Triple pinion gears each of which is comprised of integrally formed first to third pinion gears, and additional pinion gears rotatably supported by a rotatable carrier. The additional pinion gears mesh with a sun gear and associated ones of third pinion gears, and first and second pinion gears mesh with first and second ring gears, respectively. The rotational speeds of four rotary elements of the carrier, the sun gear, and the first and second ring gears satisfy a collinear relationship in which the rotational speeds thereof are aligned in a single straight line in a collinear chart. The sun gear and the carrier, positioned at opposite outer sides of the straight line in the collinear chart, respectively, are connected to first and second rotating electric machines, respectively, and the second and first ring gears, positioned adjacent to the two, respectively, are connected to left and right output shafts and, respectively.

A power transmission unit that can multiply torque of a prime mover to be delivered to a differential gear unit is provided. Torque of a drive motor is delivered to planetary gear units through a driven gear. A first ring gear of the first planetary gear unit is meshed with a first supplemental gear, and a second ring gear of the second planetary gear unit is meshed with a second supplemental gear. The first supplemental gear and the second supplemental gear are connected to each other through a reaction gear unit to reverse the torque applied to the first ring gear to be transmitted to the second ring gear.

When a second member of a power plant is in a first position with respect to a first member, a first communication port communicates with a fluid pressure supply source and second and third communication ports communicate with first and second pressure chambers of a fluid pressure motor. The second and third communication ports are shut off from a fourth communication port connected to a reservoir. Different positions of the second member result different communication and shut off relationships among the first to fourth ports. The first to fourth communication ports are provided in a plurality of communication port groups each formed by the first to fourth communication ports.

An electric drive device includes a transmission with a first planetary gear set having a first element, a second element, and a third element. The transmission includes a second planetary gear set having a fourth element connected to the third element for conjoint rotation, a fifth element and a sixth element. A first output shaft is connected to the fifth element for conjoint rotation and a second output shaft is connected to the fourth element for conjoint rotation. A first electric machine has a first rotor that is or can be coupled to the sixth element such that torques provided by the first rotor can be introduced into the transmission via the sixth element.

An electric drive system for a motor vehicle includes a first electric machine with a first rotor, a second electric machine with a second rotor, and a reduced coupling gearing, which has a first planetary gear set, a second planetary gear set, a first input shaft, a second input shaft, a first output shaft, and a second output shaft. The first input shaft introduces first torques emanating from the first electric machine into the reduced coupling gearing. The second input shaft introduces second torques emanating from the second electric machine into the reduced coupling gearing. The first output shaft diverts third torques from the reduced coupling gearing. The second output shaft diverts fourth torques from the reduced coupling gearing.

An electric drive system for a motor vehicle includes a first electric engine having a first rotor, a second electric engine having a second rotor, and a planetary transmission, which has a first planetary gear set, a second planetary gear set, a first input shaft, a second input shaft, a first output shaft and a second output shaft. The first input shaft is designed to introduce first torques originating from the first electric engine into the planetary transmission. The second input shaft is designed to introduce second torques originating from the second electric engine into the planetary transmission. The first output shaft is designed to divert third torques from the planetary transmission. The second output shaft is designed to divert fourth torques from the planetary transmission.

A transmission for a motor vehicle includes a first, a second, and a third planetary gear set, an input shaft, a first and a second output shaft, and a first and a second coupling shaft. Respective elements of the first planetary gear set are rotationally fixed to the input shaft, rotationally fixed to the first coupling shaft, and rotationally fixed to the second coupling shaft. Respective elements of the second planetary gear set are rotationally fixed to the first coupling shaft, rotationally fixed to a stationary component, and rotationally fixed to the second output shaft. Respective elements of the third planetary gear set are rotationally fixed to the second coupling shaft, rotationally fixed to the first output shaft, and rotationally fixed to the second output shaft.

An electric drive system for a vehicle includes an electric motor with a stator disposed circumferentially around a rotor. The rotor connects to a support frame that extends radially inwards to couple the rotor to a first planetary gear assembly and a second planetary gear assembly. The stator, rotor and the first and second planetary gear assemblies are disposed within a stationary housing. The first and second planetary gear assemblies couple to first and second clutch packs respectively, that are disposed outside of the stationary housing.

A transmission (1) for a drive train of a vehicle (100) includes an input shaft (2), a first output shaft (3), a second output shaft (4) and a differential arranged in power flow between the input shaft (2) and the two output shafts (3, 4). A first output torque is transmittable onto the first output shaft (3) by the first planetary gear set (5). A support torque of the first planetary gear set (5) is convertible in the second planetary gear set (6) such that a second output torque is transmittable onto the second output shaft (4). The second planetary gear set (6) is axially adjacent to the first planetary gear set (5), and the planet gears (5.4) of the first planetary gear set (5) do not axially overlap the planet gears (6.4) of the second planetary gear set (6). A second gear set element in the first planetary gear set (5) is a ring gear (5.2) and is connected to a first gear set element in the second planetary gear set (6), which is a sun gear (6.1), for conjoint rotation. The sun gear (6.1) of the second planetary gear set (6) is arranged on an end face of the ring gear (5.2) of the first planetary gear set (5) and axially fixed by a securing ring (17).

An electric drive device includes a transmission with a first planetary gear set having a first element, a second element, and a third element. The transmission includes a second planetary gear set having a fourth element connected to the third element for conjoint rotation, a fifth element and a sixth element. A first output shaft is connected to the fifth element for conjoint rotation and a second output shaft is connected to the fourth element for conjoint rotation. A first electric machine has a first rotor that is or can be coupled to the sixth element such that torques provided by the first rotor can be introduced into the transmission via the sixth element.