Patent application number | Description | Published |
20100035716 | VARIABLE SPEED ACCESSORY DRIVE SYSTEM - The present invention provides an accessory drive system for a vehicle. The accessory drive system includes a planetary gear set having a first, second, and third planetary member. A torque transfer device operatively connects an engine with the first planetary member. A motor/generator is operatively connected to the second planetary member, and a plurality of accessories are operatively connected to the third planetary member. Engine output is transferable through the planetary gear set to drive the accessories, and the speed at which the accessories are driven is selectable by controlling the speed of the motor/generator. | 02-11-2010 |
20100096233 | MULTI-GAP MAGNETORHEOLOGICAL FLUID CLUTCH - A vehicle has a multi-gap magnetorheological fluid (MRF) clutch connecting rotatable input and output members, and includes a drum connected to the output member and a rotor connected to the input member. The drum contains a magnetically-permeable stator and a magnetic core, while the rotor has a magnetically-permeable member extending axially into the drum to define an outer working gap in conjunction with the stator and an inner working gap in conjunction with the magnetic core. MR fluid fills the working gaps, and a magnetic field generator or electromagnet induces a magnetic field when electrical current is passed through a field coil therein to change an apparent viscosity of the MR fluid. The inner and outer working gaps have a predetermined inner to outer gap thickness ratio balancing the slip power dissipation per unit volume in each of the working gaps. | 04-22-2010 |
20100234159 | HYBRID TRANSMISSION WITH INTEGRATED TORQUE MACHINE - A hybrid transmission device for a hybrid powertrain system having an integrated torque machine to transfer power among an input member, the torque machine and an output member in one of a plurality of fixed gear and continuously variable states is operative in a plurality of fixed gear states, a continuously variable state, and a torque machine state. | 09-16-2010 |
20100304924 | HYBRID POWERTRAIN WITH TORQUE-MULTIPLYING ENGINE STARTING MECHANISM AND METHOD OF CONTROLLING A HYBRID POWERTRAIN - A hybrid powertrain is provided that provides engine starting from an electric-only mode with a reduced torque load on the motor/generator. The powertrain includes an engine and a motor/generator, which may be a single motor/generator in a strong or full hybrid, but is not limited to such. The motor provides propulsion torque in an electric-only operating mode, and is configured to apply torque to a transmission input member. A first clutch is selectively engagable to connect the engine output member for common rotation with the transmission input member. An engine starting mechanism is provided that multiplies motor torque used to start the engine so that less is diverted from propelling the vehicle, enabling a smaller motor/generator to be used. A method of controlling such a powertrain is also provided. | 12-02-2010 |
20120083385 | CONTROL OF A POWERTRAIN FOR A HYBRID SYSTEM - A powertrain includes a first electric motor coupled to an internal combustion engine with a ratio changing device and a second motor selectively coupled to the engine through an engine disconnect clutch, the second motor further coupled to an input shaft of a transmission. A method to control the powertrain includes monitoring a propelling torque provided by the second motor, monitoring a speed of the second motor, determining a condition of the second motor based upon the propelling torque and the speed of the second motor, selecting a control mode for the first motor based upon the condition of the second motor and controlling the first motor, the second motor, and the engine disconnect clutch based upon the control mode. | 04-05-2012 |
20120083950 | ENHANCED STABILITY CONTROL FOR AN ELECTRIC POWERTRAIN - A vehicle having an electric powertrain includes a control system for executing a driveline stability control method. A host machine determines vehicle speed prior to an electric-only (EV) mode or EV mode shift/transition, filters an initial motor torque command to the traction motor via a notch filter as a function of vehicle speed to generate a filtered motor torque command, and controls the motor during the EV mode or transition using the filtered motor torque command. The notch filter may have a center frequency and/or a damping coefficient tunable to changing vehicle speed. A control system for the vehicle includes the host machine, a notch filter, and optionally a vehicle speed-based active damping module. The host machine controls the motor during the EV mode or transition using the filtered motor torque command from the filter, and may provide the damping control during the EV mode or transition. | 04-05-2012 |
20120083951 | METHOD AND SYSTEM FOR CONTROLLING AN EV MODE TRANSITION IN A TWO-MODE HYBRID VEHICLE - A method of executing an electric-only (EV) mode transition in a vehicle includes determining vehicle operating values using a control system, processing the values to identify the transition, and executing the transition to or from the first or second EV mode. The transition is executed by selectively engaging and disengaging the input brake to zero, and by using the first and/or second traction motor to synchronize slip across the input brake. When the transition is from the first to the second EV mode or vice versa, the control system may use multiple speed and torque control phases to enter multiple intermediate modes, e.g., a pair of engine-on electrically-variable transmission modes and a fixed gear mode. A vehicle includes an engine, an input brake, first and second traction motors, and a transmission driven via the motors in a first and second EV mode. The vehicle includes the control system noted above. | 04-05-2012 |
20120083952 | CONTROL OF ENGINE START FOR A HYBRID SYSTEM - A powertrain includes an electric motor providing propulsion torque to a transmission input shaft, an internal combustion engine, and an engine disconnect clutch selectively providing torque transfer between the engine and the motor. A method to control a flying engine start in the powertrain includes monitoring an output torque request, determining the propulsion torque to the transmission input shaft based upon the output torque request, determining a compensation torque to be provided to the engine disconnect clutch for the flying engine start, and controlling the motor to provide a motor torque based upon a sum of the propulsion torque and the compensation torque. | 04-05-2012 |
20120174570 | TRANSMISSION HYDRAULIC CONTROL SYSTEM HAVING FLOW AUGMENTATION - A system for providing pressurized hydraulic fluid includes an engine driven main pump and an electrical motor driven auxiliary pump. The auxiliary pump provides hydraulic fluid at line pressure to shift control subsystems during a vehicle launch while the main pump provides hydraulic fluid to cooler or lubrication subsystems during the vehicle launch. A pressure regulation valve regulates the pressure of the hydraulic fluid from the main pump. Once the main pump reaches a critical speed, the main pump provides hydraulic fluid at line pressure to the hydraulic control system and the auxiliary pump is turned off. | 07-12-2012 |
20120175212 | LAUNCH / DISCONNECT CLUTCH FOR P2 HYBRID POWERTRAIN - A launch and disconnect clutch for the electric motor of a P2 hybrid powertrain is compact and provides improved operation. The clutch is mounted between the engine and transmission in the space formerly occupied by the torque converter. The clutch assembly is configured so that actuation, compensation and cooling are provided by only two oil channels. The clutch utilizes single-sided reaction plates which achieve high clutch gain thereby providing high torque capacity under electric operation and improved launch shudder characteristics. | 07-12-2012 |
20120202635 | INTEGRATED SINGLE MOTOR HYBRID TRANSMISSION USING REAR-WHEEL-DRIVE 8-SPEED TRANSMISSION - An apparatus transmitting torque among a first torque generative device, a second torque generative device and an output member includes a first planetary gear set including respective first, second and third members, a second planetary gear set including respective first, second and third members, the respective first member of the second planetary gear set mechanically coupled to the respective first member of the first planetary gear set. The first torque generative device is mechanically coupled to the respective second member of the first planetary gear set. The second torque generative device is mechanically coupled to the respective second member of the second planetary gear set, wherein the second torque generative device includes a grounding state wherein rotation of the respective second member of the second planetary gear set is prevented and a rotational state wherein rotation of the respective second member of the second planetary gear set is not prevented. | 08-09-2012 |
20120306443 | AUTOMATED CHARGING FOR VEHICLE ENERGY STORAGE SYSTEMS - Methods and systems are provided for charging an energy storage system of a vehicle. A processor is coupled to an arm. The processor is configured to obtain a position of the vehicle. The processor is further configured to guide the arm to locate a charging receptacle of the vehicle based on the position and to insert the charging device into the charging receptacle. | 12-06-2012 |
20130023379 | FLUID COUPLING FOR A HYBRID POWERTRAIN SYSTEM - A hybrid powertrain system includes an internal combustion engine, an electric machine coupled to a transmission, a fluid coupling including an impeller and a turbine wherein the impeller is mechanically coupled to a rotatable member of the electric machine and the turbine is mechanically coupled to a rotatable member of the internal combustion engine. The fluid coupling is effective to fluidically couple torque from the electric machine to the internal combustion engine when the impeller and turbine are not mechanically locked. | 01-24-2013 |
20130116085 | HYBRID POWERTRAIN WITH MANUAL TRANSMISSION AND OFF-LATCHING CLUTCH, AND METHOD OF OPERATING THE SAME - A powertrain for a hybrid vehicle includes a clutch interconnecting an internal combustion engine and an electric motor. The electric motor is coupled to a manually operated gearbox operable in at least one electric only drive position and at least one hybrid drive position. A latch is coupled to the clutch and is moveable between a closed position inhibiting the clutch from interconnecting the internal combustion engine and the electric motor when the gearbox is disposed in the electric only drive position, and an open position allowing the clutch to interconnect the internal combustion engine and the electric motor when the gearbox is disposed in the hybrid drive position. | 05-09-2013 |
20140051547 | METHOD OF OPERATING A HYBRID POWERTRAIN WITH MANUAL TRANSMISSION AND OFF- LATCHING CLUTCH - A powertrain for a hybrid vehicle includes a clutch interconnecting an internal combustion engine and an electric motor. The electric motor is coupled to a manually operated gearbox operable in at least one electric only drive position and at least one hybrid drive position. A latch is coupled to the clutch and is moveable between a closed position inhibiting the clutch from interconnecting the internal combustion engine and the electric motor when the gearbox is disposed in the electric only drive position, and an open position allowing the clutch to interconnect the internal combustion engine and the electric motor when the gearbox is disposed in the hybrid drive position. | 02-20-2014 |
20140232500 | OBJECT RETENTION ON INTERIOR VEHICULAR COMPONENTS UTILIZING CODED MAGNETS - A method of and attachment system for securing and manipulating attractive objects upon an interior vehicular surface, utilizing at least one coded magnet to selectively attach/retain the objects, and provide various other functions, including aiding in alignment, orientation, and retrieval of the objects, and activating an associated sub-system. | 08-21-2014 |
20140333261 | AUTOMATED RECHARGING SYSTEM AND METHOD FOR AN ELECTRIC VEHICLE - An automated recharging system includes an electric vehicle and a charging apparatus. The electric vehicle includes a rechargeable energy storage system (RESS), a charging receptacle, and a first controller configured to monitor the status of the electric vehicle and the charge level of the RESS. The charging apparatus includes a charging plug configured to mate with the charging receptacle to recharge the RESS, and a movement mechanism to substantially align the charging plug with and insert it into the charging receptacle. The charging apparatus also includes a second controller to control the movement mechanism and to communicate with the first controller. The electric vehicle further includes an array of radio-frequency identification (RFID) tags arranged around the charging receptacle, and the charging apparatus further includes a RFID reader configured to read the RFID tags to determine the location of the charging plug in relation to the charging receptacle. | 11-13-2014 |
20150014115 | ELECTRICALLY ACTUATED ROTATING BAND TORQUE TRANSMITTING MECHANISM FOR HYBRID AND OTHER TRANSMISSIONS - A torque transmitting mechanism includes a drum attached to one of a first member and a second member, and a shell attached to another of the first member and the second member. The drum and the shell are concentrically disposed about a longitudinal axis, with the shell concentrically disposed about the drum. An electric motor includes a stator, and a first rotor rotatable about the longitudinal axis relative to the stator. A band is coupled to the shell, wrapped around the drum between four and twelve complete revolutions, and includes a first end attached to the first rotor for rotation with the first rotor. The band includes a second end attached to a reaction member. Rotation of the first rotor tightens the band against the drum to bias the drum against the shell, to transmit torque between the first member and the second member. | 01-15-2015 |
20150038288 | VEHICLE POWERTRAIN WITH CLUTCH ACTUATOR PROVIDING ELECTRICAL POWER - A vehicle powertrain includes a first rotatable member and a second rotatable member. A clutch has an engaged state in which torque is transferred between the first rotatable member and the second rotatable member through the clutch. The clutch has a disengaged state in which torque is not transferred between the first rotatable member and the second rotatable member through the clutch. A clutch actuator includes a motor-generator that has a rotor rotatably drivable by one of the first rotatable member and the second rotatable member, and has a stator powerable to rotatably drive the rotor relative to said one of the first rotatable member and the second rotatable member. A controller is operatively connected to the stator and is configured to control the motor-generator to function as a generator to provide torque on the rotor. The motor-generator provides electrical power to a vehicle component. | 02-05-2015 |