Entries |
Document | Title | Date |
20090018735 | APPARATUS AND METHOD FOR DECREASING AN UPSHIFT DELAY IN AN AUTOMATIC TRANSMISSION - A method reduces a time delay or lag between a commanded upshift and a resultant upshift event in vehicle. The method detects the commanded upshift, calculates a scheduled engine torque reduction torque value as a function of an unmanaged torque, and reduces an input torque value from the engine using the calculated scheduled torque. A powertain includes an engine, a transmission, a torque converter, clutches that are selectively engageable to provide at least six forward speed ratios, a reverse speed ratio, and a neutral condition, and a controller. The controller has an algorithm controlling an operation of an off-going clutch and the on-coming clutch during a speed ratio change representing an upshift event. The algorithm calculates a scheduled torque value as a percentage of an unmanaged torque level of the engine, and controls the off-going and on-coming clutch through the speed ratio change using the calculated scheduled torque value. | 01-15-2009 |
20090030583 | OPERATING RANGE SELECTION MECHANISM OF AUTOMATIC TRANSMISSION, AUTOMATIC TRANSMISSION UNIT WITH THE OPERATING RANGE SELECTION MECHANISM, AND VEHICLE - An operation range selection mechanism of an automatic transmission | 01-29-2009 |
20090037061 | CONTROL DEVICE FOR VEHICLE DRIVE DEVICE - A control apparatus for a vehicular drive system including a differential mechanism including an electric motor. The drive system includes a switching clutch and switching brake to switch the transmission mechanism between a continuously-variable shifting state and a step-variable shifting state. A shifting control mechanism changes a manner of controlling shifting action of the transmission mechanism during shifting action of an automatic transmission portion, for reducing a shifting shock, depending upon whether a differential portion is placed in the continuously-variable shifting state in which engine speed is variable due to differential function irrespective of rotating speed of power transmitting member, or the non-continuously-variable shifting state in which the engine speed is more difficult to be variable than in the continuously-variable shifting state. | 02-05-2009 |
20090043466 | Method and apparatus for controlling anteroposterior acceleration of a vehicle - A control apparatus controlling anteroposterior acceleration of a vehicle by controlling a motive power generation apparatus mounted on the vehicle, which is also provided with a staged transmission apparatus that operates on gear ratios. The motive power generation apparatus has an output shaft producing a rotation force in response to a command to be requested. The rotation force is transmitted to the drive wheels via the staged transmission apparatus. A feedback manipulated variable is calculated to control the production of the rotation force of the motive power generation apparatus so that an actual value of anteroposterior acceleration of the vehicle is controlled at a target value thereof. The calculated feedback manipulated variable is used as the command. When the staged transmission apparatus is in the switchover control of the gear ratios, the manipulated variable is is limited from being calculated (for example, stopped from being calculated). | 02-12-2009 |
20090048747 | Hybrid Vehicle With Soft Shafts - A fast automated gear shift operation is performed using a powertrain in a hybrid vehicle, the powertrain including a gear box, an engine, at least one controllable motor, a torque ripple damping device, a mechanical connecting device for connecting or disconnecting the engine to or from, respectively, wheels of the vehicle. In the gear shift operation the motor is controlled to perform a sequence of steps in which different torques are delivered by the motor to temporarily change the speed thereof. The torques are selected so that they to reduce the mechanical tension over at least one elastic part of the powertrain. Hence it can be achieved, that during at least a period during the gear shift operation torques over mechanical elements in the gear box cooperating in the current gear and/or over the mechanical connecting device are eliminated or at least strongly reduced. The period should be sufficiently long so as to permit disconnection of said mechanical elements cooperating for the present gear and/or to permit disconnection of the mechanical connection device. | 02-19-2009 |
20090055061 | Power set for vehicles - A power device for motor vehicles installed on a motor vehicle with an internal combustion engine is composed of a first variable displacement hydraulic activator ( | 02-26-2009 |
20090062996 | Multi Ratio Transmission - A multi-ratio tractor transmission system including a series arrangement of a speed changing gearbox and a range changing gearbox. The system is selectively operable in a field working automatic mode and a road working automatic mode, wherein the transmission can only operate automatically within its speed change gearbox when the system is operating in the field working automatic mode. | 03-05-2009 |
20090069990 | PROCEDURE AND COMPUTER PROGRAM FOR FEEDBACK CONTROL OF A DRIVE - The invention relates to a method for regulating a drive ( | 03-12-2009 |
20090076692 | METHOD TO DETERMINE AN OPTIMIZED SHIFT POINT, IN PARTICULAR UPSHIFT POINT, FOR A MANUAL TRANSMISSION - In order to determine an optimized upshift point, it is proposed that a control circuit, on the basis of a current engine operating point (TQ | 03-19-2009 |
20090076693 | Control device and control method for vehicle power transmission device - When an engine stop control is executed while an automatic ratio shift portion is in a neutral state, a switching clutch is operated, so that a differential portion carrier of a differential portion planetary gear device that is linked to an engine, and a differential portion ring gear linked the automatic ratio shift portion are integrally rotated. Therefore, along with the engine stop control, the rotation speed of the rotating elements of the differential portion planetary gear device is reduced while the rotating elements are integrally rotated or substantially integrally rotated. Since the rotating elements are rotated integrally or substantially integrally, the high rotation speed of the differential portion ring gear linked to the automatic ratio shift portion, which tends to have a heightened rotation speed particularly during the neutral state, is prevented. | 03-19-2009 |
20090088937 | Vehicle power transmission system - A vehicle power transmission system has a first electric motor, a differential section, a power interruption element forming part of a power transmission path, a second electric motor connected to a power transmission path, and a control device that maintains the output rotational speed of the differential section at a predetermined constant value or at a value within a predetermined range until the engagement of the power interruption element is completed, so as to control a rotational speed of a primary power source by the first electric motor during the period when the state of the vehicle power transmission system is being switched front a non-drive mode to a drive mode. | 04-02-2009 |
20090088938 | Gear ratio control method for continuously variable transmission of a vehicle - At an actual engine rotary speed corresponding to a partially engaged state of a starting clutch, a target gear ratio control of a continuously variable transmission is performed by determining a target gear ratio from a target engine rotary speed. At an actual engine rotary speed corresponding to an engaged state of the starting clutch, the gear ratio is controlled in a manner such that the actual engine rotary speed converges with a target engine rotary speed. Accordingly, when it is intended to start the vehicle with a comparatively large throttle opening, it is possible, at the partially engaged condition, to obviate a rise in the actual engine rotary speed with the gear ratio position sticking to a desired position, so that a predetermined driving force is attained when the starting clutch is engaged. | 04-02-2009 |
20090093936 | METHOD FOR GEAR SELECTION DURING DRIVING OF A VEHICLE IN A HEAVY UPHILL DRIVE CONDITION - A method for gear selection during driving of a vehicle in a heavy uphill drive condition is provided, the vehicle including an engine, an automated mechanical transmission, a clutch, a control unit for receiving input signals including signals indicative of vehicle speed, engaged ratio of the transmission, rotational speed of the engine, rotational speed of a input shaft and displacement of a throttle control for engine torque request, and for processing the signals in accordance with programmed logic rules to issue command output signals to the engine, to the transmission and to said clutch. When sensing a heavy uphill drive condition a target gear is determined for the uphill drive condition, the target gear being the highest possible gear with lowest possible gear ratio where the vehicle, in view of at least current circumstances, will be at least theoretically able to hold a constant vehicle speed or accelerate at least slightly, and where further selection of downshifts will be adapted so that no lower gear than the target gear will be selected and engaged. | 04-09-2009 |
20090099742 | METHOD AND APPARATUS TO MONITOR A FLOW MANAGEMENT VALVE OF AN ELECTRO-MECHANICAL TRANSMISSION - A flow management valve is operative to enable a multi-range electro-mechanical transmission in first and second ranges. Fluid pressure in a hydraulic circuit is monitored to detect a fault in the flow management valve. | 04-16-2009 |
20090099743 | Control apparatus and control method for automatic transmission - An ECU executes a program including a step of down shifting by disengaging a B | 04-16-2009 |
20090105914 | METHOD AND SYSTEM FOR INHIBITING OPERATION IN A COMMANDED OPERATING RANGE STATE FOR A TRANSMISSION OF A POWERTRAIN SYSTEM - A hybrid powertrain system includes torque generative devices to transfer power to an output member. An operator torque request, a rotational direction and speed of the output member, and a signal output from a transmission range selector are monitored. When a change in a direction of intended motion is determined, the powertrain system can change rotational direction of the output member when the speed of the output member is less than a threshold. The powertrain can inhibit a change in the rotational direction of the output member. | 04-23-2009 |
20090105915 | AUTOMATED TRANSMISSION CONTROLLER AND VEHICLE INCLUDING THE AUTOMATED TRANSMISSION CONTROLLER - Rotational driving force can be transferred to the follower side (clutch plate) of a friction clutch by adjusting the engagement condition of the clutch so that a first gear and a second gear of a dog-clutch-type transmission can rotate relative to each other. At the time of shift change during stop of the vehicle, the clutch can be further connected at a low speed after connection of the clutch until it reaches a reference clutch position. | 04-23-2009 |
20090112418 | METHOD AND APPARATUS FOR SECURING AN OPERATING RANGE STATE MECHANICAL TRANSMISSION - A hybrid powertrain system includes a transmission operative in a plurality of operating range states. An operating range state can be secured, including assigning each operating range state to a group that can be verified, monitoring a transition path from a first to a second operating range state, and monitoring a torque equation for the present operating range state. | 04-30-2009 |
20090112419 | METHOD AND APPARATUS TO CONTROL OFF-GOING CLUTCH TORQUE DURING TORQUE PHASE FOR A HYBRID POWERTRAIN SYSTEM - A method for controlling an electro-mechanical transmission through an unlocking state of a clutch, the transmission mechanically-operatively coupled to an internal combustion engine and an electric machine adapted to selectively transmit mechanical power to an output member includes decreasing a reactive torque acting upon the clutch, including overriding torque commands to the engine and to the electric machine, and simultaneously decreasing a clutch torque capacity, including, during a lead period selected according to an engine command reaction time, commanding an intermediate clutch torque command maintaining sufficient clutch torque capacity to exceed an initial reactive torque calculated at an initiation of the unlocking state, and following the lead period, decreasing through a ramp down the clutch torque capacity, maintaining sufficient clutch torque capacity to exceed the decreasing reactive torque. | 04-30-2009 |
20090118946 | METHOD AND APPARATUS TO PROVIDE NECESSARY OUTPUT TORQUE RESERVE BY SELECTION OF HYBRID RANGE STATE AND INPUT SPEED FOR A HYBRID POWERTRAIN SYSTEM - A method for controlling a powertrain system includes determining a current transmission operating range state and engine state, determining at least one potential transmission operating range state and engine state, providing at least one operator torque request, determining preferability factors associated with the current transmission operating range state and engine state, and potential transmission operating range states and engine states, wherein determining preferability factors associated with potential transmission operating range states includes assigning biasing costs to operator torque requests which reside within a pre-determined range of possible operator torque requests for at least two of the potential transmission operating range states, preferentially weighting the preferability factors for the current transmission operating range state and engine state, and selectively commanding changing the transmission operating range state and engine state based upon stheaid preferability factors and the operator torque request. | 05-07-2009 |
20090118947 | METHOD FOR SELECTION OF OPTIMAL MODE AND GEAR AND INPUT SPEED FOR PRESELECT OR TAP UP/DOWN OPERATION - A powertrain system includes an engine mechanically coupled to an electro-mechanical transmission at an input thereto selectively operative in one of a plurality of transmission operating range states and one of a plurality of engine states. A method for controlling the powertrain system includes combining sets of preferability factors inputted from engine sensors in a microprocessor or computer with other preferability factors generated during engine and vehicle operation to provide an output for a transmission control module, which may execute an operating range or engine state change. | 05-07-2009 |
20090118948 | METHOD AND APPARATUS FOR MAXIMUM AND MINIMUM OUTPUT TORQUE PERFORMANCE BY SELECTION OF HYBRID RANGE STATE AND INPUT SPEED FOR A HYBRID POWERTRAIN SYSTEM - A powertrain system includes an engine mechanically coupled to an electro-mechanical transmission selectively operative in one of a plurality of transmission operating range states and one of a plurality of engine states. A method for controlling the powertrain system includes determining a current transmission operating range state and engine state, determining at least one potential transmission operating range state and engine state, providing an operator torque request, determining preferability factors associated with the current transmission operating range state and engine state, and potential transmission operating range states and engine states, preferentially weighting the preferability factors for the current transmission operating range state and engine state, and selectively commanding changing the current transmission operating range state and engine state based upon the preferability factors and the operator torque request. | 05-07-2009 |
20090118949 | METHOD AND APPARATUS FOR DEVELOPING A DECELERATION-BASED SYNCHRONOUS SHIFT SCHEDULE - A method for controlling a powertrain includes monitoring a desired synchronous transmission shift during deceleration of an output member including a desired operating range state, monitoring an output speed, predicting output deceleration through the desired synchronous transmission shift, determining a penalty cost associated with the desired synchronous transmission shift based upon an input speed profile resulting from the predicted output deceleration and from the desired synchronous transmission shift, and executing the synchronous transmission shift based upon the penalty cost. | 05-07-2009 |
20090118950 | METHOD AND APPARATUS TO DETERMINE A PREFERRED OUTPUT TORQUE FOR OPERATING A HYBRID TRANSMISSION IN A CONTINUOUSLY VARIABLE MODE - A hybrid transmission includes a torque machine and an energy storage device connected thereto. The hybrid transmission is operative to transfer power between an input member and an output member and the torque machine in a continuously variable operating range state. A method for controlling the hybrid transmission includes determining a preferred output torque, determining a relationship between power from the energy storage device and an output torque of the transmission, determining power constraints from the energy storage device, determining motor torque constraints for the torque machine, determining linear torque constraints to the output torque based upon the motor torque constraints for the torque machine, determining quadratic output torque constraints based upon the power constraints from the energy storage device and the relationship between the power from the energy storage device and the output torque of the transmission device, and determining an output torque to the output member responsive to the preferred output torque and achievable based upon the linear output torque constraints and the quadratic output torque constraints. | 05-07-2009 |
20090132135 | CONTROLLER FOR VARIABLE TRANSMISSION - An electronic controller for a variable ratio transmission and an electronically controllable variable ratio transmission including a variator or other CVT are described herein. The electronic controller can be configured to receive input signals indicative of parameters associated with an engine coupled to the transmission. The electronic controller can also receive one or more control inputs. The electronic controller can determine an active range and an active variator mode based on the input signals and control inputs. The electronic controller can control a final drive ratio of the variable ratio transmission by controlling one or more electronic solenoids that control the ratios of one or more portions of the variable ratio transmission. | 05-21-2009 |
20090138162 | ABNORMAL-PERIOD AUTOMATIC SHIFT CONTROL APPARATUS OF AUTOMATED MANUAL TRANSMISSION - In an abnormal-period automatic shift control apparatus of an automated manual transmission (AMT), a controller includes a first state detecting section configured to detect whether the AMT is in a first state where the AMT is thrown into a shift stage during an engine starting period, and a second state detecting section configured to detect whether the AMT is in a second state where a clutch failure that an automatic clutch, employed in the AMT for engine power transmission, remains engaged undesirably, occurs. Also provided is a neutral-range-period abnormality countermeasure section configured to inhibit a supply of working oil from an engine-drive oil pump, serving as a working medium for automatic-clutch engagement-and-disengagement control and automatic gear shifting, for preventing an automotive vehicle from beginning to move, while a selected operating range is a neutral range, under a condition where the first and second states occur simultaneously. | 05-28-2009 |
20090138163 | METHOD FOR ENGAGING A GEAR IN A GEAR POSITION IN AN AUTOMATED SHIFT TRANSMISSION - A method for shifting a gear into a gear position in an automated shift transmission with several gears and an automated shift transmission adapted to perform said method are suggested. Via a shifting fork, a shifting sleeve can be shifted from a neutral position into respective gear positions and reaches on its way a pull-in position where the shifting sleeve is automatically forced in direction of the gear position. It is achieved that the pull-in position is safely reached by checking whether the shifting fork has reached a first threshold value, a second threshold value, and whether it has come to a standstill therebetween. Accordingly, an increased shifting force can be applied. Albeit allowing production tolerances in the transmission, the respective gear position is safely reached. | 05-28-2009 |
20090138164 | DECELERATION CONTROL APPARATUS AND METHOD FOR AUTOMOTIVE VEHICLE - In deceleration control apparatus and method for an automotive vehicle, a deceleration control is performed in accordance with a turning travel situation of the vehicle; and an engine throttle opening angle is controlled gradually in a closure direction at a preset variation degree. | 05-28-2009 |
20090157271 | ELECTRO-HYDRAULIC CONTROL APPARATUS FOR A MOTOR VEHICLE TRANSMISSION WITH AT LEAST FIVE FORWARD GEARS AND ONE REVERSE GEAR - The control apparatus comprises, in its version intended for a double-clutch transmission, first, second and third shift forks each movable between first and second engagement positions to engage a respective gear, of which the first shift fork is able to engage at least the first gear and the second shift fork is able to engage at least the second gear, first, second and third double-acting hydraulic actuators arranged to control each the movement of a respective shift fork between the first and second engagement position, of which the first hydraulic actuator is associated to the first shift fork and the second hydraulic actuator is associated to the second shift fork, a slide valve selectively movable into one of at least three operating positions in each of which the slide valve selects a respective hydraulic actuator, and first and second gear shift solenoid valves for controlling the supply of fluid to the hydraulic actuator each time selected by the slide valve or the connection of that actuator to a tank. The first shift fork is moved into the engagement position of the first gear upon energization of the first gear shift solenoid valve, whereas the second shift fork is moved into the engagement position of the second gear upon energization of the second gear shift solenoid valve. | 06-18-2009 |
20090171543 | SHIFT CONTROL APPARATUS FOR AUTOMATIC TRANSMISSION - A shift controller controls a downshift to a low shift speed, spaced apart from a high shift speed by two or more steps, through an intermediate shift speed, by first releasing first and second shift release elements, then engaging a first shift engagement element, and finally engaging a second shift engagement element, while controlling the torque capacity of the second shift release element by feedback control. As a result of releasing the first and second shift release elements before engaging the first shift engagement element, it is possible to rev up an input rotation at maximum performance of an engine to reduce the time for shifting. As a result of the feedback control of the torque capacity of the second shift release element after engaging the first shift engagement element, a torque fluctuation at the intermediate shift speed can be reduced to avoid occurrence of an uncomfortable shift shock. | 07-02-2009 |
20090171544 | VEHICLE CONTROL SYSTEM - A vehicle control system for an automatic transmission includes a range selector for outputting a range instruction signal representing the selected shift range and a range shifter for manually outputting a shift instruction signal, and a by-wire control part for controlling the change-over of the shift range according to the range instruction signal input from the range selector. The by-wire control part has a range control circuit, which uses the shift instruction signal input from the range shifter if the range instruction signal is abnormal while monitoring the range instruction signal input from the range selector. | 07-02-2009 |
20090198423 | AUTOMATIC TRANSMISSION - An automatic transmission is provided with an engine control module and a process for controlling an automatic transmission. In order to assure secure positive torque requests during lift foot upshifts, an automatic transmission is described which includes, but is not limited to a transmission control module with means for sending an upshift positive torque request on CAN and means for an upshift positive torque supervision preventing the transmission from requesting unexpected positive torque. The means for an upshift positive torque supervision are designed to differentiate upshift conditions under which the positive torque is not expected to occur from shift conditions where it is expected to occur. They allow secure positive torque requests during lift foot upshifts. | 08-06-2009 |
20090210121 | CONTROL APPARATUS FOR VEHICULAR AUTOMATIC TRANSMISSION - A control apparatus for a vehicular automatic transmission which has a plurality of coupling elements selectively released and engaged to perform shifting actions, the control apparatus including a shift control portion configured to control at least one specially controlled coupling element which is included in the coupling elements provided to perform the shifting actions of the automatic transmission and which is placed in a fully released state prior and subsequent to the shifting action performed according to a presently generated shifting command, the shift control portion controlling each specially controlled coupling element so as to enable the specially controlled coupling element to have a torque capacity during the shifting action performed according to the presently generated shifting command. | 08-20-2009 |
20090210122 | ACCELERATOR PEDAL PREDICTIVE SHIFT POINT CONTROL - A transmission control module for a vehicle transmission includes a gear determination module, a predictive shift module, and a validation module. The gear determination module commands a first shift configuration based on an actual pedal position. The predictive shift module calculates a predicted pedal position based on the actual pedal position and commands a second shift configuration based on the predicted pedal position. The validation module validates the predicted pedal position and selectively cancels the second shift configuration based on the validation. | 08-20-2009 |
20090216414 | System and Method for Changing Values Stored in Memory that Relate to the Operation of an Automatic Transmission - An automatic transmission may be coupled to an internal combustion engine. A shift selector may be coupled to the transmission and may have a plurality of user selectable inputs for controlling operation of the transmission that are electrically connected to a control circuit. The control circuit may include a memory having a value stored therein that relates to operation of the transmission. The memory may further include instructions stored therein that are executable by the control circuit to change the value stored in the memory to a different value upon detection of user selection of a predefined sequence of two or more of the plurality of user selectable inputs. | 08-27-2009 |
20090240408 | METHOD FOR CONTROLLING SHIFTS IN AN AUTOMATED GEARSHIFT TRANSMISSION - A method for controlling a vehicle's automated transmission, which is arranged in a drive train in the force flow between a engine and a drive axle or a transfer box, depending on certain operating parameters and control actions of an adaptive cruise control system (ACC) that can be operated using engine and brake mechanisms to regulate speed and distance from a car in front. The method controls the transmission when an engine torque demand differs from the torque demand of the ACC. The operating mode of the ACC, which is active at the time, and the load direction of the torque demand of the ACC are determined, and the torque demand, used for controlling the transmission when speed or distance regulation is activated, is determined depending on the ACC operating mode and the load direction of the torque demand. | 09-24-2009 |
20090240409 | ELECTRONIC SHIFT LOCKOUT FOR SCALE MODEL VEHICLE - A powered scale model vehicle having a transmission with a forward gear and a reverse gear. The transmission is shiftable between the forward gear and the reverse gear. The vehicle has a radio control receiver, a sensor and a microcontroller. The receiver is adapted to output a throttle signal and a shift signal to the microcontroller. The sensor is adapted to obtain a vehicle speed measurement. The microcontroller is electrically coupled to the receiver and the sensor. The microcontroller may be adapted to control a timing and execution of a forward/reverse shift on the transmission based on at least the vehicle speed measurement, the throttle signal, and the shift signal, for example. | 09-24-2009 |
20090248262 | CONTROL DEVICE AND CONTROL METHOD FOR CONTINUOUSLY VARIABLE TRANSMISSION - An ECU executes a program including steps of setting an upper limit value of a target revolution number of a primary pulley revolution number NIN in the case where an oil temperature THO is greater than a threshold value; setting the upper limit value as a target revolution number in the case where the target revolution number set using the map is greater than the upper limit value; and controlling primary pulley revolution number NIN to be the target revolution number. | 10-01-2009 |
20090248263 | SHIFT CONTROL APPARATUS FOR AUTOMATIC TRANSMISSION - Strain gauges and a torque value calculating unit detect a value for torque acting on a sun gear based on a reaction force, an input equivalent value calculating unit calculates an input torque equivalent value based on the torque value detected, a torque reduction command unit issues a command to the engine for changing torque, and a torque change determination unit determines, based on the input torque equivalent value calculated, whether or not the torque of the engine has been appropriately changed in accordance with the command. Consequently, based on the torque value measured for the sun gear that is a component of the automatic speed change mechanism, it can be precisely determined whether or not the torque change for the engine has been appropriately achieved as targeted. | 10-01-2009 |
20090265066 | CONTROL APPARATUS FOR TRANSMISSION - In a case where the end of a gear change has been decided by gear change end decision means for deciding if a transmission has undergone the gear change, the coil resistance value of a motor which manipulates the transmission is measured by coil resistance measurement means. The coil temperature of the motor is estimated from the measured coil resistance value of the motor by coil temperature estimation means. In a case where the estimated coil temperature of the motor has been decided to be predetermined temperature or above by high-temperature decision means, the speed change inhibition time period of the transmission is calculated by speed change inhibition time calculation means, and the speed change of the transmission is inhibited during the calculated speed change inhibition time period. | 10-22-2009 |
20090281696 | METHOD FOR CONTROLLING A TRANSMISSION DURING ACCELERATION FROM IDLE - A method for controlling a transmission in a motor vehicle during acceleration from an idle condition begins when the vehicle is stationary, the engine is at idle, and the transmission is in the first gear range or ratio. When the vehicle begins to accelerate, the method includes the steps of monitoring the rate of vehicle acceleration and comparing the rate of vehicle acceleration to a rate of vehicle acceleration threshold. If the rate of vehicle acceleration is less than the acceleration threshold, then the transmission allows one of the currently engaged clutches to slip. This clutch slip reduces the torque load on the engine. The method then monitors the engine output speed. If the engine output speed exceeds an engine output speed threshold, then the clutch is fully applied. | 11-12-2009 |
20090281697 | GEAR CLASH LOGIC - A system and method for selectively engaging and disengaging auxiliary equipment to avoid gear clash in a vehicle is disclosed. The system includes a transmission, a transfer case, and a transmission controller. The transmission has a plurality of gears for establishing a plurality of gear ratios. The transfer case is coupled to the transmission by an output shaft. The transmission controller is in communication with a plurality of control devices for controlling the operation of the transmission. The controller includes control logic for controlling the engagement and disengagement of the auxiliary equipment. The control logic has a first control logic for determining whether an operator has actuated a selector switch, a second control logic for actuating a torque transmitting device to engage or disengage the auxiliary equipment and avoid gear clash, a third logic for monitoring the engagement or disengagement of the auxiliary equipment, and a fourth control logic determining whether the auxiliary equipment has been engaged or disengaged. | 11-12-2009 |
20090281698 | SYSTEM AND METHOD FOR CONTROLLING SOLENOID PRESSURE - A method for calibrating an input electrical signal to an individual pressure control device includes the steps of providing a target pressure-to-current (P/I) threshold, providing a lower estimated P/I threshold, and providing an estimated P/I curve that passes between the target P/I threshold and the lower estimated P/I threshold. Next, the method determines a lower actual P/I threshold at a pressure equal to the pressure at the lower estimated P/I threshold. A maximum offset current is calculated from the difference between the currents at the lower actual P/I threshold and the lower estimated P/I threshold. Finally, the method calculates a calibrated P/I curve. The calibrated P/I curve includes the target P/I threshold and the lower actual P/I threshold. The slope of the calibrated P/I curve is calculated as a proportional value of the maximum offset current. | 11-12-2009 |
20090299588 | CONTROL DEVICE AND CONTROL METHOD FOR CONTINUOUSLY VARIABLE TRANSMISSION - A gear ratio control unit is provided to set a target gear ratio on the basis of an operating condition of the vehicle. The gear ratio control unit controls a drive amount of a step motor such that an actual gear ratio converges with the target gear ratio, and when a deceleration of the vehicle exceeds a predetermined threshold, controls the gear ratio by controlling the drive amount of the step motor such that a predetermined gear ratio is maintained. The gear ratio control unit determines the predetermined threshold on the basis of the actual gear ratio upon detection of an operation of a brake. | 12-03-2009 |
20090306865 | AUTOMATIC TRANSMISSION AND CONTROL METHOD THEREOF - In an automatic transmission that performs a shift on the basis of a shift map defined by a vehicle speed Vsp and a throttle opening TVO, when the vehicle speed Vsp and the throttle opening TVO exist within a 6-7 special region, which is located within a sixth speed gear position region of the shift map and defined by a downshift line at which a downshift is performed from a seventh speed gear position serving as a maximum gear position to the sixth speed gear position and a minimum vehicle speed of an upshift line at which an upshift is performed from the sixth speed gear position to the seventh speed gear position, and this condition continues for a predetermined time period, a shift is performed to the seventh speed. | 12-10-2009 |
20090319138 | DRIVING SUPPORT DEVICE, DRIVING SUPPORT METHOD AND DRIVING SUPPORT PROGRAM - A first acceleration gear ratio is acquired for accelerating a host vehicle in a first acceleration zone following a first zone ahead of the host vehicle, and a second acceleration gear ratio is acquired for accelerating the host vehicle in a second acceleration zone following a second zone ahead of the first zone. A control is executed to set the gear ratio of the host vehicle to the first acceleration gear ratio in a first deceleration zone in order to decelerate the host vehicle before entering the first zone. A control is executed to set the gear ratio of the host vehicle to the second acceleration gear ratio when the host vehicle must decelerate with respect to the second zone while traveling in the first acceleration gear ratio. | 12-24-2009 |
20090319139 | DRIVING SUPPORT DEVICE, DRIVING SUPPORT METHOD AND DRIVING SUPPORT PROGRAM - Information pertaining to a first zone set ahead of a host vehicle and a second zone farther ahead than the first zone is acquired. Based on the information, if a distance between an end point of the first zone and a start point of the second zone is shorter than a distance within which the host vehicle can be slowed at a predetermined deceleration to a second target vehicle speed for traveling the second zone at the start point of the second zone, a second acceleration gear ratio is acquired for accelerating the host vehicle in a second acceleration zone following the second zone. The gear ratio of the host vehicle is set to the second acceleration gear ratio in a first deceleration zone for slowing the host vehicle before reaching the first zone. | 12-24-2009 |
20090319140 | GEAR SHIFT CONTROL APPARATUS AND METHOD FOR AUTOMATIC TRANSMISSION - In gear shift control apparatus and method for an automatic transmission, a first frictional engagement element is, in turn, released, a second frictional engagement element is, in turn, engaged to perform the gear shift to another gear stage, a command hydraulic pressure to the second frictional engagement element is temporarily reduced when a parameter indicating a degree of progress of the gear shift detected during the gear shift to the other gear stage has reached to a predetermined value representing an inertia phase finish immediate prior region at a time of an inertia phase developed during a replacement gear shift, an reduction quantity of the command hydraulic pressure is set whenever a predetermined time has elapsed on a basis of the parameter detected whenever the predetermined time has elapsed in the inertia phase finish immediate prior region to progressively reduce the command hydraulic pressure. | 12-24-2009 |
20100057314 | CONTROL APPARATUS AND METHOD FOR AUTOMATIC TRANSMISSION - A control apparatus for an automatic transmission includes a shift control section configured to perform a shift of the automatic transmission by engaging a first friction-engagement element and releasing a second friction-engagement element; and a judder judging section configured to judge an occurrence of judder due to self-exited vibration. The shift control section is configured to judge whether or not a progress of the shift is during an inertia phase. The judder judging section calculates a characteristic-gradient index value which is a value obtained by quantifying a phenomenon that appears as a relative rotational speed between input and output of the first friction-engagement element becomes reduced with a progress of the inertia phase. The phenomenon appears in a different way in dependence upon whether a relational characteristic of a friction coefficient of the first friction-engagement element with respect to the relative rotational speed is a positive-gradient characteristic or a negative-gradient characteristic. The judder judging section determines that the judder has occurred, when the characteristic-gradient index value indicates that the phenomenon has appeared due to the negative-gradient characteristic. | 03-04-2010 |
20100094516 | VEHICLE CONTROL DEVICE AND VEHICLE CONTROL METHOD - A vehicle control device and a vehicle control method for executing the following control are provided. When a driving mode is input, a CPU of an ECU outputs an instruction for shifting a power transfer mechanism in accordance with the input driving mode, and controls a power control mechanism in accordance with a stored driving mode. When it is determined that shifting of the power transfer mechanism has been completed, the CPU switches the characteristic of the power control mechanism in accordance with the input driving mode. On the other hand, when it is determined that a predetermined period of time has elapsed without completing the shifting from when the instruction for shifting the power transfer mechanism is issued, the CPU maintains the characteristic of the power control mechanism at a characteristic corresponding to the stored driving mode. | 04-15-2010 |
20100100291 | VEHICLE, AND CONTROL METHOD AND CONTROL APPARATUS FOR AN AUTOMATIC TRANSMISSION - An ECU executes a program including the steps of: if downshift from a fifth gear implemented when a brake and a clutch both engage to a second gear implemented when a clutch and a brake both engage is done, or downshift from a sixth gear implemented when the brake and the clutch both engage to a third gear implemented when the clutch and the brake both engage is done, disengaging a frictional engagement element other than the clutch, i.e., the brake or the brake; and decreasing an engagement pressure that is applied to the clutch to a reference value of target engagement pressure. | 04-22-2010 |
20100125396 | HYDRAULIC CONTROL APPARATUS FOR SPEED RATIO CHANGE - The present invention provides a hydraulic control apparatus for controlling the speed ratio change of a transmission system. The apparatus, disposed on a carrier, comprises a first pulley unit, a second pulley unit, a first hydraulic drive circuit, a second hydraulic drive circuit, and a hydraulic control circuit and a controller. The first pulley unit coupled to the second pulley unit by a transmission belt, and the first pulley unit and the second pulley unit are fluidly connected to the first and the second hydraulic drive circuit respectively. The hydraulic control circuit fluidly connected to the independent first and second hydraulic drive circuit. The controller functions to switch the series or parallel connection status between the first and second hydraulic drive circuit according to the moving status of the carrier through the hydraulic control circuit so that the speed ratio change is capable of being adjusted continuously and synchronously. | 05-20-2010 |
20100131161 | ADAPTING STROKE PRESSURE OF A TRANSMISSION CONTROL ELEMENT - A method for controlling a transmission includes applying a reference stroke pressure to an oncoming control element while executing a downshift to a target gear, determining a stroke pressure adjustment in response to a turbine speed flare during the downshift, and re-executing the downshift while applying to the oncoming element an adapted stroke pressure that is a sum of the stroke pressure adjustment and the reference stroke pressure. | 05-27-2010 |
20100138120 | SHIFT CONTROL METHOD FOR AUTOMATIC TRANSMISSION IN FOUR-WHEEL DRIVE VEHICLE - The present invention relates to a method of controlling a shift of an automatic transmission of a four-wheel low-speed drive vehicle, in which when a four-wheel low-speed drive mode is selected, it is possible to accomplish an appropriate operational condition for the four-wheel low-speed drive mode that can realize a variety of operational conditions of the vehicle while effectively limiting additional use of memories for storing shift patterns, by controlling a shift point of the automatic transmission to be appropriate for the four-wheel low-speed drive mode with appropriate change in a basic shift pattern according to a basic operational condition to consider together with the four-wheel low-speed drive mode without separately using a specific shift pattern and by controlling the apply and release parts to be appropriate for the control of the shift point, thereby it is possible to ensure a stable and smooth shift. | 06-03-2010 |
20100145582 | TRANSMISSION CONTROL UNIT FOR VEHICLES - A vehicle mounting an engine and a transmission, and automatically controlling the transmission using a shift map, wherein shifting is executed to meet the traveling conditions of the vehicle and to ensure the braking force based on the engine brake as intended by the driver at the time of decelerating the vehicle. The transmission control unit has a shift map for determining the gear depending on the vehicle speed and the accelerator opening degree of the engine, and, further, has a mode-judging means for judging an acceleration mode period and a deceleration mode period depending on the operating conditions of an accelerator pedal and a brake pedal. In the deceleration mode period after the driver has depressed the brake pedal, the shift-up is prohibited (S | 06-10-2010 |
20100168969 | Control apparatus - A control apparatus includes a differential speed acquisition unit that acquires a differential speed representing a difference in speed between an input side drivingly connected to the input member of the fluid coupling and an output side drivingly connected to the transmission; a state determination unit that determines a shift speed in the transmission and an operating state of the direct connection clutch based on an accelerator opening and a vehicle speed of a vehicle; and a direct connection control unit that engages, if the differential speed is equal to or less than a predetermined engagement permitting threshold value when the state determination unit determines an upshift of the shift speed and a transition from a disengaged state to an engaged state of the direct connection clutch in a condition in which the accelerator opening is decreasing, the direct connection clutch regardless of an upshift operation of the shift speed. | 07-01-2010 |
20100174462 | MANUALLY SHIFTABLE MULTISTEP TRANSMISSION FOR MOTOR VEHICLES - A manually shifted multi-step transmission for motor vehicle having a main transmission and a group transmission embodied as a range group. The shifting of the gears occurs according to a “simple H-shaped shift pattern” by way of a manual shift lever which is moved in shift gates or in a selector gate, and the range group can be shifted into a “high” range stage and into a “low range stage”. The range group can be shifted automatically by way of a control device having a rotational speed sensor which detects the transmission output rotational speed, and a sensor which detects the shift gate of the gear to be shifted. | 07-08-2010 |
20100185369 | AUTOMATIC TRANSMISSION - This disclosure relates to an automatic transmission, and more particularly, to an automatic transmission which alleviates a gear shifting shock generated during a forward/reverse gear shifting operation by controlling a clutch actuator to operate a clutch and interrupting a transmission of power generated from an engine during the forward/reverse gear shifting operation of a vehicle. Provided is an automatic transmission for changing a direction of rotation power generated from an engine so as to change a vehicle moving direction, the automatic transmission including: a first gear which changes the direction of the rotation power generated from the engine to a vehicle forward direction; a second gear which changes the direction of the rotation power generated from the engine to a vehicle reverse direction; a forward/reverse lever which inputs a start signal for changing the direction of the rotation power generated from the engine; a clutch actuator which drives a clutch for selectively interrupting a transmission of the power generated from the engine; a forward/reverse actuator which rotates a rotation shaft extending from the forward/reverse lever; a synchromesh which changes its position so as to mesh with the first or second gear in accordance with a driving operation of the forward/reverse actuator; and a controller which generates a control signal for driving the clutch actuator upon receiving the start signal from the forward/reverse lever and controls the driving operation of the forward/reverse actuator. | 07-22-2010 |
20100198468 | CONTROL DEVICE FOR VEHICLE DRIVE DEVICE AND CONTROL METHOD FOR VEHICLE DRIVE DEVICE - A control device for a vehicle drive device that includes a drive source that outputs a drive force for running and an automatic transmission that has multiple speeds, the control device includes: a blipping control device that performs blipping control in which an output torque of the drive source is changed irrespective of an accelerator operation when a manual downshift of the automatic transmission is performed, and that changes a timing to perform next blipping control in a learning manner on the basis of an undershoot amount of a turbine speed at start of shifting of the automatic transmission. | 08-05-2010 |
20100211275 | CONTROL DEVICE OF VEHICULAR AUTOMATIC TRANSMISSION AND METHOD OF CONTROLLING THE SAME - A control device of a vehicular automatic transmission determines, during shifting to a first target gear position, whether the transmission should be shifted to a second target gear position that is remote from the current gear position than the first target gear position, and determines whether a gearshift to the first target gear position was executed during shifting to a third target gear position. If it is determined that the transmission should be shifted to the second target gear position during a multiple gearshift to the first target gear position which is started during shifting to the third target gear position, a multiple gearshift to the second target gear position is inhibited. If it is determined that the transmission should be shifted to the second target gear position during a single gearshift to the first target gear position, the multiple gearshift to the second target gear position is permitted. | 08-19-2010 |
20100228454 | CONTROL APPARATUS AND METHOD FOR AUTOMATIC TRANSMISSION - In control apparatus and method for an automatic transmission, a gear shift state of a stepwise variable transmission mechanism is controlled to a target gear shift state by releasing a first engagement section according to a reduction in a capacity of the first engagement section and, simultaneously, by engaging a second engagement section according to an increase in the capacity of the second engagement section, in accordance with a torque inputted to the stepwise variable transmission mechanism and, during an inertia phase, either one of the first and second engagement sections functions as a gear shift state control side engagement section and the capacity of a gear shift state non-control side engagement section which is the other engagement section is increased when determining that it is impossible to make the gear shift state follow up the target gear shift state at the gear shift state control side engagement section. | 09-09-2010 |
20100241324 | CONTROLLER FOR AUTOMATIC TRANSMISSION - In an automatic transmission controller, a gear shift control unit has a target rotational angle position calculator for calculating a target rotational angle position of a gear shift motor, an actual rotational angle position calculator for calculating the actual rotational angle position of the gear shift motor, and an F/B gain setting unit. When a gear shift instruction from a gear shift controller is a gear shift pattern for driving at least a select motor, the F/B gain is set to be larger that of the gear shift pattern in which the select motor is not driven, and also a motor driving mode and a motor braking mode are switched to each other in accordance with the difference between the target rotational angle position and the actual rotational angle position. | 09-23-2010 |
20100250074 | CONTROL APPARATUS AND METHOD FOR AUTOMATIC TRANSMISSION - A control apparatus includes a shift-pressure learning correction controlling section configured to perform a shift-pressure learning correction in which a physical quantity representing a progress of shift is measured at a time of current downshift, and in which an engagement command pressure for a friction element is corrected at a time of next downshift on the basis of a divergence between the measured physical quantity and a target physical quantity; a shift-torque increase controlling section configured to perform a torque increase control in which a command for temporarily increasing torque of a drive source starts to be outputted when a start estimation timing of torque phase has just come during a transition period given between start and end of the downshift; and a learning convergence judging section configured to judges whether the shift-pressure learning correction has converged, configured to prohibit the torque increase control until it is decided that the shift-pressure learning correction has converged, and configured to permit the torque increase control when it is decided that the shift-pressure learning correction has converged. | 09-30-2010 |
20100250075 | Vehicle control device and vehicle drive system - A vehicle control device for controlling a vehicle drive device that includes an input member that is drive coupled to an engine, an output member that is drive coupled to a wheel, and a transmission apparatus that has a plurality of engaging elements, that switches a plurality of shift speeds by controlling engaging and releasing of the plurality of the engaging elements, and that transmits to the output member a rotational driving force of the input member by shifting the rotational driving force at gear ratios of the plurality of the shift speeds. | 09-30-2010 |
20100262344 | Closed-Loop Torque Phase Control for Shifting Automatic Transmission Gear Ratios Based on Friction Element Load Sensing - A closed loop shift control apparatus and method based on friction element load controls a torque transfer phase when shifting from a low gear configuration to a high gear configuration for an automatic transmission system. When pressure actuated friction elements are selectively engaged and released to establish torque flow paths in the transmission, measurements or estimates of torsional load exerted on the off-going friction element are used to predict the optimal off-going friction element release timing for achieving a consistent shift feel. The ideal timing to release the off-going friction element is uniquely defined when torque load exerted onto the off-going friction element becomes substantially zero. An on-coming clutch engagement process is controlled by a closed loop control based on measurements or estimates of on-coming clutch torque capacity for a constant shift feel under dynamically changing conditions. | 10-14-2010 |
20100268427 | CLUTCH HOLD LEVEL AS A FUNCTION OF TORQUE - A system and method for controlling a hydraulic transmission uses a clutch fill profile having a hold level that varies as a function of torque. A pressure required for an on-coming clutch to hold the gear of the off-going clutch without a flare or over-speed condition is calculated. This pressure approximates the pressure of the on-coming clutch when a disengage command with respect to the off-going clutch is reached. The pulse and hold phases for the clutch are executed at times that are constant from shift to shift and do not vary as a function of torque or slip. | 10-21-2010 |
20100280722 | METHOD AND SYSTEM FOR CONTROLLING RATE OF CHANGE OF RATIO IN A CONTINUOUSLY VARIABLE TRANSMISSION - Systems and methods for efficiently and effectively controlling the rate of change of ratio, not simply the ratio, in a CVT. By controlling the rate of change of ratio, the acceleration or deceleration of a vehicle can be controlled in an efficient manner. Furthermore, the rate of change of ratio can be controlled by controlling the clamping pressure of the pulleys and/or differential pressure between the pulleys with minimal slip by using a servo control mechanism adapted for control by a system controller based on equilibrium mapping and other control parameters. | 11-04-2010 |
20100318269 | Closed-Loop Torque Phase Control for Shifting Automatic Transmission Gear Ratios Based on Friction Element Load Estimation - A closed loop shift control apparatus and method based on estimated torque in friction elements controls a torque transfer phase when shifting from a low gear configuration to a high gear configuration for an automatic transmission system. When pressure actuated friction elements are selectively engaged and released to establish torque flow paths in the transmission, estimates of torsional load exerted on the off-going friction element are used to predict the optimal off-going friction element release timing for achieving a consistent shift feel. The estimated torque is preferably calculated by using estimated torque signals generated as a function of speed measurements represented either the engine speed and turbine output speed or transmission output speed and wheel speed under dynamically changing conditions. | 12-16-2010 |
20110004381 | DEVICE AND METHOD FOR CONTROLLING AUTOMATIC TRANSMISSION - [Task] It is an object of the present invention to provide control device and control method for an automatic transmission which are capable of quickly converging an estimated vehicle speed | 01-06-2011 |
20110010061 | APPARATUS AND METHOD FOR PREVENTING INCORRECT GEAR SHIFTS IN AUTOMATIC TRANSMISSIONS OF MOTOR VEHICLES | 01-13-2011 |
20110015835 | CONTROL OF AND CONTROL METHOD FOR VEHICLE CONTINUOUSLY VARIABLE TRANSMISSION - A control device for a vehicle continuously variable transmission | 01-20-2011 |
20110015836 | SHIFT CONTROL OF CONTINUOUSLY VARIABLE TRANSMISSION - A speed ratio of a continuously variable transmission mechanism | 01-20-2011 |
20110015837 | CONTROL OF AND CONTROL METHOD FOR VEHICLE CONTINUOUSLY VARIABLE TRANSMISSION - A control device for a vehicle continuously variable transmission | 01-20-2011 |
20110015838 | SHIFT CONTROL OF CONTINUOUSLY VARIABLE TRANSMISSION - A continuously variable transmission | 01-20-2011 |
20110015839 | CONTROL OF AND CONTROL METHOD FOR VEHICLE CONTINUOUSLY VARIABLE TRANSMISSION - A control device for a vehicle continuously variable transmission | 01-20-2011 |
20110035123 | SHIFT RAIL TRANSMISSION POSITION SENSING WITH TOLERANCE FOR SENSOR LOSS - A number N of position sensors, each associated with one of N shift rails in a shift rail transmission system, wherein the set of N sensors is divided into subsets and each subset is provided a common reference from a control module; and a processing component that determines from data from each sensor whether the shift rail associated with that sensor is in a position of engagement of a first gear, a position of engagement of a second gear, or in a neutral position. | 02-10-2011 |
20110054747 | AUTOMATIC TRANSMISSION CONTROL APPARATUS - An automatic transmission control apparatus includes: a frictional engagement element; a hydraulic pressure supplying section configured to supply a hydraulic pressure to the frictional engagement element; a progression state judging section configured to judge a progression state of the engagement of the frictional engagement element; a rotational speed change rate control section configured to control the hydraulic pressure so that a change rate of a rotational speed of an input shaft of the automatic transmission becomes equal to a target change rate, from when the engagement of the frictional engagement element is started; and a rotational speed feedback control section configured to perform a feedback control of the hydraulic pressure so that the rotational speed of the input shaft of the automatic transmission becomes equal to a target rotational speed, from when the progression state judging section judges a predetermined progression state. | 03-03-2011 |
20110093173 | VEHICLE GEAR SHIFT CONTROL DEVICE AND GEAR SHIFT CONTROL METHOD - In a gear shift control device for a vehicle that shifts a transmission having a plurality of gears based on a shift line set in a shift map, an upshift line for shifting to the highest gear, and a downshift line that is located in a high vehicle speed region on the side of a higher vehicle speed than the upshift line are set in the shift map. The downshift line is used when shifting from the highest gear to a prescribed gear that has a larger gear ratio than the highest gear. | 04-21-2011 |
20110130931 | GEAR SHIFT CONTROL APPARATUS FOR AUTOMATIC TRANSMISSION AND GEAR SHIFT CONTROL METHOD FOR AUTOMATIC TRANSMISSION - A gear shift control apparatus for an automatic transmission includes: a gear-shift-state-determining unit for determining the presence or absence of a gear-shift-determination of the automatic transmission; a gear-shift-time-estimating unit, when there is the gear-shift-determination, for estimating gear-shift-completion-time since the present gear is shifted to another gear and, after that, further shifted to the present gear; a fuel-consumption-estimating unit for estimating a first fuel consumption in the case where the vehicle drives for the gear-shift-completion-time in the present gear and a second fuel consumption in the case where the present gear is shifted to another gear and, after that, further shifted to the present gear; and a fuel-consumption-determining unit for determining validity of the gear shift on the basis of fuel consumptions. A gear-shift-control unit changes the determination of shifting to another gear at the time of the gear-shift-determination in accordance with a determination result of the fuel-consumption-determining unit. | 06-02-2011 |
20110218720 | TRANSMISSION CONTROL APPARATUS - A transmission control apparatus for an automatic transmission to change a shift position automatically includes a cornering-state judging device, a modified shift-up table generator, and a gear-shift controller. The cornering-state judging device is configured to judge whether a vehicle has transitioned to a cornering state from a normal running state. The modified shift-up table generator is configured to generate a modified shift-up table when the vehicle is judged to have transitioned to the cornering state. The modified shift-up table makes a shift-up more difficult to occur than a reference shift-up table does. The gear-shift controller is configured to perform gear-shift control by using the reference shift-up table during the normal running state. The gear-shift controller is configured to suppress a gear shift by using the modified shift-up table instead of the reference shift-up table when the vehicle is judged to have transitioned to the cornering state. | 09-08-2011 |
20110238272 | Shift control device for continuously variable transmission - A requested cruise-control horsepower calculator obtains a requested cruise-control horsepower from a speed difference between a target cruising vehicle speed and an actual vehicle speed. A requested cruise-control torque calculator obtains a requested cruise-control torque on the basis of the requested cruise-control horsepower and an engine rotation speed. A cruise-control accelerator-opening calculator sets a cruise-control accelerator opening by referring to an engine torque map in which a cruise-control accelerator-opening characteristic curve is set along an equal horsepower line on the basis of the requested cruise-control torque and the engine rotation speed. A target primary rotation-speed calculator sets a target primary rotation speed by referring to a shift-line map on the basis of the cruise-control accelerator opening and the actual vehicle speed. A shift controller obtains a target gear shift ratio on the basis of the target primary rotation speed and the actual vehicle speed so as to perform shift control. | 09-29-2011 |
20110270499 | TRANSMISSION CONTROL DEVICE FOR AUTOMATIC TRANSMISSION - A transmission control device for an automatic transmission that changes the speed of rotation output from an engine having a turbocharger includes intake-state detecting means detecting an engine intake state; intake-state determining means determining whether or not a predetermined target intake state is satisfied based on a detection result of the intake-state detecting means; transmission-pattern selecting means having a first transmission pattern for setting a transmission gear ratio in accordance with an operational state and a second transmission pattern for setting the transmission gear ratio such that an engine rotation speed is higher than that in the first transmission pattern, and selecting the first transmission pattern or the second transmission pattern when the target intake state is satisfied or not satisfied, respectively; and transmission control means controlling a transmission mechanism unit of the automatic transmission based on the selected transmission pattern. | 11-03-2011 |
20110288733 | SYSTEM AND METHOD FOR CHANGING VALUES STORED IN MEMORY THAT RELATE TO THE OPERATION OF AN AUTOMATIC TRANSMISSION - An automatic transmission may be coupled to an internal combustion engine. A shift selector may be coupled to the transmission and may have a plurality of user selectable inputs for controlling operation of the transmission that are electrically connected to a control circuit. The control circuit may include a memory having a value stored therein that relates to operation of the transmission. The memory may further include instructions stored therein that are executable by the control circuit to change the value stored in the memory to a different value upon detection of user selection of a predefined sequence of two or more of the plurality of user selectable inputs. | 11-24-2011 |
20110313629 | SYSTEM AND METHOD FOR DETERMINING VEHICLE SPEED - A system for a vehicle includes a speed determination module, a buffer module, and a speed prediction module. The speed determination module determines changes in measured vehicle speed. The buffer module stores the determined changes in measured vehicle speed. The speed prediction module predicts a speed of the vehicle when the measured vehicle speed is less than a predetermined threshold, wherein the predicted vehicle speed is based on an average of the stored changes in measured vehicle speed. | 12-22-2011 |
20120016559 | VEHICLE SHIFT CONTROL APPARATUS - It is provided a vehicle shift control apparatus that electrically controls switchover of a shift range of a transmission based on a position signal corresponding to an operational position in a shift operating device, the vehicle shift control apparatus being capable of storing therein a determination result of whether the position signal is normal or abnormal, the shift range being switched based on the position signal acquired when a vehicle electric power supply is turned on if a memory of the determination result is retained when the vehicle electric power supply is turned on, the shift range not being switched based on the position signal acquired when the vehicle electric power supply is turned on if the memory of the determination result is not retained. | 01-19-2012 |
20120022753 | METHOD FOR ANTICIPATING DOWNSHIFTING AND FOR MONITORING AN AUTOMATIC TRANSMISSION - A method for anticipating downshifting upon uphill driving on a vehicle including an automatic transmission and including change laws imposing a change to a lower gear based on pre-established downshifting curves. The method imposes a change to the lower gear to the transmission independently from the gear set point established by the change laws when the acceleration that can be reached at the maximum torque on the current gear is lower than an acceleration threshold necessary for maintaining the vehicle speed. | 01-26-2012 |
20120029776 | GEARBOX CONTROL DEVICE - A transmission control device ( | 02-02-2012 |
20120072084 | Closed loop transmission torque control - The described system and method provide improved transmission performance and response with closed loop torque feedback by implementing situational gain scheduling and nonlinear control techniques for continuously variable transmissions. The system uses contextual information regarding the operation of the machine to determine a gain to be applied in associated PID control logic. In an embodiment, the determined gain is applied in the integral portion of the closed loop controller. | 03-22-2012 |
20120072085 | METHOD TO DEFINE A GEAR STEP FOR A SHIFTING - A method of determining the size of a gear interval from a currently engaged gear to a target gear in a transmission. The method includes the steps of, for each current gear and for each possible gear interval from the current gear, recording a limit value for an acceleration or a deceleration in the target gear corresponding to the current gear and the respective gear interval used; for the current gear, starting with the smallest gear interval, applying a loop with successive increases of the gear interval to determine, depending on the current driving situation and characteristic parameters of the vehicle, the acceleration or the acceleration theoretically obtainable in the target gear produced by using the gear interval, which is compared with the respective recorded limit value until the acceleration or the deceleration theoretically obtainable no longer contravenes the limit value. The gear interval is then selected for a gearshift. | 03-22-2012 |
20120078479 | CONTROL DEVICE FOR AUTOMATIC TRANSMISSION AND CONTROL PROGRAM FOR AUTOMATIC TRANSMISSION - A control device for an automatic transmission including a neutral control unit that executes neutral control for bringing the automatic transmission into a neutral state by reducing an engagement force for an engaged frictional engagement element; a speed ratio specifying unit that specifies an actual speed ratio of the automatic transmission on the basis of a rotating speed of an input shaft and a rotating speed of an output shaft; and a first failure determination unit that determines whether or not a failure is occurring in the automatic transmission on the basis of the actual speed ratio during execution of the neutral control. The first failure determination unit determines that a failure is occurring in the automatic transmission in the case where the actual speed ratio coincides with the speed ratio of any one of a plurality of shift speeds over a predetermined time. | 03-29-2012 |
20120083976 | METHOD AND SYSTEM FOR ADJUSTING A GEAR MAP - The present invention is directed to a method and system for adjusting a gear map. The present invention can be an automobile including a continuously variable transmission system, an ignition detecting ignition data, and/or a display unit. The continuously variable transmission system can include a continuously variable transmission, a memory storing a gear map including virtual gears, a gear adjustment mode input unit detecting gear adjustment mode data, and/or a processor. The processor can control the continuously variable transmission to operate at a desired engine speed for a specific automobile speed using the gear map. The processor can adjust the gear map using the gear adjustment mode data, and/or the ignition data. The processor can control the display unit to display information to prompt the user to supply the gear adjustment mode data. | 04-05-2012 |
20120083977 | CONTINUOUSLY VARIABLE TRANSMISSION AND SHIFT CONTROL METHOD - Continuously variable transmission includes: a variator; a stepwise auxiliary transmission mechanism; and a shift controller configured to set a desired through transmission ratio based on the calculated desired target rotational speed, the shift control section including; a slope road upshift prohibiting section configured to prohibit upshift of the auxiliary transmission mechanism when the vehicle runs on a slope road, and a slope road upshift section configured to upshift the auxiliary transmission mechanism when the vehicle runs in a predetermined running state when the slope road upshift prohibiting section prohibits upshift of the auxiliary transmission mechanism, and to perform the shift of the auxiliary transmission mechanism while the transmission ratio of the variator is varied in accordance with the variation of the transmission ratio of the auxiliary transmission mechanism to prevent varying the through transmission ratio even when the vehicle runs on the slope road. | 04-05-2012 |
20120083978 | CONTROL DEVICE FOR AUTOMATIC TRANSMISSION - A control device for an automatic transmission configured with a command output portion that outputs a command that causes an electric pump to be driven so that oil pressure generated by the mechanical pump and the electric pump becomes greater than or equal to a needed oil pressure for a speed change mechanism when the oil pressure generated by the mechanical pump is smaller than the needed oil pressure. A determination portion determines whether or not a predetermined heat generation condition is met when the command is output by the command output portion. A shift control portion that, in a case where the determination portion has determined that the heat generation condition is met, performs a shift control of causing the speed ratio of the speed change mechanism to become higher than the speed ratio occurring when the determination portion determines that the heat generation condition is met. | 04-05-2012 |
20120083979 | VEHICLE, CONTROL METHOD FOR TRANSMISSION AND CONTROL DEVICE FOR TRANSMISSION - One control mode is selected from a plurality of control modes each setting a target value of a primary pulley revolution speed NIN and prioritized in a predetermined order. When the control mode is changed, the target value of the primary pulley revolution speed NIN is set so as to vary from the target value set in the control mode before change to the target value set in the control mode after change in accordance with the control mode that is higher in priority among the control modes before and after change. A continuously variable transmission is controlled such that the primary pulley revolution speed NIN reaches the set target value. | 04-05-2012 |
20120089308 | METHOD AND APPARATUS FOR ACTUATING AN AUTOMATED TRANSMISSION, IN PARTICULAR AN AUTOMATED TRANSMISSION OF A COMMERCIAL VEHICLE, AND TEST BENCH - A method for actuating an automated transmission, in particular an automated transmission of a commercial vehicle, which is coupled to a drive motor, where data and/or signals are supplied to a controller of the automated transmission via an interface. When a defined event occurs, a temporally predictive non-steady profile of the drive motor torque for this event is transmitted to the controller of the automated transmission. The transmission controller ascertains and/or specifies a transmission shifting strategy on the basis of the transmitted data. There is also provided an apparatus for actuating an automated transmission, and also a test bench. | 04-12-2012 |
20120150400 | SYSTEM FOR CONTROL OF GEARSHIFT POINTS - A system for control of one or more gearshift points, including at least one control unit for controlling a gearbox in a motor vehicle. The engine is connected to, in order to drive, the gearbox, wherein the speed of the engine is controlled by an accelerator pedal which is connected to the engine and gearbox and can assume a plurality of positions. A shift point is controlled by the accelerator pedal and represents an engine speed at which the gearbox effects a downshift or upshift. The system operates in a first mode in which the one or more shift points are controlled on the basis of movements of the accelerator pedal, and also applies a limitation upon the change in the one or more shift points per unit time. Also a method, a motor vehicle, a computer program and a computer program product for the system are disclosed. | 06-14-2012 |
20120158262 | VEHICLE SHIFT CONTROL APPARATUS - A vehicle shift control apparatus has a plurality of driving force modes in which an engine generates driving force in response to an accelerator operation, a shift control unit for controlling a transmission gear stage or a transmission ratio of an automatic transmission according to a preset shift characteristic, The apparatus sets a different shift characteristic for each of the modes upon shifting from a current transmission gear stage or transmission ratio to a target transmission gear stage or transmission ratio by means of the shift control unit, and performs a gear shift according to a currently selected shift characteristic. | 06-21-2012 |
20120158263 | SYSTEM FOR CONTROL OF A GEARBOX - A system for control of a gearbox, having at least one control unit controlling the gearbox where the gearbox is installed in a motor vehicle having an engine connected to drive the gearbox. The system effects a first upshift from a first gear to a second gear if the acceleration a for the vehicle is greater than nil for the second gear and the current engine speed is within a first engine speed range; and effects a second upshift from the first gear to a third gear if the current engine speed is within a second engine speed range. The first speed range is lower than the second speed range of the engine. A method, a motor vehicle, a computer program and a computer program product for the method are disclosed. | 06-21-2012 |
20120166054 | DETERMINATION OF ONE OR MORE GEARSHIFT POINTS - A method, a system, a computer program and a computer program product for determining one or more shift points for a gearbox in a motor vehicle which comprises an engine connected to, in order to drive the gearbox. A shift point is defined by an engine speed at which the gearbox effects a downshift or upshift. The method uses one or more shift points determined on the basis of a change in road gradient. | 06-28-2012 |
20120245811 | TRANSMISSION SYSTEMS AND METHODS - A method includes: receiving M solenoids, each marked with a unique one of M identifiers, where M is an integer greater than one; receiving M lookup tables associated with respective ones of the M identifiers, wherein each of the M lookup tables establishes a relationship between input current and output pressure for only one of the M solenoids; assembling a transmission with a selected one of the M solenoids; selecting one of the M lookup tables based on one of the M identifiers marked on the selected one of the M solenoids; storing the selected one of the M lookup tables in memory of a transmission control module of a vehicle that is assembled with the transmission; and controlling output pressure of the selected one of the M solenoids based on the selected one of the M lookup tables and the input current using the transmission control module. | 09-27-2012 |
20120253618 | AUTOMATIC SHIFT APPARATUS AND METHOD FOR DETERMINING TRANSMISSION ABNORMAL GEAR SPEED - An automatic shift apparatus including a transmission; a vehicle speed acquisition unit; a gear speed acquisition unit that acquires a gear speed of the transmission; a unit that sets, based on a vehicle speed, a minimum allowable gear speed at which a rotation speed of an input shaft of the transmission is equal to or lower than a predetermined rotation speed and which has a highest gear ratio among a plurality of gear speeds; and a unit that determines that the gear speed is abnormal if the gear speed has a higher gear ratio than the minimum allowable gear speed due to a change in the gear speed, and not determining that the gear speed is abnormal if the gear speed has a higher gear ratio than the minimum allowable gear speed due to a change in the minimum allowable gear speed that is set. | 10-04-2012 |
20120265414 | SHIFT CONTROL SYSTEM FOR POWER-ASSISTED BICYCLE - A shift control system working with a power-assisted bicycle that has an assisting-power supplying system and a derailleur. The shift control system includes a microcomputer in which plural shifting condition tables are stored. The assisting-power supplying system provides at least two different assisting modes. The shift control system also includes a shifting driver and at least one sensor for sensing at least one of a wheel speed, a crank speed, a pedaling force and a road gradient so as to generate at least one sensing signal and obtain at least one sensing result. The microcomputer selects one of the shifting condition tables in accordance with the current assisting mode for comparing the sensing result, thereby determining whether upshifting or downshifting is to be conducted. Then the microcomputer controls the shifting driver to send a shift control signal to make the derailleur upshift or downshift. | 10-18-2012 |
20120271520 | Method Of Setting Transmission Shift Points In Real-Time Based Upon An Engine Performance Curve - The present invention provides a method for setting a shift point for shifting a transmission for a powered vehicle between a first gear ratio and a second gear ratio. The method includes determining input power data points based on real-time input torque data. The input torque data includes a maximum input torque. The method also includes calculating a gear step value based on the first gear ratio and second gear ratio. The method further includes determining a first power value and computing a second power value based on the gear step value. The first power value and second power value are compared to one another and adjustments are incrementally made in the first power value speed until the difference between first and second power values meets a threshold. The shift point is therefore based on the result of comparing the first power value and the second power value and the corresponding speed associated with the first power value. | 10-25-2012 |
20120310498 | CONTROLLER OF CONTINUOUSLY VARIABLE TRANSMISSION - Disclosed is an electronic controller which calculates the variable amounts of the thrust in a primary pulley based on the thrusts of the pulleys, the lower limit thrust and the upper limit thrust in the steps of a target change gear ratio limit routine. The electronic controller calculates the limit transmission speeds based on the variable amounts in the steps, and calculates the guard values for limiting the target change gear ratio based on the limit transmission speeds in the steps. An electronic controller limits the target change gear ratio by the guard values thus calculated, and controls the thrusts of the pulleys by feedback control based on the size of discrepancy of the limited target change gear ratio and the current change gear ratio γ. | 12-06-2012 |
20120323456 | POWER TRANSMITTING APPARATUS - A power transmission apparatus is provided with a control device for starting each of first shift control, which is control associated with shifting of a stepless transmission unit, and second shift control, which is control associated with shifting of a stepped transmission unit, such that shift end timing of the stepless transmission unit is synchronized with shift end timing of the stepped transmission unit, in a condition that shift requests for the stepless transmission unit and the stepped transmission unit are detected in the same timing. According to the power transmitting apparatus, each of the first shift control and the second shift control is started such that the shift end timing of the stepless transmission unit is synchronized with the shift end timing of the stepped transmission unit. | 12-20-2012 |
20130054102 | AUTOMATIC GEAR-SHIFTING BICYCLE WITH OPTIMAL SHIFT TIMING - An automatic gear-shifting bicycle includes: a bicycle body provided with two cranks, two pedals and a derailleur, a power supply module, a microcomputer, a gear shifting control driver, and a pedal position sensor module installed in the bicycle body corresponding to the cranks and electrically coupled to the microcomputer for enabling the microcomputer to determine the angular position and forward/backward pedaling of the cranks. The microcomputer calculates the optimal shift timing subject to the time point the crank to be moved over the pedaling dead point in the next time, the pedaling speed to be below a predetermined speed value or the cranks are been pedaling backwardly. | 02-28-2013 |
20130085647 | Variator characterization for feed forward torque control - In an embodiment, torque control operation is provided in a transmission having a variable displacement variator with a hydraulic actuator. The transmission is engaged in a neutral state such that the variator output experiences substantially zero torque, and a first hydraulic pressure sweep to the hydraulic actuator is commanded while a corresponding sweep of motor speed ratio of the variator is recorded. The transmission is engaged into a locked mode providing a fixed output speed and a second hydraulic pressure sweep to the hydraulic actuator is commanded, and a corresponding sweep of variator output torque is recorded during this sweep. A torque/pressure map is then constructed relating motor torque, motor speed ratio, and actuator pressure by scaling the sweep of motor speed ratios and the sweep of variator output torque. The resultant map is usable to provide feed forward torque control of the transmission. | 04-04-2013 |
20130151092 | Method and System for Providing a Brake Transmission Shift Interlock Override Mode in a Shift-by-Wire Transmission - A method and system provides a Brake Transmission Shift Interlock Override mode in a vehicle including a shift-by-wire transmission. With power applied and ignition on, a driver will press and hold an override switch for a calibrated time. While the override switch is pressed, the driver presses a non-Park button for another calibrated time. The result will be that the vehicle is placed in the selected range wherein the transmission will not automatically shift to Park upon detecting a triggering event. The driver is able to shift the vehicle from Park, even if an electrical failure prevents the transmission from shifting out of Park. As such the vehicle can be driven until the failure is serviced. | 06-13-2013 |
20130173124 | SYSTEM AND METHOD FOR CONTROLLING A TRANSMISSION - A system for selecting shift schedules of a transmission of a vehicle includes a controller configured to receive a signal indicative of acceleration of the vehicle prior to a change of a gear of the transmission. The controller is further configured to estimate tractive effort of the vehicle following the change of the gear of the transmission, the tractive effort estimation being based on at least an estimation of a road load on the vehicle. The controller is further configured to select between a first shift schedule and a second shift schedule based on the tractive effort estimation, wherein, if the tractive effort estimation is less than a threshold value, the controller selects the first shift schedule, and if the tractive effort estimation is at least equal to the threshold value, the controller selects the second shift schedule. | 07-04-2013 |
20130184948 | Method Of Controlling Gear Ratio Rate Of Change In Continuously Variable Transmission - A method for controlling a gear ratio rate of change in a machine having a continuously variable transmission includes moving an operator input device to a changed position, receiving electronic data indicative of the changed position, and determining a non-limited desired gear ratio based on the changed position. A maximum gear ratio rate of change corresponding to the non-limited desired gear ratio and an actual gear ratio of the continuously variable transmission is selected from an electronically stored gear ratio rate map. A current desired gear ratio is determined based on a previous desired gear ratio and the maximum gear ratio rate of change. A commanded gear ratio of the continuously variable transmission is changed to the current desired gear ratio using electronic signals. | 07-18-2013 |
20130226416 | Multi-range hydro-mechanical transmission - A continuously variable transmission includes two planetary gear sets having two outputs. A variator drives a ring gear of the second planetary gear set, and a transmission input shaft is driven by the engine, which also drives the variator and the planetary input. Second and third output shafts are connected to a transmission output shaft. A first clutch is connected to the first output shaft, a second clutch is connected to the second planetary output and engages a first drive gear. A third clutch is connected to the first output shaft and releasably engages the first drive gear, a fourth clutch is connected to the first drive gear and releasably engages the second output shaft, and a fifth clutch is connected to the first drive gear and releasably engages the third output shaft. | 08-29-2013 |
20130245904 | SYSTEM AND METHOD FOR DETERMINING CLUTCH GAINS IN A TRANSMISSION DURING A POWER DOWNSHIFT - A method of controlling an offgoing clutch in a transmission during a power downshift includes detecting the downshift, reducing a pressure command to the offgoing clutch, and introducing a calibrated error value to a pressure command for the offgoing clutch during the inertia phase. The method also includes synchronizing the speed of the offgoing and an oncoming clutch during the torque phase, determining the offgoing clutch pressure and torque after synchronizing clutch speeds, and then recording a clutch gain as a function of the offgoing clutch pressure and torque. The recorded clutch gains are used to control a subsequent power downshift of the transmission. A controller using proportional-integral-derivative (PID) control logic introduces the error as PID error in a pressure control signal, and controls slip across the offgoing clutch. A transmission is also disclosed having an offgoing clutch and controller configured to execute the above method. | 09-19-2013 |
20130253786 | CONTROL APPARATUS FOR VEHICULAR AUTOMATIC TRANSMISSION - A control apparatus for a vehicular automatic transmission configured to selectively establish a plurality of shift positions by respective combinations of frictional coupling devices of a plurality of frictional coupling devices in an engaged state thereof, with output hydraulic pressures of respective ones of a plurality of solenoid valves provided in a hydraulic control circuit, includes a fail-safe control portion configured to perform a predetermined fail-safe function when shifting direction values requiring a shifting control of said vehicular automatic transmission and shifting output values respectively generated according to said shifting direction values are not coincident with each other, said shifting output values being represented by respective electric signals for driving said plurality of solenoid valves. | 09-26-2013 |
20130275015 | SYSTEM AND METHOD FOR ESTIMATING TORQUE IN A POWERTRAIN - A vehicle includes a powertrain having first and second rotatable members, speed sensors, and a controller. The speed sensors generate output signals encoding the speeds of the respective first and second rotatable members. The controller calculates a rotation angle of the members using the output signals and estimates a torque value in the powertrain as a function of the rotation angles. The sensors may count the teeth of respective first and second toothed gear elements and encode the count as the output signals. The controller may estimate the torque value as a function of a linear coefficient and the present gear ratio of the sensors. The controller may also detect a commanded upshift of the transmission and detect a fill event of an oncoming clutch of the transmission as a function of the corresponding rotation angles for the rotatable members. The members may be input, output, or intermediate members. | 10-17-2013 |
20130297162 | DYNAMIC SHIFT SCHEDULING IN A HYBRID VEHICLE HAVING A STEP RATIO AUTOMATIC TRANSMISSION - A hybrid vehicle having an engine and motor in series with a step ratio automatic transmission shifts the transmission according to a first shift schedule based on driver demand and output speed or a second shift schedule based on efficient operating speeds of the engine and motor associated with the target gear ratio. A powertrain controller continually calculates engine and motor speeds and torques associated with target gear ratios for the second shift schedule to select a gear ratio based on operating efficiency. An arbitration strategy may compare a weighted target gear ratio from the first schedule shift schedule to a weighted target gear ratio from the second shift schedule to dynamically select a desired target gear for powertrain control management. | 11-07-2013 |
20140114541 | DCT CONTROL METHOD FOR VEHICLE - The noise caused by the coupling and decoupling of the gear generated when ignition on and off of a dual-clutch mounted vehicle in the P range are switched to each other, and the merchantability of the vehicle can be increased by improving the noise performance of the vehicle by preventing the noise generated by the coupling of the gear as possible from being remarkable in other shift ranges. | 04-24-2014 |
20140121918 | Shifting Virtual Gears Associated with a Continuously Variable Transmission - A system and method involves a machine having a power train including a continuously variable transmission (CVT) associated with a plurality of virtual gear ratios. To shift between the plurality of virtual gear ratios, the machine may include an operator input device that may be movable between a plurality of distinct positions. A first position may be associated with a neutral position in which no shifting of virtual gear ratios occurs. A second position of the operator input device may be associated with a first incremental rate for shifting between the virtual gear ratios. A third position may be associated with a second incremental rate for shifting between the virtual gear ratios which is different than the first incremental rate. | 05-01-2014 |
20140121919 | System and Method of Operating a Machine Having a Continuously Variable Transmission - A system and method involves a machine that powertrain including a continuously variable transmission (CVT) and a machine speed sensor to determine a measured machine speed. The machine also includes a controller in communication with the CVT and the speed sensor. The controller may include a table relating the measured machine speed to a plurality of virtual gear ratios associated with the CVT. The controller is configured to determine a calculated virtual gear ratio using the table and, if desired, may display the calculated virtual gear ratio on a visual display. | 05-01-2014 |
20140142822 | GPS-BASED PREDICTIVE SHIFT SCHEDULE FOR AUTOMATIC TRANSMISSION - A method for modifying a default transmission shift schedule for a vehicle includes monitoring current vehicle parameters and determining future roadway information at a predetermined distance in front of the vehicle. Future vehicle parameters are predicted based on the determined future roadway information. The default transmission shift schedule is modified based on the current vehicle parameters and the predicted future vehicle parameters. | 05-22-2014 |
20140149007 | METHOD OF CONTROLLING VEHICLE WASHING MODE FOR VEHICLE EQUIPPED WITH SHIFT-BY-WIRE SHIFTING DEVICE - A method of controlling a vehicle washing mode for a vehicle equipped with shift-by-wire shifting device, may include performing an N-range-off determining step that determines whether a shift lever is in an N-range when an engine stops, performing an ACC determining step that determines whether the vehicle is in an ACC state, and performing a shifting step that shifts a P-range state of a transmission to a N-range state thereof by operating an actuator, when the N-range-off determining step determines that the shift lever is in the N-range when the engine was stopped, and when the ACC determining step determines that the vehicle is in the ACC state. | 05-29-2014 |
20140172252 | Grade and Payload Estimate-Based Transmission Gear Selection - A vehicle includes an automatic transmission and a set of sensor inputs providing values indicating a current operational status of the vehicle pertinent to controlling the automatic transmission. The set of sensor inputs include: engine speed, engine torque, current transmission gear; and vehicle speed. The vehicle includes a programmed processor configured to iteratively and co-dependently generate a vehicle mass parameter value and a grade of incline parameter value. The programmed processor, when generating the vehicle mass parameter value and the grade of incline parameter value, uses a set of parameters including: a propulsive force driving the vehicle; a set of forces acting on the vehicle resisting forward movement, and an observed rate of change of a speed of the vehicle. | 06-19-2014 |
20140257653 | GEAR-SHIFT INSTRUCTION DEVICE FOR HYBRID VEHICLE - In a gear-shift instruction device for the hybrid vehicle that includes an engine that can output power for running, an electric motor (such as a motor-generator and a motor) that can output power for running, a power transmission system that transmits power to a drive wheel and can manually select a gear shift position, and a gear-shift instruction unit that prompts a change of the gear shift position to a driver, modes of the guide for gear shift are different between during electric motor running (EV running) and during hybrid running (HV running) for a same accelerator depression amount and vehicle speed in a state that allows manual gear shift operation (manual gear shift mode). This ensures the compatibility between: improvement in energy efficiency and fuel consumption by the gear shift instruction; and reduction in burden of the driver due to gear shifting based on the gear shift instruction. | 09-11-2014 |
20140297140 | SYSTEM AND METHOD OF CONTROLLING SHIFTING FOR VEHICLE - A system and a method of controlling shifting for a vehicle includes a data detector detecting data for a shift control, a road condition determiner determining a road condition based on the data, a short term driving tendency determiner determining a short term driving tendency of a driver based on the data, and a long term driving tendency determiner determining a long term driving tendency of the driver based on the short term driving tendency of the driver. An optimal driving mode determiner determines an optimal driving mode based on the road condition, the short term driving tendency of the driver, and the long term driving tendency of the driver, wherein the system controls shifting according to the optimal driving mode determined by the optimal driving mode determiner. | 10-02-2014 |
20150051801 | CONTROLLER FOR VARIABLE TRANSMISSION - An electronic controller for a variable ratio transmission and an electronically controllable variable ratio transmission including a variator or other CVT are described herein. The electronic controller can be configured to receive input signals indicative of parameters associated with an engine coupled to the transmission. The electronic controller can also receive one or more control inputs. The electronic controller can determine an active range and an active variator mode based on the input signals and control inputs. The electronic controller can control a final drive ratio of the variable ratio transmission by controlling one or more electronic solenoids that control the ratios of one or more portions of the variable ratio transmission. | 02-19-2015 |
20150127231 | Method for Executing of a Gearshift - Method for executing a gearshift in an automatic transmission ( | 05-07-2015 |
20150292616 | NEGATIVE TORQUE UPSHIFT CONTROL - A vehicle includes a prime mover, input clutch, transmission, and controller. The transmission, which is selectively connected to the output shaft via the input clutch, has multiple friction clutches, including respective offgoing and oncoming clutches for a negative torque upshift. The controller includes a torque request module, offgoing clutch module, and oncoming clutch module. The torque request module limits input torque into the transmission during the negative torque upshift. The offgoing control module determines actual offgoing clutch torque capacity of the offgoing clutch, calculates an actual offgoing clutch pressure using the actual offgoing clutch torque capacity, and controls the offgoing clutch through the shift using the actual offgoing clutch pressure. The oncoming control module controls the oncoming clutch through multiple stages of control of the oncoming clutch, including a fill, staging, ramp, and quick-lock stage. Closed-loop pressure correction is provided via PID logic through the inertia and torque shift phases. | 10-15-2015 |
20150307075 | SYSTEMS AND METHODS FOR SUPPLYING GASEOUS FUEL TO AN ENGINE - Systems and methods for supplying gaseous fuel to an internal combustion engine are presented. In one example, a gaseous fuel pump is selectively activated to extend a vehicle's operating range. The methods and systems may be useful for operating an engine that includes directly injected gaseous fuel. | 10-29-2015 |
20150316145 | DRIVER AWARE ADAPTIVE SHIFTING - An individual driving value is set as a function of an accelerator pedal position. In turn, a powertrain characteristic is set as a function of the individual driving style. The set powertrain characteristic may be modified on the basis of a feedback value corresponding to learned preferences of a driver. The modified powertrain characteristic is then either automatically implemented for operation of a powertrain or communicated as a choice for implementation. The feedback value is updated per a response to automatic implementation or choice communication. | 11-05-2015 |
20150316146 | SHIFT CONTROL METHOD FOR DCT VEHICLE - A shift control method for a dual clutch transmission (DCT) vehicle may include determining whether power-on downshift is initiated, determining a progress degree of a shift process if the power-on downshift is initiated, determining a difference in the number of shift stages between a target shift stage and a current shift stage according to the determined progress degree of the shift process, and selecting and performing one of downshifts (e.g., other shaft full-skip power-on downshift, same shaft power-on downshift, and other shaft power-on downshift) according to the progress degree of the shift process and the shift stage number difference. | 11-05-2015 |
20150330500 | POWERTRAIN OPTIMIZATION - A system for a vehicle includes a powertrain system including an engine, a transmission, a drive shaft, and a final drive. The system also includes a controller communicably coupled to the powertrain system. The controller is structured to: receive vehicle operation data during operation of a vehicle; receive route data for a route of the vehicle, wherein the route data is received in advance of the vehicle traveling the route; determine a cylinder deactivation event has occurred based on the vehicle operation data; determine an adjustment to a shift schedule for the transmission based on at least one of the cylinder deactivation event and the route data; and provide a command to implement the adjustment with the transmission. | 11-19-2015 |
20150330502 | TRANSMISSION CONTROL SYSTEM - A method and a system for choosing a transmission mode in a vehicle over the course of a road section, in which a simulation of at least one future speed profile v | 11-19-2015 |
20150330503 | INTEGRATED POWERTRAIN SYSTEM - A system for a vehicle includes a powertrain system including an engine, a transmission, a drive shaft, and a final drive; and a controller communicably coupled to the powertrain system. The controller is structured to: receive a shift schedule for the transmission of a vehicle, the shift schedule indicating when shift events occur based on operation of the vehicle; receive vehicle operation data during operation of the vehicle, the vehicle operation data including a current combustion recipe for the engine; determine a predicted impact of a scheduled shift event on a fuel consumption rate of the vehicle based on the current combustion recipe for the engine; determine an adjustment to the scheduled shift event based on the predicted impact; and provide a command to implement the adjustment to the scheduled shift event to the transmission of the vehicle. | 11-19-2015 |
20150345622 | SYSTEMS AND METHODS OF ADJUSTING A TRANSMISSION SHIFT SCHEDULE - A method for a vehicle includes receiving a shift schedule for a transmission of a vehicle, the shift schedule indicating when shift events occur based on operation of the vehicle. The method further includes receiving vehicle operation data during operation of the vehicle. The method further includes determining a power to overcome vehicle losses based on the vehicle operation data. The method further includes determining an adjustment to the shift schedule to optimize a vehicle operating parameter based on the determined power to overcome vehicle losses and implementing the adjustment to the shift schedule. | 12-03-2015 |
20160017994 | HYDRAULIC CONTROL SYSTEM FOR VEHICLE - A hydraulic control system for a vehicle having a continuously variable transmission in which a torque transmitting capacity thereof is changed hydraulically, and an engagement device which is connected to the continuously variable transmission in series and in which a torque transmitting capacity thereof is changed hydraulically. The hydraulic control system comprises a selecting means that selects a command pattern for setting an engagement pressure of the engagement device out of a plurality of patterns when an initial pressure is lower than a steady pressure for a normal running of the vehicle. The selecting means is configured to select the command pattern in such a manner that the torque transmitting capacity of the engagement device does not exceeds the torque transmitting capacity of the continuously variable transmission, based on at least any of conditions of the initial pressure that is lowered to be lower than the steady pressure, and a rotational speed of the continuously variable transmission. | 01-21-2016 |
20160025213 | METHOD OF SETTING TRANSMISSION SHIFT POINTS IN REAL-TIME BASED UPON AN ENGINE PERFORMANCE CURVE - A method for setting a shift point for shifting a transmission for a powered vehicle between a first gear ratio and a second gear ratio. The method includes determining input power data points based on real-time input torque data. The input torque data includes a maximum input torque. The method also includes calculating a gear step value based on the first gear ratio and second gear ratio. The method further includes determining a first power value and computing a second power value based on the gear step value. The first power value and second power value are compared to one another and adjustments are incrementally made in the first power value speed until the difference between first and second power values meets a threshold. The shift point is therefore based on the result of comparing the first power value and the second power value and the corresponding speed associated with the first power value. | 01-28-2016 |
20160039497 | Gear Selection for Multi-Geared, Pedal-Operated Vehicles - A microprocessor may consider difficulties in changing gears, for a multi-geared, pedal-operated vehicle, within the limits placed on the gear shifting due to fatigue, pedaling rate (cadence), torque placed in the pedals and the speed of the multi-geared, pedal-operated vehicle. These limitations may be into consideration in determining, in real-time, suitable gear choices for an operator of the multi-geared, pedal-operated vehicle. | 02-11-2016 |
20160084375 | METHOD FOR PROTECTING CLUTCH FOR DUAL CLUTCH TRANSMISSION - A method for protecting a clutch for a Dual Clutch Transmission may include an input step of receiving an input of a temperature of a clutch, and a gear shift pattern changing step of changing a preset gear shift pattern and operating to perform gear shift in a vehicle speed region that secedes from a vehicle speed of the preset gear shift pattern when the temperature of the clutch is equal to or higher than a first reference temperature. | 03-24-2016 |
20160153548 | SYSTEM AND METHOD FOR CONTROLLING SHIFT FOR VEHICLE | 06-02-2016 |
20160186856 | SELECTION OF LAUNCH RATIO IN A MULTI-SPEED AUTOMATIC TRANSMISSION - A method and apparatus for modifying the shift map of an automatically controlled vehicle transmission having individually selectable speed ratios. A calibrator determines launch ratio from a plurality of speed ratios and is responsive to ambient pressure and/or ambient temperature. The calibrator may be further responsive to engine speed, engine temperature, transmission temperature, gradient and direction of gradient. | 06-30-2016 |
20180023692 | SYSTEM AND METHOD FOR CHANGING DRIVING MODES USING NAVIGATION AND CONTROL | 01-25-2018 |
20190143981 | VEHICLE PROPULSION SYSTEMS AND METHODS | 05-16-2019 |