E46 uses the M-Bus for stepper motor control. All five stepper motors of the IHKA
are bus controlled including:

• Two fresh air/recirc-air flap motors

• Face vent flap motor

• Footwell flap motor

• Defrost flap motor

Due to the requirement for a fast acting motor for the fresh/recirc flaps, two different step¬
per motors (slow/fast) are used in the system.

M-

-FACE VENT

9

E46 Climate Control

CONVERTIBLE REAR WINDOW DEFROSTER

Purpose of the System:

A two relay system was designed for the E46iC that supplies power to either rear window
defogger grid. The two relay system will also communicates with the audio system amplifi¬
er to change the dynamics of the sound for either top up/hard top installed or top down
driving

Components of the System:

Two relays, located on the right side rear quarter panel behind the interior trim cover, are
used for rear defroster operation.

• Relay K-13 receives KL 30 and the activa
tion signal from the IHKA control module.
The output from the relay will switch the
rear defroster ON if the hard top is installed.

• Relay K-99 receives KL 30 from relay K-13
and it supplies the rear defogger grid in the
soft top glass window when the top is
raised.

E46 Climate Control

System Operation

The rear defroster operation is a function of the IHKA system, with the control module
responsible for switching the system ON/OFF. Two rear defrosted grids are used, one
installed in the soft top rear glass and the other in the optional hard top rear glass.

When the button is pressed on the IHKA control panel, Relay K-13 is energized. If the hard
top is installed, power is supplied to the grid through the connector strip on the hard top
lock.

CVM

Top Closed and
locked to frame.
12V

Open and
unlocked.

OV

K-99

Rear window
defogger relay.

KL 31

Relay K-13 also supplies KL 30 to relay K-99 when the button is pressed on the IHKA con¬
trol panel. Relay K-99 is energized when KL R is switched ON and the soft top is closed
and locked to the windshield frame. This allows the grid in the soft top window to be heat¬
ed. When the soft top is lowered, KL R to relay K-99 is interrupted by the CVM to prevent
the grid from heating when the top is lowered into the storage compartment.

E46 Climate Control

IHKA PERSONALIZATION

The features of Car/Key Memory allow various functions/features of the IHKA control to be
tailored to the individual owner's/driver's wishes.

The functions of the IHKA that can be programmed to the owner's/driver's wishes include:

• Automatic activation of recirc when the vehicle is started

• Adjustment (raising/lowering) of the blower speed

• Automatic opening of the ventilation flaps with warm coolant

• Automatic closing of the footwell flap with A/C activation

• Automatic closing of the defroster flaps with A/C activation

• Correction of the set temperature (raise/lower)

• Automatic activation of the compressor control when the ignition is switched on

• Auto program for the blower control when the ignition is switched on

These features are programmed using the coding/programming function of the DIS/MoDiC.

MoDiC

Units Display Change

D-BUS

20 PIN

DIAGNOSTIC

CONNECTION

• Recirc
Air Memory

IHKA

E46 Climate Control

SYSTEM OPERATION

The balance of the E46 IHKA system's features and operation carry over from the E36
including:

• Maximum defrost operation

• Rear window defogger operation

• Final stage blower control

• Road speed dependent fresh air flap operation

• Air distribution control

• Stepper motor calibration run

• Cold start interlock

DIAGNOSIS AND TROUBLESHOOTING

The "self diagnostics" of the IHKA control module monitors the status of inputs and outputs
of the system. If a fault is detected, it is initially entered in RAM and than in the EEPROM
when the ignition is switched off. If available, a replacement value will be activated when
various sensor faults are detected as with previous systems. A maximum of six faults can
be stored in the EEPROM when the ignition is switched off.

The E46 IHKA is connected to the diagnostic link via the K -Bus/instrument cluster. The
system uses the E46 "Fault Symptom Troubleshooting " procedures for troubleshooting
problems and faults with the system.

When troubleshooting problems with the E46 IHKA, it is important to note that because the
Car/Key Memory feature can change the functionality of the system, a review of the set¬
ting should be performed prior to condemning a component as faulty.

E46 Climate Control

E46 IHKA I.P.O

As introduced.

KL 31

KL 30

KL 15

70 F

“O'

1 Tin 9

MAX DEFROST

A/C COMPRESSOR

RECIRCULATION

REAR DEFROST

DEFROST VENT

FACE VENT

FOOTWELL VENT

[ 1

AUTOMATIC PROGRAM

FAN SPEED
REQUEST

INTERIOR AIR TEMP

PHOTO TRANSISTOR

3 O

EVAPORATOR

TEMPERATURE

HEATER CORE TEMPERATURE SENSORS

PRESSURE SENSOR
o-

ENGINE SPEED
SIGNAL

\d-

K-BUS

E46 IHKA
CONTROL
PANEL/
MODULE

14

Coolant temp
Outside Air Temp
Vehicle speed

WATER

VALVE

- KL R

- Diagnosis

§

\

1

if

]i

+

BLOWER MOTOR
OUTPUT STAGE

M-BUS

FIVE STEPPER
MOTORS

- FACE VENT FLAP

- DEFROST

- FOOTWELL

- RECIRCULATION

- FRESH AIR

AC SYSTEM STATUS (SIGNAL BUS SIGNAL)

REAR

WINDOW

DEFOGER

RELAY

+

+

INTERIOR TEMP
SENSOR FAN

+

DIAGNOSIS AND CODING

E46 Climate Control

SOLAR SENSOR
Model: E38, E39, E46

Production Date: E38 3/99, E46 9/99, E39 9/00

Objectives

After completing this module you should be able to:

• Describe the operation of the solar sensor as it applies to the IHKA systems.

• List the output functions effected by the solar sensor input.

• Describe how the solar sensor affects the various output functions.

E46 Climate Control

Purpose of the System:

The purpose of the solar sensor is to compensate the climate control system’s output for
the radiant heating effect of the sun. This will aid the IHKA in maintaining a constant com¬
fort level, in the vehicle’s interior, during all driving conditions.

The function of heating and air conditioning systems in BMW vehicles is to provide the dri¬
ver and passengers a comfortable atmosphere regardless of conditions outside of the vehi¬
cle. Based on the temperature signal inputs, blower setting, flaps portioning, program set¬
tings in the control module and influencing variables, the IHKA control module is able to
process these inputs to achieve the desired comfort level.

The following input variables
processed by the IHKA module:

• Interior temperature

• Heat exchanger temperature

• Ventilation temperature (E38)

• Evaporator temperature

• Air volume setting

• Engine temperature and RPM

• Exterior temperature

are

The processed variable “Y-factor” is determined by using the above inputs. The Y-factor
then represents how much adjustment is necessary by the IHKA module to achieve the set
temperature.

E46 Climate Control

Solar Radiation

Solar radiation, from the sun, passes through the earths atmosphere in the form of light
(both visible and non-visible) and heat (sunshine). To date, the influence of solar radiation
on the climate control system in the vehicle has only been compensated for by an average
value stored in the control module and based on control settings and outside temperature
values.

Solar Sensor

The solar sensor can detect the amount of solar radiation that is influencing the tempera¬
ture and climate in the vehicles interior. The IHKA control module monitors the input from
the solar sensor and adds the value to its processing factors. The settings of the climate
control system are changed to compensate for this additional influence.

The settings of the following IHKA components are adjusted to compensate for changes
in solar radiation:

fA

)—

[ SOLAR

1 SENSOR

O

CO

CO

H

CO

\—

3

CO

3

CL

LU

CL

O

H

—

O

3

DC

o

□L

^-

7

BLOWER

FAN

y -

7

VENT

FLAPS

7

^-

7

MIXING

FLAPS

• Blower - The blower curve is changed

• Stratification (mixing flaps) - The stratification outlet air temperature is changed (not E46)

• Ventilation - The opening angles of the ventilation flaps are changed.

E46 Climate Control

Components:

In the E38, The solar sensor is integrated in the housing of the anti-theft warning system
LED. The warning indicator LED is installed on the outlet grille in the top center of the
instrument panel where solar radiation can directly reach the solar sensor.

The DWA LED with solar sensor is an additional wiring harness with a 4-pin plug connec¬
tor.

DWA LED with integrated solar sensor

DWA LED/SOLAR SENSOR MODULE 4-pin solar sensor plug connector

E46 Climate Control

The solar sensor consists of two photoresistors, which are integrated on the left and right
sides of the DWA housing next to the DWA LED. The photoresistors sense the different
intensity levels of the solar radiation.

DWA LED dismantled; housing and pc-board with LED and solar sensor housing

1 The photoresistor on the right is fitted under
the plastic cover

2 The photoresistor on the left is fitted under the
plastic cover

3 PC-board, DWA LED and solar sensor

4 DWA LED housing

The E46 solar sensor is located in the right
defroster outlet at the base of the windshield.
The E46 sensor contains one photoresistor for
sensing solar radiation.

E46 Climate Control

System Operation

The solar sensor receives power (5 volts) and ground from the IHKA control module. The
module then reads the voltage drop across the photoresistor and determines the degree of
solar heating based on the change in voltage. The voltage drop across the photoresistor
increases as solar radiation increases. The IHKA control module monitoring voltage will
decrease indicating an increase in solar heating. The module processes the input every 10
seconds and checks it for plausibility based on a limit value monitoring function.

Values outside the limit indicate a malfunction and the signal from the sensor is ignored by
the module.

As solar radiation levels increase, the control curves, stored in the IHKA module, for the
blower fan, mixing flaps and ventilation (face vent) flaps are shifted to compensate for the
additional heat.

The solar sensor inputs to the IHKA control module can influence the settings on the rele¬
vant side (driver/front passenger) on the E38 and E39. No separate regulation is possible
on the E46.

When driving at night, during cloudy periods or through tunnels, the control maps are shift¬
ed back to their base settings.

E46 Climate Control

CONTROL CURVES OPERATION

Blower Intervention

The graph below illustrates the solar influence on the blower fan with a constant Y factor
and the solar influence changing from 0 th 100%.

Blower power P in %

Blower stage
E38 E46

8

7

6

5

4

3

2

1

Blower power curves

The middle curve illustrates a blower curve without any solar influence. At a constant Y fac¬
tor of 20%, the solar influence on the IHKA control module will cause the blower curve to
shift as the radiation increases from 0 to 100%.

With a solar influence of 0%, curve “B” is used, providing 25% power to the blower.

As the solar influence increases, the curve shifts upward until the solar influence reaches
100%. At this point, curve “A” is used providing 36% power to the blower.

During heating, the blower power decreases as solar influence increases.

While cooling, the blower power will increase as solar influence increases.

E46 Climate Control

Stratification (Temperature Intervention) E38 only

The mixing flaps will open less in the direction of heat for blending air as the solar influence
increases. The graph below represents the influence of the solar sensor on the stratification
flap settings

Ventilation Temperature °F

Mixing Flap Position

100%
90
80
70
60
50
40

30

20

0

warm

To illustrate the influence of the solar sensor on the mixing flap position, the Y factor remains
constant at 20%.

With a solar influence of 0% curve “A” is adopted for the various outside temperatures. As
the outside temperature decreases, the mixing flap is moved toward the warmer setting
blending more heat.

With a solar influence of 100% curve “B” is adopted for the various outside temperatures.
As the outside temperature decreases, the mixing flap is still moved toward the warmer set¬
ting but it does not move as far. The solar influence is compensating to provide the same
comfort level.

With the mixing flap thumbwheel at 100 or 0% (full hot or cold), the flaps are in the default
position and there will be no solar influence.

The left and right mixing flaps are controlled independently based on the individual settings
and left and right solar sensor inputs.

E46 Climate Control

Ventilation Intervention (Center Vent Air Distribution)

The influence of the solar sensor on the ventilation flaps is shown in the graph below.

Ventilation flap in %

The normal curve “B” applies when there is no solar sensor influence 0%, or if the sensor
is defective.

The maximum curve “A” applies when the solar influence is 100%.

The ventilation flaps will close less as the solar influence increases. This allows more cool
air from the center vents as the solar radiation increases.

This adjustment is also independently adjustable on the E38 based on the left/right solar
sensor inputs.

E46 Climate Control

DIAGNOSIS

Troubleshooting of the solar sensor (left/right) is carried out through the IHKA diagnostic
program using the DIS or MoDiC.

Status displays for the solar sensor input are available in percentages. The status displays
can be checked while applying a light or heat source to the solar sensor to view the change
in value.

The E46 diagnostic program for the IHKA
system contains a test module B6450-
00011 for testing the operation of the solar
sensor.

M GI@pD@©0® T©©G Bmtamafc]

JEffafreEHj 1

IMjrT^ngmrmi c°iae(giTi^

A s part of climate control, the solar sensor taKes into confederation kernel
light and heal sources thal influence the climate in the vehicle interior. The
solar sensor consists of two photo resistors that measure 1 he varying intensity
of solar radiatton. At high levels of solar radiation, the selling of the air
conditioning system is correspondingly adapted to requirements

The following settings are varied:

Blower - The blower curve rs changed
Stratification - The stratification air temperature is changed
Ventilation flaps - Tne angles of the ventilation flaps are changed
The signal of the solar sensor is generated m tne solar sensor module The
senscr signal is output in a voltage range of 0.. ,5V. A vaJue outside (he limits
indicates a malfunction and tne Influence of the sensor is completely

Did (the value off the solar sensor vary when
changing the lighting conditions and is the
value plausible?

The IHKA control module monitors the solar sensor and will set a fault code for:

• Shorts to B+ or ground

• Open circuits

The IHKA control module will function as a system without solar influence correction if the
sensor is defective.

Recognition of the solar sensor and its influencing capabilities is enabled via ZCS coding.
Remember to adopt the code whenever possible to avoid loosing car/key memory function
changes. Also the IHKA control module must be disconnected from B+ before coding can
become permanent.

E46 Climate Control

Workshop Hints

E38 vehicles

To remove the solar sensor from an E38, refer to TIS - RM 6422161, removal of the center
outlet grille at the top of the dash. After removal of the grille, disconnect the plug connec¬
tor of the DWA indicator and solar sensor and pull the sensor from the grille.

E46 vehicles

Removal of the E46 solar sensor requires removal of the instrument panel. However, for
testing purposes, the connector is located in-line, attached to the harness for connector
X610.

25

E46 Climate Control

E46 IHKR

Model: E46 (325i/it/Ci/Cic, M3)

Production Date: From 9/00

Objectives

After completing this module you should be able to:

• Recognize the climate control functions performed by the IHKR system.

• Identify the changes compared to the E46 IHKA system.

• Understand the method of temperature control used by the IHKR.

• Describe how the A/C compressor is controlled.

E46 Climate Control

Purpose of the system

Beginning M.Y. 2001, the 325i/it/Ci/Cic and M3 are fitted with IHKR as standard
equipment. The IHKA system is available as an option on these models.

IHKR is a semi-automatically regulated heating
and air-conditioning system, similar to the
IHKR introduced for the 2001 E39 and E53.

The purpose of the system is to allow the
vehicle occupants to select the desired
temperature, air outlet distribution and volume
manually.

The system then automatically regulates the
temperature of the cabin based on the manual

settings.

The functions provided by the E46 IHKR are:

• Control of the blower.

• Air distribution control.

• Stratification flap controlled by a bowden cable

• Temperature Control

• Service Station feature

• Air conditioning request to DME

• Recirculation air

• Ram effect air compensation

• Rear window defroster

E46 Climate Control

System Components

The E46 IHKR consists of the following components:

• IHKR control unit with operating controls

• IHKR integrated heater and air conditioning case

• Heater core temperature sensor

• Evaporator temperature sensor

• Refrigerant circuit pressure sensor

• Double cage blower motor and final stage

• Water valve

• Air distribution micro-switch

• M-bus with 3 smart stepper motors:

- Air distribution

- Fresh air/re-circulation left (high speed motor)

- Fresh air/re-circulation right (high speed motor)

• Compressor relay (DME controlled)

• Auxiliary fan (DME controlled)

• Rear window defroster relay

• K-bus interface

The following signals are transmitted and received over the K-bus:

- Vehicle speed

- Engine speed

- Coolant temperature

- Outside temperature

- Terminal 15, 61,50,58G (panel lighting)

- Compressor load

- Diagnosis and coding

- Compressor request

• Fresh air Micro-filter

E46 Climate Control

E46 IHKR I.P.O

KL31

KL30

FAN SPEED

A/C REQUEST

RE-CIRCULATION

REAR DEFROST

TEMPERATURE

CONTROL

(<

AIR DISTRIBUTION
POTENTIOMETER

EVAPORATOR

TEMPERATURE

REFRIGERANT PRESSURE

Sh -►

o o

AIR DISTRIBUTION
MICRO-SWITCH

HEATER CORE
TEMPERATURE

LSZ

PANEL

ILLUMINATION 58G

E46

IHKR

BLOWER MOTOR OUTPUT STAGE

WATER VALVE

KL30

5 ^

M-BUS

- FRESH AIR/RECIRC LEFT

- FRESH AIR/RECIRC RIGHT

- AIR DISTRIBUTION

REAR WINDOW DEFROST RELAY
KL 15 KL 30

I I

COMPRESSOR CONTROL

KL30

u

p

,

/

KO REL

DME

KL30

T

M

AUXILIARY FAN CONTROL

K-BUS

E46 Climate Control

IHKR control unit with operating controls

The IHKR control unit is incorporated into the control panel. The control panel consists of
three buttons and three rotary dials. The control unit communicates over the K bus.

1. Blower control potentiometer

2. Recirculation button

3. Temperature control potentiometer

4. Air distribution potentiometer

5. Air conditioning request button

6. Rear window defroster button

X608 X610

3 pin M-bus 6 pin

IHKR Case

The E46 IHKR case is similar in design to the E46 IHKA heating and A/C case.

4.

5.

Evaporator
Double Cage

1. Heater Core Temp.

Sensor

2. Heater core

3. Evaporator Temp
Sensor

E46 Climate Control

Principle of operation

Blower adjustment

The blower rotary dial potentiometer has four settings. Each progressive step represents a
25% increase in blower volume. The control unit determines the desired blower setting by
the signal from the potentiometer and then sends a voltage signal to the final stage unit.
The voltage signal to the final stage unit ranges from 1,8V to a maximum of 7.1 V (Normal
blower power in Key Memory).

The final stage unit then regulates blower motor voltage to control the blower volume.
There is no automatic influence on the blower setting.

The blower control potentiometer is the master on/off switch for the IHKR system. The
water valve is closed (energized) in the blower zero (off) position. The LEDs for re-circulat¬
ed air and air conditioning are switched off and the compressor is switched off. The rear
defroster operation is not affected by the system being switched off.

Air distribution

The selection of air distribution is carried out using the rotary dial potentiometer (42 steps).
Each step of the potentiometer represents a percentage. The percentage indicates the
desired air distribution setting.

Movement of the stratification flap for face ven¬
tilation is carried out by rotating a thumb wheel
between the face vent discharge nozzles. The
thumb wheel is connected to a bowden cable
that moves the flap.

The air distribution for defrost, ventilation and
footwell is performed by a single air distribution
stepper motor that is connected to the M-bus
and controlled by the IHKR control unit.

E46 Climate Control

The stepper motor drives a cam/lever assembly (1) that articulates all three air distribution
flaps. The position of the cam is confirmed by the air distribution micro-switch (2).

The air distribution micro-switch is provided
5V by the IHKR control unit. The micro
switch is closed by the rotating cam lobe in
two positions:

• Full defrost 97% to 0%

• Mixed face vent/footwell 37%

(quick confirmation)

When the switch is closed the signal at the
control unit goes low, informing the control
unit that it has reached that particular
position. The display in diagnosis recog¬
nizes this position as “off”.

Located on the right side of the IHKR case

A reference run is initiated the first time KL30 is switched on to the IHKR control unit. The
reference run is required to determine the position of the cam disc. The cam disc is
rotated until the micro-switch sends a signal to the control unit. After the reference run is
completed, the control unit recognizes what position the cam disc is in and thus the
position of all three air distribution flaps.

If the air distribution micro-switch is not able to produce a signal at the correct position, the
control unit will continue to operate the stepper motor at an estimated position. Eventually
the air distribution setting will not match the actual output. The air distribution micro-switch
circuit is fault monitored.

Temperature control

The desired interior temperature is set with the rotary dial potentiometer (34 steps). The
face of the dial itself has no marked temperatures, just a blue, white and red line that rep¬
resents a comfort zone.

All of the air flowing into the IHKR housing must pass through the evaporator first before
being re-heated by the heater core. This is the principle used by all IHKR and IHKA sys¬
tems.

The IHKR maintains the temperature of the discharge air by cycling the water valve to reg¬
ulate the temperature of the heater core. The duty cycle applied to the water valve is based
on the “Y-factor” (correcting variable) and other variables.

E46 Climate Control

The Y-factor of the E46 IHKR is determined by:

• Setting of the temperature control dial

• Outside temperature (from Kombi via the K-bus)

• Heater core temperature

Automatic temperature control is switched off when the temperature control dial is turned
all the way to the left (blue: water valve closed) or right (red: water valve full open) stop.

Each step of the potentiometer represents a temperature from max. cold (10°C) to max.
warm (49.5°C). This temperature value is combined with the outside temperature to form
a calculated set-point. The E46 IHKR does not use an interior temperature sensor.

The Y-factor is then determined by comparing the calculated set-point to the actual value
of the heater core sensor which is in the stream of air to the outlet ducts.

In addition to the Y-factor, the control unit evaluates coolant temperature and engine RPM
to determine water valve opening time. The valve opening times are:

• 0 ms at max. COLD

• 3600 ms at max. WARM

Engine map cooling

Map cooling is used by the DME MS 43.0 for the M54 engines. This can create very high
coolant temperatures which could be damaging to the climate control system. If the heater
core temperature exceeds 80°C, the water valve is closed until the temperature drops
below 80°C.

If the temperature at the heater core increases above 93°C (i.e. water valve faulty), the IHKR
will signal the DME (via K-bus/Kombi/CAN) to energized the map cooling thermostat.

Service Station Feature

The service station feature prevents the vehicle occupants from getting a blast of hot air
after the vehicle is restarted following a short stop. The water valve is powered closed by
the IHKR control unit for three minutes after shut-off. This prevents the heater core from
being flooded with hot coolant.

E46 Climate Control

Air Conditioning control

The air conditioning system is switched on by pressing the snow flake button and having
the blower dial on position 1 or greater. The LED in the button signals that the A/C is in
stand-by.

The IHKR control module sends the following signals to the DME over the K-bus-Kombi-
CAN -bus connection:

• IHKR on stand-by (signal AC)

• Request for A/C activation (signal KO)

• Calculated compressor load

• Request for auxiliary fan

The IHKR determines the load torque for compressor activation and required auxiliary fan
speed from the pressure sensor mounted on the high side line next to the receiver dryer.

The refrigerant pressure sensor provides a voltage input signal (0-5 volts) to the IHKR. The
voltage value increases as pressure in the high side refrigerant circuit increases. The IHKR
processes this signal to determine the calculated load that will be placed on the engine
when the compressor is switched on. Pressure values that are too high or too low will
cause the compressor to be switched off.

Once all of the criteria for compressor operation have been met, the DME control module
will activate the compressor relay to energize the compressor magnetic clutch.

Control of the evaporator temperature is carried out by the IHKR signalling the DME to shut
off the compressor when the evaporator reaches the freezing point.

The IHKR cycles the compressor
at 1 °C if the outside temperature
kombi is above 68°F. The compressor
is cycled at 3°C if the outside
temperature is below 68°F.

IHKR

K-Bus: Signal AC/KO

) CAN-Bus

Iff* '

-■ ,J

Evaporator Temp

Refrigerant

Pressure

OUTPUT

STAGE

K19 relay

Auxiliary

Fan

©

Compressor

34

E46 Climate Control

Air Intake

The fresh air/re-circulation flaps are controlled
by a separate stepper motor for the left and
right side.

The stepper motors are controlled by the M-
bus and are located on the left and right sides
of the housing inside the passenger compart¬
ment.

The fresh air flaps are closed and the re-circ
doors are opened when the re-circ. button is
pressed with the system switched on.

When the key is turned off with re-circulation on, the fresh air flaps will open. Re-circula-
tion memory in the IHKR control unit is 15 minutes. If the vehicle is started within 15 min¬
utes the re-circulation setting will be restored.

If the system is shut off with the blower switch, the re-circulation function will have to be re¬
enabled.

Ram effect air compensation

Similar to IHKA, when the fresh air flaps are open their position is affected by vehicle road
speed. This is to prevent an increase in air volume to the cabin with increasing vehicle
speed.

The IHKR receives the vehicle speed input every 2 seconds over the K-bus from the Kombi.
At a speed of 36mph the fresh air flaps will close progressively until the vehicle reaches
96mph, at which time the opening of the flaps will be 20%.

100 %

60%

40 % -
30 % -
20 % -

0 36 62 96

ROAD SPEED (MPH)-—►

35

E46 Climate Control

Rear window defroster operation (All models)

The rear window defroster is controlled via a request from the button on the panel. After
switching on for the first time, the rear window is heated for 17 minutes. Output voltage to
the window is provided by the K13 rear defogger relay.

After automatic switch off, if the button is pressed once again the control unit will provide
another 17 minutes of operation. If the vehicle voltage drops below 11,4V during this sec¬
ond heating operation the function is stopped, however the LED on the button will not be
extinguished. If voltage increases past 12.2V for at least one second, operation will
resume. The control circuit of the convertible varies slightly due to the folding top.

Defroster operation specific to Convertibles

When the button is pressed on the IHKR control panel, relay K13 is energized. K13 sup¬
plies KL 30 to defroster relay K99. Relay K99 is energized when the KLR is switched on
and the soft top is closed and locked to the windshield frame. This completes the circuit
and allows the rear window to be heated.

If the soft top is lowered during defroster operation, voltage to relay K99 is interrupted by
the CVM to prevent the rear window grid from heating when the top is lowered into the stor¬
age compartment.

E46 Climate Control

Workshop Hints

Diagnosis

Diagnosis of the E46 IHKR system is carried out using the DISplus or MoDiC. The IHKR is
connected to the diagnostic bus via the K-bus/Kombi connection. The system uses the
E46 test module driven diagnostic concept for troubleshooting faults with the system.

Control Unit Functions:

Expert mode diagnosis available at
any time during troubleshooting. To
enter: press the Control Unit
Functions button at the lower right
corner of the screen.

The contents are:

• Identification

• Clear Fault Memory

• Read Fault Memory

• Component Activation

• Status Requests

Service Functions:

Provides access to special¬
ized test modules used as
post repair procedures. To
enter:

• Function selection

• Service Functions

• Body

• Heater- A/C control

Deactivate transport-lock
function

Test Modules: Faults with the E46 IHKR can be diagnosed using fault or symptom driven test
modules. To begin diagnosis:

• Perform the Short Test

• Select a vehicle symptom from the Symptom Selection page

• Select a test module from the Test Plan page

• Press the Test Schedule button

Test module are written in the E46 Diagnostic Concept.

E46 Climate Control

Coding

Coding must be performed if the IHKR control unit is replaced. ZCS coding is found in the
Coding and Programming selection from the start screen or when pressing the Change
button. Follow on-screen instructions to remove KL 30 power to the IHKR control unit.
This step is necessary to complete the coding process.

Car and Key Memory

When troubleshooting complaints with the E46 IHKR it is important to note that because
the Car/Key Memory feature can change the operation of the system, a review of the set¬
tings should be made prior to beginning troubleshooting.

Only Key Memory selections are possible for the E46 IHKR. The selections are:

• Set Blower Power (Raise, Normal, Lower)

• Correction Set Temperature (raise/lower)

• A/C on at key on (Automatic activation of the compressor control when the ignition is
switched on.)

E46 Climate Control

Review Questions

1. Where is the interior temperature sensor located in a vehicle equipped with IHKA? What
is this input used for?_

2. How does the IHKA control the auxiliary fan? What inputs are used by the IHKA to
determine the fan speed?_

4. A customer complains that every time he enters his car the AC compressor is switched
on automatically. What could be causing his complaint?_

5. Describe briefly how the influence of Solar radiation affects the IHKA settings.

6. How can a technicaian test for the correct operation of the Solar Sensor?

7. What is the purpose for the RPM input to the IHKA?

39

E46 Climate Control

Review Questions

8. What is the Voltage range of the control signal from the IHKR to the blower final stage?

9. Which components are responsible for the movement of the air distribution flaps? What
role does the air distribution micro-switch play? (IHKR system)_

10. How does the IHKR determine a Y-factor if the system does not use an interior
temperature sensor?_

11. How does the IHKR signal the DME when compressor activation is requested? Discuss
what information is exchanged._

12. What three stepper motors are located on the IHKR M-Bus? What is an M-Bus?

13. Which additional component is used in the rear defrost circuit of a convertible E46, as
compared to a hard top?_

40

E46 Climate Control