Class / Patent application number | Description | Number of patent applications / Date published |
477092000 | With brake control | 55 |
20080227598 | SELECTABLE DRIVETRAIN CONTROL FOR A VEHICLE - A selectable drivetrain control for a vehicle includes a controller configured to receive input signals and issue predetermined output command signals corresponding to the status of the input signals. A first sensor is configured to provide an input signal to the controller relating to the actuation status of a brake pedal. A second sensor is configured to provide an input signal to the controller relating to the actuation status of an accelerator pedal. A stability control selector is configured to provide an input signal to the controller relating to the engagement status of a stability control system of the vehicle. A drivetrain is configured to receive output command signals from the controller. The controller issues output command signals to the drivetrain to control the operational characteristics of the drivetrain, responsive to the engagement status of the stability control system while the brake and accelerator pedals are simultaneously actuated. | 09-18-2008 |
20080312031 | Method for Controlling the Mechanical Drive Train System of a Motor Vehicle - A method of controlling a mechanical drive train ( | 12-18-2008 |
20090036266 | Driving assist method for a vehicle including an automatic transmission, driving assist control program, and driving assist apparatus for a vehicle including an automatic transmission - A driving assist method and driving assist apparatus enable appropriate deceleration in a downshift. If a downshift operation increases the torque output of the engine, and if it is determined that vehicle speed would otherwise be accelerated before the completion of the downshift, an electronic transmission control unit calculates a deceleration for offsetting the acceleration. On the basis of the calculated deceleration, the electronic transmission control unit controls a braking device via an electronic brake control unit to apply a braking force to the vehicle to thereby suppress the acceleration of the vehicle which would otherwise be produced by the increase in engine torque produced by the downshift. | 02-05-2009 |
20090062068 | APPARATUS FOR CONTROLLING AUTOMATIC TRAVEL OF VEHICLE - An apparatus controls automatic travel of a vehicle equipped with a motive power generator. In the apparatus, information indicating a road surface on which a vehicle is present currently is acquired. It is determined whether or not a command for shifting the vehicle from its stopped state to its traveling state is issued. When the command is issued, automatic shift of the vehicle is made from its stopped state to its traveling state by controlling drive of the motive power generator based on the acquired information. It is further determined whether or not, of a component of gravity applied to the vehicle, there is a force component applied in a direction opposite to a travel direction of the vehicle. When there is the force component, the operation applied to the motive power generator is continued even if the brake pedal is pressed by the driver. | 03-05-2009 |
20090088293 | VEHICULAR CONTROL APPARATUS AND CONTROL METHOD - The invention provides a control apparatus and a control method for a vehicle provided with an automatic transmission which has an automatic shift mode in which a gear is selected according to a running state and a manual shift mode in which a gear is selected according to a manual operation, and which transmits driving force generated by an internal combustion engine. The control apparatus and control method determine whether the vehicle is in a high load state; determine whether engine braking force from the internal combustion engine is required; calculate differential braking force which is the difference between engine braking force generated when running in a gear selected according to the manual operation and engine braking force generated when running in a gear selected according to the running state; and control the automatic transmission to execute an upshift and perform control to generate the calculated differential braking force when it is determined that i) the vehicle is in the high load state and ii) the engine braking force is required, while the automatic transmission is in the manual shift mode. | 04-02-2009 |
20090111647 | METHOD FOR SELECTING A NEUTRAL POSITION OF A MOTOR VEHICLE TRANSMISSION AND FOR SELECTING A PARKING GEAR OF A MOTOR VEHICLE - The invention relates to a method to select a neutral position of an automatic or automated motor vehicle transmission and to select a parking gear provided to immobilize a motor vehicle, wherein the neutral position and parking device can be set or activated, depending on a gear selected by the driver of the motor vehicle on a selector device and depending on other operating parameters of the motor vehicle. In addition, the invention relates to a motor vehicle controlled by this method. | 04-30-2009 |
20090111648 | METHOD FOR AUTOMATICALLY CONTROLLING A NEUTRAL POSITION AND A PARKING LOCK OF A MOTOR VEHICLE TRANSMISSION - A method of automatically controlling a neutral position and parking lock of an motor-vehicle transmission to immobilize the vehicle depending on a drive position of the transmission selected by the driver with a selector device and subject to other operating parameters of the motor vehicle. Only when simultaneously the vehicle is essentially stationary, an ignition circuit is electrically interrupted and the selector device is in a “Neutral” position, can an Neutral-holding phase be activated, in which the transmission is in a non-frictionally engaged neutral position as long as the parking lock of the transmission has not yet been engaged. If the Neutral-holding phase has not been activated, the transmission remains non-frictionally connected in the Neutral position until the driver at least intends to exit the vehicle, at which time the parking lock of the transmission is automatically engaged. | 04-30-2009 |
20090111649 | METHOD FOR SELECTING A NEUTRAL POSITION OF A MOTOR VEHICLE TRANSMISSION AND FOR SELECTING A PARKING DEVICE OF THE MOTOR VEHICLE - A method for selecting a neutral position of an automatic or automated motor vehicle transmission and for selecting a parking device of the motor vehicle intended for immobilizing the motor vehicle, wherein the neutral position and the parking device can be engaged or actuated as a function of a position chosen by the driver of the motor vehicle on a selector device and as a function of other operating parameters of the motor vehicle. The invention further relates to a motor vehicle controlled by this method. | 04-30-2009 |
20090258754 | METHOD FOR ACCELERATING A VEHICLE FROM A STOP OR FOR STOPPING A VEHICLE ON A GRADIENT - A method for starting or stopping a vehicle on a gradient. In order to protect the clutch ( | 10-15-2009 |
20090318263 | Automated machine retarding systems and methods - A control system for a machine is disclosed. The control system may have a first sensor configured to generate a first signal indicative of an inclination of the machine, a second sensor configured to generate a second signal indicative of a travel speed of the machine, a third sensor configured to generate a third signal indicative of an engine speed of the machine, and a controller disposed in communication with each of the first, second, and third sensors. The controller is configured to determine whether the machine is freewheeling in a neutral gear, and to generate a machine braking command based on at least one of the first, second, and third signals. A method of retarding a machine is also disclosed. | 12-24-2009 |
20100048352 | SHIFT CONTROL SYSTEM AND METHOD - When the driver makes a request for switching the shift range to the P range despite that the vehicle has not yet stopped completely, the wheel cylinder pressure is maintained at a brake hold pressure Ph for a while, rather than switching the shift range to the P range immediately. At this time, more specifically, the wheel cylinder pressure is maintained at the brake hold pressure Ph for a brake hold duration Δt within which the vehicle is estimated to stop, and when the brake hold duration Δt has passed, the shift range is switched to the P range. After the lock mechanism is actuated to establish the P range, the wheel cylinder pressure is gradually reduced from the brake hold pressure Ph at a given pressure reducing gradient. | 02-25-2010 |
20100056331 | CONTROL DEVICE FOR OPERATING A GEAR BOX OF A VEHICLE, A SYSTEM FOR GEAR SHIFT AND PARKING BRAKE ACTUATION AND A VEHICLE COMPRISING A CONTROL DEVICE AND A SYSTEM - A control device for operating a gear box of a vehicle includes a selector for selection of two or more gear positions and for selection of a parking brake position. The parking brake position includes a first operating region which is adapted to gradually apply a parking brake and a second operating region which is adapted to fully apply a parking brake. | 03-04-2010 |
20100197456 | METHOD FOR ACTUATING A GEAR STEP IN AN AUTOMATIC OR AUTOMATED TRANSMISSION OF A MOTOR VEHICLE AND CORRESPONDING MOTOR VEHICLE - A method of actuating a gear step in an automatic or automated transmission of a motor vehicle. The gear step of the transmission and a parking lock, which immobilizes the vehicle, can be engaged as a function of a gear step (P, R, N, D) that can be selected by the driver via a controllable selector device, and as a function of other motor vehicle operating parameters. A separate operating device, which is in addition to the selector device, can activate a holding phase, in which the transmission is in a traction-free neutral position, independently of a predetermined gear step “Park” (P), “Reverse” (R), “Neutral” (N) and/or “Forward”’ (D) that is specified by the selector device, if the motor vehicle is at least almost at a standstill and at the same time, an ignition circuit acting on a drive motor of the motor vehicle is electrically interrupted. | 08-05-2010 |
20110015036 | AUTOMATIC TRANSMISSION - In an automatic transmission employing a parking-lock mechanism accommodated in a transmission casing for mechanically locking and unlocking a transmission output shaft of a speed-change system, the transmission casing includes a first casing and a second casing integrally connected to each other. A shift-lever-operated manual shaft and a cam-equipped parking rod, both constructing parts of the parking-lock mechanism, are installed on the first casing, whereas a support actuator having a guide face for the cam and a pivotable parking pawl operated by the cam for meshed-engagement with a parking gear of the transmission output shaft when a specified longitudinal displacement of the parking rod has been reached, both constructing parts of the parking-lock mechanism, are installed on the second casing. A temporary-retaining structure is provided on a face of the first casing facing the second casing, for temporarily retaining the parking rod. | 01-20-2011 |
20110306465 | METHOD FOR AUTOMATICALLY ENGAGING A PARKING LOCK OF AN AUTOMATIC OR AUTOMATED GEARBOX OF A MOTOR VEHICLE - A method of automatically engaging a parking lock or an automatic or automated gearbox of a motor vehicle, which can be engaged depending on a drive position selected by the driver of the motor vehicle, by way of a selector device and depending on other operating parameters. In order to achieve as little restriction of the drivability of the motor vehicle as possible, without neglecting the safety of the driver and surroundings, two different complex embodiments of an Auto_P function for automatically engaging the parking lock are proposed, if the motor vehicle is at least approximately stopped and, at the same time, an ignition circuit acting on the drive motor of the motor vehicle is electrically interrupted. | 12-15-2011 |
20120309590 | VEHICULAR SHIFT CONTROL APPARATUS - A vehicular shift control apparatus for a vehicle provided with a parking lock device selectively switched to a locking position in which rotation of wheels of the vehicle is prevented and a non-locking position in which the rotation of the wheels is not prevented, by an operation of an electrically operated actuator, the vehicular shift control apparatus being configured to perform a failure diagnosis to determine whether the actuator is operable or not, the vehicular shift control apparatus includes: the vehicular shift control apparatus permits the operation of the actuator if a supply voltage to the actuator is raised from a value lower than a predetermined threshold supply voltage value to a value not lower than the threshold supply voltage value after a determination that the actuator is inoperable is obtained in the failure diagnosis. | 12-06-2012 |
20130252784 | FAILSAFE DEVICE FOR SHIFT-BY-WIRE SYSTEM - There is provided a failsafe device for a shift-by-wire system, including: a parking range operation unit with which a diver inputs a request to shift to a parking range; a control unit that changes the state of an automatic transmission to a parking range state in response to the shift request from the parking range operation unit; a failure determination unit that determines whether or not the actual state of the automatic transmission is the parking range state; and a brake device that brakes wheels of a vehicle with an actuator. The control unit brakes the wheels with the brake device when the failure determination unit determines that the actual state of the automatic transmission is not the parking range state after the request to shift to the parking range has been issued from the parking range operation unit. | 09-26-2013 |
20140080667 | Vehicle and Method for Operating a Vehicle - A vehicle has a drive train comprising a drive unit, a hydrostatic-mechanical power-split gear unit operatively connected to the drive unit and an output, and at least one braking device. An additional actuating device is allocated to the braking device and is operatively connected with a power request element and/or a driving direction selection element. Upon the presence of a deceleration of the vehicle requested by the driver through the power request element and/or the driving direction selection element and, the braking device is actuated to an extent that initiates a braking torque in the drive train. Upon the presence of a requested deceleration of the vehicle, a driving torque on the side of the drive unit is provided in the area of the output for a braking device that is not actuated by the driver. If the rotational speed of the drive unit exceeds a defined threshold of rotational speed, the braking device is operated to an extent that initiates a braking torque in the drive train. | 03-20-2014 |
20140106933 | COAST STOP VEHICLE - A coast stop vehicle for stopping a drive source during vehicle running includes a power transmission means arranged between the drive source and drive wheels, a coast stop control means for executing a coast stop control to stop the drive source when a coast stop condition for stopping the drive source holds during the vehicle running, an electrical oil pump for supplying oil to the power transmission means during the coast stop control, a slip detection means for detecting a slip in the power transmission means during the coast stop control, and an electrical oil pump control means for causing the electrical oil pump to discharge a second discharge pressure higher than a first discharge pressure set before the slip in the power transmission means occurs when the slip occurs in the power transmission means during the coast stop control. | 04-17-2014 |
20140128220 | BRAKE MECHANISM FOR A HYBRID TRANSMISSION - A brake mechanism for a hybrid transmission includes a magnetic unit and a brake plate. The magnetic unit is configured to selectively generate magnetic flux. The magnetic unit radially surrounds an axis of rotation. The magnetic unit defines a plurality of grooves. The brake plate radially surrounds the axis of rotation and includes a plurality of teeth. The brake plate is movable axially along the axis of rotation between a disengaged position and an engaged position. The brake plate is configured to rotate about the axis of rotation, relative to the magnetic unit when in the disengaged position. The teeth of the brake plate are configured to engage the corresponding grooves of the magnetic unit when in the engaged position in response to generation of magnetic flux by the magnetic unit, such that rotation of the brake plate is ceased. | 05-08-2014 |
20140200114 | Method Of Calibration Of A Park Brake Of A Continuously Variable Transmission - A method of calibrating a hydraulically operated park brake of a continuously variable transmission of a vehicle. With the vehicle moving at a set, slow speed within a specified range, and the park brake off, a search technique is used, wherein the brake hydraulic pressure is reduced by application of a control signal of a selected test value to apply the brake. When the selected test value is reached, it is held constant, and a condition in a HSU of the transmission is monitored for a change indicative of engagement of the park brake. This will expectedly be in the form of a pressure change and more particularly an increase indicating initial contact between the plates of the brake, and if the HSU change is not detected, the step will time out and another control signal value will be tested. | 07-17-2014 |
20140256508 | AUTOMATIC TRANSMISSION AND METHOD FOR CONTROLLING THE SAME - An automatic transmission includes an input member, a planetary gear set, a plurality of engagement mechanisms, an output member, a switching mechanism, an engine braking determination device, a vehicle speed detector, and a controller. The controller is configured to prevent the switching mechanism from switching a mode from a fixed mode to a reverse rotation prevention mode when a shift position is changed from a reverse drive range to a forward drive range, and if the engine braking determination device determines that a vehicle is in an engine braking mode or if a travel speed of the vehicle detected by the vehicle speed detector is higher than a predetermined speed. | 09-11-2014 |
20140287873 | CONTROL DEVICE AND CONTROL METHOD FOR VEHICLE - An ECU increases an engine rotation speed when the ECU determines that an inclination angle of an uphill is larger than or equal to a predetermined value, an accelerator is off and a vehicle speed in a direction opposite to a travelling direction of a vehicle, indicated by a specified range, is increasing. Subsequently, the ECU acquires an engine stall predicted vehicle speed, and calculates a predetermined value used in an immediate engine stall determination condition from a current rate of increase per unit time of a turbine rotation speed. Then, the ECU determines that immediate engine stall determination is affirmative when a rotation speed difference between the engine rotation speed and the turbine rotation speed becomes smaller than the predetermined value, and executes engine stall prevention control. | 09-25-2014 |
20140364275 | Driver Assistance System in a Motor Vehicle Comprising a Speed Limiting Function - In the driver assistance system, a function module is provided for a speed limiting function by which certain conditions for exceeding a predefined maximum speed and for decelerating again down to the maximum speed are implemented. The function module generates signals for carrying out one or more measures to generate or increase the braking torque. The signal for carrying out the measures can be only a binary signal, or can correspond to a required braking torque progression in the form of a regulating step so as to reach the maximum speed within a predefined time period. In the second case, the predefined time period is preferably shorter than a defined time window during which a warning intervention of the speed limiting function is suppressed during an exception where the maximum speed is allowed to be exceeded. | 12-11-2014 |
20150038296 | SHIFT CONTROL SYSTEM FOR ELECTRIC VEHICLE - A shift control device for an electric vehicle that is arranged to perform a downshift by a combination of a disengagement of a frictional element and an engagement of an engagement element, and a shift control means configured to perform a shift control of the automatic transmission, the shift control device includes: a regenerative cooperative brake control means which is configured to perform a regenerative cooperative brake control by a switching to increase a frictional torque of a frictional brake device provided to the driving wheel to follow a decrease of a regenerative torque when the regenerative torque by the electric vehicle is decreased, the shift control means setting a timing of a start of a coast downshift to disengage the frictional element, at least to a timing after a timing at which the switching of the regenerative cooperative brake control is started. | 02-05-2015 |
20150336583 | METHOD FOR PREVENTING WHEEL SPIN ON STOPPED VEHICLES - A method comprising: applying a brake force to all four wheels of a motor vehicle to stop the vehicle while torque continues to be applied to its driven wheels; and preventing wheel slippage of the driven wheels by reducing the applied torque when the vehicle is stopped or nearly stopped from moving in a forward direction. In this way, unintentional lateral movement of the vehicle due to creep torque applied to the driven wheels on slippery surfaces can be prevented or corrected. | 11-26-2015 |
477093000 | Anti-creep | 9 |
20090023552 | AUTOMATIC TRANSMISSION CONTROL APPARATUS - An automatic transmission control apparatus is provided with a brake switch, a brake fluid pressure detecting section, a range position detecting section, a neutral control section and a prohibiting section. The brake switch is configured to output an on-signal when a brake pedal is depressed and otherwise output an off-signal. The brake fluid pressure detecting section is configured to detect a brake fluid pressure corresponding to a brake pedal depression force. The range position detecting section is configured to detect if a traveling range of an automatic transmission is selected. The neutral control section is configured to start a neutral control that puts the automatic transmission into a neutral state when the brake fluid pressure detected by the brake fluid detecting section exceeds a start threshold value while the range position detecting section detects that the traveling range is selected, and to end the neutral control when the brake fluid pressure falls below an end threshold value while the neutral control is being executed, with the start and end threshold values being set to values that are higher than the brake fluid pressure occurring when the brake switch starts outputting the on-signal. The prohibiting section is configured to prohibit the neutral control from being subsequently started again, after the neutral control has been started by the neutral control section, regardless of the brake fluid pressure detected by the brake fluid pressure detecting section until the brake switch outputs the off-signal. | 01-22-2009 |
20090124457 | VEHICLE BRAKING FORCE CONTROLLER - A braking force application control is performed when a change in a driver's posture takes place while a brake pedal is turned on when a vehicle is stopped. As a consequence, in a case in which the driver's posture changes such as when the driver turns to a rear seat side to get something without intending to release depression of the brake pedal, creep of the vehicle that the driver does not intend to happen can be inhibited. Furthermore, the vehicle stop retention is only performed when a travelling direction is a forward direction or a seatbelt is worn. As a result, performance of the vehicle stop retention can be inhibited when it is considered that the driver intentionally desires to let the vehicle creep. | 05-14-2009 |
20120231926 | Method for Controlling a Drive Unit of a Motor Vehicle - A method is provided for controlling a drive unit of a motor vehicle with an automatic or automated transmission. The drive unit includes at least one drive motor, which generates a drive torque in an overrun mode. The drive torque acts as a drag torque or as a creep torque on the drive wheels as a function of the current speed. The level of the drive torque in the overrun mode can be at least partially controlled by actuating a brake pedal. The drag torque applied to the drive wheels in the overrun mode can be controlled by actuating the brake pedal in such a way that a reduced drag torque dependent on the actuation of the brake pedal is applied to the drive wheels. | 09-13-2012 |
20130012355 | Controlling Vehicle Creep - A method for controlling vehicle creep includes controlling motor speed to produce the desired creep speed, if desired creep speed exceeds vehicle speed; controlling motor torque to produce the desired wheel torque, if desired wheel torque exceeds actual wheel torque; and controlling motor torque to decelerate the vehicle to creep speed, if vehicle speed is decreasing and exceeds the desired speed. | 01-10-2013 |
20130303332 | METHOD FOR CONTROLLING AN AUTOMATIC TRANSMISSION OF A MOTOR VEHICLE - A method of controlling an automatic transmission of a vehicle in which a hold gear function is activated by a driver request and deactivated depending on a return condition. The method comprises the step of (a) determining the return condition by a change in operating state, and (b) deactivating the hold gear function if a temporary operating state, for which the hold function is requested, ends and a change takes place between one of uphill driving and downhill driving and between driving one of up and down a hill and driving on a same plane. | 11-14-2013 |
20140274560 | Device and Method for Controlling a Motor Vehicle Drive Train - A method and arrangement is provided for controlling a motor vehicle drive train equipped with at least one drive motor, a torque converter, an automatic transmission and at least one electronic drive control device. In the drive control device, a function module is implemented for carrying out a creep control. This creep control can be activated independently of a brake actuation, when the actual rotational speed of the driving motor is greater than a defined desired rotational speed of the driving motor, and when the actual rotational speed of the driving motor cannot be reduced because of at least one defined condition as the minimally possible rotational speed of the driving motor. | 09-18-2014 |
20140364276 | AUTOMATIC TRANSMISSION CONTROLLER - An automatic transmission controller for controlling an automatic transmission includes an idling reduction controller, an idling-reduction-control permission determiner, and an engagement controller. The idling-reduction-control permission determiner is configured to determine whether or not to permit an idling reduction control. The engagement controller, in a case where the idling-reduction-control permission determiner permits the idling reduction control, is configured to allow rotation of an input shaft of an automatic transmission, and in a case where an output shaft of the automatic transmission is rotated by a wheel of a vehicle in a rotational direction such that the vehicle moves backward, is configured to set a plurality of engagement mechanisms including at least a mechanical engagement mechanism so as to fix the output shaft of the automatic transmission to a casing of the automatic transmission or so as to prevent the vehicle from moving backward. | 12-11-2014 |
20150031504 | VEHICLE ROLLBACK CONTROL APPARATUS AND METHOD - In one aspect of the invention there is provided a control system for a vehicle, the vehicle having a powertrain comprising a prime mover and a driveline, the control system being configured selectively to control the driveline to assume a first state in which a transmission of the driveline is substantially fully connected to the prime mover and a second state in which when the vehicle is stationary the transmission is at least partially disconnected or decoupled from the prime mover thereby to reduce a torque loading on the prime mover, the control system being configured to control the driveline to assume the second state when the vehicle is held stationary by brake means in response to actuation of driver operable brake control means, the control system being operable upon release of the brake control means to verify that a first portion of a powertrain of the vehicle is rotating at a speed exceeding a prescribed threshold and to command the driveline to assume the first state before permitting release of the brake means. | 01-29-2015 |
20170232969 | SYSTEMS AND METHODS FOR MANAGING TORQUE | 08-17-2017 |
477094000 | Brake controls transmission | 16 |
20080269014 | METHODS AND SYSTEMS FOR DRIVE-TO-NEUTRAL AND NEUTRAL-TO-DRIVE TRANSMISSION GARAGE SHIFT QUALITY IMPROVEMENT - The present disclosure improves both the D-N and N-D garage shift by reducing torque applied to the powertrain mount system and vehicle suspension systems during garage shifts. Since less energy in stored in the mount system and suspension system, the reaction bump during garage shifts will be reduced without compromising vehicle performance. For the N-D garage shift, such as after key-on when a shift lever is positioned in drive, a vehicle shifts to second gear (or some other higher gear) which provides reduced torque applied to the powertrain mount system and vehicle suspension system. For the D-N garage shift, as a vehicle slows down to a zero speed with the brake on, the vehicle is shifted into a higher gear. As the vehicle starts to launch, the vehicle is immediately shifted back to first gear, launching the vehicle with its first gear ratio. | 10-30-2008 |
20080312032 | CONTROL DEVICE AND METHOD FOR AUTOMATIC TRANSMISSION - A brake pressure predetermined value (Pa) required to bring a vehicle to a standstill is calculated on the basis of an engine rotation speed (Ne), and when the position of a shift lever ( | 12-18-2008 |
20080312033 | CONTROL DEVICE AND METHOD FOR AUTOMATIC TRANSMISSION - A brake pressure predetermined value (Pa) required to bring a vehicle to a standstill while the vehicle is stationary is calculated on the basis of a slope angle (θ), and when the position of a shift lever 7 is in a driving range, a vehicle speed (V) is equal to or lower than a predetermined vehicle speed (Va), and a brake pressure (P) is equal to or greater than the brake pressure predetermined value (Pa), neutral control is performed to disengage a forward-reverse switching clutch 4 provided between an engine 1 and a continuously variable transmission 5. | 12-18-2008 |
20120142491 | METHOD AND DEVICE FOR CONTROLLING ISG LOGIC - A device for controlling ISG logic is mounted in a vehicle equipped with an ISG system. The device includes a brake pedal switch, a shift lever switch that shows the current state of a gear of the vehicle, an inclination sensor that is mounted in the vehicle and measures the inclination of a road where the vehicle is positioned, a controller that internally controls the vehicle to an N (Neutral) state, regardless of the gear range shown by the shift lever switch, for the vehicle on a downhill, in accordance with the measured inclination, and an engine unit that performed idle stop when the brake pedal becomes ON, with the gear of the vehicle at a D (Drive) sate, and restarts the stopped engine when the brake pedal becomes OFF, with the gear of the vehicle at the D state. | 06-07-2012 |
20120322616 | VEHICLE CONTROL DEVICE AND VEHICLE CONTROL METHOD - A vehicle control device includes: an erroneous operation determination unit that determines whether erroneous operation of an accelerator pedal is performed; an increase suppression unit that suppresses an increase in driving force of a vehicle in response to the erroneous operation of the accelerator pedal; a position measuring unit that measures the depressed position of a brake pedal; a tendency determination unit that determines a deviation tendency of the depressed position of the brake pedal; and a suppression amount varying unit that varies a suppression amount of the increase in the driving force on the basis of the deviation tendency. | 12-20-2012 |
20130017928 | CREEP TORQUE CONTROL METHOD OF VEHICLEAANM Oh; JonghanAACI YonginAACO KRAAGP Oh; Jonghan Yongin KRAANM Kim; JeongeunAACI SeoulAACO KRAAGP Kim; Jeongeun Seoul KR - Disclosed is a method and power delivery system for controlling creep torque in a hybrid or electric vehicle. More specifically, a brake signal is detected and a creep torque output is controlled based on the brake signal. The creep torque is outputted for a predetermined time from a point when a brake on signal is first generated. Accordingly, a creep torque is generated for a predetermined time when a brake is being operated and backlash is eliminated between gears so as to prevent a backlash shock from the gears when the brake is released. Additionally, the vehicle may be propelled forward or backward by the creep torque in the creep torque control method of a vehicle according to an exemplary embodiment of the present invention. | 01-17-2013 |
20130178333 | METHOD FOR OPERATING A TRANSMISSION UNIT OF A VEHICLE DRIVELINE WITH AN ENGINE - A method for operating a transmission of a vehicle drivetrain. A transmission ratio can be automatically changed during an operating state depending on a comparison of current operating state parameters with operating parameters stored in a control unit, and can be manually changed depending on a driver's request. Accordingly when the driver requests a change of the transmission ratio, the transmission ratio changes, and a timer starts. If the driver continues the ratio change from an actual transmission ratio value toward a larger or smaller transmission ratio value, the current operating parameters are compared with the stored operating parameters. Upon this comparison, the transmission shifts to higher ratios in comparison to the operating parameters stored in a control device at higher vehicle speeds, and/or a delay between sequential, cyclical transmission ratio changes varies depending on a vehicle deceleration and/or braking pressure in the region of a vehicle brake. | 07-11-2013 |
20130296134 | METHOD FOR BROADENING THE FUNCTION OF A TRANSMISSION BRAKE - A method of controlling and regulating a transmission brake which, for the purpose of synchronization, determines a target rotational speed of a shaft to be synchronized on the basis of an actual rotational speed of a transmission shaft, and controls a transmission brake such that the determined target rotational speed is set for the shaft that is to be synchronized. The transmission brake also carries out additional functions. These functions require no, or only minimal, additional hardware complexity in a cost-neutral way, but considerably increase the functional and practical value of the transmission brake. The comfort and speed of shifting operations, the protection or, as the case may be, the detection of error states in sensors, a clutch, a main clutch or a motor control are improved, and undesirable transmission states avoided. It is also possible to account for and influence other conditions, such as the operation of ancillary devices. | 11-07-2013 |
20140024494 | VEHICLE CONTROL APPARATUS - There is provided a vehicle control apparatus. The vehicle control apparatus includes: an automatic return type select switch that receives an operation for selecting an operating condition of an automatic transmission and outputs a selection signal corresponding to the received selection operation; a switch controller that switches the operating condition of the automatic transmission in accordance with the selection signal output by the select switch; an emergency determining unit that determines whether or not the select switch has been operated consecutively at least a predetermined number of times within a predetermined period while the vehicle travels, and outputs an emergency operation signal when determining that the select switch has been operated consecutively; and a brake control unit and an electric parking brake control unit that apply braking to the vehicle on the basis of an operation by a driver and the emergency operation signal output by the emergency determining unit. | 01-23-2014 |
20140135171 | HYDROSTATIC REGENERATIVE BRAKING TRANSMISSION FOR MOTOR VEHICLES - A transmission for a vehicle including a hydrostatic regenerative braking system includes a first rotatable shaft having a first end adapted to be driven by a first prime mover and a second end adapted to be coupled to a vehicle driveline. A second shaft selectively drives the first shaft and is adapted to drive a hydraulic pump of a second prime mover. A planetary gearset includes a first member restricted from rotation, a second member and a third member. A transfer mechanism includes a first sprocket fixed for rotation with the second member, a second sprocket fixed for rotation with the input shaft and a flexible member interconnecting the first and second sprockets. A clutch transfers torque between the third member and the first shaft. | 05-15-2014 |
20140162845 | APPLICATION OF BRAKING FORCE DURING ENGINE FORCE DISENGAGEMENT - An apparatus for and method of controlling forces transmitted to wheels/tracks of a vehicle. The method includes receiving an electrical indication that a first brake is engaged, such as by a user pressing his foot to a service brake. The method further includes electrically transmitting an instruction to apply force restricting movement of the wheels, such as force exerted from a brake, in an amount above a first threshold, such as an amount necessary to unilaterally prevent movement. The method also includes electrically transmitting an instruction to reduce force being applied to the wheels from a transmission while the (brake) force above the first threshold is applied. | 06-12-2014 |
20140187381 | Proportional Parking Brake Control In Cooperation With Operation Of A Conntinuously Variable Transmission - A parking brake is controlled in concert with operation of a hydrostatic power unit of a continuously variable transmission, particularly when engaging, disengaging and shuttle shifting the transmission, to provide advantages, particularly when on hills. When particular commands are received, such as shifting to a non-moving position, the parking brake is automatically engaged to hold the vehicle position. A swash plate of the hydrostatic unit can be automatically positioned to anticipate the next command. If that command is received, the brake is automatically gradually or proportionally released and the transmission engaged to effect the commanded movement of the vehicle. If a different command is received, the brake remains engaged as the transmission is configured for the commanded movement, such that no machine movement results. Then the brake is automatically gradually or proportionally released and the transmission engaged to effect that commanded movement. | 07-03-2014 |
20150126330 | POWERTRAIN WITH A CHAIN BREAKAGE DETECTION SYSTEM - A pneumatic compactor includes a power source configured to generate power, a pneumatic tire configured to rotate, a chain drive assembly that couples the power source to the pneumatic tire, a proximity sensor, an indicator, a braker controller, and a controller. The chain drive assembly has a chain case and a chain housed in the chain case. The proximity sensor is coupled to the chain case and configured to detect a breakage of the chain and generate a signal signifying the breakage of the chain. The indicator is configured to indicate the breakage of the chain. The brake controller is configured to stop rotation of the pneumatic tire. The controller is configured to receive the indication from the proximity sensor signifying the breakage of the chain, command the indicator to indicate the breakage of the chain, and command the brake controller to stop rotation of the pneumatic tire. | 05-07-2015 |
477095000 | Pressure controlled | 3 |
20090111650 | METHOD FOR COMPENSATING HYDRAULIC PRESSURE OF AUTOMATIC TRANSMISSION - Faster shifting operation and reduced shift shock in response to a braking operation during a lift-Foot-up shifting may be achieved when an automatic transmission is controlled by a method for compensating a hydraulic pressure that includes: determining whether a lift-foot-up shifting of the automatic transmission is under control; calculating a vehicle speed of a vehicle; calculating a deceleration rate of the vehicle; calculating a compensation hydraulic pressure to be applied to a friction member of the transmission, based on the deceleration rate; calculating a on-coming pressure based on the calculated compensation hydraulic pressure, and applying the calculated on-coming pressure to the friction member. | 04-30-2009 |
20110294622 | CONTROL APPARATUS FOR A VEHICLE - Providing a control apparatus for a vehicle having a parking lock device | 12-01-2011 |
20120142492 | DEVICE AND METHOD FOR CONTROLLING ISG LOGIC - A device controls ISG (Idle Stop & Go) logic mounted in a vehicle equipped with an ISG system. The device includes a transmitting unit that shows the current state of a gear in the vehicle and controls the hydraulic pressure of a transmission in idle stop or restarting an engine, a driving unit that performs the idle stop when the pedal of a brake becomes ON, with the gear at a D (Drive)-range, and restarts the engine when the pedal of the brake becomes OFF, with the gear of the vehicle at the D-range, and a brake unit that controls movement of the vehicle by controlling the hydraulic pressure of the brake, in which brake unit controls the hydraulic pressure of a brake to be kept for a predetermined time from when the pedal of the brake becomes OFF. | 06-07-2012 |
477096000 | One control blocks another | 4 |
20080242503 | Method for Activating a Freewheel Function in a Vehicle - A method for activating a freewheel function of a vehicle, where the vehicle is equipped with an auxiliary brake, an auxiliary braking control for controlling the braking power of the auxiliary brake between an auxiliary brake not-active position and at least one auxiliary brake active position, at least one engine, at least one wheel driven by the engine via an automated mechanical transmission, an accelerator pedal for controlling the driving torque of the engine. When deactivation of the auxiliary brake occurs due to manual positioning of the auxiliary braking control to the auxiliary brake not-active position, the freewheel function is automatically activated if a freewheeling condition is sensed. | 10-02-2008 |
20090176619 | VEHICLE CONTROL APPARATUS - Control apparatuses ( | 07-09-2009 |
20120322617 | REVERSE SPEED CONTROL APPARATUS - A reverse speed control apparatus for controlling a reverse speed of the vehicle may include a brake operation detection unit, a shift range detection unit, and a reverse speed restriction unit. The brake operation detection unit detects a brake operation and a brake release of brakes disposed in the vehicle, and the shift range detection unit detects a shift range of the vehicle. Based on the brake operation detection unit and the shift range detection unit, the reverse speed restriction unit performs a restriction on a reverse speed of the vehicle in accordance with a restriction speed threshold. Specifically, when a brake operation is detected and the shift range of the vehicle is in a reverse range, the reverse speed restriction unit performs the restriction on the reverse speed of the vehicle for a preset period of time when a brake release is detected. | 12-20-2012 |
20140038774 | CONTROL DEVICE FOR VEHICLE - When simultaneous depression of an accelerator pedal ( | 02-06-2014 |