Table of Contents M Double-Clutch Transmission with Drivelogic Subject Page Introduction .5 Special Features.6 Principles of Operation .8 Comparison of the M DOT to the Manual and SMG .9 Technical Data .10 System Overview.11 M DOT System Circuit Diagram.12 E9x M3 M DCT System Circuit Bus Overview and Terminal Status . .14 Operation and Power Flow .16 Shifting Operation From 1st to 2nd Gear .20 System Components.23 Housing Structure.23 Internal Structure.24 Automatic Parking Lock.27 Emergency Release of Parking Lock .29 Mechatronics Module.30 Sensors and Communication .33 M DCT Transmission Sensors .34 Torque Intervention.34 LIN-bus Module.34 M-Gear Selector Switch (M GWS).35 M GWS Shifter Sensor System .41 Transmission Oil System.42 Pressure and Flow Regulation .42 Two-stage Transmission Oil Cooling.45 Service Information.48 Parking Lock.48 CarWash.48 Transmission Oil.48 Identifying the Transmission .49 Service Functions .50 Initial Print Date: 05/08 Revision Date: Subject Page Possible Fault Messages.52 High Transmission Oil Temperature .52 Internal Transmission Faults.53 Faults Related to Implausible Readings.56 Subject Page M Double-Clutch Transmission with Drivelogic (M DCT Drivelogic) Model: 4 th Generation M3 Production: From Start of Production After completion of this module you will be able to: • Describe the operation of the M Double-Clutch Transmission with Drivelogic. • Identify the Components of the M Double-Clutch Transmission with Drivelogic. • Diagnose the operation of the M Double-Clutch Transmission with Drivelogic. 4 M DCT Drivelogic Introduction BMW has introduced the new generation of sequential transmissions. The M Double- Clutch Transmission with Drivelogic (M DKG) GS7D36SG is available as an option on the entire E9x M3 series and is referred to as M DCT Drivelogic. The M double-clutch transmission combines the benefits of a sequential M transmission with that of an automatic. Like the SMG, it can be used in automatic mode "Drive" and in manual mode "Sequential". There are 5 Drivelogic programs in automatic “Drive” mode and 6 Drivelogic programs in “Sequential” mode. In sequential mode shifting can either be done with the new electronic sports shift lever, exclusive to the BMW M3, or with paddle shifters on the steering wheel. The main characteristic of this system is that there is no longer an interruption in driving force during the shifting operation. Shifting is controlled by the M DCT electronics and executed by the M DCT hydraulic components. These are combined into one mechatronics module and integrated into the transmission. The M DCT has a dedicated system to directly lubricate all of the relevant transmission components. The transmission oil temperature is regulated by a special two stage cooling system. An electric automatic parking lock has been integrated into the system. Selection of the driving programs and gears are controlled using the (M GWS) electric gear selector switch. Different driving modes and settings can be selected through the controller and the fifth settings menu of the CID (option dependent). M3 vehicle with the new Getrag DKG GS7D36SG double-clutch transmission (M DCT) jr r ■* KA: / 5 M DCT Drivelogic Special Features GS7D36SG M double-clutch transmission features: • Hydraulically operated double (wet) clutches • Integrated mechatronics module, that consists of the M DCT electronics and the M DCT hydraulic components • Internal direct lubrication of key transmission areas and components • Special two-stage oil cooling system • New M DCT electronic gear selector switch M GWS • Automatic parking lock mechanism • Drive shaft length has been adapted (shortened) to fit the M DCT transmission • Fully variable M limited-slip differential with a modified gear ratio of 3.154 (without M DCT 3.846) and modified housing cover M DCT Internal Structure 6 M DCT Drivelogic M DCT Applications Transmission Model Engine/torque Transmittable torque rating E90 M3 GS7D36SG E92 M3 S65B4000 400 Nm 520 Nm E93 M3 SMG/M DCT History Series Model Engine Predecessor manual transmission Basic transmission Introduced E36 M3 S50B32 1st generation Sequential M transmission Not US GS6S420BG 10/1996 E46 M3 S54B32O0 2nd generation Sequential M transmission GS6S420BG 03/2001 06/2003 E85 Z4 M54B25/30 Sequential manual transmission GS6S37BZ 04/2003 E6X 525i, 530i, 530i M54B25/30 N52B3000 Sequential manual transmission GS6S37BZ 09/2003 E6X 545i, 645Ci 550i, 650i N62B44O0 N62B4801 Sequential manual transmission GS6S53BZ 09/2003 E6X M5/M6 S85B5000 3rd generation Sequential M transmission GS7S47BG 09/2005 7 M DCT Drivelogic Principle of Operation The M DCT consists of two sub-transmissions, each with its own clutch. Clutch 1 with sub-transmission 1 and clutch 2 with sub-transmission 2. Sub-transmission 1 consists of the gears 1, 3, 5, 7 and Reverse while sub-transmission 2 consists of gears 2, 4 and 6. This means that the your next gear is always pre-selected in the other sub-transmission, regardless of whether you are shifting up or down (with the exception of "R"). For example, while still in the acceleration phase of the currently selected gear, if on sub¬ transmission 1 the next logical gear on sub-transmission 2 is engaged in advance, in a process similar to the Shift Overlap function of an automatic transmission. Precise control of the clutches when upshifting will allow the driving force to be transferred very quickly and smoothly from sub-transmission 1 to sub-transmission 2 without an interruption in driving power. This results in significant benefits not only for the available driving force but also in terms of shift comfort. By combining the seamless driving force and comfort of the automatic with the direct connection to the engine as a manual, M DCT provides the benefits of both transmissions. Simplified drawing of the M DCT functional principle Index Explanation Index Explanation A Engine S65 1 Clutch 1 B Double-clutch transmission 2 Sub-transmission 1 C Live axle 3 Clutch 2 4 Sub-transmission 2 8 M DCT Drivelogic Comparison of the M DCT to the Manual and SMG Diagram showing the driving force of one shift event of M DCT compared to SMG and manual transmissions Index Explanation Index Explanation 1 Driving force 4 Manual transmission 2 Double-clutch transmission (M DCT) t Time (one shift event) 3 Automated transmission (SMG) Note: Smooth gear changing without loss of driving force becomes clear when compared to the previous manual and SMG transmission. 9 M DCT Drivelogic Technical Data A 7 speed manual transmission with wet double-clutch, parking lock, integrated mechatronics module and sport gear ratio. Description Unit of Measurement Specified torque [Nm] 520 Maximum engine speed [rpm] 9000 Dry weight without dual mass flywheel [kg] 77 Transmission ratio [:1] Ratio 1st gear: 4.780 2nd gear: 3.056 3rd gear: 2.153 4th gear: 1.678 5th gear: 1.390 6th gear: 1.203 7th gear: 1.000 Reverse gear: 4.454 Shifting options E9x M3: R-N-D/S with selectable Drivelogic program Control Electrohydraulic Full oil capacity with transmission oil cooler (liter) 9 Oil grade: special new M DCT long-term oil BMW designation DCTF-1 10 M DCT Drivelogic System Overview. The components of the 2-stage transmission oil cooling system are built into the left side of the transmission. External left side view of the M DCT transmission The mechatronics module is integrated into the transmission on the right side. The oil lines lead to the oil to air heat exchanger (coming from the left side of the transmission). External right side view of the M DCT transmission The electronic M DCT transmission control is networked with the M gear selector switch and the interfaces to the E9x M3 vehicle electrical system. The E9x-M3 vehicle electrical system has been expanded to include the M double clutch transmission. 11 M DCT Drivelogic M DCT System Circuit Diagram 12 M DCT Drivelogic M DCT System Circuit Diagram Legend Index Explanation Index Explanation 1 DSC control unit (Dynamic Stability Control) 10 Door contact switch 2 Auxiliary water pump 11 Footwell module 3 M DCT electronics (integrated into the Mechatronics module) 12 M gear selector switch (M GWS) 4 DME/ECM (Digital Engine Electronics) 13 Parking lock electromagnet 5 Instrument cluster 14 Brake light switch 6 CAS control unit (Car Access System) 15 Accelerator pedal module 7 Steering column switch cluster 16 Drivelogic program selector button 8 Diagnostics interface 17 DSC sensor unit 9 Junction box electronics 13 M DCT Drivelogic E9x M3 M DCT System Circuit Bus Overview and Terminal Status o O LU H O Q CO 5 o o m ::S CO LL ■ CM o o o *> ^ or o o o op mo o o X CM 0. CO < SE m co X CM o 2 CO z _i O LU co co N CO CO O o CO Q LU • • • • CT> m I X CD CO CO o CO o o CD o o -t—' o L. 3 CO 3 m Q CO m to 3 CD < O = o z z z < z < < CO o < o 1 o 1 o hi o 1 Q * £ 0- LL O O o o. O LU CO X ^r 0. I- CD CO CO 2 _ CD *1 < tr Li. s CO LL CM O m < LL CD O X 'xT CO cr 14 M DCT Drivelogic Index Explanation Index Explanation ACSM Advanced Crash and Safety Management (E93 only) JB Junction box ASP Outside mirrors KOMBI Instrument cluster CA Comfort Access LLS Idle speed actuator CAS3 Car Access System 3rd generation LWS Steering angle sensor CCC Car Communication Computer MW- SEN Microwave sensors (E93 only) CDC (Compact) CD changer MRS5 Multiple restraint system, 5th generation (E90 and E92 only) CID Central information display OC3 Seat occupancy detector mat (US only) DCT M DCT electronics (integrated into the transmission) PDC Park distance control CON Controller QLT Quality, level, temperature oil sensor CTM Convertible roof module (E93 only) RAD Radio2 DME Digital motor electronics RLS Rain light sensor DSC Dynamic Stability Control ROC Rollover controller (E93 only) DSC- SEN DSC sensor SBFA Switch block, driver's door EDC-K Continuous Electronic Damping Control SBX High High-level interface box EDR Throttle valve actuator motor SDARS Satellite tuner (US only) EKP- SG Electric fuel pump control unit SINE Emergency power siren with integrated tilt alarm sensor FLA High beam assistant SMBF Passenger's seat module FRM Footwell module SMC Stepper motor controller FS MOST direct access SMFA Driver's seat module FZD Roof function center SZL Steering column switch cluster GBBF Seat belt extender controller, front passenger (E92 only) TAGE Outside door handle electronics GBFA Seat belt extender controller, driver (E92 only) TCU Telematics Control Unit GWS M gear selector switch TOP- HiFi Top-HiFi amplifier IBS Intelligent battery sensor USIS Ultrasonic passenger-compartment sensor (E90/E92 only) IHKA Integrated automatic heating/air conditioning system 15 M DCT Drivelogic Operation and Power Flow Index Explanation Index Explanation 1 Central input shaft with clutch input 6 Countershaft 2 Clutch 1 7 Constant gears 3 Clutch 2 8 Output shaft 4 Inner input shaft 2 9 Sliding clutches 5 Inner input shaft 1 10 Parking lock Operation The driving force is guided into the transmission by a central input shaft (1) through wet clutches 1 and 2, which are integrated into the transmission. Clutch 1 (2) transmits the power to inner input shaft 1 (5). Clutch 2 (3) transmits the power to inner input shaft 2 (4). The torque is then transferred to the output shaft (8) via the countershaft (6). The constant gears (7) are always engaged regardless of the gear selected. The countershaft and the output shaft are also always engaged. The respective gear pairs are selected via the sliding clutches (9). The 7th gear is the direct gear, the sliding clutch connects inner input shaft 1 directly to the output shaft. The parking lock (10) is located directly on the output shaft. 16 M DCT Drivelogic Power Flow M DCT "Neutral 1st gear power flow 2nd gear power flow 17 M DCT Drivelogic 3rd gear power flow 4th gear power flow 5th gear power flow -4 h 4 h H- iT R -- I u IT u I 18 M DCT Drivelogic 6th gear power flow 7th gear power flow Reverse gear power flow 19 M DCT Drivelogic Shifting Operation From 1st to 2nd Gear The following is a diagram demonstrating the shifting operation from 1st to 2nd gear with regulated transmission of the driving force between clutch 1 and clutch 2. 2nd gear is already pre-selected, while the driver accelerates in first gear (not shown). During the first phase, clutch 2 begins to engage as clutch 1 begins to disengage. M DCT power flow route 1 st gear The greater portion of the driving force is still being transferred by clutch 1. The pressure on clutch 1 is still significantly higher than the increasing pressure on clutch 2. M DCT gear shift from 1 st to 2nd gear, first phase 20 M DCT Drivelogic During the second phase, the driving force is distributed proportionally to clutch 2, which is engaging and clutch 1 which is disengaging. In this diagram both clutches have nearly the same pressure. M DCT gear shift from 1 st to 2nd gear, second phase During the 3rd phase, clutch 2 carries the greater portion of the driving force, while clutch 1 disengages further. The pressure on clutch 2 is now significantly higher than the decreasing pressure on clutch 1. M DCT gear shift from 1 st to 2nd gear, third phase 21 M DCT Drivelogic The gear shift from 1 st to 2nd gear is complete, 3rd gear can now be pre-selected. The same process applies for further gear shifts. The process runs in the reverse order when downshifting. 2nd gear power flow 22 M DCT Drivelogic System Components Housing Structure The GS7D36SG transmission housing consists of three main components: • The transmission housing • The intermediate Case • The rear housing cover The main opening at the front is closed with the clutch cover. The case openings on the right side are closed with the mechatronics/hydraulic components cover. The lower openings are closed with the oil sump cover and on the left side with the oil filter cover. Index Explanation Index Explanation 1 Transmission housing 5 Sump 2 Cover for the Mechatronics module or hydraulic components cover 6 Oil filter cover 3 Intermediate case 7 Clutch cover 4 Rear housing cover 23 M DCT Drivelogic Internal Structure In the M DCT, driving force is transmitted in gears 1, 3, 5, 7 and R from clutch 1 to inner input shaft 1 and sub-transmission 1. M DCT Sub-transmission 1 In gears 2, 4 and 6 the driving force is transmitted from clutch 2 to inner input shaft 2 and sub-transmission 2. M DCT Sub-transmission 2 Index Explanation Index Explanation 1 Inner input shaft 1 (top) Inner input shaft 2 (bottom) 3 Countershaft 2 Output shaft 4 Clutch 1 (top) Clutch 2 (bottom) 24 M DCT Drivelogic Clutch 1, clutch 2, input shaft 1, input shaft 2, the countershaft and the output shaft form the total gear set of the double-clutch transmission. M DCT sub-transmission 1 and sub-transmission 2 joined together with selector linkage M DCT complete gear set Index Explanation Index Explanation 1 Inner input shaft 2 6 Output shaft 2 Selector linkage 7 Countershaft 3 Intermediate case 8 Lubricating pipe 4 Inner input shaft 1 9 Oil pump (sectional view) 5 Constant 10 External double-clutch housing (Driving force input) 25 M DCT Drivelogic The driving force is transmitted from the dual-mass flywheel over the central input shaft and the external double-clutch housing into the M DCT. The oil pump drive gear is connected at this point to the central input shaft. There are four hydraulically operated selector rods and four sliding clutches, with one selector rod and one sliding clutch for each gear pair 4/6, 2/R, 1/3 and 5/7. Gears 1,2,3 and Reverse are equipped with double taper synchronization and gears 4, 5, 6 and 7 with single taper synchronization. Carbon friction material is used for taper friction lining on all gears. The gear set assembly is mounted on three bearings that are evenly distributed along the length of the transmission shafts. M DCT Double Wet Clutch Assembly (Cut away view of clutch components) 26 M DCT Drivelogic Automatic Parking Lock This is the first time that an integrated automatic parking lock has been used in an M vehicle. When the engine is turned off, there is no mechanical connection between engine and drive wheels (clutches are at zero pressure and disengaged). M DCT parking lock lever, (view from rear right of transmission) M DCT parking lock lever, (cut away view from rear right of transmission) Index Explanation Index Explanation 1 External parking lock lever 2 Inner parking lock lever 27 M DCT Drivelogic There is no parking lock button on the selector lever of the M GWS. The parking lock position is determined by the M DCT electronics. The parking lock is engaged with the use of a parking lock electromagnet. This electromagnet is built into the gear selector switch housing and is activated directly by the M DCT electronics. It transfers its movement (stroke) to a Bowden cable. The parking lock Bowden cable transfers the movement directly to the external parking lock lever on the transmission and then to the inner parking lock lever. M DCT inner structure of the parking lock mechanism Index Explanation Index Explanation 1 Parking lock wheel 4 Pressure cone for operating the locking pawls 2 Parking lock hydraulic pistons and direction of pressure (red arrow) 5 Spring-loaded parking lock pawl 3 Magnet for parking lock sensors Note: The parking lock Bowden cable does not need to be adjusted. 28 M DCT Drivelogic The parking lock disengages hydraulically in the transmission. To engage the parking lock using the electromagnet, the parking lock hydraulic components must be at zero pressure. The parking lock will always be automatically engaged once the engine has been turned off, except in "N". When in "N" the parking lock is engaged: • when vehicle remote control is not in the ignition lock (Comfort Access) • when removing the remote control from the ignition lock • 30 minutes after the engine has been turned off. Note: At the carwash, before stopping the engine you must deliberately shift to "N" and leave the transmitter in the ignition lock. (With Comfort Access it must remain in the car or be inserted in the ignition lock). Emergency Release of Parking Lock In an emergency, the parking lock can be released by operating the emergency release mechanism. This is achieved releasing the mechanical connection between the GWS and M DCT. (See “Service Information”) CAUTION!!! If the parking lock is released the vehicle may roll. Note: The emergency release is described in detail in the Owner's Manual for the vehicle and in the Repair Instructions. 29 M DCT Drivelogic Mechatronics Module The mechatronics module integrated into the M DCT transmission housing consists of the M DCT electronics and the M DCT hydraulic components. The selector rod position sensors are mounted directly on the M DCT electronics. The speed sensors for inner input shafts 1 and 2 are integrated in the upper position sensors. The parking lock sensors are integrated in the second position sensor from the bottom. M DCT Mechatronics Module 30 M DCT Drivelogic M DCT Electronic Components Index Explanation 1 M DCT electronics 2 Integrated parking lock sensors 3 Selector rod position sensors 4 Integrated shaft speed sensors M DCT Hydraulic Components Index Explanation 1 Take up shift valve 2 M DCT hydraulic components 3 Shift cylinders 31 M DCT Drivelogic The eight individual gears are engaged by four hydraulic cylinders and four individual selector rods. The selector rod positions are detected without the need for direct contact with the use of the selector rod position sensors. View of selector rod side of M DCT mechatronics module M DCT mechatronics module with selector rods installed 32 M DCT Drivelogic Sensors and Communication M DCT basic layout with clutches, shafts, M DCT electronics and sensors CO Index Explanation Index Explanation 1 Central input shaft 11 Gear rotation speed sensor for the inner input shaft 2 (Hall) 2 Clutch 1 12 Gear rotation speed sensor with rotation direction detection of inner input shaft 1 (Hall) 3 Clutch 2 13 Clutch oil pressure (Piezo) sensors 4 Inner input shaft 2 14 Oil temperature sensors (NTC) 5 Inner input shaft 1 15 Sliding clutches 6 M DCT electronics 16 Linear position (Hall) sensors 7 Countershaft 17 Parking lock (Hall) sensor (redundant) 8 Constant gear wheel 18 Parking lock 9 Output shaft 19 Power flow input, output and direction 10 Input engine speed (Hall) sensor Note: The engine speed signal is provided from the DME through the PT-CAN to the M DCT electronics. 33 M DCT Drivelogic M DCTTransmission Sensors The following sensors are mounted in the transmission and their signals are sent directly to the M DCT electronics: • Input shaft 1 speed (Hall) sensor monitors rotation and direction of transmission shaft 1. • Input shaft 2 speed (Hall) sensor without rotation direction detection for the transmission shaft 2. • Clutch oil pressure (Piezo) sensors for clutch 1 and 2. • 3 temperature sensors (NTC), one for the ejected clutch oil and two redundant temperature sensors for the M DCT electronics. • 4 linear (Hall) sensors monitor the selector rod position. • 1 double (redundant) parking lock (Hall) sensor. The oil sump temperature is measured using a complex temperature map and checked against the temperature of the clutch oil by the M DCT electronics. Torque Intervention The M DCT mechatronics module sends a torgue reguirement to the engine control module on the PT-CAN in order to achieve a torgue intervention when shifting gear under load or when coasting. This is negative when upshifting so that the engine speed is reduced. When downshifting the torque intervention is positive, in order to increase the engine speed. Gear shifting is supported by the engine control module through this torque intervention strategy. LIN-bus Module There is a LIN-bus connection in the M DCT electronics for redundant communication with the gear selector switch (GWS). 34 M DCT Drivelogic M-Gear Selector Switch (M GWS) The double clutch transmission in the E9x M3 has an M specific gear selector switch. It is operated in a similar way to the one in the E6x M5/M6 with the sequential M transmission (SMG). M DCT M Gear Selector Switch (M GWS) Index Explanation Index Explanation 1 Selector lever 3 Drivelogic program selector button 2 Button to increase the Drivelogic program 4 Button to reduce the Drivelogic program The M GWS consists of the selector lever with indicator, the housing with control module and the external but electrically connected Drivelogic program selector button. 35 M DCT Drivelogic Selector Lever Indicator and Function The shift pattern, driving program, gear selection indicator on the selector lever are all similar to that of the E6x M5/M6 with SMG. The main difference is that the selector lever on the gear selector switch in the E9x M3 no longer snaps into the "N" and "R" positions, instead it only snaps into "R". The M GWS selector lever is self centering as it returns back to its normal starting position on its own, after the driver selects the desired gear. Reverse gear is an exception; because once the shifter lever is moved left and into the "R" position the gear must be manually unselected by the driver. The shift pattern, driving program, gear selection indicator on the selector lever are all displayed in red, depending on the position of the selector lever and driving program selected. The indicator displays the currently selected driving program and the gear selection options. The indicator consists of the locating light that indicates the shift pattern and the function indicator lamp. These are two different red position LEDs that show the currently selected driving program and the gear selection options. The function indicator lamp in the M GWS is controlled by the M DCT electronics. The function indicator lamp is monitored, read back and compared with the required indicator for plausibility. In addition to the PT-CAN connection; there is a LIN-bus connection built in to the M GWS for redundant communication with the M DCT electronics. Selector Lever in the Start Position Except for when in the position "R", the selector lever always returns to the start position. When starting the engine the parking lock is always engaged and the clutches are both disengaged (zero oil pressure). The engine can be turned on regardless of the gear it was in when it was turned off. The selector lever indicator is displayed in red when in the start position. Driving program "D" Drive (automatic gear mode) is selected by briefly pushing the selector lever to the right, causing the M DCT, when in automatic gear mode, to change gears automatically into first (second) gear. The selector lever indicator "D/S" option is also displayed in red to indicate the start position. M GWS selector lever during and after starting the engine 36 M DCT Drivelogic The M GWS one-touch function is pushed to the right once to start automatic gear mode Driving Program "S" (Sequential Mode) By pressing the selector briefly to the right a second time the M DCT changes from automatic to sequential mode "S". If, while driving in 2nd to 6th gear, the driving program "S" is selected, then in addition to the "D/S", the "+" and will light up in red. The driver can now change to the next higher gear by briefly moving the selector lever backwards a notch or downshift by moving it briefly forward a notch. A desired gear shift may only be executed within the range of permissible engine speeds. There is no automatic up-shifting once the maximum speed has been reached. In automatic “Drive” mode, as soon as the selec¬ tor lever is moved towards the front, the back or a shift paddle on the steering wheel is activated, the M DCT switches to sequential mode. The M GWS pushed to the right twice to start sequential mode. 37 M DCT Drivelogic In sequential mode there are two additional indicators, one for 1 st gear and one for 7th gear. Downshifting In 1 st gear the is no longer lit up in red, because it is no longer possible to downshift. M GWS in sequential mode, upshifting. Upshifting In 7th gear the "+" is no longer lit up in red, because it is not possible to shift higher. M GWS in sequential mode, downshifting. 38 M DCT Drivelogic Gear Selection "N" Neutral The driver can consciously shift into neutral by pressing the selector lever briefly to the left. "N" will light up in red in the selector lever indicator. This is useful for example in a carwash. The M GWS one-touch function is pushed to the left to shift into neutral. Note: At the car wash, before stopping the engine you must deliberately shift to "N" and leave the transmitter in the ignition lock. (With Comfort Access it must remain in the car or be inserted in the ignition lock). Gear Selection "R" Reverse Gear When in this shift position, reverse gear is selected and the "R" will light up in red. If the engine is turned on while the selector lever position is in "R", the start position of the selector lever will flash red at one second intervals. This signals the driver that the Reverse gear is selected and that he must first return the shift lever to the (self centering) start position, in order to select a new gear or driving program. M GWS Reverse gear position 39 M DCT Drivelogic Drivelogic Program Selection The controls and indicators in the vehicle are similar to the SMG II and SMG III vehicles. The Drivelogic program switch gives you the option of choosing between six driving programs in sequential mode and five driving programs in drive mode. The selected driving program is displayed as a bar chart in the instrument cluster. In sequential mode the switching speed is affected which has a direct effect on the shifting firmness. The sixth shift program can only be selected when the DSC function is de-activated. In drive mode the shift points and the shifting speed are affected, as a higher shift program means a higher gear changeover speed and thus a higher shifting speed. In addition to the Drivelogic program selection, the shift time is also dependent on the position of the accelerator pedal and how quickly it is operated. 40 M DCT Drivelogic M GWS Shifter Sensor System The selector lever position is detected with the use of Hall sensors. These are available mostly in groups of 2 or 4. In total there are 14 Hall sensors. This ensures maximum fault handling and diagnostic capacity. M GWS arrangement of Hall sensors for determining the selector lever position Index Explanation 1 Gear selection "R" reverse gear 2 downshifting 3 Driving program "D/S" automatic or sequential mode 4 Selector lever start position 5 "+" upshifting 6 Gear selection "N" neutral C 1 Q ] Ml Ml rp pn £□ CP B n— | rr ~1 rf 1 EL rp cp itd ltd B Interface to the M DCT The selector lever position is transmitted through the PT-CAN and a LIN-bus. In the event of a failure of one of the two communication lines, a signal is still sent to the M DCT. The M GWS wake up is done by a high signal on the PT-CAN wake-up line. The M GWS itself has no active wake-up capabilities. The indicator on the selector lever is active as soon as bus communication is active on the PT-CAN or the LIN-bus. Interface From To Message PT-CAN M GWS M DCT Operation of the selector lever PT-CAN M DCT M GWS Show gearbox data LIN-bus M GWS M DCT Operation of the selector lever LIN-bus M DCT M GWS Show gearbox data 41 M DCT Drivelogic Transmission Oil System Pressure and Flow Regulation A gear driven pump is integrated into the M DCT transmission and is responsible for circulating the oil through the unit. The transmission oil pump is driven by a gear on the drive input side which connects to the center input shaft of the M DCT. The engine must be running for the oil pressure to build up. M DCT oil pump without sealing cover Index Explanation Index Explanation 1 Oil pump gears 4 M DCT gear oil pump housing 2 Oil pressure pipe to the hydraulic control unit 5 Drive gear 3 Oil return pipe 6 Oil intake side (oil supply) Note: Because transmission oil pressure cannot be built up when the engine is not running, a M DCT vehicle should never be push-started. 42 M DCT Drivelogic The operating pressure is determined by a regulated control valve depending on the load and the function selected. The system is protected by a pressure relief valve in the pump. The pressure is regulated according to the following priorities: • Clutch engagement and disengagement • Gearchanges • Cooling the clutch • Lubrication cycle. The transmission oil pressure should be high enough to: • Be able to engage the clutches reliably. • Allow the gear selector rod to reach the required control shift speed. The normal operating pressure range is between 5 and 20 bar, although it can be increased up to 30 bar if necessary to maintain proper transmission operation. At maximum shifting force, the pressure required to operate the selector rods can be the same as the operating pressure. The pressure required for the clutches is limited to 18 bar. The clutch is regulated by an integrated proportioning valve. Overpressure protection is ensured by a pressure relief valve. Clutch cooling is map-controlled using a proportional valve. Note: The M DCT Drivelogic transmission has a new long-term rated oil, DCTF-1, which requires no replacement unless specified for a repair. 43 M DCT Drivelogic M DCT gear set with lubricating pipe Index Explanation Index Explanation 1 Inner input shaft 2 6 Output shaft 2 Selector linkage 7 Countershaft 3 Intermediate case 8 Lubricating pipe 4 Inner input shaft 1 9 Oil pump (sectional view) 5 Constant 10 Dual clutch housing and oil pump drive gear Oil-spray Lubrication The M DCT transmission applies direct lubrication with the use of an internal lubricating pipe fitted with individual nozzles and aimed at pre-determined areas of the gear train. M DCT gear set lubricating pipe Hydraulic Emergency Operation If there is a fault, the M DCT has a hydraulic emergency operation mode. For example, if the power supply fails, the active gear remains selected and the active clutch engaged. This makes it possible to drive to the next possible vehicle storage location or parking area. The clutch disengages only when the engine speed goes below the minimum rpm and then it remains disengaged. 44 M DCT Drivelogic Two-stage Transmission Oil Cooling M DCTTransmission Cutaway Display (View of Two Stage Transmission Oil Cooling System) Oil to Coolant Cooling The M DCT transmission oil cooling circuit consists of an oil to coolant heat exchanger, an oil to air heat exchanger, a transmission oil thermostat and the relevant cooler lines. The oil to coolant heat exchanger is part of the engine cooling system of the vehicle. Mounted on the transmission housing it allows the oil to flow directly from the M DCT into the oil to coolant heat exchanger. Engine coolant directly from the cylinder head is pumped to the oil to coolant heat exchanger by the auxiliary coolant pump and then circulated back to the engine cooling system. The M DCT electronics can switch on the auxiliary coolant pump as needed. The auxiliary coolant pump, which is normally used to enhance the efficiency of the heating system, is used here to warm up the M DCT transmission. This design shortens the warm up time and maintains the transmission oil in the desired operating temperature range. After the oil to coolant heat exchanger has brought the temperature of the transmission oil to above 95°C/203°F, an oil thermostat directs the transmission oil to the oil to air heat exchanger located at the front of the vehicle. 45 M DCT Drivelogic M DCTTwo Stage Transmission Oil Cooling (view of system components) Index Explanation Index Explanation 1 Oil to air heat exchanger 4 Transmission oil supply and return flow to the oil to coolant heat exchanger 2 Oil to coolant heat exchanger 5 Transmission oil supply and return flow to the oil to air heat exchanger 3 Coolant supply and return flow to the oil to coolant heat exchanger 6 Oil thermostat for oil to air cooling 46 M DCT Drivelogic Oil to Air Cooling An oil thermostat is used to direct the oil flow through the oil to air heat exchanger. There is a by-pass passage in bore of the oil thermostat which is located between the supply and the return flow from the oil to air heat exchanger. Oil “Warm-up” When the oil temperature is below 95°C (203°F), the oil by-pass passage in the thermostat is open. Oil flows out of the oil to coolant heat exchanger directly through the oil thermostat and back into the M DOT. This by-passes the oil to air heat exchanger completely and allows the system to reach operating temperature. M DCT oil thermostat at an oil temperature below 95 °C ■ Oil “Cooling” When the oil temperature is above 95°C (203°F), the oil by-pass passage is closed by a thermal control valve in the oil thermostat. The hot oil is now directed to the oil to air heat exchanger for cooling before it flows back into the M DCT. This design enhances the overall thermal efficiency of the oil to air heat exchanger while maintaining the proper transmission oil operating temperature. M DCT oil thermostat at an oil temperature above 95 °C Note: In the event that the transmission oil temperature increases above the allowable limit, the engine torque is reduced and the maximum rpm is limited as a safety measure. 47 M DCT Drivelogic Service Information Parking Lock The parking lock Bowden cable does not need to be adjusted. Parking Lock Emergency Release To manually release the electrical parking lock: • Removed the shifter boot is to gain access to the release mechanism. • Using the screw driver from the vehicle tool kit or (similar tool), unclip the release mechanism cover. • Insert the screw driver/tool in the release mechanism to the left of the shifter. • Move the release toward the rear of the vehicle and observe the shifter indicator light illuminate the “N” position. CAUTION!!! The vehicle will roll with the emergency parking lock released. The emergency release is described in detail in the vehicle’s Owner's Manual and in the Repair Instructions. Note: Releasing the parking lock using the emergency release can cause a fault code entry in the M DCT electronics. CarWash At the carwash, before stopping the engine, you must actively switch to "N". Vehicles with “Comfort Access” must leave the transmitter in the vehicle or in the ignition lock. Transmission Oil M DCT Oil Type "BMW DCTF-1" is a long-term oil that was especially designed for the M DCT transmission. Oil Change Interval The M DCT Drivelogic transmission has a new long-term rated oil, DCTF-1, which reguires no replacement unless specified for a repair. (See SI B 00 01 07) 48 M DCT Drivelogic Transmission Oil Cooling In the event that the transmission oil temperature increases above the allowable limit, the engine torque is reduced and the maximum rpm is limited as a safety measure. CAUTION!!! Because system oil pressure cannot be built up when the engine is not running, push starting a M DCT vehicle is not recommended. Identifying the Transmission This double-clutch transmission has an "S" as the seventh character of its transmission designation, which stands for Sport gear ratio (e.g. GS7D36"S"G). Transmission Type Plate ® ( 2 ) ffl C. )® © 28.00-X: L GS7D36SG vXXX.XJ lllllllllllllllllllll xxxxxx -01 Code: BIC — KXXX.XX ) lllllllllllllllllll j © Index Explanation 1 Transmission designation in accordance with BMW GS 90007 2 Subassembly 3 BMW item number 4 Revision index 5 Transmission code 6 GETRAG item number 49 M DCT Drivelogic Service Functions The following Service Functions are currently available on the BMW diagnostic equipment (GT1 Tester) for the M DCT transmission: • Clutch adaptation • Transmission adaptation • Oil calibration • Parking lock hook test Note: Depending on the version of diagnostic software used, some Service Functions may not be available. Clutch Adaptation The Clutch adaptation teaches the clutch engagement points for each clutch and saves the data in the M DCT control module. Clutch Adaptation should always be performed after the following service procedures • Clutch replacement • Mechatronic module replacement • Replacing the speed sensor or oil temperature sensor • Replacing the oil pump • If any work was done to the internal transmission components Transmission Adaptation The transmission adaptation service function ensures that the neutral positions and mechanical end stops will be learned and saved in the M DCT transmission control module. Transmission adaptation should always be performed after the following service procedures: • After replacement of the mechatronic module 50 M DCT Drivelogic Oil Calibration This service function relates to the control and monitoring of the M DCT transmission oil temperature, which governs the function of specific components and relevant transmission controls. The Oil Calibration should always be performed after the following service procedures: • Clutch replacement • Mechatronic module replacement • Replacing the speed sensor or oil temperature sensor • Replacing the oil pump • If any work was done to the internal transmission components • After a change or repair of the parking lock linkage • If any work was done to the Gear Selector Always exercise caution and follow proper safety procedures. Transmission oil can exceed the temperature 40°C /104°F. Parking Lock Hook Test This service function tests and operates the parking lock hook with the Gear Selector. The parking lock will be selected hydraulically and must be held in place with the parking lock hook. The Parking Lock Hook Test should always be performed after the following service procedures: • Clutch replacement • Mechatronic module replacement • Replacing the speed sensor or oil temperature sensor • Replacing the oil pump • If any work was done to the internal transmission components • After a change or repair of the parking lock linkage • If any work was done to the Gear Selector • Replacing the complete transmission 51 M DCT Drivelogic Possible Fault Messages The following is an overview of possible fault indicators and the associated Check Control Messages. High Transmission Oil Temperature There are two transmission oil temperature messages which generate appropriate responses: 1. When the transmission oil temperature has overheated (oil sump or clutch) and in the case of certain valve faults. Check Control Message 104 Transmission Temperature. Drive carefully! Reaction: The engine torque is reduced. The shift program is adjusted to lower the temperature. Information in the CID Transmission Temperature Risk of transmission overheating. Shift program with restricted vehicle operation active. Avoid high engine loads. Action: Check driving profile and environmental conditions. Look for a possible fault in the transmission oil cooling system. It may be necessary to check the M DCT using BMW Diagnostic Equipment. 2. When the transmission oil temperature has overheated (oil sump or clutch). Check Control Message 105 Information in the CID Transmission Temperature Drive Transmission has Overheated Stop and shift the transmission position into “P” after it has cooled down, drive on carefully. If overheating re-occurs, visit your nearest BMW Service Center to check this. Reaction: The engine torque is greatly reduced. The current gear remains engaged until you reach a standstill. After reaching a standstill, the parking lock is engaged. Action: Look for a fault in the transmission oil cooling system. Check the M DCT transmission using BMW Diagnostic Equipment. 52 M DCT Drivelogic Internal Transmission Faults (Implausible sensor, valve readings and limit value infringements) Check Control Message 368 may be displayed: • If Implausible temperature values or a temporary pressure limit reading of negative pressure or overpressure. • In the event of an electrical defect with the temperature sensors (wire open circuit or short circuit). • When Implausible input from (engine) speed or sub-transmission speed. Check Control Message 368 Information in the CID Transmission fault. Transmission Fault The journey can be continued. Visit your nearest BMW Service Center to check this. Reaction: None. Action: Check the M DCT using BMW Diagnostic Equipment. 53 M DCT Drivelogic Check Control Message 365 may display: • In the event that the temperature sensors and pressure sensors do not detect cooling oil flow, for example, because a valve has jammed while other valve problems or sensor failure are being experienced. • With persistent pressure limit infringements. • In the event of mechanical selector rod problems or sensor faults (position sensors for the selector rods). • Because the temperature measured in the M DCT electronics does not match the value range of the other temperature sensors. Check Control Message 365 Information in the CID Faulty transmission. Drive carefully © Transmission Fault Emergency program activated. Visit your nearest BMW Service Center to check this. Reaction: A clutch may be blocked. Clutch 1 (the gears R, 1 (the gears 2, 4 and 6 can no longer be selected). , 3, 5 and 7 can no longer be selected) or clutch 2 Individual or gear pairs are blocked. Action: Check the M DCT using BMW Diagnostic Equipment. 54 M DCT Drivelogic Check Control Message 254 may display: • In the event of a failure of certain control valves. Check Control Message 254 Information in the CID Faulty transmission. Drive carefully Transmission Fault Reduced acceleration may occur. Visit your nearest BMW Service Center to check this. Reaction: The journey can be continued with limited engine performance. Action: Check the M DCT using BMW Diagnostics Equipment. Check Control Message 307 may display: • If the transmission oil temperature increases or overheats and the ratio of the oil sump temperature to clutch temperature is implausible. • In the event of PT-CAN failure or a communication fault. • When there is accelerator pedal fault message or implausible reading. Check Control Message 307 Information in the CID Faulty transmission. Drive carefully Transmission Fault Some functions may be faulty. Gear can be engaged without braking. Drive carefully! Visit your nearest BMW Service to check this. Reaction: Only 2nd and R gears are available. Action: Check the M DCT using BMW Diagnostic Equipment. 55 M DCT Drivelogic Faults Related to Implausible Readings (with the brakes, parking lock or gear selector switch [GWS]) Check Control Message 250 may display: • When there is a fault with the brake light switch or implausible reading. • In the event of unrealistic driving conditions, such as excessive deceleration without brake operation. • lengthy simultaneous accelerator pedal and brake pedal operation, for more than 1 min. Check Control Message 250 Information in the CID Important! Gear can be It is still necessary to step on the brakes before shifting into gear. The journey can be continued. Turn off the engine before leaving the vehicle. Have it checked by your BMW Service Center as soon as possible. Reaction: If the brake light switch is defective, starting the engine may not be possible. Action: Check driving profile, vehicle may need to be checked using BMW Diagnostic Equipment. Check Control Message 302 may display: • If the parking lock cannot be engaged electromechanically. Check Control Message 302 Information in the CID Transmission position “P” is not selected. 4HIH+ Transmission Position Position “P” is not selected. Caution! The vehicle may roll in this condition. Reaction: Inoperative parking lock function, the vehicle must be secured with the hand brake/parking brake when switching off the engine. Action: Check for proper functioning parking lock electromagnet in the M GWS. Check the routing path of the Bowden cable between the parking lock electromagnet in the M GWS and the parking lock lever on the M DCT. Check for proper functioning parking lock lever on the M DCT. Check M DCT using BMW Diagnostic Equipment. 56 M DCT Drivelogic Check Control Message 175 may display: • In the event of a parking lock sensor fault. Check Control Message 175 Information in the CID Transmission position “P” is faulty. Faulty Transmission Transmission position “P” may not be possible. When at a standstill activate the parking brake. Visit your nearest BMW Service Center to check this. Reaction: Parking lock may not be selected. Action: Check if the parking lock is selected. Check the M DCT using BMW Diagnostic Equipment. Check Control Message 541 may display: • In the event that the parking lock cannot be disengaged hydraulically. Check Control Message 541 Information in the CID Transmission position “P” is faulty.