TABLE OF CONTENTS Subject Page IHAKA E36 Control Panel/Module.3 Housing Assembly.7 Temperature Sensing.9 IHKAE36IPO.10 Temperature Regulation.11 Temperature Mixing .12 Air Intake.13 Air Distribution.14 Blower Control .15 Compressor Control .16 Auxiliary Fan Control .17 Special Functions .18 Control Panel/Module Coding.20 IHKA E36 COMPARED TO IHKA E38 Beginning with the 1996 model year, a new IHKA system is installed on all E36 vehicles except the 318ti and Z3. Referred to as IHKA E36, it replaces the IHKR system previous¬ ly used on these vehicles. In comparison to previous IHKA systems, IHKA E36 is most similar to IHKA E38. IHKA E36, however, does not have many of the features found on IHKA E38. SIMILARITIES TO E38 IHKA • Combined control panel/module • Rocker switches for left/right desired temperature selection. • Digital LCD display of left/right desired temperatures. • Separate buttons to select windshield, face, or footwell air distribution. • “Auto” button that turns air distribution control over to the control panel/module. • “Smart” stepper motors operate all flaps except the fresh air flaps. • Fault codes stored in non-volatile memory (EEPROM). DIFFERENCES FROM E38 IHKA • There is only one desired blower speed input. • Eight distinct blower speeds are available. • Blower speed is shown on the digital LCD display. • No face vent air temperature sensors. • No auxiliary coolant pump. • Dedicated IHKA system ambient temperature sensor. • Engine control module controls the A/C compressor. • One set of air distribution buttons for both left and right sides. • No windshield or washer spray jet heaters. • Sensor values and other input status data can be displayed on the control panel/module. • No “Rest” function. • No console outlet rear flap. 2 IHKA E36 CONTROL PANEL/MODULE The E36 control panel and control module is integrated into one unit. IHKA E36 control panel/module features are listed below. NOTE: When the IHKA E36 system is “Off,” pressing any button on the control panel/mod¬ ule turns it on again. Air Distribution Buttons: The E36 control panel/module air distributions are the same as E38, except there is only one set of buttons, which control air distribution on both sides. If the “up arrow” button is pressed, air flows from the windshield defroster outlets. Pressing the “right arrow” button causes air to flow from the face vent outlets. When the “down arrow” is pressed, air flows from the footwell outlets (front and rear). AUTO 1 If the “AUTO” button is pressed, the control module automatically selects the appropriate flap positions for the sensed conditions. When cooling is required, air flows from the face vents. When heating is required, air flows from the footwells and the windshield defroster outlets. 3 LCD Display: The E36 control panel/module has a backlit LCD display where left and right desired temperatures and blower speed are shown. Display brightness varies according to ambient light levels when the headlamps and parking lamps are “off.” With the lamps “on,” brightness depends on dimming rheostat thumbwheel position. \ c J ( / \ ( ) ~r zC c z \ / c ) - ( 1 3 Interior Temperature Sensor: As on all previous IHKA systems, an interior temperature sensor is located inside the control panel/module, also as on previous systems, the sensor has its own electric fan to ensure adequate air flow over the sensor. Photocell: The photocell, located just below the interior temperature sensor grille, monitors ambient light levels to influence LCD display brightness (as on E38s). Temperature Selection Rocker Switches: The tempera¬ ture selection rocker switches (left and right), function the same as those on E38 vehicles. Blower Rocker Switch: Blower speed is selected using a rocker switch. Speed is increased by pressing the “+” end of the switch and decreased by pressing the ” end. When the system is at the lowest blower speed (speed “1”), pressing the end turns the system “Off.” Maximum Defrosting Button: This button functions the same as the one on E38, except that the mixing flaps are not affected (they are cable operated). When pressed: • the fresh air flaps are opened and • the recirc. flaps are closed and • the windshield defrost flaps are opened and • all other distribution flaps are closed and • the blower runs at maximum speed and • the rear window defroster switches on. 4 The A/C compressor does not turn on automatically, but will run if the “snowflake” button is pressed. A/C Compressor “snowflake” Button: Pressing the “snowflake” button causes the control panel/module to signal the engine control module (ECM) that A/C com¬ pressor operation is desired. The ECM then energizes a relay to run the compressor. Recirculating Air Button: This button controls air intake location as on previously covered IHKA systems. On IHKA E36, though, recirculating air mode has no time limit. Once activated, it continues until the button is pressed again. Rear Window Defroster Button: Pressing the rear win¬ dow defroster button activates the rear window heating for about 17 minutes. Viewed from the bottom, the IHKA E36 control panel/module has the following features: INTERIOR TEMPERATURE SENSOR FAN 3 PIN CONNECTION (2 PINS USED) FOR THE INTERIOR TEMPERATURE SENSOR FAN 26 PIN CONNECTION FOR INPUTS AND OUTPUTS MOTOR M-BUS 5 IHKA E36 CONTROL PANEL/MODULE FUNCTIONS The control panel/module handles all the functions necessary to operate the IHKA system: Blower speed Auxiliary cooling fan Air intake flaps (fresh/recirculating) Air distribution flaps (face vent, foot well, defroster) Heater core temperatures Evaporator temperature Special programmed functions Rear window defrost timing And, like the E38 control panel/module, the E36 version has an EEPROM for fault code storage. The module can go into “sleep mode” to reduce power consumption when the ignition is switched “off,” but still retain control panel settings and fault code information. Another feature, unique to the E36 control panel/module, is that temperature sensor read¬ ings, “Y-factor” values, software version and other information can be displayed on the panel face for diagnosis. Refer to “Special Functions” later in this Handout for more infor¬ mation. NOTE: If the control module is replaced it must be coded. SUBSTITUTE VALUE OPERATION If an input potentiometer or sensor (or its circuit) fails, the control panel/module will ignore the faulty input and, in its place, use a replacement value which has been programmed into its memory for just this purpose. The replacement value, typically a mid-scale value for a particular input, allows the system to operate as normally as possible, despite the fault. Substitute values for IHKA E36 components are: • Desired temperature value (left or right) .72°F (22°C) • Interior temperature sensor.75°F (24°C) • Heater core temperature sensor (left or right).130°F(55°C) • Evaporator temperature sensor.23°F (-5°C)* • Ambient temperature sensor.32°F (CPC) * The substitute value for the evaporator temperature sensor is significantly below the A/C compressor cycling point (1 -3°C). Therefore, if the evaporator temperature sen¬ sor signal is not plausible, the substitute value will switch the refrigeration system off. 6 IHKA E36 HOUSING ASSEMBLY The IHKA housing assembly, shown below, is very similar in construction and layout to the IHKR (earlier system) E36 housing assembly. BLOWER MOTOR FRESH AIR INLET FRESH AIR INLET RECIRC AND FACE VENT FLAP STEPPER MOTORS BLOWER MOTOR FINAL STAGE STRATIFIED FACE VENT AIR OUTLETS EVAPORATOR DEFROST OUTLETS FRONT AND REAR FOOTWELL FLAP OUTLETS FRONT AND REAR FOOTWELL FLAP OUTLETS PASSENGER'S SIDE DRIVER'S SIDE HEATER CORE HEATER CORE AND OUTLET AND OUTLET A | R TEMPERATURE AIR TEMPERATURE SENSOR SENSOR IHKA E36 Housing Assembly NOTE: The E36 final stage unit fits into the lower left side of the housing. And, the temperature mixing flap is manually operated using a thumbwheel and cable arrangement - there is no stepper motor on the housing assembly. 7 FRESH AIR INLET FLAP STEPPER MOTOR - FACE VENTS - DEFROST - FOOTWELLS - RECIRCULATING Like IHKA E38, IHKA E36 uses an M-Bus to control all stepper motors except the fresh air flaps stepper motor. IHKA E36, however, uses only five stepper motors: • Fresh air flaps (conventional) • Recirculating air flaps (smart) • Defroster flaps (smart) • Face vent flaps (smart) • Footwell flaps (smart) The fresh air flaps stepper motor is connected to the control panel/module by four circuits. The “smart” stepper motors are all linked together and receive their positioning commands over the M-bus. 8 IHKA E36 TEMPERATURE SENSING IHKA E36 uses five dedicated NTC thermistor temperature sensors. Ambient Temperature Sensor t Interior Temperature Sensor IHKA E36 REAR WINDOW DEFROSTER Rear window defroster operation on E36 vehicles is not influenced by ambient temperature, as it is on E38 vehicles. Pressing the rear window defroster button turns on the defroster and it operates for 17 min¬ utes. The defroster then shuts off automatically. Refer to the IHKA E36 IPO on page 98 for a defroster schematic. 9 _ IHKA E36 IPO KL 31 KL 30 KL 15 KL 50 INDEPENDENT LEFT & RIGHT TEMPERATURE CONTROL MAX DEFROST A/C COMPRESSOR RECIRCULATING AIR GD . REAR DEFROST DEFROST OUTLETS FACE VENT OUTLETS FOOTWELL OUTLETS AUTO AUTOMATIC PROGRAM FAN SPEED REQUEST INTERIOR AIR TEMP PHOTO CELL % AMBIENT AIR TEMPERATURE ROAD SPEED EVAPORATOR TEMPERATURE HEATER CORE TEMPERATURES ENGINE RPM SIGNAL MS 41.1 LIGHTS "ON" SIGNAL E36 IHKA CONTROL PANEL/ MODULE LEFT HEATER CORE WATER VALVE RIGHT HEATER CORE WATER VALVE BLOWER SPEED SIGNAL gil§ FINAL STAGE UNIT BLOWER MOTOR FRESH AIR FLAPS STEPPER MOTOR M-BUS FOUR STEPPER MOTORS - FACE VENT FLAP - DEFROST - FOOTWELL - RECIRCULATION AUXILIARY FAN SPEED 1 CONTROL + + COMPRESSOR ON REQUEST A/C ON A/C COMPRESSOR RELAY p F S —1 b MS 41.1 d L k A J REAR WINDOW DEFROSTER RELAY INTERIOR TEMP SENSOR FAN + DIAGNOSIS AND CODING 10 IHKA E36 TEMPERATURE REGULATION LEFT HEATER CORE TEMPERATURE SENSOR RIGHT HEATER CORE TEMPERATURE SENSOR T ▼ WATER OUTLET Temperature regulation is accomplished the same way as on the IHKA systems already covered: • solenoid actuated water valves control the flow of hot coolant through the heater cores • the valves, sprung open, are powered closed by the control panel/module in response to sensed inputs and buttons pressed on control panel/module face. An important difference from IHKA E31, and E38 is that IHKA E36 does not use an electric pump to boost coolant flow through the heater cores. Instead, the control panel/module monitors engine speed and compensates for low flow at lower engine speeds by increasing water valve “open” time. 11 IHKA E36 TEMPERATURE MIXING The temperature mixing flap is mechanically actuated, using the thumbwheel at the bottom left cor¬ ner of the center face vent. MIXING FLAP CONTROL Any time that the face vents are open, rotating the thumbwheel will operate the mixing flap which is located above the space between the evaporator and the heater cores. Opening the mixing flap allows more cooled air to enter the face vent ductwork. Closing the flap increases the proportion of heated air which enters the face vent ductwork. 12 NOTE: DEFROST AND FOOTWELL OUTLETS ARE NOT ILLUSTRATED IHKA E36 AIR INTAKE FRESH AIR FLAP STEPPER MOTOR The fresh air flaps stepper motor operates only when the ignition switch is in “Run.” At engine shut-down, the fresh air flaps stay in their “last-used” position. When the ignition switch is again turned to “Run,” the control module/panel operates the stepper motor to move the flaps, if necessary. When open, the flaps are positioned according to road speed; the flaps close incrementally with every 12.5 mph change in road speed (to pre¬ vent the flaps from continually open¬ ing and closing due to slight changes in speed). At 85 mph the fresh air flaps are only 20% to 40% open (depending on blower speed). In the recirculating air mode, the fresh air flaps are 20% open. i oo% 60% 40% - STEPS 4-8 30% - STEP 3 20 % - BLOWER STEPS 1 AND 2 0 35 47.5 60 72.5 85 ROAD SPEED (MPH) 13 IHKA E36 AIR DISTRIBUTION All outlet flaps are operated by M-bus stepper motors, controlled by the control panel/mod¬ ule: Defrosting Face vents Footwells 14 IHKA E36 BLOWER CONTROL IHKA E36 blower control is most similar to that of IHKA E31 since a separate final stage unit is mounted on the housing assembly. E36, however, offers eight discrete speeds. The control panel/module processes the blower speed rocker switch input and sends a sig¬ nal to the final stage unit. The final stage unit then regulates blower motor voltage to con¬ The blower rocker switch is the master controller for the IHKA sys¬ tem as it can be used to switch the system “Off.” This is done by lowering blower speed to the lowest speed and then pressing the “- ” button one more time: • The blower motor turns off and • All flaps are closed and • All function LEDs and the LCD display are switched off and • The rear window defroster is switched off and • The A/C compressor is switched off. The interior temperature sensor blower continues to operate, though, and the control panel/module pulses the appropriate water valve if either left or right desired temperature is above the sensed interior temperature. The IHKA E36 system can be turned “on” again by pressing any button on the control panel/module face. trol blower speed. 15 IHKA E36 COMPRESSOR CONTROL MS 41.1 CONTROL MODULE EVAPORATOR TEMPERATURE SENSOR COMPRESSOR RELAY AC = IHKA "ON" (snowflake button depressed) KO = COMPRESSOR ON REQUEST When A/C is requested (by pressing the “snowflake”), the IHKA control panel/module sends a request signal to the engine control module. If A/C refrigerant pressures are within limits, the engine control module stabilizes engine idle and determine whether or not to energize the A/C compressor clutch (by grounding the compressor control relay). 16 IHKA E36 AUXILIARY FAN CONTROL NORMAL SPEED RELAY DME ENGINE CONTROL MODULE 4-Cylinder Engine Aux. Cooling Fan Circuit The auxiliary fan can be turned on by: • A request from the IHKA control panel/module (normal speed operation). • High refrigerant pressure (high-speed operation). • High coolant temperature (normal or high-speed operation). 6- and 4-cylinder engines have different circuits. On 6-cylinder engines, the IHKA control panel/module circuit used to request A/C compressor operation is also used to energize the auxiliary fan normal speed relay. On 4-cylinder engines, the engine control module grounds the relay. On 6-cylinder engines, the coolant temperature switch activates the normal speed relay. On 4-cylinder engines, the coolant temperature switch signals the engine control module that the coolant is too hot, and the engine control module activates the relay. 17 SPECIAL FUNCTIONS Control Panel/Module Test Display (12-95 to 3-97 production) The E36 IHKA control panel/module includes additional programming that allows system diagnosis without the use of the DIS or MoDiC; sensor values and other inputs are shown on the LCD display. This function is found on systems produced from 12-95 thru 3-97. TEST NUMBER DISPLAY (33.0°C) PRESS SIMULTANEOUSLY TO EXIT TEST The sensor display mode is activated by pressing the “AUTO” buttons simultaneously. AUTO and rear window defroster Available displays are: 1. Interior temperature 2. Ambient temperature 3. Left heater core temperature 4. Right heater core temperature 5. Evaporator temperature 6. Engine speed 7. Road (vehicle) speed 8. Y-factor value 9. Fresh-air flap position (in % up to 99.5%) 10. AUC sensor voltage (if equipped) 11. Battery voltage 12. Software version. 18 The sensor display is switched “Off” by pressing the “AUTO” and recirculating air buttons simultaneously, or by switching the ignition “Off.” r AUTO Note: The control panel/module LED display does not include a decimal point or percent symbol, so 99.5% is displayed as 995. Temperatures are always shown in degrees Celsius, regardless of module coding. Blower speed cannot be adjusted during sensor display mode. Service-Station Feature This service station feature continues on IHKA E36. The control panel/module continues to power both coolant valves closed for about 3 minutes after the ignition is switched “Off.” This feature prevents the heater cores from being flooded with hot coolant when the engine is shut off for brief periods (e.g. during refueling). Cold Start Arrest IHKA E36 also includes an automatically activated cold start arrest function. The control panel/ module checks for the necessary conditions at engine start-up: • IHKA system turned “on” and • Maximum defrosting request is not present and • Left Y-factor is 100% (maximum heating required) and • Left side “AUTO” mode request is present and • Left heater core temperature is less than 68°F (20°C). If these conditions exist, the control panel/module will: • Open the defroster flaps and • Close all other air distribution flaps and • Operate the blower motor, A/C compressor, fresh air flaps, and recirc. air flaps according to control panel/module settings. When the left heater core temperature reaches 68°F (20°C), cold start arrest ends and all IHKA system functions depend upon control panel/module settings and sensed conditions. Calibration Run The control panel/module initiates a “calibration run” every 20th time the ignition switch is turned to “Off.” The calibration run is necessary because the stepper motors move relative to the end-of-travel position (0% or 100%). 19 CONTROL PANEL/MODULE CODING The IHKA control panel/module is coded with the central coding key (ZCS) using the DIS or MoDiC. The ZCS coding procedures is the same as on previous systems. After coding a new or replacement control module, disconnect it from the battery com¬ pletely (unplug the control module from the vehicle wiring harness) for a minimum of 10 sec¬ onds. This allows the new coding data to overwrite any previous coding data. Print Change End Services BMW Diagnosis SPECIAL FUNCTIONS Coding data: Temperature reading: °F A/C standby signal to DME/DDE switches active: POSITIVE A/C-compressor switch-on signal switches active: NEGATIVE RHD/LHD: LEFT HAND DR Engine: SPARK-IGNIT. No. of cylinders: 6 cyls. Indep. heating: NOT FITTED Indep. ventil.: NOT FITTED AUC: NOT FITTED Convertible: NO 71 <1 c Help 7 Vl Note # ► 20 Coding Conversion Features Coding conversions provide flexibility for various system functions and allow a vehicle owner to customize the car’s climate control system. Print Change End Services Help BMW Control unit code E36 SERIES 1 2 Temperature C/F Blower-speed ^ increase (change to characteristic curve) Recirculating air A CONVERSION CODING FOR SYSTEM - CHANGES TEMPERATURE DISPLAY MODE OF CONTROL PANEL - ALTERS DEFAULT MODE OF BLOWER SPEED - RETAINS RECIRCULATION ON NEXT START UP EVEN AFTER SYSTEM HAS BEEN SHUT DOWN LONGER THAN 16 MINUTES ◄ 71 The E36 IHKA is capable of the following conversions: • Temperature C/F • Blower enhancement - increase the blower default speed (only possible from soft¬ ware version 37, introduced September 1995) • Air recirculation - retain the recirculate air function for use at restart. 21