Class / Patent application number | Description | Number of patent applications / Date published |
477004000 | With brake control | 52 |
20080214352 | Motor vehicle drive train and method for controlling a drive train - In a drive train of a motor vehicle comprising an internal combustion engine, at least one electrical machine which can be operated at least as a motor or as a generator, and a stepped automated manual transmission and at least one control device for controlling the internal combustion engine, the at least one electrical machine (P | 09-04-2008 |
20080287252 | Motor Vehicle and Control Method of Motor Vehicle - In response to a downshift operation (step S | 11-20-2008 |
20080318728 | NEGATIVE DRIVELINE TORQUE CONTROL INCORPORATING TRANSMISSION STATE SELECTION FOR A HYBRID VEHICLE - In one embodiment, a hybrid propulsion system for a vehicle is provided. The system comprises at least one drive wheel; a first motor coupled to the drive wheel, said first motor configured to selectively generate electrical energy from kinetic energy received at the drive wheel; a second motor configured to selectively generate electrical energy from kinetic energy received at the drive wheel; a transmission including a first end coupled to the first motor and a second end coupled to the second motor; and a control system configured to vary a level of electrical energy generated by the first motor relative to the second motor in response to a thermal condition of at least one of said first and second motors to provide vehicle braking. | 12-25-2008 |
20090029823 | Hybrid Vehicle - In a hybrid vehicle having at least one electric motor which is usable as a generator and charges a vehicle battery during a recuperation phase, there is provided an additional actuating element independent of a brake system which is used to transfer the electric motor into its recuperation state without activating the brake system. Alternatively, the additional actuating element may operate in conjunction with the brake system, such that the brake pedal may also be used to transfer the electric motor into its recuperation state. | 01-29-2009 |
20090062060 | Control apparatus and method for operating a combined hybrid drive and brake system - A combined hybrid drive and brake system for use with a rotatably driven mechanism includes a hybrid drive system that is adapted to decelerate a rotatably driven mechanism, accumulate the energy resulting from such deceleration, and use the accumulated energy to subsequently accelerate the rotatably driven mechanism. A brake system is adapted to decelerate the rotatably driven mechanism. A control apparatus is responsive to a request for braking torque for decelerating the rotatably driven mechanism by either (1) the hybrid drive system operating alone, (2) the brake system operating alone, or (3) both the hybrid drive system and the brake system operating in combination. | 03-05-2009 |
20090149294 | METHOD FOR THE WEAR-FREE BRAKING OF A VEHICLE WITH AN ELECTRODYNAMIC DRIVE SYSTEM - A method for wear-free braking of a vehicle having an electrodynamic drive system including an electric machine and a planetary gearset with a crankshaft of the combustion engine being connected with a first element of the gearset, the electric machine connected to a second element of the gearset and a transmission input shaft connected to a carrier of the gearset. The friction clutch serves as a bridging clutch to detachably connect two elements of the gearset such that when the clutch is engaged, the gearset is locked and the combustion engine operating in thrust mode applies braking torque to the drive train, the clutch is disengaged and a transmission input speed exceeds a predetermined threshold value, the speed of the combustion engine is raised to a maximum speed by appropriate control of the electric machine. | 06-11-2009 |
20090192014 | METHODS AND SYSTEMS FOR CONTROLLING SHIFTING BETWEEN OPERATING MODES IN HYBRID VEHICLES - A method for controlling shifting between a plurality of operating modes in a hybrid vehicle includes the steps of obtaining a plurality of throttle position values, generating a comparison between a first throttle position value of the plurality of throttle position values and a second throttle position value of the plurality of throttle position values, and selectively allowing a shift between at least two of the plurality of operating modes, based at least in part on the comparison between the first and second throttle position values. | 07-30-2009 |
20090239704 | METHOD FOR CONTROLLING SHIFTS IN AN AUTOMATED STEP-DOWN TRANSMISSION - A method of controlling an automated step-down transmission, arranged in a drivetrain between an engine and a drive axle, which includes a multi-stage main transmission and a range group. The main transmission has an intermediate transmission style with a countershaft having a transmission brake and an input shaft connected, via a clutch, to the engine. The main transmission shifts, without being synchronized, and the range group shifts, after synchronization, such that the engaged gear ratio of the main transmission remains engaged during a range shift operation. The range shift is accomplished by firstly reducing drive engine torque; secondly, disengaging the existing gear ratio of the range group; thirdly, remotely synchronizing the target gear ratio in the range group; fourthly, engaging the target gear ratio in the range group; and fifthly, increasing the drive engine torque. | 09-24-2009 |
20090298641 | BRAKING METHOD AND DEVICE WITH ENERGY RECOVERY IN PARTICULAR FOR A VEHICLE EQUIPPED WITH HYBRID TRACTION SYSTEM - A braking method and device with energy recovery for a hybrid traction vehicle, which, according to the requested braking target, regulates the intervention of the engine-generator and the connection or disconnection of the endothermic engine from the transmission line. | 12-03-2009 |
20090298642 | ANTI ROLL BACK CONTROL SYSTEM AND METHOD FOR HYBRID VEHICLE - An anti roll back (ARB) control system and an ARB control method are provided, which can prevent a hybrid vehicle, of which the clutch disposed between the driving wheel and the engine is open when the vehicle stops, from being unexpectedly moving downward when the vehicle is restarted on a slope. | 12-03-2009 |
20100151989 | Hydraulic-Electric Regenerative Energy Storage System - A hydraulic energy storage system (comprising a hydraulic pump/motor, a high pressure hydraulic accumulator, a low pressure hydraulic accumulator/reservoir, and interconnecting hydraulic lines) is incorporated into a EV, HEV, or PHEV to provide hydraulic regenerative braking and propulsive assistance for the vehicle. Implementation of the low cost and long-lasting hydraulic energy storage system in the vehicle, together with the electric energy storage system (comprising a motor/generator and battery pack) of the vehicle, allows significantly reduced demands and higher operating efficiencies for the battery pack, thereby facilitating a more cost-effective, efficient and/or durable overall energy storage system for the vehicle. | 06-17-2010 |
20100227733 | METHOD FOR TREATMENT OF A DRIVELINE - A method of operating a drivetrain of a motor vehicle. The drivetrain comprising a drive aggregate with at least one electric machine. During operation of the drivetrain according to the method, when an accelerator pedal and a brake pedal are not actuated, the drivetrain is operated in a speed-regulated crawling mode and during this mode a nominal speed value is compared with an actual speed value and, on the basis of the difference between these speed values, a crawling torque is produced as a control output. During a purely electrical speed-regulated crawling operation, if a positive crawling torque is produced as the control output, then the torque produced by the electric machine is regulated such that the actual speed value is approximately equal to the nominal speed value and, during such operation, an electrical energy accumulator of the drivetrain is discharged more intensively since the electric machine is operated as a motor. | 09-09-2010 |
20100234170 | METHOD FOR RECOVERING ELECTRICAL ENERGY IN A VEHICLE WITH REGENERATIVE BRAKING - Method for recovering electrical energy in a vehicle with regenerative braking is used in a vehicle equipped for this purpose with an electrical capacitance device to store electrical energy supplied by a rotary electrical machine of the vehicle during regenerative braking operation. A choice is made, on the basis of the initial rotational speed of the rotary electrical machine to apply an energy recovery stratagem from at least the following two: —a first energy recovery strategy that favors high power supplied by the rotary electrical machine; and—a second energy recovery strategy that favors high efficiency of the rotary electrical machine. | 09-16-2010 |
20100279817 | HYBRID POWERTRAIN AND METHOD OF OPERATING SAME - A method of operating a hybrid powertrain is provided that permits operation in multiple fixed ratio modes appropriate for towing and other vehicle operating conditions in which relatively high output torque is required. The method includes establishing three different electrically-variable operating modes by engaging different torque-transmitting mechanisms in response to different respective vehicle operating conditions. The method further includes establishing at least two different fixed ratio modes by engaging another torque-transmitting mechanism in addition to the respective different torque-transmitting mechanisms engaged to establish the electrically-variable operating modes. A hybrid powertrain having a controller configured to control the powertrain to operate according to the method is also provided. | 11-04-2010 |
20100304922 | DECELERATION CONTROL APPARATUS FOR HYBRID ELECTRIC VEHICLE - A deceleration control apparatus for a hybrid electric vehicle in which an electric motor conducts regenerative braking when the vehicle is to be decelerated comprises a braking unit for applying a braking force on a drive member transmitting drive power converted by a parallel axes-type automatic transmission to wheels, and a control unit for controlling the braking unit to apply a braking force on the drive member while a downshift is being conducted in the automatic transmission in the process of deceleration of the vehicle. | 12-02-2010 |
20110281685 | METHOD FOR OPERATING A VEHICLE HYBRID DRIVE TRAIN HAVING AN INTERNAL COMBUSTION ENGINE AND HAVING AN ELECTRIC MACHINE - A method of operating a vehicle hybrid drive train comprising an internal combustion engine and electric machine whose torque is applicable to a drive output of the drive train. The drive train comprises a clutch arranged between the internal combustion engine and electric machine, an oil pump connected in the drive train downstream of the clutch in relation to the internal combustion engine, and the oil pump can be driven by the internal combustion engine and the electric machine, and a transmission which comprises a shifting elements for producing various gear ratios and which is supplied with hydraulic fluid by the oil pump in an operating-status-dependent manner. The speed of the electric machine is set independently of the speed of the internal combustion engine, in order to supply the transmission with a flow of a volume hydraulic fluid required for the operating point of the transmission present at the time. | 11-17-2011 |
20110300990 | ELECTRIC TORQUE CONVERTER WITH DUAL-DRIVEN MAIN PUMP - A vehicle includes an electric motor/generator unit (MGU), an internal combustion engine, a transmission having an input member rotatable by the engine or the MGU, and an electric torque converter assembly. The torque converter assembly has a pump in driving connection with the transmission, a braking clutch assembly for selectively connecting the engine to a stationary member, a lockup clutch, and a dual-pinion planetary gear set. The electric torque converter assembly allows inertia torque from the MGU to transfer through the gear set to assist engine cranking when the MGU is decelerating. The pump is driven by the faster of the engine and MGU via the gear set and selective engagement, alone or in combination, of the lockup clutch and braking clutch assembly. An electric torque converter configured as noted above is also provided, and may include an electrically-actuated band for grounding the engine during certain operating modes. | 12-08-2011 |
20120058857 | METHOD FOR OPERATING A DRIVE TRAIN - A method of operating a drive-train of a motor vehicle which comprises a hybrid drive with a combustion engine and an electric machine, a clutch connected between the combustion engine and the electric machine, a transmission connected between the electric machine and a drive output, and either a primary retarder connected between the electric machine and the transmission or a secondary retarder connected between the transmission and the drive output. In order to warm up hydraulic oil, when the clutch between the combustion engine and the electric machine is disengaged and a transmission gear is engaged, a braking torque is produced by either the primary or secondary retarder, in the drive-train, and the electric machine is operated in a torque-controlled manner such that it delivers a torque equal to the sum of a target torque determined in accordance with the driver's wish and the braking torque produced by either the primary or secondary retarder. | 03-08-2012 |
20120071294 | Drive device for hybrid vehicle - A drive device for a hybrid vehicle is provided with an engine and a motor generator. A one-way clutch is provided between the engine and the motor generator. Power is transmitted from the engine to the motor generator, while power from the motor generator to the engine is blocked. As a result, the electric motor can be operated without operating the engine. Furthermore, a torque converter is connected to the motor generator, and the engine is connected to the torque converter via a starting clutch. As a result, if a one-way clutch is provided, the motor generator can serve as a starter motor. | 03-22-2012 |
20120295757 | VEHICLE DRIVE CONTROL SYSTEM - A vehicle drive control system includes a motor coupled with the driving shaft of an internal combustion engine so that torque can be transmitted to the drive wheels when fuel supply to the engine is cut off. The vehicle travels in a creeping mode in this state while motoring of the engine is performed through driving force of the motor. When accelerator depression is detected, fuel injection into a cylinder waiting for the intake stroke of the engine is begun and the engine is started. The crank angle position at a time when fuel injection is started is utilized as a reference position. When the crankshaft of the engine rotates from the reference crank angle position to a predetermined crank angle position, driving by the motor is stopped and the vehicle is then driven by the engine. | 11-22-2012 |
20130005529 | HYBRID ELECTRIC DRIVE UNIT, HYBRID DRIVE SYSTEM AND CONTROL METHOD THEREOF - A series/parallel hybrid electric drive unit for vehicle comprises an engine ( | 01-03-2013 |
20130053212 | CONTROL SYSTEM FOR A HYBRID POWERTRAIN SYSTEM - A vehicle includes a powertrain with an engine, first and second torque machines, and a hybrid transmission. A method for operating the vehicle includes operating the engine in an unfueled state, releasing an off-going clutch which when engaged effects operation of the hybrid transmission in a first continuously variable mode, and applying a friction braking torque to a wheel of the vehicle to compensate for an increase in an output torque of the hybrid transmission resulting from releasing the off-going clutch. Subsequent to releasing the off-going clutch, an oncoming clutch which when engaged effects operation of the hybrid transmission in a second continuously variable mode is synchronized. Subsequent to synchronization of the oncoming clutch, the oncoming clutch is engaged. | 02-28-2013 |
20130065728 | METHOD FOR OPERATING A DRIVE TRAIN - A method for operating a drive-train of a motor vehicle with a drive aggregate in the form of a hybrid drive system ( | 03-14-2013 |
20130217536 | METHOD AND APPARATUS FOR EXECUTING AN ASYNCHRONOUS CLUTCH-TO-CLUTCH SHIFT IN A HYBRID TRANSMISSION - A hybrid transmission includes first and second electric machines. A method for operating the hybrid transmission in response to a command to execute a shift from an initial continuously variable mode to a target continuously variable mode includes increasing torque of an oncoming clutch associated with operating in the target continuously variable mode and correspondingly decreasing a torque of an off-going clutch associated with operating in the initial continuously variable mode. Upon deactivation of the off-going clutch, torque outputs of the first and second electric machines and the torque of the oncoming clutch are controlled to synchronize the oncoming clutch. Upon synchronization of the oncoming clutch, the torque for the oncoming clutch is increased and the transmission is operated in the target continuously variable mode. | 08-22-2013 |
20130225363 | METHOD TO REDUCE POWERTRAIN NOISE AND VIBRATION DURING ENGINE START IN HYBRID VEHICLE - A method of controlling a powertrain system of a hybrid vehicle includes detecting a request to start an engine, incrementally applying torque to the powertrain system, and biasing the torque against a static member of the powertrain system, such as a parking pawl of a transmission when the transmission is disposed in a parking position, to remove lash from the powertrain system prior to starting the engine. | 08-29-2013 |
20130296100 | Controlled Regenerative Braking Torque Incrementing in Hybrid Vehicle Downshift - A controller and control strategies minimize shift shock in a hybrid electric vehicle during a downshift during regenerative braking by maintaining the transmission input speed substantially linear when the transmission input speed is slowing. The controller and the control strategies control the regenerative braking torque during a downshift occurring during regenerative braking in such a way that the transmission input speed is maintained substantially linear when the transmission input speed is slowing during a torque phase of the downshift. | 11-07-2013 |
20130296101 | METHODS AND SYSTEMS FOR A FOUR WHEEL DRIVE VEHICLE DRIVELINE - Systems and methods for improving operation of a hybrid vehicle are presented. In one example, driveline operation may be adjusted in response to operating the hybrid vehicle in a four wheel drivel low gear range. The approaches may improve vehicle drivability and reduce driveline degradation. | 11-07-2013 |
20130296102 | METHODS AND SYSTEMS FOR EXTENDING REGENERATIVE BRAKING - Systems and methods for improving operation of a hybrid vehicle are presented. In one example, an electrical load may be automatically activated to consume electrical energy produced during driveline braking so that driveline braking may be extended. The electrical load may be a windscreen heater or other device. | 11-07-2013 |
20140004994 | HYBRID VEHICLE AND ASSOCIATED CONTROL METHOD | 01-02-2014 |
20140011630 | VEHICLE CONTROL DEVICE - A vehicle control device includes an engine, a motor disposed nearer to drive wheel sides than the engine in a vehicle, and a clutch disposed between the engine and the motor and configured to be engaged or released according to an operation input, wherein at the time the clutch is engaged to connect the engine and the drive wheels while the vehicle travels with the engine being stopped, the engine is started by the power transmitted to the engine via the clutch as well as the motor is caused to output assist torque for suppressing a reduction of acceleration of the vehicle caused by that the clutch is engaged, and the assist torque when a braking operation is performed is smaller than the assist torque when the braking operation is not performed. | 01-09-2014 |
20140024493 | HYBRID POWERTRAIN WITH INPUT BRAKE - A hybrid powertrain includes a hybrid transmission that has an input member operatively connectable to an engine crankshaft, at least one motor/generator, a gearing arrangement, and an output member operatively connectable to both the input member and said at least one motor/generator. An input brake has a first and a second brake shoe, a selectively energizable solenoid, and a mechanical biasing mechanism. The solenoid is operatively connected to the brake shoes via the mechanical biasing mechanism so that both brake shoes are operatively connected with the input member when the solenoid is energized. When the solenoid is deenergized, the first brake shoe remains operatively connected with and resists rotation of the input member when clockwise torque is applied to the input member and the second brake shoe remains operatively connected with and resists rotation of the input member when counterclockwise torque is applied to the input member. | 01-23-2014 |
20140066250 | RECUPERATIVE TRANSMISSION DOWN SHIFTING MULTIPLE GEARS AND ENGINE DECOUPLING - A hybrid electric drive system for a hybrid powered vehicle which includes a combustion engine, and a transmission. An electric machine and the combustion engine are coupled to the transmission in the hybrid electric drive system providing engine and/or electric machine drive power for the vehicle. A clutch is mechanically communicating with and positioned between the combustion engine and the transmission to decouple the combustion engine from the transmission. An energy storage system is configured to transfer and receive power with the electric machine, and is configured to recharge using power from the electric machine. A hybrid system controller is configured to respond to a regenerative braking mode of the vehicle. While the hybrid electric drive system is in the regenerative braking mode, the hybrid system controller is configured to initiate shifting of the transmission into one or more selected gears relating to one or more selected electric machine speeds. | 03-06-2014 |
20140066251 | GEAR SHIFT CONTROL SYSTEM FOR AUTOMATIC TRANSMISSION - A gear shift control system for vehicles is provided which mathematically calculates a rate of deceleration of the vehicle equipped an automatic transmission upon start of deceleration of the vehicle and inhibits the automatic transmission from upshifting or changes a permissible gear shift range of the automatic transmission as a function of the rate of deceleration of the vehicle, thereby ensuring a desired degree of braking force including an engine braking force while the vehicle is decelerating. | 03-06-2014 |
20140200111 | HYBRID VEHICLE CONTROL APPARATUS - A hybrid vehicle control apparatus ( | 07-17-2014 |
20140206500 | CONTROL DEVICE FOR VEHICLE DRIVE DEVICE - A control device of a vehicle drive device includes: a hydraulic power transmission device having a lockup clutch mechanically coupling an input-side rotating member to which power from an engine is input and an output-side rotating member outputting power to drive wheels; and an electric motor coupled to a power transmission path between the hydraulic power transmission device and the drive wheels. If regeneration braking of a vehicle is performed with the electric motor, an engagement force of the lockup clutch is made larger when a vehicle speed related value varying depending on a vehicle speed is higher. | 07-24-2014 |
20140349809 | APPARATUS FOR DRIVING PLUG-IN HYBRID VEHICLE AND METHOD OF CONTROLLING THE SAME - The apparatus may include an engine configured to supply a drive torque to the vehicle. A first motor generator directly connected to the engine and generates electric power and supplies the drive torque to a transmission. A clutch is interposed between the first motor generator and the transmission and selectively transmits rotational power between the first motor generator and the transmission. A second motor generator is electrically connected to the first motor generator and generates electric power and supplies the drive torque to the transmission at all times. A battery supplies the electric power to the first and second motor generators and is charged by the first and second motor generators. | 11-27-2014 |
20150011359 | DRIVE CONTROL DEVICE FOR HYBRID VEHICLE - A drive control device for a hybrid vehicle is provided with a differential device having four rotary elements. One of the four rotary elements is constituted by rotary components of each of a first and a second differential mechanisms selectively connected to each other through a clutch. One of the rotary components of said first and second differential mechanisms selectively connected through said clutch is selectively fixed to a stationary member through a brake. The drive control device comprises a brake engagement control portion configured to place the brake in an engaged state upon starting an engine, and an electric motor operation control portion configured to operate a first electric motor to raise a speed of a rotary motion of the engine for starting of the engine and to operate a second electric motor to reduce a reaction force during starting of said engine acting on an output rotary member. | 01-08-2015 |
20150045178 | APPARATUS INCLUDING OPERATION-SWITCH ASSEMBLY FOR SWITCHING PROPULSION OPERATION OF VEHICLE - An apparatus includes a vehicle configured to support the user. The apparatus also includes an operation-switch assembly configured to be supported by the vehicle. The operation-switch assembly is also configured to switch propulsion operation of the vehicle between a first propulsion-operation mode and a second propulsion-operation mode. In the first propulsion-operation mode, the operation-switch assembly is also configured to permit propulsion of the vehicle to be influenced by a power-train assembly being configured to generate a power-train force. In the second propulsion-operation mode, the operation-switch assembly is also being configured to: (A) permit propulsion of the vehicle to be influenced by a non power-train force, and (B) permit propulsion of the vehicle to be not influenced by the power-train force of the power-train assembly. | 02-12-2015 |
20150057126 | HYBRID VEHICLE DRIVE CONTROL DEVICE - A drive control device for a hybrid vehicle is provided with a differential device including four rotary elements; an engine, first and second electric motors and an output rotary member which are respectively connected to the four rotary elements; and a parking lock mechanism having a parking lock pole preventing rotation of a parking lock gear connected to the output rotary member when a manually operated shifting device selects a parking range. One of the four rotary elements is constituted by a rotary component of a first differential mechanism and a rotary component of a second differential mechanism selectively connected through a clutch, and one of the rotary components is selectively fixed to a stationary member through a brake. The drive control device sets a drive mode to an engine drive mode in which the brake is placed in a released state while the clutch is placed in an engaged state when a shift change is made into the parking range to achieve a parking lock with the parking lock mechanism. | 02-26-2015 |
20150065294 | DRIVE UNIT FOR A VEHICLE, AND OPERATING METHOD THEREFOR - A drive device for a vehicle having a combustion engine and a multistage manual transmission having first and second sub-transmissions, each of which has a separate input shaft. A first input shaft of the first sub-transmission couples, via a first clutch, the combustion engine or is assigned an electrical machine. A second input shaft of a second sub-transmission couples, via a second clutch, the combustion engine. The first input shaft is additionally assigned a start-up element having at least one hydrodynamic transfer element, which has first and second functional wheels which together form a working chamber. The working chamber can be filled with fluid in order to generate a hydrodynamic transfer torque such that at least one start-up function, affecting the first sub-transmission, can carried out by way of the start-up element. | 03-05-2015 |
20150080173 | DRIVE CONTROL DEVICE FOR HYBRID VEHICLE - A drive control device for a hybrid vehicle is provided with a differential device including four rotary elements; and an engine, first and second electric motors and an output rotary member respectively connected to the four rotary elements. One of the four rotary elements is constituted by a rotary component of a first differential mechanism and a rotary component of a second differential mechanism selectively connected through a clutch, and one of the rotary components is selectively fixed to a stationary member through a brake. The drive control device releases one of the clutch and the brake when the engine is started in a drive mode in which the engine is at rest while the clutch and the brake are in an engaged state, selecting the one of the clutch and the brake to be released, depending upon a drive force generated during starting the engine. | 03-19-2015 |
20150087475 | REGENERATIVE BRAKING AND TORQUE CONVERTER CONTROL - A method for controlling vehicle regenerative braking includes decreasing regenerative braking, provided a converter clutch is locked, such that regenerative braking torque reaches zero before a converter clutch opens due to vehicle speed reaching a reference speed; decreasing regenerative braking, provided the converter clutch is scheduled to open, such that regenerative braking torque reaches zero before the converter clutch opens due to vehicle speed reaching the reference speed; and braking the vehicle using wheel brakes. | 03-26-2015 |
20150105214 | Coordinating Regenative Braking with Torque Converter Clutch Operation - A method for controlling a vehicle regenerative braking event includes maintaining a converter clutch closed while braking, while an engine connected to the impeller is running, opening the converter clutch when impeller speed reaches a reference speed difference relative to engine idle speed, and while the engine is off, opening the converter clutch when impeller speed reaches a speed required for a transmission pump, connected to an impeller, to produce line pressure at a desired magnitude. | 04-16-2015 |
20150119191 | POWER TRANSMISSION SYSTEM OF HYBRID ELECTRIC VEHICLE - A power transmission system of a hybrid electric vehicle may include an input shaft receiving torque of an engine, a first planetary gear set having at least three rotation elements, a second planetary gear set having at least three rotation elements, a clutch selectively connecting two rotation elements among the at least three rotation elements of the second planetary gear set, a brake selectively connecting a rotation element of the second planetary gear set to the transmission housing, and an output gear connected to a second motor/generator and the a rotation element of the second planetary gear set. | 04-30-2015 |
20150126328 | METHODS AND SYSTEMS FOR TRANSITIONING BETWEEN BRAKING MODES - Systems and methods for improving operation of a hybrid vehicle are presented. In one example, a method for transitioning between driveline braking and wheel brakes is provided. | 05-07-2015 |
20150133264 | METHODS AND SYSTEMS FOR TRANSITIONING BETWEEN DRIVELINE BRAKING MODES - Systems and methods for improving operation of a hybrid vehicle are presented. In one example, a method for transitioning between regenerative braking and engine braking is described. | 05-14-2015 |
20150141197 | METHODS AND SYSTEMS FOR DRIVELINE MODE TRANSITIONS - Systems and methods for improving operation of a hybrid vehicle are presented. In one example, a method for transitioning between regenerative braking and providing positive torque to a driveline is presented. | 05-21-2015 |
20150148187 | METHOD FOR BRAKING A VEHICLE - A method for braking a vehicle driving forward towards stop. The vehicle has a propulsion system including a combustion engine with an output shaft ( | 05-28-2015 |
20150298534 | DRIVE DEVICE FOR HYBRID VEHICLE - A drive device for hybrid vehicle includes: a planetary gear mechanism; a first rotating machine coupled to a sun gear of the planetary gear mechanism; an engine and a one-way clutch coupled to a carrier of the planetary gear mechanism; a second rotating machine and a drive wheel coupled to a ring gear of the planetary gear mechanism; and a braking device. The drive device relatively changes a rotation speed of the first rotating machine to a rotation speed of a positive rotation side to perform braking by the braking device in response to a braking command. | 10-22-2015 |
20150307079 | ELECTRIFIED VEHICLE NEUTRAL ENGINE START - A method according to an exemplary aspect of the present disclosure includes, among other things, controlling an electrified vehicle by engaging a parking brake if a battery state of charge is depleted below a predefined threshold. | 10-29-2015 |
20160090082 | DRIVING SYSTEM FOR VEHICLE - A driving system for a vehicle includes a drive source, a driven portion, a wet multiple disc connection/disconnection unit provided on a power transmission path between the drive source and the driven portion, and a connection/disconnection unit controller configured to control a release and an application of the connection/disconnection unit, wherein the driving system further includes a time counter configured to obtain a continuous applied time that is an elapsed time from a start of a latest application of the connection/disconnection unit. | 03-31-2016 |
20180022337 | VARIABLE POWER TAKE-OFF WITH ELECTRIC GENERATING CAPACITY | 01-25-2018 |