The invention relates to a transmission (100) for a hybrid drive arrangement which can be coupled to two drive assemblies (7, 8), comprising an input shaft (10) and an output shaft (11), at least one first, second, third, fourth, fifth, sixth and seventh shifting element (SE1, SE2, SE3, SE4, SE5, SE6, SE7), and at least one planetary gear (5). The input shaft can be coupled to a first transmission shaft (16) by means of the first shifting element (SE1) and the input shaft can be coupled to a second transmission shaft (17) by means of the second shifting element (SE2), and the first transmission shaft (16) can be coupled to the second transmission shaft (17) by means of the third shifting element (SE3), and the first transmission shaft (16) can be coupled to the sun gear of the planetary gear (5) by means of the fourth shifting element (SE4), the first transmission shaft (16) can be coupled to the ring gear of the planetary gear (5) by means of the fifth transmission shaft (SE5), the second transmission shaft (17) can be coupled to the planet carrier of the planetary gear (5) by means of the sixth shifting element (SE6) and the second transmission shaft (17) can be coupled to the sun gear of the planetary gear (5) by means of the seventh shifting element (SE7), the output shaft (11) being coupled to the planet carrier of the planetary gear (5).

A transmission (G) for a motor vehicle includes an electric machine (EM1), a first input shaft (GW1), a second input shaft (GW2), an output shaft (GWA), three planetary gear sets (P1, P2, P3), and at least six shift elements (A, B, C, D, E, F). Different gears are implementable by selectively actuating the at least six shift elements (A, B, C, D, E, F) and, in addition, in interaction with the electric machine (EM1), different operating modes are implementable. A drive train for a motor vehicle with such a transmission (G) and to a method for operating same are also provided.

A transmission device for a hybrid vehicle having a drive train arranged transversely to a direction of travel of the hybrid vehicle includes a transmission housing having an engine-side housing section, a middle housing section, and a wheel-side housing section. The transmission further includes a first electric machine in the wheel-side housing section, a second electric machine in the middle housing section, an input shaft connectable to an internal combustion engine, and a differential gear connected to a first output shaft and a second output shaft. Additionally, the transmission includes a planetary transmission, and an intermediate shaft in a power flow between the planetary transmission and the differential gear. Particularly, the first electric machine is coaxial to the input shaft, and the second electric machine is axially parallel to the input shaft and connected to the input shaft via a chain drive or a spur gear drive.

A control device of a hybrid vehicle includes: a determiner that determines whether or not a predetermined first condition that efficiency is prioritized is satisfied and whether or not a predetermined second condition that output performance is prioritized; and a control unit that controls an engine and an electric motor in accordance with an accelerator manipulation amount and a determination result of the determiner. When the first condition is satisfied, the control unit controls the driving power source such that the driving power source outputs first driving force in a first driving state where the efficiency is prioritized, and when the second condition is satisfied, the control unit controls the driving power source such that the driving power source outputs second driving force larger than the first driving force in a second driving state where the output performance is prioritized.

A transmission (G) for a motor vehicle includes an electric machine (EM1), a first input shaft (GW1), a second input shaft (GW2), an output shaft (GWA), at least two planetary gear sets (P1, P2), and at least four shift elements (A, B, C, D). Different gears are selectable by selectively actuating the at least four shift elements (A, B, C, D). In interaction with the electric machine (EM1), different operating modes are implementable. A drive train for a motor vehicle that includes such a transmission (G) and to a method for operating same are also provided.

A transmission arrangement for a motor vehicle drive train (10) includes a first input shaft (12), a second input shaft (24), a countershaft (40), a first sub-transmission (26), which includes a first plurality of engageable gear sets (30, 32) for establishing a number of gear steps, a second sub-transmission (28), which includes a second plurality of engageable gear sets (34, 36) for establishing a number of gear steps, and a bridge clutch (S3), which is configured for coupling the first sub-transmission (26) and the second sub-transmission (28) in order to establish at least one winding-path gear step (V1, V6).

A hybrid drive device includes an internal combustion engine, an electric machine and an impulse start module which comprises two clutches and a flywheel mass. A method for operating the hybrid device includes opening the first clutch of the impulse-start module and establishing a start-up requirement for the internal-combustion engine. The method also includes closing the first clutch with the second clutch in an open or closed position for a start of the internal-combustion engine.

A transmission (G) for a motor vehicle includes an electric machine (EM1), a first input shaft (GW1), a second input shaft (GW2), an output shaft (GWA), two planetary gear sets (P1, P2, P3), and at least five shift elements (A, B, C, D, E). Different gears are implementable by selectively actuating the at least five shift elements (A, B, C, D, E) and, in addition, in interaction with the electric machine (EM1), different operating modes are implementable. A drive train for a motor vehicle with such transmission (G) and to a method for operating such transmission (G) are also provided.

A transmission arrangement for a motor vehicle includes a first planetary gear set and a second planetary gear set. A first dog element is axially between the second and third dog elements and is rotationally fixed to the first ring gear. A first shift element shiftable to rotationally fix the first dog element to one or both of the first sun gear and the first planet gear carrier and a second shift element shiftable to rotationally fix the first shift element to one of the rotary elements of the second planetary gear set. A second dog element is rotationally fixed to the second sun gear and is rotationally fixable by the first shift element to one or both of the first sun gear and the first planet gear carrier. A third dog element is rotationally fixed to the second sun gear and connectable to the first ring gear by the second shift element.

A front-and-rear-wheel-drive vehicle includes an electric motor; a speed change mechanism; a first output rotation shaft that transmits a drive force of the electric motor that has been transmitted to an intermediate output member, to one of a front wheel side and a rear wheel side; and a second output rotation shaft that transmits the drive force that has been transmitted to the intermediate output member, to another of the front wheel side and the rear wheel side. The first and second output rotation shafts are disposed coaxially with the intermediate output member. The electric motor is disposed such that a rotation axis of a motor shaft is positioned in parallel with a rotation axis of the intermediate output member and the first and second output rotation shafts and vertically above the rotation axis of the intermediate output member and the first and second output rotation shafts.