A starting method for a variable speed accelerator includes an electric device that generates a rotational drive force, and a transmission device that shifts the rotational drive force generated by the electric device to transmit the changed speed to an object to be driven. The transmission device includes a sun gear that rotates about an axis, a sun gear shaft that is fixed to the sun gear and extends in an axial direction, a planetary gear that meshes with the sun gear, revolves around the axis, and rotates about its own center axis, and an internal gear that has a plurality of teeth aligned annularly about the axis and meshes with the planetary gear.

A power-split gearbox device in an agricultural work vehicle. The gearbox device includes a compounded gearbox, an electrical variator for the continuous varying of a ratio of the compounded gearbox, and a gearbox with an adjustable ratio to connect a drive motor with a propulsion of the work vehicle.

A hybrid vehicle includes an engine, a first rotating electric machine, a second rotating electric machine coupled to drive wheels of the hybrid vehicle, a planetary gear mechanism configured to mechanically couple the engine, the first rotating electric machine, and the second rotating electric machine, an electric power storage device configured to perform charging and discharging with the first rotating electric machine and second rotating electric machine, and an electronic control unit configured to, in a case where cruise control is requested or in a case where deceleration torque is requested by the cruise control, execute motoring control and simulated stepped gear shift control.

A method for controlling a gear ratio of a continuously variable transmission vehicle includes: a step of detecting a position of a shift lever by a controller; a step of checking, by the controller, a gear ratio variation based on a difference between a desired stage gear ratio and a current gear ratio in a continuously variable transmission when the shift lever is detected to be positioned in a manual range; a step of calculating, by the controller, a gear ratio correction value based on a rate of change of engine RPM when the gear ratio variation is checked as being other than zero after the step of checking the gear ratio variation; and a step of correcting, by the controller, the gear ratio variation in response to the calculated gear ratio correction value after the calculation step.

A shifting control apparatus includes an overall-speed-position shifting control portion including: a synchronous shifting control portion to implement a synchronous control of shifting actions of the vehicular automatic transmission and the step-variable transmission portion to respective target ones of the overall speed positions and the gear positions, such that a moment of generation of a command to establish the target overall speed position is delayed with respect to a moment of generation of a command to establish the target gear position, so that the shifting actions take place in synchronization with each other, irrespective of different control response times of the shifting actions; and a multiple-step shifting control portion to command the synchronous shifting control portion such that the vehicular automatic transmission performs a shift-up action from a present one of the overall speed position to the target overall speed position through at least one intermediate overall speed position intermediate.

A method for controlling a gear ratio of a continuously variable transmission vehicle includes: a step of detecting a position of a shift lever by a controller; a step of checking, by the controller, a gear ratio variation based on a difference between a desired stage gear ratio and a current gear ratio in a continuously variable transmission when the shift lever is detected to be positioned in a manual range; a step of calculating, by the controller, a gear ratio correction value based on a rate of change of engine RPM when the gear ratio variation is checked as being other than zero after the step of checking the gear ratio variation; and a step of correcting, by the controller, the gear ratio variation in response to the calculated gear ratio correction value after the calculation step.

A hybrid vehicle includes an engine, a first rotating electric machine, a second rotating electric machine coupled to drive wheels of the hybrid vehicle, a planetary gear mechanism configured to mechanically couple the engine, the first rotating electric machine, and the second rotating electric machine, an electric power storage device configured to perform charging and discharging with the first rotating electric machine and second rotating electric machine, and an electronic control unit configured to, in a case where cruise control is requested or in a case where deceleration torque is requested by the cruise control, execute motoring control and simulated stepped gear shift control.

A starting method for a variable speed accelerator includes an electric device that generates a rotational drive force, and a transmission device that shifts the rotational drive force generated by the electric device to transmit the changed speed to an object to be driven. The transmission device includes a sun gear that rotates about an axis, a sun gear shaft that is fixed to the sun gear and extends in an axial direction, a planetary gear that meshes with the sun gear, revolves around the axis, and rotates about its own center axis, and an internal gear that has a plurality of teeth aligned annularly about the axis and meshes with the planetary gear.

Methods and systems for a hydromechanical transmission are provided herein. In one example, the transmission operating method includes asynchronously shifting between a first pair of drive ranges in the transmission via operation of two clutches and a variable displacement hydraulic pump in a hydrostatic assembly. In the method, asynchronously shifting between the two drive ranges includes a plurality of phases that include a swiveling phase where a speed of the hydrostatic assembly is inverted.

A controller for a vehicle transmission is disclosed. The controller may include an electronic control unit configured to carry out a change shift for changing a path of the transmission of power between a first transmission path and a second transmission path by engaging a predetermined clutch mechanism. The electronic control unit may also be configured to set a change speed ratio region that defines a range of a speed ratio of the first transmission mechanism such that a rotation speed difference between engagement members of the clutch mechanism, which are engaged with each other in carrying out the change shift, is smaller than or equal to a predetermined value. When a speed ratio outside the change speed ratio region is set in the first transmission mechanism, the change shift is not carried out.