Abstract: A transmission (G) for a motor vehicle. The transmission (G) has a drive shaft (GW1), an output shaft (GW2-A), first, second, third and fourth planetary gearsets (P1, P2, P3, P4) and first, second, third, fourth, fifth and sixth shift elements (B1, K1, K2, B2, K3, K4). Selective actuation of the six shift elements (B1, K1, K2, B2, K3, K4) implements eleven forward gears and two reverse gears between the drive shaft (GW1) and the output shaft (GW2-A). A drive train for a motor vehicle having such a transmission (G) is also disclosed.

Abstract: A drive arrangement having combustion and electric engines and a transmission with input shafts (4, 5). The drive arrangement includes first and second planetary gearsets (PG1, PG2), each having a carrier, and sun and ring gears. One element of gearset (PG1) is rotationally fixed to shaft (5). Another element of gearset (PG1) is fixed to a housing. One element of gearset (PG2) is connected to the electric engine. Another element of gearset (PG2) is rotationally fixable to shaft (4). When a first switching element is engaged, a further element of gearset (PG2) is fixed to the housing. When a second switching element is engaged, the further element of gearset (PG2) is rotationally fixed to shaft (5), to which the element of gearset (PG1) is also rotationally fixed. When a third switching element is engaged, the further element of gearset (PG2) is rotationally fixed to a further element of gearset (PG1).

Abstract: A transmission having five planetary gearsets and seven shift elements for achieving various ratios between drive and output shafts. A forward gearset has three shafts. Two intermediate gearsets have four shafts. Two main gearsets have at least four shafts. Depending on the shift states of the second and third shift elements, the forward gearset can generate two rotational speeds at the output side, which transfer from a forward gearset shaft to an intermediate gearset shaft. Depending on the shift states of the first to fifth shift elements, the intermediate gearset can generate eight rotational speeds at the output side, which pass from another intermediate gearset shaft to a main gearset shaft. Depending on the shift states of the seven shift elements, the main gearset can generate up to fourteen forward and two reverse gears at the output side, which are transferred by another main gearset shaft to the output shaft.

Abstract: A transmission (G) for a motor vehicle which has a transmission input (GW1-A), a transmission output (GW2-A), five planetary gear sets (P1, P2, P3, P4, P5) and six shifting elements (B1, B2, K1, K2, K3, B3). By selectively actuating the six shifting elements (B1, B2, K1, K2, K3, B3), ten forward gears and one reverse gear can be selected between the transmission input (GW1-A) and the transmission output (GW2-A). Further, the drive train is typically incorporated into a motor vehicle.

Abstract: A method for tractive force interruption-free shifting of a hybrid drive comprising combustion engine (21), electric engine (2), main gear (HG) comprising two parallel connected partial gears, output shaft (3), and first and second planetary gears (PG1, PG2). Each partial gear having either first hollow gear input shaft (4) or second solid gear input shaft (5). The first planetary gear (PG1) is connected to the main gear (HG) as the range group, with main gear (HG) comprising at least five gear planes (R1-R5) and at least four shifting elements (S1-S4). The electric engine (2) is connected to carrier (ST1) of the range group (PG1) and the output shaft (3) so that the electric engine (2) supports tractive force while the range group (PG1) is shifted, and the fifth gear plane (R5) is connected to carrier (ST1) of range group (PG1) and thus can be shifted under load.

Abstract: A transmission for a hybrid drive having transmission input and output shafts, a further transmission input shaft and an electric machine, which drives the further transmission input shaft. A main transmission has first and second partial transmissions with a plurality of gear planes and a pair of concentric fourth shafts, and shift elements. A range group can couple the main transmission and has a planetary gearset with three transmission elements. The first element can couple either of the transmission input shafts via the shift elements. The second element is connected to the transmission output shaft and can couple a gear plane of the partial transmissions via the shift elements. The third transmission element can be fixed to the housing or blocked against the first or second transmission element.

Abstract: A method for operating a drive-train having two drives, a drive output, a manual transmission having a planetary gearset and two independent load paths. From the first and second drives, torque can pass to the output via respective first and second paths. The two drives can be coupled to respective elements of the planetary gearset, and the transmission is coupled to a web gear. To start, when torque passes to the output first via a second path gear and thereafter via a first path gear whose ratio is different from that of the second path gear, then before changing from the second path to the first path, the torque passed at the web gear is changed such that if torque desired by the driver is unchanged, despite the change from the second to the first path, the torque acting at the output remains constant.

Abstract: A gear unit (1) for a motor vehicle with a main gear (HG) comprising two parallel connected partial gears, an output shaft (3), and two planetary gears (PG1, PG2) each having a carrier (ST1, ST2), a sun gear (SR1, SR2) and a ring gear (HR1, HR2). A first planetary gear (PG1) is connected to the main gear (HG), with the main gear (HG) comprising first (R1), second (R2), third (R3), fourth (R4) and fifth (R5) gear planes and first (Si), second (S2), third (S3) and fourth (S4) shifting element. A second planetary gear (PG2) is provided between an electric engine (2) and a first gear input shaft (4) of the main gear (HG). The fourth shifting element (S4), in a second shifting position (H), connects the fifth gear plane (R5) and the carrier (ST1) of the range group and thus the range group is able to be shifted under load.

Abstract: A hybrid drive arrangement including combustion engine (7), an electric machine (6) and a transmission with input shafts (4, 5) and an output shaft. The drive arrangement has a planetary gearset (PG) with a first element that can be rotationally engaged with shaft (4), and a second element that can be fixed to the housing or machine (6). Shift element (K) couples a third element of gearset (PG) to the housing or to rotationally engage with machine (6). Shift element (J) couples the third element of gearset (PG) with engine (7). Shift elements (C, D) respectively couple the shafts (4, 5) with engine (7) and form a double shift element (S1), whose actuator (10) extends through a section (11) of a drive shaft (12) of the engine (7), which encompasses, on the outside, shift element (S1). Section (11) of shaft (12) of engine (7) extends to shift element (J).

Abstract: A transmission having a main transmission and a splitter group, and including at least four spur gear planes formed with a countershaft and at least five shifting elements for engaging at least six gears between the transmission input and output shafts. When shifting between gears with the highest and the second-highest gear ratios, a shift occurs in the shifting elements associated with the splitter group but not in the shifting elements associated with the main transmission, whereas when shifting between gears with the lowest and second-lowest gear ratios, a shift occurs in the shifting elements associated with the main transmission but not in the shifting elements associated with the splitter group. An electric machine can be connected by a gearset, and depending on its shift position, the gearset acts as a pre-transmission ratio for the electric machine or as a superimposition transmission.

Abstract: A method for starting a motor vehicle having a hybrid drive including an internal combustion engine and an electric machine (EM). The motor vehicle has a transmission arrangement with which starting can be carried out electro-dynamically or purely electrically. According to the method, a driving resistance of the motor vehicle and a storage condition of an electrical energy storage device of the electric machine (EM) are evaluated and, depending on the evaluated driving resistance and the evaluated storage condition, selecting a desired starting strategy.

Abstract: A manual transmission for a hybrid drive of a motor vehicle having transmission input shafts (1, 3) and an output shaft (2), an electric machine, and a plurality of shifting elements. The main transmission has a fourth shaft (4) and a plurality of wheel planes. A planetary transmission unit is associated with the electric machine which can be coupled to the main transmission. The planetary transmission unit has first, second and third transmission components. The plurality of shifting elements are selectively engageable to produce various gear ratios between input shaft (1) and output shaft (2) and/or shaft (3) and output shaft (2). The fourth shaft (4) is coupleable to an auxiliary power take-off and, in either a standstill or a driving gear, the fourth shaft (4) is in driving connection with shaft (1) and/or shaft (3) by way of one of the wheel planes.

Abstract: A method of operating a vehicle having a hybrid drive, a transmission with shift elements, a drive output with a brake, a main transmission with input shafts, an output shaft and planetary gear sets (PG1, PG2). The main transmission has five gear planes. One shift element can connect a gear plane to an element of gear set (PG1) adjoining the main transmission. Another shift element couples a further element of gear set (PG1) either to the output shaft or a housing. An electric machine is permanently connected to an element of gear set (PG2). If, while driving with a transmission gear engaged, the drive output brake is engaged for a full brake application, a shift element of the transmission is first relieved by the electric machine and/or a brake assigned to one of the input shafts and then subsequently disengaged to decouple the combustion engine from the drive output.

Abstract: A method for compensation of a support torque at a combustion engine and transmission which provide an overlay of combustion engine and electric machine. The combustion engine, the electric machine, and a transmission gearset are connected with each other via a planetary gearset, which is positioned in front of a downstream transmission gearset. The invention concerns a transmission gearset of a three-shaft transmission, each with a transmission input shaft for the electric machine, and for the combustion engine, and an output shaft. For the connection or disconnection of the transmission input shaft of the electric machine while driving, the electric machine is used for the synchronization of the input shaft of the electric machine, and the created support torque at the combustion engine is determined, based on this support torque, to match a combustion engine torque and thus to compensate the support torque.

Abstract: A method of synchronizing the countershaft speed, in the direct gear, for a hybrid application. The transmission (1) comprises a main transmission (HG) comprising two parallel partial transmissions with at least one countershaft (VW), an output shaft (3), and two planetary transmissions (PG1, PG2) each comprising a carrier (ST1, ST2), sun gear (SR1, SR2) and ring gear (HR1, HR2). Each partial transmission has a transmission input shaft (4, 5), with a hollow first input shaft (4) and the solid second input shaft (5). The first planetary transmission (PG1) connects as a range group to the main transmission (HG). The main transmission (HG) comprises first (R1), second (R2), third (R3), fourth (R4) and fifth gear planes (R5) and first (S1), second (S2), third (S3) and fourth shift elements (S4). Synchronization of the countershaft speed to a target speed, in direct gear, is performed via speed control of the electric machine (2).

Abstract: A hybrid drive arrangement including combustion engine (7), an electric machine (6) and a transmission with input shafts (4, 5) and an output shaft. The drive arrangement has a planetary gearset (PG) with a first element that can be rotationally engaged with shaft (4), and a second element that can be fixed to the housing or machine (6). Shift element (K) couples a third element of gearset (PG) to the housing or to rotationally engage with machine (6). Shift element (J) couples the third element of gearset (PG) with engine (7). Shift elements (C, D) respectively couple the shafts (4, 5) with engine (7) and form a double shift element (S1), whose actuator (10) extends through a section (11) of a drive shaft (12) of the engine (7), which encompasses, on the outside, shift element (S1). Section (11) of shaft (12) of engine (7) extends to shift element (J).

Abstract: A drive arrangement having combustion and electric engines and a transmission with input shafts (4, 5). The drive arrangement includes first and second planetary gearsets (PG1, PG2), each having a carrier, and sun and ring gears. One element of gearset (PG1) is rotationally fixed to shaft (5). Another element of gearset (PG1) is fixed to a housing. One element of gearset (PG2) is connected to the electric engine. Another element of gearset (PG2) is rotationally fixable to shaft (4). When a first switching element is engaged, a further element of gearset (PG2) is fixed to the housing. When a second switching element is engaged, the further element of gearset (PG2) is rotationally fixed to shaft (5), to which the element of gearset (PG1) is also rotationally fixed. When a third switching element is engaged, the further element of gearset (PG2) is rotationally fixed to a further element of gearset (PG1).

Abstract: A method for tractive force interruption-free shifting of a hybrid drive comprising combustion engine (21), electric engine (2), main gear (HG) comprising two parallel connected partial gears, output shaft (3), and first and second planetary gears (PG1, PG2). Each partial gear having either first hollow gear input shaft (4) or second solid gear input shaft (5). The first planetary gear (PG1) is connected to the main gear (HG) as the range group, with main gear (HG) comprising at least five gear planes (R1-R5) and at least four shifting elements (S1-S4). The electric engine (2) is connected to carrier (ST1) of the range group (PG1) and the output shaft (3) so that the electric engine (2) supports tractive force while the range group (PG1) is shifted, and the fifth gear plane (R5) is connected to carrier (ST1) of range group (PG1) and thus can be shifted under load.

Abstract: A gear unit (1) for a motor vehicle with a main gear (HG) comprising two parallel connected partial gears, an output shaft (3), and two planetary gears (PG1, PG2) each having a carrier (ST1, ST2), a sun gear (SR1, SR2) and a ring gear (HR1, HR2). A first planetary gear (PG1) is connected to the main gear (HG), with the main gear (HG) comprising first (R1), second (R2), third (R3), fourth (R4) and fifth (R5) gear planes and first (S1), second (S2), third (S3) and fourth (S4) shifting element. A second planetary gear (PG2) is provided between an electric engine (2) and a first gear input shaft (4) of the main gear (HG). The fourth shifting element (S4), in a second shifting position (H), connects the fifth gear plane (R5) and the carrier (ST1) of the range group and thus the range group is able to be shifted under load.

Abstract: A drive-train of a vehicle with a hybrid drive comprising an internal combustion engine and an electric machine and an automated group transmission connected between the hybrid drive and a drive axle. The transmission comprises a main transmission having a main shaft, countershafts, and a splitter group connected up upstream from the main transmission. The electric machine is connected to the countershafts. The splitter group and the main transmission have a common direct gear which is engaged by a clutch to support traction force shifting of the main transmission. The clutch connects a transmission input shaft to the main transmission shaft to form the direct gear. While the direct gear is engaged, the connections of the transmission input shaft and the main transmission shaft to the countershaft and the electric machine are separated.