A launch device coupling the rotary output of a prime mover to the rotary input of an automotive transmission. The launch device includes a shell defining a chamber into which impeller blades extend. A rotatable turbine is located in the chamber. Turbine blades oppose the impeller blades and receive fluid from the impeller blades, causing rotation of the turbine and an output hub. Pull bearings constructively support the shell for relative rotation with respect to one or more internal components of the launch device, such as the output hub. Portions of the pull bearings are fixed relative to an associated one of the internal components to limit axial movement of the inner and outer races of the pull bearing and, thereby, limit axial expansion of the shell.

A hybrid drive system can include a shaft, an electrical machine comprising a rotor and a stator, and a mechanical disconnect system connecting the rotor to the shaft. The mechanical disconnect system is configured to mechanically connect the rotor to the shaft in a first state and to mechanically disconnect the rotor from the shaft in a second state such that rotor does not drive the shaft or such that the rotor is not driven by the shaft. The rotor can be a permanent magnet rotor, for example.

A hybrid drive system can include a shaft, an electrical machine comprising a rotor and a stator, and a mechanical disconnect system connecting the rotor to the shaft. The mechanical disconnect system is configured to mechanically connect the rotor to the shaft in a first state and to mechanically disconnect the rotor from the shaft in a second state such that rotor does not drive the shaft or such that the rotor is not driven by the shaft. The rotor can be a permanent magnet rotor, for example.

A hybrid drive system can include a shaft, an electrical machine comprising a rotor and a stator, and a mechanical disconnect system connecting the rotor to the shaft. The mechanical disconnect system is configured to mechanically connect the rotor to the shaft in a first state and to mechanically disconnect the rotor from the shaft in a second state such that rotor does not drive the shaft or such that the rotor is not driven by the shaft. The rotor can be a permanent magnet rotor, for example.

A hybrid drive system can include a shaft, an electrical machine comprising a rotor and a stator, and a mechanical disconnect system connecting the rotor to the shaft. The mechanical disconnect system is configured to mechanically connect the rotor to the shaft in a first state and to mechanically disconnect the rotor from the shaft in a second state such that rotor does not drive the shaft or such that the rotor is not driven by the shaft. The rotor can be a permanent magnet rotor, for example.

A hydrodynamic coupling contains a pump wheel and a turbine wheel, which are rotatably mounted about a common axis of rotation. The pump wheel and the turbine wheel each carry a circumferential channel about the axis of rotation, so that the channels axially facing one another limit a toroidal working space that can be filled with a fluid. The pump wheel and the turbine wheel each have radial blades which subdivide the channels into blade chambers. Here, the turbine wheel has a first blade chamber and a second blade chamber, wherein contours of the channel in the radial direction are distinct in the two blade chambers.

A hydrodynamic coupling contains a pump wheel and a turbine wheel, which are rotatably mounted about a common axis of rotation. The pump wheel and the turbine wheel each carry a circumferential channel about the axis of rotation, so that the channels axially facing one another limit a toroidal working space that can be filled with a fluid. The pump wheel and the turbine wheel each have radial blades which subdivide the channels into blade chambers. Here, the turbine wheel has a first blade chamber and a second blade chamber, wherein contours of the channel in the radial direction are distinct in the two blade chambers.

A hydrodynamic machine contains a bladed primary wheel driven by a rotary shaft and a bladed secondary wheel, which together form a work chamber filled with a working medium. The machine has a pressure pump for delivering a working medium from the work chamber. The pressure pump has a first inlet, which projects into the work chamber, and has a first inlet opening which is aligned with the rotary shaft in the circumferential direction. The pressure pump has a second inlet which projects into the work chamber and has a second inlet opening which is aligned to the rotary shaft in the circumferential direction opposite to the first inlet opening. The first and second inlets are joined to a common working medium channel behind the two inlet openings. The first and second inlets extend adjacent to each other in the same flow direction separated by a separation wall.

A hydrodynamic machine contains a bladed primary wheel driven by a rotary shaft and a bladed secondary wheel, which together form a work chamber filled with a working medium. The machine has a pressure pump for delivering a working medium from the work chamber. The pressure pump has a first inlet, which projects into the work chamber, and has a first inlet opening which is aligned with the rotary shaft in the circumferential direction. The pressure pump has a second inlet which projects into the work chamber and has a second inlet opening which is aligned to the rotary shaft in the circumferential direction opposite to the first inlet opening. The first and second inlets are joined to a common working medium channel behind the two inlet openings. The first and second inlets extend adjacent to each other in the same flow direction separated by a separation wall.

A hydrodynamic machine for producing a braking torque, the hydrodynamic machine comprising: a toroidal working chamber including a first bladed wheel and a second bladed wheel arranged concentrically with the first bladed wheel; and a hydraulic system including an open loop and closed loop control unit, a working medium accumulator, a line system, a pump operable to produce a volume flow circulation of a working medium through the line system and the toroidal working chamber, a heat exchanger, and a pressure control valve operable to control or adjust the baking performance or the braking torque.