Setting a system pressure for a hydraulically actuated clutch comprises

a) Providing a system comprising a pump drivable by an electrically operated motor controlled by a control unit that senses a motor current and rotational speed and a system temperature is determined;

b) a characteristic diagram is provided specifying values for at least the motor current and rotational speed for different system operating points;

c) Accessing the characteristic diagram while operating a vehicle;

d) Sensing at least the motor current and rotational speed at at least a first operating point and determining the system temperature ;

e) Comparing the values, acquired in step d) for the current and speed with the values for the current and rotational speed from the characteristic diagram according to step b);

f) Adapting the characteristic diagram for the system on the basis of the parameters determined in step d).

The clutch control device comprises: a pump that feeds oil to a hydraulic clutch; a control part that controls the pump; an input-side oil channel through which oil suctioned into the pump from an oil tank passes; an output-side oil channel connecting the pump and the hydraulic clutch; a pressure sensor; a connecting oil channel connected to the input-side oil channel and the output-side oil channel; and a solenoid valve that interrupts or allows the flow of oil in the connecting oil channel. The opening degree of the valve can be adjusted. When a drive shaft and a driven shaft are connected by the hydraulic clutch, the control part adjusts the opening degree of the valve on the basis of the pressure of oil in the output-side oil channel and the number of rotations made by the driven shaft while monotonically increasing the number of rotations of the drive part.

A method controls a clutch actuator, comprising a clutch cylinder piston of a clutch cylinder, which clutch cylinder piston moves an actuation element of a friction clutch along an actuation path, and comprising a hydraulic pump, which actuates the clutch cylinder piston by means of a pressure medium pumped along a hydrostatic path and which is operated by means of an electric motor. In order to determine an actuation state of the friction clutch, the operating state along the actuation path is estimated by means of a pressure medium volumetric flow rate produced by the pump and by means of a leakage volumetric flow rate of the pump.

A hydraulic system includes a normally open-type hydraulic clutch which connects or disconnects a power transmission line between an engine and a wheel, an actuator which supplies a hydraulic pressure to the hydraulic clutch, an oil flow path which connects the actuator to the hydraulic clutch, a valve member which is provided on the oil flow path and which enables to switch between an open state where the oil flow path communicates and a closed state where the oil flow path closes, a hydraulic pressure sensor which is provided on the oil flow path, and a bypass flow path which bypasses the valve member. A one-way valve, which permits a supply of a hydraulic pressure from an actuator side to a hydraulic clutch side and which shuts off a supply of a hydraulic pressure from the hydraulic clutch side to the actuator side, is provided on the bypass flow path.

A hybrid module is configured for arrangement in the torque path upstream from a transmission and downstream from an internal combustion engine. The hybrid module includes a housing, an electric motor including a stator non-rotatably fixed to the housing and a rotor rotatable within the stator, a shaft configured for non-rotatably connecting to a crankshaft of an internal combustion engine and a clutch having a clutch output non-rotatably fixed to the rotor. The clutch is configured for being actuated between an engaged orientation for drivingly connecting the shaft to the clutch output and a disengaged orientation for drivingly disconnecting the shaft from the clutch output. The hybrid module also includes an actuator fixed to the housing. The actuator is configured for hydraulically actuating the clutch between the engaged orientation and the disengaged orientation.

Hydraulic control device for an automated dual clutch transmission having first and second clutches with first and second sub-transmissions and also a gear shifting system. The hydraulic control device has a regulating unit that predetermines at least one regulated pressure and/or one regulated volume flow for actuating the first and second clutches and shifting system. The hydraulic control device has a switching device that is arranged between the regulating unit and the clutches or the shifting system, switching the regulated pressure or volume flow to the clutches or the shifting system. The regulating unit includes a first regulating valve and a second regulating valve that is connected to an oil pressure supply having a system pressure regulator and an electric oil pump.

A hybrid module is configured for arrangement in the torque path upstream from a transmission and downstream from an internal combustion engine. The hybrid module includes a torque converter and an electric motor including a rotor connected to the torque converter for driving the torque converter. The hybrid module also includes a connect/disconnect clutch configured for being actuated between an engaged orientation for drivingly connecting the internal combustion engine to an output of the connect/disconnect clutch for driving the torque converter and a disengaged orientation for drivingly disconnecting the internal combustion engine from the output of the connect/disconnect clutch. The torque converter includes a stator having stator blades and a stator friction brake actuatable between an engaged orientation locking rotation of the stator in at least a first rotational direction and a disengaged orientation unlocking rotation of the stator in the first rotational direction and a second rotational direction.

There is provided a clutch control device which includes an electric oil pump, a clutch unit, and a pressure measurement unit, and which controls an operation of the electric oil pump so as to change a transmission state of the clutch unit. The device includes a pressure control valve that is located between an oil passage for connecting the electric oil pump and the clutch unit to each other and an oil pan for storing an unpressurized hydraulic oil, and that discharges the pressurized hydraulic oil from the oil passage to the oil pan, when pressure of the hydraulic oil exceeds valve opening pressure, and a pump drive control unit that controls hydraulic pressure by driving the electric oil pump, based on target pressure indicated by a change command of the transmission state of the clutch unit and the hydraulic pressure measured by the pressure measurement unit.

A hybrid module is configured for arrangement in the torque path upstream from a transmission and downstream from an internal combustion engine. The hybrid module includes a torque converter and an electric motor including a rotor connected to the torque converter for driving the torque converter. The hybrid module also includes a connect/disconnect clutch configured for being actuated between an engaged orientation for drivingly connecting the internal combustion engine to an output of the connect/disconnect clutch for driving the torque converter and a disengaged orientation for drivingly disconnecting the internal combustion engine from the output of the connect/disconnect clutch. The torque converter includes a stator having stator blades and a stator friction clutch actuatable between an engaged orientation locking rotation of the stator in at least a first rotational direction and a disengaged orientation unlocking rotation of the stator in the first rotational direction and a second rotational direction.

A power transmitting component can include a friction clutch, a ram, a pump, a fluid storage device and a valve. The ram can have a piston chamber and a piston movable therein between a first and second position to engage the friction clutch. A first inlet/outlet of the pump can be fluidly coupled to a reservoir. The fluid storage device can hold pressurized hydraulic fluid. The valve can be fluidly coupled with the piston chamber, a second inlet/outlet of the pump, and the fluid storage device. When in a first mode, the valve can permit fluid communication between the pump and the fluid storage device, inhibit fluid communication between the piston chamber and the pump, and inhibit fluid communication between the piston chamber and the fluid storage device. When in a second mode, the valve can permit fluid communication between the pump, the fluid storage device, and the piston chamber.