Table of Contents E93 Electronic Systems Subject Page E93 Electronic Systems .5 Bus Network .6 Changes in K-CAN .6 Changes in LIN-bus .6 EnergyManagement(E93) .8 Advanced Power Management .8 Expanded APM Functions .8 Terminal Shut-down Identification .11 Electric Load Shut-down Terminal 30g Relay.11 Electric Load Shut-down Terminal 30g_f Relay.11 Control Units (connected to terminal 30).12 Control Units (connected to terminal R and 15).12 General Vehicle Electrical System.13 Exterior Lighting.13 Interior Lighting .13 Central Locking System.16 Glove Compartment Locking.16 Opening Glove Compartment.17 Closing Glove Compartment.17 Locking Glove Compartment.17 Emergency Release of Glove Compartment .17 Locking Function of Storage Compartment in Center Console .. .17 Emergency Release .17 Anti-theft Alarm System.23 Power Seats with Easy Entry Function .26 Signals.29 Changes to Control Units .32 Roof Functions Module (FZD).32 J unction Box.33 Footwell Module.34 Car Access System (CAS3).34 PowerWindows .35 Automatic Climate Control .36 Convertible Mode Setting.36 Convertible Mode Control.38 Initial Print Date: 04/07 Revision Date: Subject Page Information and Communication Technology .40 Changes in the Setup Menu .40 Favorites Button forCCC /MASK .41 Navigation with CCC .42 Interface Box (High).43 Antenna Systems .44 AM/FM Antennas.44 AM and FM1 Antenna, Left.46 FM3 Antenna, Right.46 FM Antenna Diversity .46 Satellite Antenna.49 IBOC .49 Antennas forTelephone and Telematics.54 Telephone Antenna .54 Telematics Antenna.54 SOS Antenna .55 Bluetooth Antenna.55 GPS Antenna.55 Arrangement of IKT Control Modules .56 Passive Safety Systems.58 Advanced Crash and Safety Management .59 E93 Convertible Rollover Protection System.64 Rollover Detection .64 Triggering the Roll Bars.66 Triggering the Rollover Protection System (via diagnosis equipment).67 M echanical Emergency Release.67 System Components.68 Crash Safety Module.69 ROC Control Unit.69 Airbag Systems .70 Subject Page Electronic Systems Model: E93 Production: From Start of Production ■BIICTItfIS After completion of this module you will be able to • Identify changes to bus system on the E93 • Understand changes and additions to Information and Communication Systems • Understand changes to the Climate Control System • Understand changes to the Passive Safety System 4 E93 Electronic Systems E93 Electronic Systems The vehicle electrical system and the scope of electrical/electronic systems are largely identical to those of the E92 Coupe. Adaptations and modifications have been implemented in individual systems in view of the different body structures of the closed Coupe and the open Convertible. This publication describes changes and modifications that result in an expansion or modification to the corresponding function. The system descriptions are subdivided into following areas: • Vehicle systems network • Energy management - Terminal control • General vehicle electrical system - Exterior lighting - Interior lighting - Central locking system - Anti-theft alarm system - Seats with rear compartment easy entry - Changes in control units - Powerwindows • Air conditioning system - Convertible mode • Information and communication technology - CCC function keys - Interface boxSBX - Antenna systems - Locations of IKT control units • Passive safety - Crash-reinforced bodyshell - Advanced crash and safety management - Rollover protection systems - Seat-integrated side airbag - Knee airbag US 5 E93 Electronic Systems Bus Network The vehicle systems network US differs in that it features other systems provided specifi¬ cally forthe USA and Canada. Since no diesel vehicles are currently offered in the USA, the corresponding control units have been omitted on the PT-CAN and BSD. Changes in K-CAN A new feature is the Convertible top module (CTM) which is connected to the K-CAN for the purpose of controlling the retractable hardtop. The ACSM 2 is used as the passive safety system which contains the sensors forthe rollover protection system. The SINE of the anti-theft alarm system DWA is no longer looped through the roof functions module FZD but rather connected directly to the K-CAN. The RDC (TPMS) is a tire pressure monitoring system that replaces the tire failure indicator RPA in US vehicles to conform to legal requirements. Changes in LIN-bus Two control units forthe seat belt extender on the driver's and passenger's side have been dropped from the LIN-bus as the seat belt in the Convertible is located directly in the seat. 6 E93 Electronic Systems E93 Bus Overview 7 E93 Electronic Systems Energy Management As in the current models, an energy management system is also used on the BMW 3 Series Convertible to ensure a balanced energy supply in the vehicle. The energy management functions are integrated in the power management system that is implemented in the form of software in the engine control module (DM E). The power management, the components and the various functions of the system differ depending on the equipment configuration of the vehicle. Two energy management control systems are installed: • Basic Power Management BPM • Advanced Power Management APM On vehicles equipped with advanced power management modifications have been made in the terminal shut-down system through relay 30g and 30g f. Advanced Power Management Advanced power management (APM) is used on vehicles featuring following options: • Comfort access • Multi-audio system controller • Car communication computer • Telephone US/telephone preparation US The advanced power management has been expanded by the intelligent battery sensor IBS. In addition to the change in the idle speed and the specified charging voltage target value, the system includes the following functions that differfrom the BPM. Expanded APM Functions • Electric load reduction • Electric load shut-down • Systems network diagnosis • Battery diagnosis 8 E93 Electronic Systems APM Control Circuit Index Explanation Index Explanation 1 Advanced power management 7 Electric loads 2 Idle speed boost 8 Electrical system and battery diagnosis 3 Engine 9 BMW diagnosis system 4 Charging voltage target value 10 Intelligent battery sensor 5 Alternator 11 Battery data 6 Electric load reduction 9 E93 Electronic Systems dSV E93 Bus Overview (withTerminal Status) 10 E93 Electronic Systems Terminal Shut-down Identification To provide clear identification of the terminal shut-down function, the control units are identified with colored triangles. The identification and assignment to the individual ter¬ minals is shown in the legend on the opposing page. Electric Load Shut-down Terminal 30g Relay Time-dependent shut-down - The E93 is equipped with a terminal 30g relay for switch¬ ing off the power supply to most control units. M ost convenience electric loads such as the radio are switched off after 30 minutes by terminal 30g in orderto maintain the start¬ ing capability of the battery. The after-running time is extended to 60 minutes if a telephone is installed in the vehicle. The terminal 30g relay is activated by the car access system. Electric Load Shut-down Terminal 30g_f Relay Fault-dependent shut-down - The terminal 30g_f relay is additionally installed in the junction box of the E93 only when one of the following equipment options is ordered: • Comfort access • M-Audio system controller • Car communication computer • Telephone US/telephone preparation US The terminal 30g_f relay is a bistable relay and is always in the ON state under normal conditions. It switches off the connected control units only in the case of fault. The switching status is retained even when no power is applied. The terminal 30g_f relay is activated by the junction box control unit and switches off the connected electric loads if a fault occurs. The calculations required for activating the terminal 30g_f relay take place in the DM E and in the junction box. The following activi¬ ties are monitored in the junction box: • Unauthorized wake-ups within the bus system • Sleep mode preventers (control units that constantly keep the bus systems active) The battery values are constantly read out and evaluated in the engine control unit. The relay is also switched off when the starting capability limit of the vehicle battery is reached. 11 E93 Electronic Systems Control Units (connected to terminal 30) Due to theirfunctionality, some control units cannot be switched off and must remain connected to KL30. The following chart shows the control modules connected to KL30 and the reasons why this is needed. Index Explanation J B Because of masterfunctionality FRM Because of legally required hazard warning function FZD Because of the connection ofthe DWA components SINE Because of DWA functionality CAS Because ofthe "unlockvehicle" function SZL Because ofthe steering angle sensor data (volatile) DME Because of power management EPS Because of high current consumption Kombi Because ofthe data saving function (mileage reading) Control Units (connected to terminal R and 15) Control units that have only one functionality connected to terminal R or 15 can be switched off directly. The ACSM2 control unit is connected to terminal R. The high beam assistant and park distance control are connected to terminal 15. 12 E93 Electronic Systems General Vehicle Electrical System The general vehicle electrical system includes the following: • Exterior lighting • Interior lighting • Central locking system • Anti-theft alarm system • Rooffunctions module • Seat with rear easy-entry • Changes in control units • Powerwindows Exterior Lighting No changes have been made to the exterior lighting of the E93 Convertible compared to the E92 Coupe. The E93 Convertible is equipped as standard with bi-xenon lights. Adaptive headlights are optionally available in connection with the turn signal or direction indicator light. The E93 Convertible is equipped as standard with the daytime driving lightfunction that is realized by the corona rings. The E93 Convertible also features the welcome light function. Note: Important note on tail lights - In the event of a defective bulb in the tail lights, after removal, the bulb carrier must be fitted in the tail light housing otherwise the function of the new bulb cannot be checked due to the lack of ground connec¬ tion. Interior Lighting The interior lighting system of the E93 Convertible was adopted from the E92 with ambient interior lighting in the door and side trim panels. Forthis reason, the general functions and the components of the interior lighting system will not be described in detail again here. The following minor changes have been made to the optional interior lights package: • No rear interior light in the roof • The central luggage compartment light has been replaced by two lights at the rear left and right 13 E93 Electronic Systems ® t- E93 Interior Light Schematic 5 * «) ® 24 , 23 ) 2 ' . . 19 ) —m - -y— “) 19 14 E93 Electronic Systems Legend forE93 Interior Light Schematic Index Explanation Index Explanation D Exit light, left 15 Glove compartment lighting 2 Door contact, left 16 Vanity mirror light right 3 Courtesy lighting, left 17 Switch for vanity mirror light, right D F iber optic cable for left door linear lighting 18 Charging socket 5 Footwell module 19 Side panel linear lighting, right 6 Footwell light, front left 20 Rear compartment footwell light, right 7 Power distribution box, junction box 21 Luggage compartment light, rear right 8 Footwell light, front right 22 Interior button for boot lid 9 J unction box electronics 23 Luggage compartment light, rear left 10 F iber optic cable for right door linear lighting 24 Side panel linear lighting, left 11 Courtesy lighting, right 25 Rear compartment footwell light, left 12 Door contact, right 26 Roof functions module with front interior light 13 Exit light, right 27 Vanity mirror light, left 14 Glove compartment switch 28 Switch forvanity mirror light 15 E93 Electronic Systems Central Locking System The central locking system has been adapted to the specific requirements of the Convertible. In addition to the basic functions of locking the doors, lids and flaps, two furtherfunctions have been added: • automatic locking and opening of the glove compartment • and the locking of the storage compartment in the center console. These functions are necessary for the purpose of providing a safe place to store objects with the hardtop open. Glove Compartment Locking The glove compartment is unlocked by electrical means. The reason forthis is that a knee airbag is installed in US vehicles. The knee airbag is located in the lid to the glove compartment. The opener is located on the left on the glove compartment lid. The lid must be locked on both sides to ensure the resulting forces can be transmitted in the event of the knee airbag triggering. Index Explanation Index Explanation Index Explanation Index Explanation 1 Hotel switch 5 Knee airbag, front passenger 2 M icroswitch, open 6 Unlocking motor with actuating cam 3 Lock with emergency release 7 Glove compartment housing 4 Locking rod, left 8 Locking rod, right E93 Electronic Systems Opening Glove Compartment The opener is raised slightly to open the glove compartment. A microswitch sends a signal to the junction box which, in turn, activates an actuator motor in the glove compart¬ ment. The actuator motor with the gear mechanism pulls backthe two locking rods so that the glove compartment lid can be opened. The power supply to the actuator motor is cut after a short time and the locking rods extend again. Closing Glove Compartment The ends of the locking rods are beveled. When closing the lid, the rods are pressed against a spring. When the lid is closed, the spring force pushes the locking rods back into the lock openings thus locking the glove compartment lid. Locking Glove Compartment The hotel switch is located in the glove compartment. The hotel switch can prevent unauthorized opening of the boot lid. Forthis purpose, the glove compartment is locked with the mechanical key at the lock barrel. Emergency Release of Glove Compartment In the event of the battery discharging or being defective, the glove compartment can be opened with the mechanical key. Locking Function of Storage Compartment in Center Console The storage compartment, in which the mobile phone is kept (depending on equipment variant) contains an actuator motor which locks the storage compartment. This actuator motor is driven directly by the junction box when central arrest is activated. Emergency Release The storage compartment in the center console can be released by means of a pull cable (1) in the event of the battery discharg¬ ing or being defective. Forthis purpose, the cover must be removed from the rear compartment air outlet, fol¬ lowed by removal of the air outlet. The storage compartment can then be released by pulling the loop of the pull cable. 17 E93 Electronic Systems Glove Compartment Schematic 1 ) 18 E93 Electronic Systems Legend forGlove Compartment Schematic Index Explanation 1 CAS 2 J unction Box 3 Hotel Switch 4 Unlocking motor 5 Switch for glove compartment lighting 6 Glove compartment lighting 7 Passenger's side knee airbag ad glove compartment lid 8 Glove compartment lock with release button 9 Charging socket for flashlight 10 ACSM control unit 19 E93 Electronic Systems Central Locking Schematic 20 E93 Electronic Systems Legend forCentral Locking Schematic Index Explanation 1 Driver's door with actuator, door contact and door lock with Hall sensors 2 Footwell module 3 Central lock button 4 J unction box 5 Glove compartment actuator motor 6 Hotel switch 7 Passenger's door with actuator and door contact 8 Actuator for fuel filler flap 9 Comfort access control unit 10 Trunk lid button 11 Trunk lid lock 12 Trunk lid actuator 13 Center console actuator 14 Interior rearview mirror with remote control receiver 15 Car Access System (CAS) 21 E93 Electronic Systems 22 E93 Electronic Systems Anti-theft Alarm System The anti-theft alarm system in the E93 Convertible is identical to that in the 3 Series Sedan in terms of its basic functions and operating mode. There are differences in the interior monitoring function and connection to the system network. Microwave sensors, as in the E64 Convertible, are used forthe interior monitoring system instead of ultrasonic sensors. The microwave sensors facilitate monitoring of the vehicle interior also when the convertible top is down. The microwave sensors have a semicircular radiation characteristic. By strategic place¬ ment in the vehicle, the entire interior can be monitored without the microwave sensors radiating outside the vehicle. Four microwave sensors are used on the E93 Convertible forthe purpose of monitoring the interior. The microwave sensors are connected via the DWA bus to the SINE (siren with tilt alarm sensor). The DWA bus is a sub bus based on the K-bus. SINE is the master control unit and is connected directly to the KCAN.The entire control ofthe anti¬ theft alarm system is located in the SINE. 23 E93 Electronic Systems Anti-Theft System Schematic 24 E93 Electronic Systems Legend for Anti-Theft System Schematic Index Explanation i—1 Hood contact 2 Car Access System 3 Interior rear-view mirror with remote control receiver and DWA LED 4 J unction box 5 Passenger's door contact 6 M icrowave sensor, front right 7 Microwave sensor, rear right 8 S iren with tilt alarm sensor 9 Boot lid contact, right 10 Boot lid contact, left 11 M icrowave sensor, rear left 12 M icrowave sensor, front left 13 Driver's door contact 14 Footwell module (FRM) 25 E93 Electronic Systems PowerSeats with Easy Entry Function Special seats with a seat-integrated seat belt system as in the E46/E64 are installed in the E93 Convertible. The electrically adjustable seats (comfort and sport) are equipped with a rear compartment easy-entry function to facilitate entry in the rear compartment. Forthis purpose, an adjustment switch is provided on the upper end of the backrest in orderto move the seat forward and backward at double the speed via the seat forward/backward adjustment function. When entering the rear compartment, the customer can move the seat forward with the adjustment switch. By mechanically releasing the seat backrest, it can be additionally tilted forward to create sufficient space for convenient entry. Index Explanation 1 Switch for rear compartment easy entry 2 Backrest release lever At the same time, the headrest is retracted so that the backrest can be completely folded down and does not come in contact with the sun visor. Retraction of the headrest depends on the position of the seat. The headrest is not retracted if the seat position is set in the area approximately 8-10 cm from the rear end stop as there is sufficient space to fully fold down the backrest in this position. 26 E93 Electronic Systems Following entry, the backrest is folded back, the headrest automatically returns to its previous position and the seat can be moved back using the adjustment switch. The position of the headrest is detected by a Hall sensor on the headrest adjustment motor. The seat moves back and assumes the previous position. The previous position is also determined by means of a Hall sensor on the seat forward/backward adjustment motor. The signals from the Hall sensors are read into the driver or passenger seat module and correspondingly evaluated. The front passenger seat module has no memory function. A new feature of the seat in the Convertible is the integration of the side airbag in the backrest. The use of the SGS seat with integrated seat belt system makes it necessary to monitorthe backrest lock. If the backrest were not locked correctly, there would be the danger of the occupant moving forward with the backrest without any restraint effect. This would be equivalent to the occupant not wearing a seat belt. Forthis reason, the backrests on the driver and front passenger seats are monitored to ensure they are locked correctly. The driver/passenger seat modules monitorthe position with Hall sensors in the backrest. The information is sentto the crash safety module via the K-CAN link. The information is used in the calculation of the triggering algorithm. A backrest that is not locked correctly would have the same effect on the triggering characteristics as an occupant not wearing a seat belt. If the backrests are not locked correctly, the driver/passenger seat module generates check control messages which are sent via the K-CAN to the instrument cluster and the central information display. 27 E93 Electronic Systems Driver's Seat Schematic 28 E93 Electronic Systems Legend forDriver's Seat Schematic Index Explanation Index Explanation 1 Center console switch cluster with seat heating buttons 15 Position, headrest height adjustment 2 IHKA 16 M otor, headrest height adjustment 3 J unction box 17 Driver's seat module 4 Pressure control valves for lumbar support adjustment 18 Backrest heating 5 Position, seat forward/backward adjustment 19 Seat cushion heating 6 2-stage motor for seat forward/backward adjustment 20 Seat heating temperature sensor 7 Position, seat height adjustment 21 Side airbag, driver 8 M otor, seat height adjustment 22 Backrest locking contact 9 Seat tilt position 23 Rear compartment easy entry switch 10 Seat belt buckle position 24 Seat adjustment switch with memory buttons 11 Motorfor seat angle adjustment 25 Lumbar support button 12 Seat belt pre-tensioner 26 M otorfor lumbar support adjustment 13 Backrest tilt position 27 ACSM control unit 14 M otor for seat backrest angle adjustment Signals Input Information Source/to Function In Terminal control (KL15) CAS3> Driver's seat module Status, KL15 In Terminal status (KL50) CAS3> Driver's seat module Electric load shutdown Out Electric load output Energy management (DM E) Power reduction depending on charge balance Out Backrest lock Driver/passenger's seat module >ACSM Triggering algorithm Out Backrest lock Driver's/passenger's seat module >KOMBI >CID Check control message 29 E93 Electronic Systems Passenger's Seat Schematic 30 E93 Electronic Systems Legend for Passenger's Seat Schematic Index Explanation Index Explanation 1 IHKA 16 M otorfor seat backrest angle adjustment 2 Center console switch cluster 17 Backrest tilt position 3 J unction box 18 Seat belt pre-tensioner, front passenger 4 M otor for lumbar support adjustment 19 M otorfor seat angle adjustment 5 Lumbar support button 20 Seat belt buckle position switch 6 Switch for seat settings 21 Seat tilt position 7 Rear compartment easy entry switch 22 M otor, seat height adjustment 8 Backrest locking contact 23 Notfor US Market 9 Side airbag, front passenger 24 Position, seat height adjustment 10 Seat heating temperature sensor 25 2-stage motorfor seat forward/backward adjustment 11 Seat cushion heating 26 Seat Occupancy Detector (OC-3) 12 Backrest heating 27 Position, seat forward/backward adjustment 13 Passenger's seat module 28 Pressure control valves for lumbar support adjustment 14 M otor, headrest height adjustment 29 ACSM control unit 15 Position, headrest height adjustment Signals Input Information Source/to Function In Terminal control (KL15) CAS3> Driver's seat module Status, KL15 In Terminal status (KL50) CAS3> Driver's seat module Electric load shutdown Out Electric load output Energy management (DM E) Power reduction depending on charge balance Out Backrest lock Driver/passenger's seat module >ACSM Triggering algorithm Out Backrest lock Driver's/passenger's seat module >KOMBI >C ID Check control message 31 E93 Electronic Systems C hanges to C ontrol U nits Due to the various mechanical and electrical changes on the E93, some control modules have been modified or moved from theirfamiliar locations. Brief explanations of these changes are in the following pages. Roof Functions Module (FZD) The roof functions module has been adapted in terms of its functionality and geometric form to the specific requirements of the E93 Convertible. The following functions have been adopted: • Interior lights, reading light and top light • Connection of the electrochromic interior rear/view mirrorand transmission of values on the K-CAN • Connection of rain/lights sensorvia LIN • Gateway function LIN > K-CAN • Connection of the condensation sensor and transmission on the K-CAN • Emergency call button (option) • Passenger airbag OFF light (option) The following functions have been dropped: • Connection of interior lights at rear • Ultrasonic interior movement detector • Operation and actuation of slide/tilt sunroof • M icrophones for hands-free and voice input On the E93 Convertible, the microphones for hands-free and voice input are located on the steering column trim panel. E93 Electronic Systems J unction Box The functions of the junction box have been included to drive the actuators forthe glove compartment and storage compartment in the center console. The gateway function has been adapted to accommodate the D-CAN. At present, all other models are still equipped with the previous diagnosis interface (K-LINE 115 kbit/s). 33 E93 Electronic Systems Footwell Module As the master control unit for the power win¬ dows, the footwell module is responsible for evaluation of the central power window switch. The central power window switch in the Convertible makes it possible to open and close all four side windows simultaneously. A furtherfunction is the extended travel range of the powerwindows as on the E46/E64 Convertible. The extended travel range func¬ tion of the powerwindows is activated when the retractable hardtop is lowered. All side win¬ dows are lowered almost fully during this oper¬ ation to ensure smooth opening. Index Explanation 1 51-pin harness connector, main harness 2 51-pin harness connector, main harness 3 26-pin connector, dashboard Car Access System (CAS3) The comfort functions of the retractable hard¬ top have been added to the car access system. Index Explanation 1 42-pin connector, main harness 2 14-pin connector, ribbon cable 34 E93 Electronic Systems PowerWindows The E93 Convertible is equipped as standard with powerwindows at the front and rear. In addition to the individual power window buttons, the switch cluster on the driver's side contains a central button (1), with which all windows can be lowered simultaneously. As a standard feature on BMW Convertibles, the side windows are frame-less. The windows mustenterthe door seal by several millimeters in orderto avoid leaks and wind noise. The door windows must be lowered by approximately 15 mm to ensure the doors can be opened and closed without applying any effort. 35 E93 Electronic Systems Automatic Climate Control The E93 Convertible is available with the following heating/air conditioning systems: • Integrated automatic climate control (IHKA) The E93 Convertible with its retractable hardtop combines two vehicles in one. It is a Coupe when closed and a Convertible when open, a fact taken into account by the auto¬ matic climate control to create pleasant and comfortable heating/ventilation conditions. This characteristic makes it possible for an individual climate control program for both states. The software automatically initiates the automatic climate control program when it detects that the hardtop is down. Trials and customer surveys have shown that the previous air conditioning systems setup for Sedans or Coupes were not ideal for a Convertible with the top down. The temperature and blower output stage had to be constantly readjusted for the purpose of ensuring pleasant interior conditions. All control parameters are adapted to the requirements of driving with the top down when the hardtop is lowered. Convertible mode requires no additional sensors. The IHKA control unit was programmed with corresponding software that takes these specific parameters into account. Convertible Mode Setting Convertible mode is available only in vehicles equipped with the optional fully automatic climate control (IHKA). Convertible mode is activated by opening the retractable hardtop. The IHKA receives the corresponding information on the status of the hardtop from the Convertible top module (CTM). Convertible mode is always active on vehicles with no central information display (CID). On vehicles with central information display, the Convertible M ode box in the "Automatic Program" menu must first be activated. This activation is possibly only with the hardtop open and is set to active as part of initial programming. Note: If Convertible mode is not activated, the selected automatic program (soft, medium, intensive) is activated when the hardtop is opened. 36 E93 Electronic Systems Settings with Hard Top Down is Automatic programs » mS Automatic programs ► □ soft □ medium uy intensive Uy Convertible □ soft □ medium 1 uy intensive a Convertible BAYERN03 TP VH- ■ Ulll 21:50pm ■ BAYERN03 TP VI+ a i.illl 21:50pm Settings with Hard Top Up is Automatic programs ► is Automatic programs ► □ soft □ medium \uy intensive a Convertible □ soft □ medium 1 uy intensive uy Convertible BAYERN03 TP VI+ a i.illl 21:50pm ■ BAYERN03 TP VI+ i.illl 21:50pm All other program settings are deactivated (grey) if Convertible mode is activated with the hardtop lowered. The other program settings can be selected if Convertible mode is not activated with the hardtop lowered. Convertible mode cannot be selected when the hardtop is closed. Convertible mode that has already been selected is correspondingly indicated, however, it is not active when the hardtop is closed (grey) and can also not be changed. 37 E93 Electronic Systems Convertible Mode Control The aim of Convertible mode is to create an automatic climate control program that makes it unnecessary to continually make manual adjustments while driving. When driving with the top down, the occupants consciously expose themselves to the solar radiation and outside temperature at changing driving speeds. These parameters have a decisive influence on the climate in the vehicle interior and must therefore be taken into consideration in the control concept. The spatial separation of the interior is cancelled when the hardtop is opened thus drastically reducing the influence of the interior temperature sensor. The temperature control for the vent outlet temperature is strongly orientated on the outside temperature. The sun's intensity has a great influence on the climate in the vehicle interior when driving with the top down. Therefore, changes in conditions such as cloudless, cloudy or daytime/night-time are included via the solar sensorto a greater extent in the temperature control than when the hardtop is up. Unlike when the vehicle is closed, the ventilation outlets become the dominant air distribution level when the hardtop is down and are therefore always fully opened while, to achieve a comfort balance, the footwell outlets must always be restricted as soon as the operating temperature of the engine necessary for heating is reached. M easures for keeping the windscreen/windows clear are not necessary when driving with the top down, therefore the defrost outlets always remain closed. The driver sets the required temperature at the temperature control. Depending on the outside temperature, sun's intensity and vehicle speed, the required interior climate is maintained by the supply of correspondingly temperature-controlled air. The most comfortable conditions are achieved with the side windows closed and a wind deflector additionally installed. The ram pressure compensation that serves the purpose of keeping the airthroughput constant when the vehicle is closed is cancelled in Convertible mode. The blower output Is additionally increased based on the vehicle speed in orderto maintain a constant air flow about the occupants. The increasing air volume essentially shields the occupants from increasing turbulence at highervehicle speeds. The occupants subjectively notice no difference in temperature conditions. The AUC function is also active in Convertible mode up to a speed of 45 M PH. It is deactivated at higher speeds. This is intended to ensure that no pollutants are blown into the interior of the vehicle via the air conditioning outlets when driving at low speeds, e.g. in urban or stop-and-go traffic. The best effect is achieved with the side windows closed. 38 E93 Electronic Systems 39 E93 Electronic Systems Information and Communication Technology Several changes have been made to the Drive in connection with the launch of the E93 Convertible as from 03/07. In addition to the visual changes to the user interface in the form of different fonts and colors the operating philosophy of the Setup menu has been correspondingly adapted. Eight favorites buttons have been included for convenience in operation. Corresponding software adaptations have also been implemented. Some ofthe new features are dependent on the optional equipment configuration, e.g. menu for light settings. Changes in the Setup Menu The individual user settings can be selected in the Setup menu. As on the other models with CCC as from 09/2006, an additional menu bar has been included in the Setup menu. The following menu items can be selected in the menu bar: • Screen OFF • Information sources • Settings Further settings are linked to each menu item. The available menu items depend on the equipment configuration. A new pairing assistantfor linking the Bluetooth telephone to the vehicle is provided underthe Bluetooth menu item. n aus Info-Quellen Einstellu igen i ^SJLi Audio vl Anzeigen / Bildschirm v0 lenkradtasten vis! Fahrzeug I Reifen vf® Sprache / Einheiten Uhrzeit / Datum # BAYERN 3 *|$r TMC 1 10:1l| 40 E93 Electronic Systems Favorites Button for CCC /MASK Eight additional favorites button have been added to the two options navigation system Business with MASK and navigation system Professional CCC. The following functions can be stored underthe favorites buttons for quick access: • Radio stations • Navigation destinations • Stored telephone numbers/names • CD/DVD player • CD changer • MP3 Note: The freely selectable favorites buttons in the multifunction steering wheel are assigned as before. Taste lang driicken: Belegung mit Entertainmentquellen, Telefonnummern oder Navigationszielen jf Navigation _ CD J'BA fj'BA The eight favorite buttons are accommodated in the front panel underthe upper CD/DVD player. The buttons can be assigned with functions from the entertainment, telephone and navigation menus. Six buttons are freely programmable for CCC and two buttons are assigned to FM/AM and MODE. In addition to the pressure sensor element, the buttons contain a capacitive sensorthat shows the assignment status of the button when touched in the info bar of the central information display. A button is simply pressed for longerthan 2 seconds to assign a function to it. 41 E93 Electronic Systems Navigation with CCC Index Explanation Index Explanation 1 Slot in DVD player 5 Eject button, CD player 2 Favorites buttons 6 Rocker switch for station selection, C D 3 Rotary push button 7 Eject button, DVD player 4 Slot in CD player 42 E93 Electronic Systems Interface Box (High) The US vehicle will receive a high variant of the interface box, the SBX High contains following functions: • Pairing of customer mobile phone to the vehicle via Bluetooth interface • Voice-activated control of the telephone or expanded voice-activated control in connection with the Assist/Bluetooth option • Connection of USB/audio interface for USB storage media. The USB/audio interface can be ordered through the option SA 6FL. The USB interface is located in the immediate vicinity of the 3.5 mm audio jack (AUX-IN). Audio files stored on USB mass storage media can be played in the vehicle via the USB/audio interface. USB mass storage media that support one of the following standards be connected: • USB Mass Storage Class • Apple iPod as from 4th generation. Index Explanation 1 Bluetooth signal 2 54-pin connection 3 MOST connection 4 USB connection 43 E93 Electronic Systems Antenna Systems Since the standard locations for antennas on the roof or in the fixed rear window are not available on the E93 Convertible, the various antenna systems are distributed and integrated in the vehicle. Antennas are required forthe following systems: • Radio • Digital receivers • Navigation • Telephone and telematics • Remote control With the exception of the SDARS antenna, the E93 Convertible has no visible antennas. The Convertible does not even have the standard rod antenna, a feature contributing to the harmonious appearance of the exterior. AM/FM Antennas FourFM antennas (FMl-FM4)and one AM antenna that are switched via an FM antenna diversity function are used for radio reception in the E93 Convertible. 1 j 2 . 3 , 5 ) 4 ) Index Explanation 1 FM 1 Antenna 2 AM Antenna 3 FM3 Antenna 4 FM2 Antenna 5 FM4 Antenna 44 E93 Electronic Systems Different antennas are used when the hardtop is closed or lowered. When closed, the AM, FM1 and FM 3 antennas in the rear window are used as in a Coupe. The antenna amplifier and the rejector circuit for the rear window defoggerare located on the left C-pillar. There is only a rejector circuit on the right-hand C-pillar. The E93 Convertible has many information and communication antennas all of which, except forone, are concealed. Only the SDARS antenna on US vehicles is located on the rear lid as this requires a direct reception path to the satellites. The antenna systems are divided into radio, digital receiver, telephone, navigation and remote control. The FM2 and FM4 antennas are located behind the rear bumper panel. The antenna amplifiers for the FM2 and FM4 antennas are located in the antenna diversity module on the rear left in the luggage compartment. Index Explanation 1 FM4 Antenna 2 FM2 Antenna 45 E93 Electronic Systems AM and FM1 Antenna, Left When the hardtop is lowered, the rear window is folded in the luggage compartment so that reception via the antennas is no longer possi¬ ble. Forthis reason, a further AM andFMl antenna is located in the left side trim panel at the rear. AM and FM1 antenna in LH trim panel FM3 Antenna, Right The FM 3 antenna is located in the right side trim panel at the rear. Each antenna has its own antenna amplifier. A total of four antenna amplifiers are installed. The received and amplified signal (RF signal) is then sentto the FM antenna diversity module on the rear left in the luggage compartment. FM3 antenna in RH trim panel Index Explanation 1 Antenna amplifier, left 2 Emergency antenna Index Explanation 1 Antenna amplifier, right FM Antenna Diversity The E93 Convertible features afourFM antenna diversity system that is made up of the following antennas: • FM 1 and FM3 antenna in the rear window • FM 1 and FM3 antenna in the side trim panel • FM2 and FM4 antenna in the rear bumper • Antenna amplifier on the C-pillar • Antenna amplifier on the left and right shoulder (trim) • Antenna amplifier in diversity module. 46 E93 Electronic Systems Antenna diversity module Index Explanation Index Explanation 1 FM2 and FM4 antenna input 5 RF signals, rear window 2 Power supply for external antenna amplifiers and input, KL30g 6 RF signal of FM 3 3 Signal from CTM and Radio ON 7 RF signal of AM/FM1 4 RF signal for radio navigation 8 Changeover voltage/diagnosis The switchover between the antennas in the rear window and side trim panels takes place by means of a signal from the Convertible top module CTM. The sequence of FM antenna diversity is not defined as on previous models. On the E93, the reception quality and field strength of all antennas are checked and stored in a memory. The next best FM antenna in the list is selected if the signal quality of the radio station received at the active antenna is insufficient in terms of quality and field strength. The antennas are evaluated and the list updated at the same time as the switchover between the individual antennas. 47 E93 Electronic Systems Changeover takes place in such a way that no interruption is heard. The high frequency signal (RF) of the active FM antenna is routed from the antenna diversity module via a coaxial cable to the tunerforthe radio or navigation system. The signal is de-modulate in the tuner and output via the speakers as an audio signal. The radio or navigation system detects whether a diversity module is installed and generates the changeover voltage (Us) necessary for diversity operation and the intermediate frequency signal (IF). The IF is evaluated by the electronic circuitry in the diversity module and is a copy of the radio station currently heard on the fixed frequency of 10.7 MHz. The changeover between AM/FM1 reception and diagnosis mode takes place with the aid of the changeover voltage. This voltage is generated by the radio and used in the diversity module forevaluation purposes. Diversity mode is active at 2.5 volts (Us =2.5 V). AM mode is active orthe FM 1 antenna selected at 0 Volts (Us = 0 V). Diagnosis mode is active at 5 Volts (Us = 5 V). Up to three signals can be transmitted simultaneously on the coaxial cable: • RF signal (e.g. 87.5 - 108 M Hz) from diversity module to radio • Control voltage (Us)from radio to diversity module • Intermediate frequency (IF =10.7 MHz)from radio to diversity module as basis for assessing the quality of the RF signal. M utual influencing is not possible due to the different frequencies. The frequency of the antenna diversity module is 87.5-108 M Hz. Note: No antenna diversity is provided forSW, MW and LW reception as there is only one AM antenna. 48 E93 Electronic Systems Satellite Antenna The SDARS uses the "shark fin" antenna on the reartrunk lid area. IBOC The terrestrial In Band on Channel (IBOC) uses the FM antennas for digital reception. 49 E93 Electronic Systems ITE06-2938 AM/FM Antenna Schematic 50 E93 Electronic Systems Legend for AM/FM Antenna Schematic Index Explanation 1 Car Access System 2 Remote control receiver in interior rear view mirror 3 CCC 4 J unction box 5 Rejector circuit, negative 6 F M 3 antenna with amplifier in right hand shoulder trim 7 Comfort Access 8 Convertible Top M odule 9 FM2 antenna in bumper 10 FM4 antenna in bumper 11 FM antenna diversity module 12 AM/FM 1 antenna with amplifier in left hand shouldertrim 13 AM/FM antenna amplifier in rear window 14 Rejector circuit, positive 51 E93 Electronic Systems IBOC andSDARS Schematic 52 E93 Electronic Systems Legend for IBOC and SDARS Schematic Index Explanation 1 ccc 2 J unction box 3 Rejector circuit, negative 4 F M 3 antenna with amplifier in right hand shoulder trim 5 CTM 6 FM2 antenna in bumper 7 SDARS antenna on rear lid (shark fin) 8 SDARS receiver (satellite tuner) 9 IBOC receiver 10 FM4 antenna in bumper 11 FM antenna diversity module 12 AM/FM1 antenna with amplifier in left hand shouldertrim 13 AM/FM antenna amplifier in rear window 14 Rejector circuit, positive 53 E93 Electronic Systems Antennas forTelephone and Telematics The following antennas are required fortelephone and telematics functions: • Telephone antenna • Telematics antenna • SOS antenna • GPS antenna • Bluetooth antenna for internal communication Telephone Antenna The telephone antenna is located underthe side panel on the front left. This position is possible as the side panels on the E93 Convertible are made of plastic. The telephone antenna is routed directly to the eject box in the center console. Telematics Antenna The telematics antenna (1) is located on the rear bumper underthe left tail light. On vehicles equipped with the Assist, the telematics antenna is connected directly to the telematics control unitTCU and is used solely for data transmission relating to telematics functions. 54 E93 Electronic Systems SOS Antenna The SOS antenna (2) is activated if the emergency call function is no longer possible via the telematics antenna after an accident. The SOS antenna is installed underthe side trim panel on the rear left. Bluetooth Antenna The Bluetooth antenna (1) is used for internal transmission of data between the mobile phone and vehicle. The antenna is located in the leftfootwell trim panel. GPS Antenna A GPS antenna (2) is necessary for the telematics function - Automatic emergency call with location -. On vehicles with CCC navigation system, the GPS antenna is routed directly to the navigation computer. TheTCU receives the position data via the MOST. The GPS antenna is connected directly to theTCU on vehicles with no navigation system but with radio Professional and telematics functions. In this case, theTCU determines the location. The GPS antenna is located behind the rooffunctions module in the roof frame. Index Explanation 1 Not for US Market 2 GPS Antenna 55 E93 Electronic Systems Arrangement of IKT Control Modules Index Explanation 1 Telematics control module (TCU) 2 IBOC tuner 3 Hifi orTop Hifi amplifier 4 CD Changer 5 Auxiliary fan forSDARS 6 Satellite tuner 56 E93 Electronic Systems 57 E93 Electronic Systems Passive Safety Systems In the same way as the Sedan, the E93 Convertible offers vehicle safety at the highest level for all occupants as well as in all crash situations. Numerous reinforcements have been implemented in the body forthe purpose of conforming to worldwide stipulations relating to a uniform body. The loads and stresses that occur in the case of a crash are counteracted by a reinforced floor assembly and a reinforced bulkhead with high-strength A-pillars. The reinforced floor assembly is required particularly in the area of the front seats in orderto direct the forces that are exerted in the event of a crash by the seat integrated seat belt systems into the floor assembly. The sills were reinforced specifically for the Convertible in orderto be able to absorb the forces in the event of a side crash and to direct them to the opposite side of the impact. The roof frame in the area of the windscreen has been reinforced and forms the rollover protection system together with the roll bars integrated in the partition module. In the event of a crash, in which the vehicle rolls over, the roll bars extend in milliseconds and, together with the roof frame, form an adequate survival space forthe occupants. The E93 Convertible is equipped with a passive safety system with rollover protection. In the event of a crash, in which the vehicle rolls over, the roll bars extend automatically and, together with the windscreen frame form an adequate survival space forthe occupants. The rollover sensor system is integrated in the crash safety module. The actuators are triggered by the ROC control unit. In the event of a side crash, an enlarged side airbag located in the backrest protects the thorax and head of the occupants. 58 E93 Electronic Systems Advanced C rash and Safety Management The E93 Convertible is equipped with the second generation advanced crash and safety management system (ACSM 2). In terms of its scope of functions, the ACSM 2 is identi¬ cal to the ACSM in the E64 Convertible. The ACSM 2 differs from the ACSM inthatthe supplier is different and itfeatures additional interfaces for future function expansions. The first generation ACSM is supplied by Autoliv while the second generation ACSM is supplied by BOSCH. The task of Advanced Crash and Safety M anagement is to evaluate permanently all the sensorsignals in orderto identify a crash situation. As a result of the sensor signals and their evaluation, the crash safety module identifies the direction of the crash and the severity of the impact. The crash safety module incorporates a longitudinal acceleration sensor and a transverse acceleration sensor. The sensors serve to detect and verify front-end, side-on and rear-end crashes. In the E93 Convertible the crash safety module has additional sensors for rollover detection. Satellites are also integrated in the B-pillars. The satellites each consist of a longitudinal acceleration sensor and a transverse acceleration sensor. Together with the transverse acceleration sensor in the crash safety module, the transverse acceleration sensors serve to detect side-on crashes. Door pressure sensors are additionally installed in the front doors forthe purpose of detecting side crashes. Together with the longitudinal acceleration sensor in the crash safety module, the longitudinal acceleration sensors serve to detect front and rear-end crashes. 59 E93 Electronic Systems The acceleration sensors measure the positive acceleration (+) and the negative acceleration (- / deceleration) in the X and Y directions. The resultant from the X and Y signals is the definitive factor in determining the direction of the impact. US vehicles have additional up-front sensors forfront-end crash detection. Also included is information on the occupants and whetherthey have their seat belts fastened or not. From this information, measures are taken to selectively trigger the necessary restraint systems. In orderto ensure ACSM operational availability at all times, the system monitors itself and indicates that it is ready for operation when the airbag warning lamp (AWL) goes out. If a fault occurs during operation, this is stored in a fault memory, which can then be read out for diagnostic purposes. In the event of a crash, this is communicated to the other users in the bus-system net¬ work by way of a bus telegram. The relevant control units respond to this telegram by exe¬ cuting their own activities. These activities include: • Opening the central-locking system • Activating the hazard warning flashers • Switching on the interior lights • Deactivating the fuel pump • Switching offthe alternator • Automatic emergency call. 60 E93 Electronic Systems 61 E93 Electronic Systems ACSM 2 Schematic V r 62 E93 Electronic Systems Legend for AC SM 2 Schematic Index Explanation Index Explanation 1 Up front sensor, left 13 B-pillar satellite, right 2 Driver's airbag 14 Battery 3 Front passenger airbag 15 Safety battery terminal 4 Up front sensor, right 16 Actuator, right roll bar 5 J unction box 17 Rollover controller 6 Knee airbag passenger's side 18 Actuator, left roll bar 7 CAS 3 19 B-pillar satellite 8 Crash Safety Module (ACSM 2) 20 Seat belt pre-tensionerand seat belt buckle switch, driver's side 9 Door pressure sensor, passenger's side 21 Side airbag, driver's side 10 Side airbag, passenger's side 22 Door pressure sensor, driver's side 11 Seat belt pre-tensioner and seat belt buckle switch, passenger's side 23 Passenger Airbag OFF lamp 12 OC-3 mat 24 Knee airbag, driver's side Signals on the PT-CAN Input Information Source Function Out Crash Telegram ACSM2>) B>EKP module Shut down fuel pump Out Crash Telegram ACSM2>| E3>DME Shut down alternator Signals on the K-C AN Input Information Source Function Out Crash Telegram ACSM2>CAS3 Open central locking Out Crash Telegram ACSM 2 >FRM Activate hazard warning lights Out Crash Telegram ACSM 2 >FRM Switch on interior lights 63 E93 Electronic Systems E93 Convertible Rollover Protection System The rollover protection system is of vital importance to the passive safety of the E93 Convertible. The rollover protection system helps to maintain a sufficient survival space for the occupants in the event of the car overturning or rolling over. There are different factors which can cause a carto overturn or roll over. The most common causes are: • The car hits a ramp (e.g. a crash barrier) on one side. The car rotates about its longitudinal axis as a result of the high angular velocity. • The car skids sideways off the road surface and buries itself with its wheels in the soft soil. The kinetic energy could be sufficient to upend and overturn the car. • The car skids sideways off the road into the curb and is upended. The crucial factors which determine whetherthe car overturns are not just the angle but also the angular velocity at which the car is set into the roll. All these vehicle movements can also occur after a front-end, side-on or rear-end crash. The rollover protection system consists of two extendable roll bars which are housed in the partition module behind the two rear seats. Rollover Detection The E93 Convertible has a special sensorsystem in the crash and safety module ACSM2 forthe purpose of detecting rollover situations. In addition ofthetwo sensors (4) for longitudinal (X-axis) and transverse acceleration (Y-axis), there is a rotation rate sensor (2) and a Low-g sensor (3) forthe Z-axis and forthe Y-axis. The longitudinal and transverse acceleration sensors (4) registerthe positive and negative vehicle acceleration in a range from 0-100 g. They serve to detect heavy accelerations and decelerations in a crash. 64 E93 Electronic Systems The two Low-g sensors (3) have a small measuring range of 0-2 g and can therefore detect small accelerations and decelerations with great accuracy. For example, when the vehicle skids sideways off the road surface and buries itself with its wheels in soft ground. The sensors provide a voltage as measured variable. This voltage is a measure for the acceleration and is converted directly into digital signals in the sensor. The digital values are sent to the processorfor evaluation. The processor evaluates the signals from the longitudinal and transverse acceleration sensors and the two Low-g sensors. The rotation rate sensor is also included in the calculation.The results are compared with the stored algorithm. When the processor detects that a rollover is imminent, it sends two telegrams within a defined timeframe to the ROC control unit with the instruction to triggerthe actuators. Index Explanation Index Explanation 1 Crash Safety Module (ACSM 2) 6 K-bus interface 2 Rotation rate sensor 7 Actuator, right 3 Low g-sensors (Z/Y axis) 8 ROC control unit 4 Longitudinal and transverse acceleration sensors 9 Actuator, left 5 Microprocessor 65 E93 Electronic Systems Triggering the Roll Bars The ROC control unit is supplied with load current via terminal 30. Terminal R ON is applied as the switching signal and enables the power circuit-breaker (7). In this way, the voltage regulator (8), the microprocessor (10) and the switching controller (4) are supplied with voltage. The switching controller transforms the voltage into 35 V and charges up the two firing capacitors (3). When the processor in the crash safety module detects an imminent rollover, it sends two telegrams within a defined time window via the K-bus. The first telegram instructs the ROC control unit to make itself ready forfiring (arming telegram). The ROC control unit incorporates two firing capacitors (3) connected in parallel for providing the firing energy. Each actuator has one high-side and one low-side power circuit-breaker. Index Explanation Index Explanation 1 Actuator, left 6 Low-side power circuit breaker 2 High-side power circuit breaker 7 Power circuit breaker 3 Firing capacitors 8 Voltage regulator 4 Switching controller 9 K-bus interface 5 Actuator right 10 M icroprocessor The second telegram contains the firing command (firing telegram). The low-side power circuit-breakers (6) are connected to ground and the two high-side power circuit breakers (2) are switched through. The ROC control unit now discharges the two firing capacitors and the two actuators are supplied with voltage. During normal operation, the roll bars are inserted in the cassettes in the partition mod¬ ule. They are pre-tensioned in the direction of their extension by a spring and held in place by a lock on the actuator. 66 E93 Electronic Systems The ROC control unit activates the two actuators via the output stages. Each actuator consists of a single-acting solenoid with a lock for disengaging and engaging its roll bar. The solenoid actuates the lock and releases the spring-loaded roll bar. The locking pawls on the roll bar press the toothed rack back mechanically as the bar extends. When the protection bar is extended, the locking pawls are supported on the tooth strip. When the car is in the overturned position, the force is transmitted via the locking pawls on the roll bars to the toothed rack. The rollover protection system may be triggered as follows: • Automatically when an imminent rollover situation is detected • By a defined crash severity in a front-end, side-on or rear-end crash • Via the diagnostic interface • By a mechanical emergency release mechanism. In orderto return the triggered roll bar back into its initial position, it is necessary to press the toothed strap back so that the bar can be pushed in. Triggering the Rollover Protection System (via diagnosis equipment) To check the function of the rollover protection system, it is necessary to trigger the sys¬ tem using the diagnostic equipment. The output stages of the actuators are activated here with the aid of a test module. It is absolutely essential to observe the following safety precautions: • Open the hardtop otherwise the rearwindow will be damaged • Make sure no-one is situated in the immediate vicinity of the roll bars. Mechanical Emergency Release The rollover protection system should be triggered if it has to be removed for repair work. If this cannot be done electrically, e.g. for repair work following an accident, the system must be triggered mechanically in orderto avoid the risk of injury. Follow the procedure set out below: • Open the hardtop otherwise the rearwindow will be damaged • Remove rear seat • Remove partition panel • Remove control units underthe roll bar cassette • Remove control unit carrier • Use a hook (0 3 mm) to reach the actuator • The actuator has an opening in the middle, by means of which the roll bar can be triggered using the hook. 67 E93 Electronic Systems System Components Advanced crash and safety management in the E93 Convertible essentially comprises the following components: • Crash safety module ACS M2 • ROC control unit • Sensors and switches - Up-front sensors (US only) - Door pressure sensors - B-pillarsatellites - Seat occupancy mat US (OC3) - Seat belt buckle switch - Airbag switch - Emergency call button • Actuators - Driver's airbag, two-stage - Passenger's airbag, two-stage - Knee airbag, driver/passenger (US only) - Side airbag, driver/passenger - Seat belt pre-tensioner, driver/passenger - Safety battery terminal - Roll bar, left/right • Warning lights - Airbag warning light AWL - Seat belt mannikin - Passenger Airbag OFF lamp 68 E93 Electronic Systems Crash Safety Module The crash safety module is located centrally on the transmission tunnel in the vehicle. The crash safety module consists of a diecast housing with integrated plug cover. It contains two acceleration sensors offset at an angle of 90°. These acceleration sensors measure the longitudinal acceleration and transverse acceleration of the vehicle. A rotation rate sensor as well as a Low-g sensor for transverse acceleration (Y direction) and a Low-g sensorforZ-direction are additionally integrated for detecting rollover situations. Crash Safety Module (ACSM 2) ROC Control Unit In the E93 Convertible, advanced crash and safety management is equipped with an additional ROC control unit (rollover controller). The ROC control unit is connected via a K-bus to the crash safety module. The task of the ROC control unit is to activate the actuators of the rollover protection system in the event of an imminent rollover situation. Rollover detection takes place in the crash safety module. Two telegrams are sent to the ROC control unit when the threshold values are reached. The ROC control unit is mounted on the carrier structure of the rollover protection systems behind the rear right seat. There are a few particulars to be borne in mind in relation to diagnosis forthe ROC control unit. 69 E93 Electronic Systems The ROC (1) control module is not directly diagnosis-compatible. The ROC control unit monitors itself internally. The two circuits for the actuators are also monitored by the ROC. In the event of a fault, the ROC transmits the fault to the ACS M2 crash safety module, where the fault is stored in the fault memory. ACS M2 activates the airbag warning lamp in the instrument cluster. Airbag Systems In addition to the known two-stage driver's and passenger's airbag, newly designed side airbags are used in the E93. The side airbags are integrated in the backrest of the SGS seat. The side airbags have a larger volume compared to the airbags previously used. The side airbag develops between the seat and door in the event of side impact of sufficient severity. Due to the increased volume, the occupant's thorax and head are additionally protected. Side airbag on E93 70 E93 Electronic Systems Design features of the E93 Convertible include the pronounced inclination ofthe wind¬ screen with the windscreen cowl panel extending further towards the rear. Knee airbags are additionally fitted in US vehicles to conform to US legal requirements for protecting occupants not wearing seatbelts. The knee airbags substantially reduce displacement ofthe pelvis and initiate upper body rotation earlier in the event of an accident, thus preventing occupant contact with the sun visor on the windscreen cowl panel. When the ACSM 2 detects that the front passenger seat is not occupied, the knee airbag on the passenger's side will not be triggered in the event of a crash. 71 E93 Electronic Systems