| Patent application number | Description | Published |
|---|
| 20100305790 | Wheel Torque Disturbance Suppression - A method for controlling restart of an engine in a hybrid electric powertrain, includes engaging a gear of a transmission, releasing a brake pedal, maintaining fluid pressure at an adaptively determined magnitude in a wheel brake, initiating a restart the engine, and reducing fluid pressure in the wheel brake when the engine restarts. | 12-02-2010 |
| 20110065548 | Brake Assisted Vehicle Engine Restart on a Road Grade - A method for restarting an engine of a vehicle stopped on a grade, comprising the steps of engaging a gear of a transmission through which the engine and wheels of the vehicle are driveably connected mutually, using brake pressure to engage wheel brakes and produce a road gradient wheel torque that holds the vehicle stationary on the grade, initiating an engine restart, operating the engine to produce wheel torque equal to or greater than the road gradient wheel torque, and releasing the brake pressure. | 03-17-2011 |
| 20110071001 | Brake Assisted Control of an Engine Restart Event - A method for restarting an engine of a vehicle includes engaging a gear of a transmission that driveably connects the engine and wheels of the vehicle; maintaining a current brake pressure greater than a reference brake pressure; initiating an automatic engine restart; using a timer to count down during a period of predetermined length; using a pump to produce a desired magnitude of brake pressure sufficient to suppress a wheel torque surge produced by restarting the engine and to hold the vehicle stationary; and releasing the brake pressure if either the timer expires or a peak in engine speed occurs. | 03-24-2011 |
| 20110136625 | Hybrid Electric Vehicle Hold Function - A vehicle powertrain with engine start-stop characteristics is capable of maintaining a vehicle stationary on a roadway with a gradient when wheel brakes are applied to stop the vehicle as the engine is shut down. Vehicle creep and vehicle launch is achieved as the engine is re-started following detection of a brake release signal based on engine speed. | 06-09-2011 |
| 20110166731 | Energy Management Control of a Plug-In Hybrid Electric Vehicle - A drive-home button is provided in the dashboard of a plug-in hybrid electric vehicle (PHEV). The driver presses this button when heading home or to other predetermined destination at which charging is routinely performed. The actual route, the driving style, and other relevant vehicle/road information during the trip home are stored to build up a statistical database. During a present trip home, a highly probably route is predicted based on prior trips and an energy management profile is calculated. The commands to the internal combustion engine and the electric motor are selected to cause the vehicle's battery to be substantially discharged upon arriving at home based on actual data of energy usage by the operator of the vehicle during prior trips. By using actual data, the prediction of energy usage is more accurate allowing more complete discharge of the battery. | 07-07-2011 |
| 20110166732 | DISTANCE BASED BATTERY CHARGE DEPLETION CONTROL FOR PHEV ENERGY MANAGEMENT - In a plug-in hybrid electric vehicle (PHEV), the vehicle may be operated in a charge-(CD) mode to ensure that the battery is effectively discharged or in a charge-sustaining (CS) mode in which the battery state of charge is maintained by operating the internal combustion engine predominantly for propulsion. In trips that are longer than that which fully depletes the battery storage, it is possible to control the proportion in a manner that is between CS and CD modes to provide overall higher efficiency while still effectively discharging the battery over the course of the trip. Such higher efficiency operation is possible when information about the distance until the next charging event is available. | 07-07-2011 |
| 20110166733 | PLUG-IN HYBRID ELECTRIC VEHICLE BATTERY STATE OF CHARGE HOLD FUNCTION AND ENERGY MANAGEMENT - A plugin hybrid electric vehicle includes an internal combustion engine, a battery, an electric machine, and a controller. The vehicle is operable in a primary electric vehicle driving mode (EV mode) and in a hybrid electric vehicle driving mode (HEV mode). The controller is programmed to receive input from the driver representing a desired operating mode and a desired energy reservation. If the desired operating mode is HEV mode, then a state of charge (SOC) offset is established as the smaller of a maximum SOC offset and an allowable SOC offset, otherwise, the SOC offset is established based on the desired energy reservation. The vehicle is operated based on the SOC offset. | 07-07-2011 |
| 20110172863 | Dynamic Traction Control - A vehicle in which propulsion can be distributed between first and second axles includes: a first electric motor coupled to the first axle and a second electric motor coupled to the second axle. An electric control unit (ECU) coupled to the motors causes electrical energy to be generated by the first motor in response to the ECU determining that a wheel speed of at least one wheel associated with the first axle exceeds the vehicle speed and causing electrical energy to be supplied to the second motor in response to electrical energy being generated in the first motor. | 07-14-2011 |
| 20110172867 | Engine Power Elevation and Active Battery Charge Energy Management Strategies for Plug-In Hybrid Electric Vehicles - A method for a plug-in hybrid electric vehicle (PHEV) having an engine and a battery configured to respectively deliver engine power and battery power to provide a total output power for powering the vehicle includes the following. An elevated engine power which falls within a total output power range where only engine power without battery power may be delivered to power the vehicle in response to a driver demand power and which is greater than the combination of the driver demand power and vehicle powering losses is determined. The engine delivers the elevated engine power in response to the driver demand power. The extra engine power is transferred to the battery for the battery to buffer. | 07-14-2011 |
