Class / Patent application number | Description | Number of patent applications / Date published |
477083000 | Clutch and engine controlled | 22 |
20080261772 | Method for Controlling an Automatic Transmission - A method for the control of an automatic transmission during a change of ratio procedure, wherein the synchronous speed of rotation (SD) for the new transmission gear-stage lies under the no-load speed of rotation (LD) of a drive motor which can be connected to the transmission and wherein a gear-stage engagement actuator for the engagement of a new transmission gear-stage is then activated, when the transmission input speed of rotation (GED) has reached a predetermined speed of rotation window (F), which window also encompasses the synchronous speed of rotation (SD). In order to make such a shifting method more comfortable than previously, the invented method deviates from that procedure based on downshifting, which has been customary up to this time and rather proceeds in a upshifting mode. | 10-23-2008 |
20080274857 | Method for Controlling an Automatic Vehicle Transmission in Order to Reduce Back-and-Forth Shifting - A method of controlling an automatic transmission of a motor vehicle having clutches controlled by an electronic control unit. A transmission rotational speed in an initial transmission stage is determined. If a first transmission shifting rotational speed is reached, the transmission is shifted from the initial transmission stage to a target transmission stage. A target transmission rotational speed of the target transmission stage is then ascertained. A difference is next ascertained between the target transmission rotational speed and a second shifting transmission rotational speed. An initial counter value, of a counter, is determined, which depends on the transmission rotational speed difference. The counter is next caused to carry out counting, from the initial counter value, as time progresses. If and when the counter value reaches zero, the transmission is shifted from the target transmission stage toward the initial transmission stage. | 11-06-2008 |
20100113218 | METHOD FOR CONTROLLING AN AUTOMATED FRICTION CLUTCH - A method of controlling an automated friction clutch arranged in a drivetrain of a motor vehicle in the force flow, between a motor and transmission, and the automated friction clutch is designed to be passively engaged by spring pressure and can be disengaged and engaged by a controllable clutch actuator. The automated friction clutch is provided with a path sensor for detecting the clutch actuator travel such that during the operation of the motor a current key point of a torque characteristic, provided for controlling the friction clutch, is determined and used for adapting the torque characteristic. With the friction clutch engaged and without the clutch actuator exerting any force, several values of the actuator travel are determined at intervals from which a current engagement point, close to the actual engagement point of the torque characteristic, is determined and with which the torque characteristic is adapted. | 05-06-2010 |
20110003662 | METHOD FOR CONTROLLING AN AUTOMATED DUAL CLUTCH TRANSMISSION - A method controls an automated dual clutch transmission of a motor vehicle. An actuating device, preferably arranged in the region of a steering wheel, for selecting the gear step of the shift transmission, which actuating device has a first and a second actuating element which, when actuated individually, cause an upshift or downshift of the shift transmission and, when actuated simultaneously, transfer the shift transmission into an idling state. When both actuating elements are actuated simultaneously, the force-transmitting clutch remains closed and consequently the selected gear remains engaged, and at the same time a clutch torque and/or an engine torque and, consequently, a drive torque acting on a driven wheel is reduced to approximately 0 Nm. It is thereby possible to tie up the force transmission again especially quickly after the termination of the idling state. | 01-06-2011 |
20110136622 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - Provided is a control apparatus for an internal combustion engine, which quietly restarts the engine with a reduced torque shock when a re-acceleration request is made by a driver. A control apparatus for an internal combustion engine, for controlling a clutch provided between the internal combustion engine and an automatic transmission, includes: an accelerator opening-degree detection unit for detecting a pressing amount of an accelerator; a fuel-supply stopping unit for stopping fuel injection to the internal combustion engine when the accelerator is not pressed down; and a clutch direct-coupling ratio control unit capable of arbitrarily changing a power amount transmitted by the clutch from engagement for direct coupling to disengagement of the clutch, in which, when the accelerator is pressed down while the clutch is disengaged in a fuel-supply stop state, the clutch is engaged in a slipping manner so that internal combustion engine rpm becomes equal to or higher than target cranking rpm to restart the internal combustion engine. | 06-09-2011 |
20110319227 | IDLE STOP CONTROL DEVICE FOR VEHICLE - A vehicle idle stop system is disclosed. The idle stop system comprises an engine, an automatic transmission, a first oil pump driven by said engine and generating hydraulic pressure which is supplied to a friction element of said automatic transmission, a second oil pump capable of operating and generating hydraulic pressure which is supplied to a friction element of said automatic transmission during an engine stop, and a controller. The controller is configured to control the engine to stop when a predetermined engine stop condition is satisfied, and to control the second oil pump to supply hydraulic pressure to a predetermined friction element coupled to a forward starting gear of the automatic transmission, the hydraulic pressure supplied to couple the predetermined friction element when the engine is automatically stopped and when a gear range of the automatic transmission is in a neutral range. | 12-29-2011 |
20130012354 | FLUID PRESSURE CONTROL DEVICE FOR AUTOMATIC TRANSMISSION - A fluid pressure control device for an automatic transmission that transfers power from a motor via a friction engagement element, including: a first pump actuated by the power from the motor; a pressure regulator that regulates pressure of a working fluid pumped from the first pump; a first flow passage connected to an output port of the pressure regulator; a second flow passage connected to a fluid pressure chamber of the friction engagement element; a switcher that establishes and blocks connection between the first flow passage and the second flow passage; a second pump actuated by supply of electric power and capable of supplying the working fluid to the second flow passage with connection between the first flow passage and the second flow passage blocked by the switcher; and a pressure accumulator that accumulates pressure of the working fluid. The pressure accumulator is connected to the first flow passage. | 01-10-2013 |
20130040779 | GEARSHIFT CONTROL METHOD FOR A MOTOR VEHICLE - A gearshift control method for a motor vehicle whose drive train comprises a turbo-charged combustion engine, a startup clutch and a shift clutch and an automatic stepped transmission, in which drive engine torque deficiencies, that occur during the build-up of load at the end of a tractive upshift, are avoided without assisting the engine with an additional device or increasing the charge pressure. The method provides that the engine accelerates at the earliest, after the disengagement of the load gear, and at the latest, at the start of the load build-up after the engagement of the target gear up to the boost threshold speed or an engine speed which is slightly above the boost threshold speed, and is loaded, during the load build-up, with a largely constant engine speed beyond the intake torque of the engine to nearly the full load torque, before slipping of the friction clutch ends. | 02-14-2013 |
20130085034 | Ratio Shift Control System And Method For A Multiple-Ratio Automatic Transmission - A control system and method for controlling a multiple gear ratio automatic transmission in a powertrain for an automatic transmission having pressure activated friction torque elements to effect gear ratio upshifts. The friction torque elements are synchronously engaged and released during a torque phase of an upshift event as torque from a powertrain source is increased while allowing the off-going friction elements to slip, followed by an inertia phase during which torque from a powertrain source is modulated. A perceptible transmission output torque reduction during an upshift is avoided. | 04-04-2013 |
20130203555 | METHOD FOR CONTROLLING SHIFTING OF A PARTIAL DOUBLE CLUTCH TRANSMISSION - A method of controlling shifting in a transmission having a first partial transmission, designed as a dual-clutch transmission, which comprises first and second clutches by which the dual-clutch transmission can be functionally connected to a turbocharged internal combustion engine. A second partial transmission is arranged in the drive-train, downstream of the dual-clutch transmission, which is in the form of a main transmission that shifts with traction force interruption. To at least reduce traction power loss of the turbocharged engine after a traction shift, during a traction shift involving a gearshift in the main transmission, the clutches are at least partially engaged so as to be braced against one another and produce a torque that acts in opposition to the drive engine by virtue of which, during the traction shift, the supercharge pressure of the drive engine is largely maintained, or at least built up shortly after the traction shift. | 08-08-2013 |
20140057756 | METHODS AND SYSTEMS FOR ENGINE CONTROL - Systems and methods are provided for restarting an engine that can be selectively deactivated during idle-stop conditions. In one embodiment, the engine is restarted with torque reduction over an interval of the restart, for example, by upshifting the transmission. In response to a vehicle launch request, the torque reduction is decreased, for example, by downshifting the transmission, to expedite return of driveline torque. | 02-27-2014 |
20140106932 | ENGINE AUTOMATIC CONTROL SYSTEM AND ENGINE AUTOMATIC CONTROL METHOD - An engine automatic control system includes: a clutch that changes between transmission of power, generated by an engine, to a drive wheel and interruption of the power to the drive wheel; a clutch pedal that engages or disengages the clutch to operate an engagement state of the clutch; and an ECU that stops or starts the engine on the basis of an operation of the clutch pedal. The ECU starts the engine on the basis of an operation mode in which the clutch pedal is operated to engage the clutch during a stop of the engine. | 04-17-2014 |
20140221156 | CONTROL DEVICE AND CONTROL METHOD FOR VEHICLE - A control device for a vehicle that includes an engine, a motor, and a clutch provided in a power transmission path between the engine and the motor. The control device includes an ECU. The ECU is configured to switch travel states of the vehicle from a first to a second travel state. In the first travel state, the vehicle travels by using driving force generated by at least the engine while the clutch is engaged. In the second travel state, the vehicle travels by using driving force generated by the motor while the engine is stopped and the clutch is disengaged. The ECU is configured to maintain an operation of the engine and keep the clutch engaged after target driving force of the engine changes to a negative value when disengagement of the clutch is prohibited in switching from the first travel state to the second travel state. | 08-07-2014 |
20140274559 | METHOD OF SHIFTING A TRANSMISSION - A method of controlling a multiple step downshift is disclosed. Two offgoing shift elements are released and two oncoming shift elements are engaged to complete the downshift. During a first phase of the downshift, one of the offgoing shift elements controls the rate of increase of input shaft speed. During a second phase of the downshift, one of the oncoming shift elements controls the rate of increase of the input shaft speed. The method computes target torque capacities such that output torque and input shaft acceleration are continuous during the transition between phases. Furthermore, the method computes target torque capacities such that both oncoming clutches reach zero relative speed simultaneously as the input shaft reaches the final speed ratio. | 09-18-2014 |
20160059861 | TRANSMISSION AND SHIFT CONTROL SYSTEM - The present invention is capable of suppressing gear shift shocks or delays in acceleration with no interruption of driving force and reducing the weight. Disclosed is a transmission which is provided with multiple stage shift gears so arranged to shift a number of dog clutches to shift a gear to the upper stage of the multiple stage shift gears, and is characterized in that a guide part is provided to a shift operation section and the dog clutches on each of the sages so as to move the lower dog clutch in a neutral direction by a coasting torque acting on the lower stage by a shift rotation of the upper stage to release a meshing engagement when meshing engagements of the lower and upper dog clutches are simultaneously performed by an operation of the shift operation section. | 03-03-2016 |
477084000 | Speed responsive control | 7 |
20100137101 | Shift Control Method and System of Automatic Transmission - A shift control method of an automatic transmission controls a skip shift from a first shift-speed achieved by engagements of first and second frictional elements to a second shift-speed achieved by engagements of third and fourth frictional elements, wherein the engagements of the third and fourth frictional elements is controlled after completion of releases of the first and second frictional elements. | 06-03-2010 |
20100261577 | Gear Shift Control of a Dual Clutch Transmission - A method for controlling a gear shift of a dual clutch transmission having an offgoing clutch and an oncoming clutch, includes using torque transmitted by the oncoming clutch to control torque at a transmission output, using a speed of a power source to control a transfer of torque between the offgoing clutch and the oncoming clutch, and varying said torque capacity to produce a target slip across the oncoming clutch when the shift is completed. | 10-14-2010 |
20120208673 | MULTI-RATIO ROTORCRAFT DRIVE SYSTEM AND A METHOD OF CHANGING GEAR RATIOS THEREOF - A multi-ratio rotorcraft drive system and a method of changing gear ratios thereof are disclosed. According to one embodiment, the multi-ratio rotorcraft drive system comprises a rotor system comprising one or more rotors and one or more engines. Each engine of the one or more engines is coupled to the rotor system through a multi-ratio transmission. The multi-ratio transmission comprises an output shaft coupled to the rotor system, an input shaft coupled to a respective engine of the one or more engines, a high speed clutch integrated into a high speed gear train, and a low speed clutch integrated into a low speed gear train. The high speed clutch and the low speed clutch are freewheeling clutches without a friction plate and are capable of disconnecting the output shaft and the input shaft in an overrunning condition when the output shaft spins faster than the input shaft. | 08-16-2012 |
20120238405 | METHODS AND SYSTEMS FOR ASSISTED DIRECT START CONTROL - Methods and systems are provided for controlling a vehicle engine coupled to a stepped-gear-ratio transmission. One example method comprises, in response to a first vehicle moving condition, shutting down the engine and at least partially disengaging the transmission while the vehicle is moving; and during a subsequent restart, while the vehicle is moving, starting the engine using starter motor assistance and adjusting a degree of engagement of a transmission clutch to adjust a torque transmitted to a wheel of the vehicle. | 09-20-2012 |
20130005531 | SHIFT CONTROL SYSTEM AND METHOD FOR AUTOMATED MANUAL TRANSMISSION - A shift control system and method for a vehicle equipped with an automated manual transmission is disclosed herein. In the shift control system, upon determining that shifting has started and a clutch has been released, an engine speed is reduced by fully opening a valve of a hydraulic cooling unit when. The engine speed is then synchronized with an input shaft speed and the clutch is rejoined once the engine speed is synchronized with the input shaft speed. | 01-03-2013 |
20130072349 | AUTOMATIC SPEED CONTROL SYSTEM FOR MANUAL TRANSMISSION - Disclosed therein is an automatic speed control system for a manual transmission. Clutch operating means using a combination of a motor and gears, transmission lever operating means using a combination of a motor and gears, and a control part, which check a driving state of a vehicle in real time and controls the motor if gear-shifting is needed, are additionally mounted to a general manual transmission, so that the general manual transmission can automatically shift the gear like an automatic transmission. | 03-21-2013 |
20140031171 | METHOD AND APPARATUS FOR EXECUTING A CLUTCH-DRIVEN ENGINE AUTOSTART OPERATION - A powertrain system includes an internal combustion engine, a multi-mode transmission and a driveline. A method for controlling the powertrain system in response to a command to execute an engine autostart operation during vehicle operation includes executing a clutch-driven engine autostart operation to start the engine upon determining that a present transmission output speed is greater than a minimum output speed for engine operation and upon determining that a selected clutch configured to effect a mechanical coupling between the engine and the driveline is activatable. | 01-30-2014 |