| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 477109000 | Diminution during transmission change | 26 |
| 20080248922 | Process and Device for Controlling a Gearsift of an Automatic Gearbox - The present invention relates to a method for controlling an automatic transmission, which allows a gear change and, here in particular, downshifting with minimum traction interruption while the phase of reduction of the drive torque of the drive motor, the phase interruption of the frictional connection phase in the automatic transmission, and the phase of rotational speed adjustment in the transmission input shaft are designed for a suitable target rotational speed such that they overlap at least in part. In particular, with interruption of the frictional connection in the automatic transmission, the drive motor transmits a drive torque to the input shaft of the automatic transmission via the main clutch, which achieves a change in the rotational speed of the input shaft of the transmission (n_ge) in the direction of the synchronous speed of the new gear. The present invention also relates to an apparatus to carry out this method. | 10-09-2008 |
| 20090054205 | ACCELERATION SHOCK REDUCTION APPARATUS FOR VEHICLE - A vehicle control system includes a prime mover, a power transmission apparatus disposed between the prime mover and at least one wheel, an engaging element configured to selectively engage and disengage the prime mover from the at least one wheel, and a torque limiter configured to restrict an output torque of the prime mover to a selected percentage when in transition between an unloaded state and a loaded state, wherein the torque limiter is configured to restrict the output torque of the prime mover while the engaging element is disengaged between the prime mover and the power transmission apparatus. | 02-26-2009 |
| 20090062070 | Control device for vehicular power transmitting device - In a control device for a vehicular power transmitting device, if engine torque T | 03-05-2009 |
| 20090093340 | Shift Control Device for Work Vehicle - A shift control device for a work vehicle that has a stepped automatic transmission includes: a control device that controls an engine rotation rate at the work vehicle and the stepped automatic transmission; a forward/reverse switchover member that outputs a forward/reverse switchover command for the work vehicle; and an operation quantity detection device that detects an accelerator pedal operation quantity in the work vehicle is operated. As the forward/reverse switchover command is output via the forward/reverse switchover member, the control device executes forward/reverse switchover control for the stepped automatic transmission and also controls the engine rotation rate so as to decrease the engine rotation rate gradually to a target lower limit value selected to ensure that a reverse rotation of a turbine runner at a torque converter in the work vehicle does not occur. | 04-09-2009 |
| 20090137363 | METHOD FOR SHIFTING GEARS IN A DUAL CLUTCH TRANSMISSION - A method for shifting gears in a dual clutch transmission within a motor vehicle and a motor vehicle implementing said method are suggested providing a smooth transition between gears particularly in the starting phase. The dual clutch transmission comprises a first clutch and a second clutch as well as a first partial transmission having a first and other gears and a second partial transmission having a second and other gears. The clutches are controlled to a) decrease a torque transmitting capacity of the first clutch; b) increase a torque transmitting capacity of the second clutch; c) adapt the rotational speed of the motor in direction of a rotational speed of an input shaft of the second partial transmission via increasing the torque transmitting capacity of the second clutch; and d) control the torque transmitting capacity of the second clutch to a final torque value. | 05-28-2009 |
| 20090149295 | VEHICLE CONTROL APPARATUS AND VEHICLE EQUIPPED WITH THE CONTROL APPARATUS - This invention provides a vehicle control apparatus constructed so that during the control of a downshift for deceleration, braking shocks can be reduced and the amount of energy regenerated can be increased, and a hybrid vehicle equipped with the control apparatus. | 06-11-2009 |
| 20090264250 | SHIFT CONTROL METHOD OF AUTOMATIC TRANSMISSION AND SHIFT CONTROL SYSTEM THEREOF - A shift control method of an automatic transmission may include: detecting a slope of a turbine speed in a case in which a shift is performed; quickly reducing an electric throttle opening by a jumping amount of an electric throttle opening according to the slope of a turbine speed; gradually reducing the electric throttle opening; and gradually increasing the electric throttle opening. | 10-22-2009 |
| 20090325763 | MULTI-GROUP TRANSMISSION OF A MOTOR VEHICLE - A transmission of a vehicle and a method for its operation. The transmission has a range group arranged downstream from a main group. The main group output couples a sun gear and a transmission output to a planetary gear carrier of the range group, with a starting element and a change-under-load device, which is integrated in the range group for engaging a traction-force-supporting direct intermediate gear during a gearshift, to connect the transmission input and output shafts. An input component of the change-under-load device is connected to the transmission input shaft and an output component of the change-under-load device is connected to the planetary gear carrier. To increase the efficiency of drive during gearshifts at least one change-under-load device is provided for engaging at least one gear of the main group and/or at least one constant positioned upstream from the main group, which enables shifting under at least partial load. | 12-31-2009 |
| 20100004092 | METHOD FOR ACTIVATING A CLUTCH ARRANGEMENT - A method for opening a closed clutch arrangement of a drivetrain for a motor vehicle. The clutch arrangement is activated in such a way that the torque which it can transmit is reduced up to an opening point at which torque can no longer be transmitted via the clutch arrangement. The clutch arrangement is placed into an intermediate slip state before the opening point is reached. | 01-07-2010 |
| 20100093489 | TRANSMISSION CONTROL APPARATUS AND CONTROL METHOD - A control apparatus and control method of a transmission, in which an ECU controls the transmission to upshift when an upshift condition is satisfied, controls the transmission to downshift when a downshift condition is satisfied, and cancels an upshift and maintains the speed ratio of the transmission when, before the upshift is completed, the upshift condition ceases to be satisfied even if a downshift condition is not satisfied. | 04-15-2010 |
| 20100197458 | Method And System For Controlling A Vehicle Engine During A Performance Shifting Maneuver - An exemplary engine control system and method for controlling a vehicle engine during certain shifting maneuvers that involve a manual transmission, such as a ‘no-lift upshift’ where the driver does not release the accelerator pedal during manual shifting. The engine control method may be used to temporarily control the vehicle engine during a no-lift upshift maneuver so that the engine performs well without reaching excessively high engine speeds that could result in vehicle instability or damage. The engine control method described herein may be used with other performance driving maneuvers and techniques as well, such as a power shift maneuvers, etc. | 08-05-2010 |
| 20100292048 | CONTROL DEVICE AND CONTROL METHOD FOR AUTOMATIC TRANSMISSION - When it is determined to perform nth to (n+1)th coast downshift during nth to (n+1)th power-off upshift, an ECU starts increasing control to increase the hydraulic pressure of an engage-side element A in a predetermined mode and maintains the hydraulic pressure of a release-side element B at a value at which the increasing control is started until a predetermined period of time elapses from when the start of the increasing control. When a turbine rotational speed does not increase even after the predetermined period of time has elapsed, as the turbine rotational speed decreases below a value lower by a predetermined value than a synchronous rotational speed in the (n+1)th gear, the ECU executes feedback control over the hydraulic pressure of the element B so that the turbine rotational speed becomes the value lower by the predetermined value than the synchronous rotational speed in the (n+1)th gear. | 11-18-2010 |
| 20110028272 | SYSTEM AND METHOD FOR AUTOMATIC TRANSMISSION SHIFT CONTROL - A engine control system for an automatic transmission includes an engine torque control module that increases engine torque from a first torque level to a second torque level during a period before a shift from a first gear ratio to a second gear ratio, wherein the first gear ratio is greater than the second gear ratio, wherein the first torque level is based on driver input and vehicle speed, and wherein the second torque level is based on the first torque level and the first and second gear ratios. A transmission control module decreases a torque capacity of a first clutch to a third torque level during the period and increases a torque capacity of a second clutch to a fourth torque level during the period, wherein the fourth torque level is based on the second torque level and a torque gain of the second clutch. | 02-03-2011 |
| 20110105275 | Method for Sound Modeling for Downshifting with Intermediate Gas - In a method for controlling shifting in a motor vehicle having an internal combustion engine and an automatic transmission, intermediate gas is automatically applied for reducing and/or compensating for an abrupt shift when downshifting. In a first phase, wherein the transmission is in the hydraulic down time thereof, the actual torque provided by the engine is slowly increased, until a torque required by the transmission is achieved. Subsequently, in a second phase, wherein the actual torque of the engine is less than the target torque, a throttle valve is opened further. In a subsequent third phase, in which the actual torque of the engine has achieved the target torque required for synchronization, a late ignition angle is set. | 05-05-2011 |
| 20130035206 | METHOD FOR OPERATING A VEHICLE DRIVE TRAIN HAVING AN INTERNAL COMBUSTION ENGINE - A method of operating a vehicle drive-train comprising an internal combustion engine and a transmission system functionally connected to the internal combustion engine. The transmission has an interlocking shifting element, one shifting element half of which is functionally connected to the transmission input shaft while the other shifting element half is functionally connected to a transmission output shaft. Upon receipt of a command to change the transmission from a neutral position, in which a force flow through the transmission is interrupted, to an operating condition, in which the force flow through the transmission is produced, the interlocking shifting element is changed to an engaged operating condition. A speed difference between the shifting element halves is brought by varying the speed of the internal combustion engine into a speed difference window within which the interlocking shifting element can be changed to its engaged operating condition. | 02-07-2013 |
| 20130143716 | DRIVE CONTROL APPARATUS FOR VEHICLE - A drive control apparatus for a vehicle includes: a control unit that controls drive force output from an engine in accordance with operation of an accelerator pedal; and a shift mechanism capable of selectively switching a shift position to a driving position or a non-driving position. The shift mechanism transmits the drive force to wheels when the shift position is in the driving position, and interrupts transmission of the drive force when the shift position is in the non-driving position. The control unit executes a drive force restriction process of reducing the drive force when the shift position is switched from the non-driving position to the driving position while the accelerator pedal is in an on state, and, when the switching is from a neutral position, the control unit changes a mode of reducing the drive force in accordance with a continuation time of the neutral position. | 06-06-2013 |
| 20130310219 | AUTOMATIC TRANSMISSION SYNCHRONOUS GEAR SHIFT - A method of commanding a synchronous gear shift begins by receiving a request to shift from a third gear to a first gear, and skipping a second gear having a gear ratio between the gear ratio of the first gear and the gear ratio of the third gear. Subsequently the method includes: reducing a torque command to a predetermined value; opening a clutch disposed on the input shaft of the transmission to decouple the transmission from the engine; transitioning the engine from a torque-control mode into a speed-control mode; commanding the engine to rotate at a speed dictated by the motion of the vehicle and the gear ratio of the first gear; closing the clutch to couple the transmission and the engine; and transitioning the engine back into the torque-control mode. | 11-21-2013 |
| 20140045652 | TRANSITORY TORQUE MODIFICATIONS USING SKIP FIRE CONTROL - Methods and devices are described that utilize skip fire techniques to rapidly meet requests for transitory changes in the output of an engine. Specifically, the fraction or percentage of the working cycles that are fired can be changed during a transitory event so that the engine delivers the desired transitory engine output. Once the transitory event is over, normal engine operation may be restored. The described techniques are useful in a variety of applications that require a relatively quick, but transitory, reduction in engine output to meet vehicle control requirements. One particularly useful application is during transmission shift events. Other representative applications include: loss of traction events, stability control events, wheel hop prevention events, etc. | 02-13-2014 |
| 20140066252 | VEHICLE DRIVE APPARATUS - A driving force transmission apparatus includes a linkage mechanism that is able to carry out switchover between a connected state where first and second intermediate shafts are connected to each other so as to be non-rotatable relative to each other to transmit torque output from an electric motor to a rear wheel, and a disconnected state where the first and second intermediate shafts are disconnected from each other. When switching the driving force transmission apparatus from the connected state to the disconnected state, a control unit reduces the torque that is generated by the motor during a drive state where the torque output from the motor is transmitted from the first intermediate shaft to the second intermediate shaft, and switches the driving force transmission apparatus from the connected state to the disconnected state by controlling the linkage mechanism while the torque that is generated by the motor has been reduced. | 03-06-2014 |
| 20140066253 | VEHICLE DRIVE APPARATUS - A driving force transmission apparatus includes a linkage mechanism that is able to carry out switchover between a connected state where a first intermediate shaft and a second intermediate shaft are connected to each other so as to be non-rotatable relative to each other to transmit torque output from an electric motor to a rear wheel, and a disconnected state where the first intermediate shaft and the second intermediate shaft are disconnected from each other. A control unit reduces the torque that is generated by the electric motor, after making a rotational speed of the first intermediate shaft higher than or equal to a rotational speed of the second intermediate shaft, and then switches the driving force transmission apparatus from the disconnected state to the connected state by controlling the linkage mechanism with the torque that is generated by the motor maintained at a reduced level. | 03-06-2014 |
| 20140106934 | SYSTEM AND METHOD FOR IMPROVED VEHICLE RESPONSE DURING VEHICLE ACCELERATION CONDITIONS - A vehicle control method for a vehicle having an internal combustion engine coupled to a torque converter is described. In one embodiment, the engine air flow and spark are adjusted to control torque converter operation. The method can improve vehicle response to driver accelerator commands. | 04-17-2014 |
| 20140135172 | MACHINE POWERTRAIN CONTROL SYSTEM AND METHOD - A machine having a powertrain including an engine operably connected to a torque converter and a transmission. The machine includes a control system receive an activation signal indicative of an automatic mode operation of the machine and command the torque converter to remain in a direct-drive mode while the transmission shifts from a first gear ratio to a second gear ratio. The control system also limits engine speed below a first engine speed limit when a gear ratio setting of the transmission is indicative of the second gear ratio. | 05-15-2014 |
| 20140148309 | Method and Apparatus for Reducing Torque During a Transmission Upshift for a Hybrid Vehicle - A hybrid vehicle powertrain that has an engine and an electric machine that may separately or jointly provide torque to a multi-speed transmission. A drivetrain including the engine and the motor is controlled to reduce the requested level of torque provided to the transmission during an upshift. The method is initiated by a request for a reduction of the level of torque and checking the operating state of the engine. If the engine is not on, the torque from the motor is reduced. If the engine is on, the torque from the motor is reduced first and then the torque from the engine is reduced to the requested level of torque. | 05-29-2014 |
| 20150105218 | METHOD OF SHIFTING A TRANSMISSION - A method of down-shifting a transmission avoids output shaft oscillations by briefly increasing the torque capacity of an off-going element at the end of the inertia phase. The torque capacity of the off-going element is then reduced to zero when the measured transmission speed ratio begins to decrease. The method is suitable for downshifts that involve multiple off-going elements and multiple on-coming elements such as a shift from tenth gear to sixth gear in a ten speed transmission. | 04-16-2015 |
| 20150126331 | Method for Automatically Switching Off an Internal Combustion Engine - The invention relates to a method for automatically switching off an internal combustion engine in a motor vehicle, in particular in a motor vehicle having an automatic transmission, by means of a stop/start device, which initiates measures for automatically switching off the internal combustion engine if the vehicle has been braked to a stop and advantageously held at a stop by actuation of the brake pedal for a predefined time interval. The invention is characterized in that the rotation speed of the internal combustion engine is changed, in particular reduced, at a defined point in time before the measures for automatically switching off the internal combustion engine are initiated. | 05-07-2015 |
| 20160185353 | TRANSMISSION CONTROL DEVICE FOR CONTINUOUSLY VARIABLE TRANSMISSION - First control unit performing first pseudo stepwise up-shift control that, in first travelling mode, increases vehicle speed while performing hold of transmission ratio and up-shift by first shifting speed and reduces engine torque upon up-shift, second control unit performing second pseudo stepwise up-shift control that, in second travelling mode, increases vehicle speed while performing hold of transmission ratio and up-shift by second shifting speed and reduces engine torque upon up-shift, and third control unit controlling change of travelling mode and switch between two pseudo stepwise up-shift controls according to control states of first and second control units, are provided. When travelling mode is changed to second travelling mode during progress of up-shift in first pseudo stepwise up-shift control, third control unit maintains first pseudo stepwise up-shift control until up-shift is completed. With this, harmonization between pseudo stepwise up-shift control and engine torque control is secured, then shift shock is suppressed. | 06-30-2016 |
