Patent application number | Description | Published |
20080306670 | Power Boost System and Method - A power boost system and method. An illustrative embodiment of the power boost system includes an operator interface having a system activation button; a vehicle system controller connected to the operator interface; and at least one of an engine system controller, a battery system controller and an accessory system controller connected to the vehicle system controller. | 12-11-2008 |
20110118078 | Vehicle And Method For Controlling Engine Start In A Vehicle - A vehicle includes a motor/generator, a starter motor, a disconnect clutch disposed between the engine and the motor/generator, and at least one clutch disposed between the motor/generator and the vehicle drive wheels. When an engine start is requested, various parameters are controlled to ensure a smooth engine start wherein driveline torque disturbances are minimized. The starter motor is used to crank the engine at the lowest engine speeds when the engine-required torque is the highest. This reduces the amount of torque necessary to be supplied from the motor/generator, and further helps to reduce torque disturbances in the driveline. If the motor/generator is producing torque to propel the vehicle at the time the engine start is requested, a launch clutch or one or more transmission clutches can be controlled to provide slip between the motor/generator and the vehicle drive wheels to further reduce torque disturbances in the driveline. | 05-19-2011 |
20110118915 | Vehicle And Method For Controlling Engine Start In A Vehicle - A vehicle includes a motor/generator, a starter motor, a disconnect clutch disposed between the engine and the motor/generator, and at least one clutch disposed between the motor/generator and the vehicle drive wheels. When an engine start is requested, various parameters are controlled to ensure a smooth engine start wherein driveline torque disturbances are minimized. The starter motor is used to crank the engine upon an engine start request, thereby eliminating the need to transfer torque from the motor/generator to the engine. This helps to further reduce torque disturbances in the driveline when the engine is started. | 05-19-2011 |
20150258974 | Stopping a Hybrid Engine with Engine Start Anticipation - A hybrid electric automotive powertrain includes an engine start/stop system to improve fuel economy. The stop routine provides for quick restarting to avoid delay in a driver change of mind case. The stop routine may be terminated prior to full engine stop when a torque request is received during the stop routine. | 09-17-2015 |
20150283988 | LIMITING REGENERATIVE TORQUE FOR A HYBRID ELECTRIC POWERTRAIN - Regenerative torque is limited for a hybrid electric powertrain of a vehicle. A transmission controller determined torque limit is validated by a vehicle controller. The vehicle controller validates the torque limit using, individually or in combination, an actual status of a torque converter clutch, a detected status of the torque converter clutch, or a speed of the vehicle. | 10-08-2015 |
Patent application number | Description | Published |
20120265382 | Torque Modulation in a Hybrid Vehicle Downshift During Regenerative Braking - A controller and a control strategy minimizes shift shock in a hybrid electric vehicle during a downshift conducted while the vehicle is in a regenerative braking mode by maintaining total powertrain torque at a desired target during the downshift. The controller has three preferable modes including modulating just engine torque, modulating just electric motor torque or simultaneously modulating both motor and engine torque. | 10-18-2012 |
20130158756 | Hybrid Vehicle Drive Control System and Method for Providing Motor Torque Boost Compensating for Engine Delay and Torque Exceeding Maximum Engine Torque - A vehicle control system including a combustion engine and an electric motor selectively provided torque to a transmission separately or in combination to meet driver torque demand. The engine has a maximum torque output value and a torque increase delay response function spanning a predetermined time period. A motor torque boost signal requests an increase in torque provided from an electric motor if the engine torque request signal exceeds the maximum torque output of the engine or the torque increase delay response function of the engine. The motor torque boost signal is time limited and a second level of motor torque boost may be provided for a second limited time period. | 06-20-2013 |
20130296112 | CONTROLLING POWERTRAIN COMPONENTS FOR HILL-HOLDING IN A HYBRID ELECTRIC VEHICLE - A hybrid electric vehicle includes an engine and a traction motor coupled to the engine by a coupling device or a clutch for providing torque to wheels of the vehicle. An inverter is electrically connected to the traction motor. A second coupling device or at least one clutch at least indirectly selectively couples the motor to the drive wheels. A controller controls the second coupling device based upon a temperature of at least one of the fraction motor and the inverter. | 11-07-2013 |
20130297105 | ENGINE START FOR A HYBRID ELECTRIC VEHICLE - A hybrid vehicle has an engine, an electric machine connected to the engine by an upstream clutch, a transmission gearbox connected to the electric machine by a downstream clutch, and a controller. The controller is configured to start the engine using one of a plurality of start sequences that control the electric machine, the upstream and downstream clutches. The engine start sequence is selected based on transmission gearbox input speed and a driver demand input. A method of controlling a hybrid vehicle is provided. An engine is selectively coupled to an electric machine by an upstream clutch with the electric machine selectively coupled to a transmission gearbox by a downstream clutch. The engine is started using a control sequence to control the electric machine, upstream clutch, and downstream clutch. The control sequence is determined by a vehicle state based on transmission gearbox input speed and a driver demand input. | 11-07-2013 |
20130297125 | TORQUE FILLING AND TORQUE COORDINATION DURING TRANSIENTS IN A HYBRID VEHICLE - A system and method for controlling a vehicle powertrain is provided. The system and method sets a required transmission input torque during a transient event. A required traction motor torque and a required engine torque, in combination, are set to fulfill the required transmission input torque. The system and method includes estimates an actual engine torque during a delay in providing the required engine torque during the transient event. A transient traction motor torque is commanded based on a difference between the actual engine torque and the required transmission input torque. The commanded transient motor torque compensates for the delay in providing the required engine torque in order to prevent torque disturbances during the transient event. | 11-07-2013 |
20130297126 | OPPORTUNISTIC CHARGING OF HYBRID VEHICLE BATTERY - A control system for a modular hybrid electric vehicle operates an internal combustion engine at a torque level above the driver demanded torque improving the engine's efficiency. A traction motor driveably connected to the engine is operated at a torque level such that the combined torque satisfies the driver demand. The traction motor torque is limited to avoid inefficient combinations of speed and torque at which the motor is inefficient. During idle operation, the traction motor is operated at a torque determined from a battery state of charge and the engine is operated to maintain a predetermined speed. If the engine speed drops below a threshold, motor torque is adjusted to reduce the load on the engine to avoid stalling. | 11-07-2013 |
20140148305 | Method and Apparatus for Limiting Engine Torque to Protect Disconnect Clutch in a Hybrid Vehicle - A powertrain comprising an engine, a motor, a disconnect clutch connected between the engine and the motor, and a transmission. The transmission is connected to the motor by a launch clutch and selectively and indirectly connected to the engine by the disconnect clutch. A controller receives an engine torque output signal and reduces the torque output of the engine to the clutch capacity limit value. A system and a method are also provided for controlling a powertrain for a hybrid vehicle. | 05-29-2014 |
20150025724 | METHODS AND SYSTEMS FOR RESTARTING AN ENGINE - Systems and methods for improving operation of a hybrid vehicle are presented. In one example, torque output of a motor is controlled to include a reserve torque for starting an engine that may be selectively coupled to the motor. Additionally, the motor torque compensates for disconnect clutch closing. | 01-22-2015 |
20150066264 | METHODS AND SYSTEMS FOR HYBRID DRIVELINE CONTROL - Systems and methods for operating and hybrid driveline are presented. In one example, driver demand torque may be supplied to vehicle wheels via a hydraulic torque path and a friction torque path. Torque is distributed between the friction torque path and the hydraulic torque path in a way that ensures that driver demand torque is met and the friction torque path transfers torque up to its capacity. | 03-05-2015 |
20150099607 | Method and Apparatus for Limiting Engine Torque to Protect Disconnect Clutch in a Hybrid Vehicle - A powertrain comprising an engine, a motor, a disconnect clutch connected between the engine and the motor, and a transmission. The transmission is connected to the motor by a torque converter and lock-up clutch and selectively and indirectly connected to the engine by the disconnect clutch. A controller receives an engine torque output signal and reduces the torque output of the engine to the clutch capacity limit value. A system and a method are also provided for controlling a powertrain for a hybrid vehicle. | 04-09-2015 |
20150197240 | CONTROLLING POWERTRAIN COMPONENTS FOR HILL-HOLDING IN A HYBRID ELECTRIC VEHICLE - A hybrid electric vehicle includes an engine and a traction motor coupled to the engine by a coupling device or a clutch for providing torque to wheels of the vehicle. An inverter is electrically connected to the traction motor. A second coupling device or at least one clutch at least indirectly selectively couples the motor to the drive wheels. A controller controls the second coupling device based upon a temperature of at least one of the traction motor and the inverter. | 07-16-2015 |
20150202964 | HYBRID VEHICLE BRAKING SYSTEM AND METHOD - A vehicle includes a powertrain having an electric machine, and friction brakes configured to resist rotation of a vehicle wheel. The further includes at least one controller programmed to (i) issue a command for the electric machine to apply a regenerative torque to decelerate the vehicle in response to driver braking demand, and (ii) cause both a decay in the regenerative torque and a countervailing increase in the resistance of the friction brakes when vehicle speed is reduced to less than a first threshold such that braking demand is substantially satisfied by only the friction brakes when the vehicle speed is less than a second threshold. | 07-23-2015 |
20150203106 | HYBRID VEHICLE BRAKING LIMIT DETERMINATION SYSTEM AND METHOD - A vehicle includes a powertrain having an electric machine configured to selectively apply regenerative torque to cause deceleration in response to braking demand; the powertrain further including a torque converter configured to decouple the electric machine from wheels of the vehicle. The vehicle is also provided with a controller programmed to, during a regenerative braking event, receive a signal defining a regenerative torque limit, and in response to a fault condition associated with the regenerative torque limit, generate a replacement regenerative torque limit based upon a torque converter open speed to decrease roughness during transitions into and out of regenerative braking. | 07-23-2015 |
20150246669 | METHODS AND SYSTEMS FOR HYBRID DRIVELINE CONTROL - Systems and methods for operating and hybrid driveline are presented. In one example, driver demand torque may be supplied to vehicle wheels via a hydraulic torque path and a friction torque path. Torque is distributed between the friction torque path and the hydraulic torque path in a way that ensures that driver demand torque is met and the friction torque path transfers torque up to its capacity. | 09-03-2015 |
20150251657 | SYSTEM AND METHOD FOR MANAGING HYBRID VEHICLE REGENERATIVE BRAKING - A vehicle includes a powertrain having an electric machine configured to selectively apply regenerative braking torque to decelerate the vehicle. The vehicle also includes a controller programmed to control a rate of change of a regenerative braking torque limit during a transmission downshift that occurs during a regenerative braking event based on a change in speed of an output shaft of the powertrain caused by the transmission downshift. | 09-10-2015 |
20150291144 | PRESTROKING ENGINE DISCONNECT CLUTCH IN A HYBRID VEHICLE - A hybrid vehicle includes an engine and an electric machine selectively coupled to one another via a clutch. In one mode of operation, the vehicle can be propelled by only the electric machine while the engine is off. When additional torque is required from the engine, at least one controller transmits an engine start request. In order to start the engine, the clutch can be prestroked such that it fills with pressure prior to the engine to start the engine. While the vehicle is on, at least one controller is programmed to prestroke the clutch prior to the engine start request based at least upon the electric machine and the engine generating substantially zero torque. This increases the overall engine start time. | 10-15-2015 |
20150360691 | REGENERATIVE-BRAKING TRANSMISSION DOWNSHIFT TORQUE LIMITING - A hybrid vehicle powertrain is configured to provide a regenerative-braking torque limit on a transmission during a regenerative-braking downshift. The regenerative-braking downshift event has sequential boost, start, torque, inertia, and end phases. The transmission may be operated in absence of a regenerative-braking torque limit during the boost and start phases to recapture more energy. The transmission may be operated with a regenerative-braking torque limit during the torque and inertia phases to protect for an input shaft speed dip that may occur without the limit. The limit may be removed once the regenerative-braking downshift event is completed. | 12-17-2015 |
20150370264 | VEHICLE SYSTEM AND METHOD FOR PROVIDING ANTICIPATORY LINE PRESSURE FOR TRANSMISSION ENGAGEMENTS - A method according to an exemplary aspect of the present discourse includes, among other things, controlling a vehicle by pressurizing a transmission pump in response to an anticipated shift change trigger. The anticipated shift change trigger may include touching a shift device of the vehicle, or detecting that a vehicle occupant is in proximity to the shift device of the vehicle. | 12-24-2015 |
20160031431 | METHODS AND SYSTEM FOR TRANSITIONING BETWEEN CONTROL MODES WHILE CREEPING - Systems and methods for transitioning a torque source between speed control and torque control modes during a vehicle creep mode are disclosed. In one example, torque of an electric machine is adjusted in response to a torque converter model. The torque converter model provides for a locked or unlocked torque converter clutch. | 02-04-2016 |
20160032990 | METHODS AND SYSTEM FOR APPLYING A DRIVELINE DISCONNECT CLUTCH - Systems and methods for improving operation of a driveline disconnect clutch for a hybrid vehicle shifting are presented. In one example, pressure of a working fluid supplied to the driveline disconnect clutch is adjusted in response to a rate of change in accelerator pedal position. Further, pressure of the working fluid may be decreased responsive to selected operating conditions. | 02-04-2016 |
20160052517 | METHODS AND SYSTEM FOR IMPROVING LAUNCHING OF A HYBRID VEHICLE - Systems and methods for improving launching of a stopped hybrid vehicle are presented. The systems and methods adjust speed of a motor to reduce lag between an increase in driver demand torque and torque being produced at vehicle wheels. In one example, motor torque is adjusted to a maximum motor torque to improve vehicle launch during select conditions where driver demand torque is not a maximum level. | 02-25-2016 |
Patent application number | Description | Published |
20100204879 | TRANSMISSION CONTROL MODULE - An exemplary transmission system includes a plurality of sensors each configured to output a signal at least partially representative of a speed of at least one of a first transmission input shaft, a second transmission input shaft, a transmission output shaft, and an engine. A transmission control module is in communication with the plurality of sensors and is configured to identify at least one of the plurality of sensors as a failed sensor and another of the plurality of sensors as a working sensor. The transmission control module is further configured to estimate the signal of the failed sensor based on a predetermined relationship between an expected signal from the failed sensor and the signal received from the working sensor. | 08-12-2010 |
20110048823 | HYBRID ELECTRIC VEHICLE BATTERY THERMAL MANAGEMENT - A method of operating a vehicle powertrain system where the powertrain system includes a fuel controlled engine, an electric motor, and a battery, the fuel, controlled engine and the electric motor capable of powering the powertrain system. The powertrain system is capable of operating in a plurality of operational modes. The method includes detecting a current value representative of a current flowing through a portion of the battery, calculating a first value representative of the current over a predetermined amount of time, and de-rating at least one of the plurality of operational modes in response to the calculated first value. | 03-03-2011 |
20140114524 | HYBRID ELECTRIC VEHICLE BATTERY THERMAL MANAGEMENT - A method of operating a vehicle powertrain system where the powertrain system includes a fuel controlled engine, an electric motor, and a battery, the fuel, controlled engine and the electric motor capable of powering the powertrain system. The powertrain system is capable of operating in a plurality of operational modes. The method includes detecting a current value representative of a current flowing through a portion of the battery, calculating a first value representative of the current over a predetermined amount of time, and de-rating at least one of the plurality of operational modes in response to the calculated first value. | 04-24-2014 |
20150057898 | METHOD TO INITIATE, MANAGE, AND ADAPT VEHICLE MOTION AT LOW SPEEDS IN A WET CLUTCH DUAL CLUTCH TRANSMISSION - A transmission control device for a vehicle that includes a controller configured to calculate a first transmission torque based on a first set of inputs, calculate a second transmission torque based on a second set of inputs, determine whether a brake pedal is applied, and apply either the first transmission torque or the second transmission torque based on whether the brake is applied. | 02-26-2015 |
20150226321 | FULL CLUTCH SLIP POWER SHIFT OF A DUAL CLUTCH TRANSMISSION - A system for operating a dual clutch transmission, including launch/creep controller, shift logic, and a clutch control assembly. The shift logic is configured to intercept a torque command including a target clutch torque from the launch/creep controller as it transmits the target clutch torque to the clutch assembly. The shift logic engages a preparation phase that increases torque on an on-coming clutch to a prefill torque. The shift logic then engages a torque phase that transfers torque between the off-going clutch and the on-coming clutch by simultaneously decreasing the off-going clutch torque and increasing the on-coming clutch torque. The off-going clutch and the on-coming clutch remain in a slipping state that maintains the target clutch torque during the transfer. | 08-13-2015 |