Abstract: A method for operating a vehicle that includes a driveline disconnect clutch is described. In one example, the method adjusts torque of an electric machine in response to a estimated torque capacity of the driveline disconnect clutch. The estimated torque capacity of the driveline disconnect clutch is based on a combined inertia of a dual mass flywheel and the driveline disconnect clutch.

Abstract: A method for operating a vehicle that includes a driveline disconnect clutch is described. In one example, the method adjusts torque of an electric machine in response to a estimated torque capacity of the driveline disconnect clutch. The estimated torque capacity of the driveline disconnect clutch is based on a combined inertia of a dual mass flywheel and the driveline disconnect clutch.

Abstract: A method according to an exemplary aspect of the present disclosure includes, among other things, automatically preconditioning a passenger cabin of an electrified vehicle during a DC fast charging event of a battery assembly if the electrified vehicle is turned OFF.

Abstract: An exemplary method includes conditioning an electrified vehicle to maintain a target conditioning level using power from a grid source. The conditioning either lasts from a conclusion of a first drive cycle to the beginning of a second drive cycle that is subsequent the first drive cycle, or lasts from a conclusion of a first drive cycle for set time.

Abstract: A method according to an exemplary aspect of the present disclosure includes, among other things, conditioning a battery assembly of an electrified vehicle to a desired thermal level in a manner that extends useful life of the battery assembly, the conditioning step including heating or cooling the battery assembly with a thermal management system operable during both vehicle ON conditions and vehicle OFF conditions.

Abstract: A method according to an exemplary aspect of the present disclosure includes, among other things, conditioning a battery assembly of an electrified vehicle to a desired thermal level in a manner that extends useful life of the battery assembly, the conditioning step including heating or cooling the battery assembly with a thermal management system operable during both vehicle ON conditions and vehicle OFF conditions.

Abstract: A method according to an exemplary aspect of the present disclosure includes, among other things, automatically preconditioning a passenger cabin of an electrified vehicle during a DC fast charging event of a battery assembly if the electrified vehicle is turned OFF.

Abstract: A system and method for controlling a powertrain in a vehicle includes the step of reducing or otherwise modifying a response of the powertrain to accelerator pedal input from a standard powertrain response under certain circumstances, for example, when a position of the accelerator pedal is within a predetermined range and operation of the vehicle meets at least one criteria, including at least one criteria indicative of steady state powertrain operation.

Abstract: A vehicle is provided with at least one wheel and a motor that is coupled to the wheel. The motor is configured to provide regenerative brake torque. The vehicle also includes at least one controller that is configured to predict future powertrain oscillation based on input indicative of a wheel speed and a total brake torque. The controller is also configured to control the motor to reduce the regenerative brake torque prior to the powertrain oscillation.

Abstract: A vehicle is provided with at least one wheel and a motor that is coupled to the wheel. The motor is configured to provide regenerative brake torque. The vehicle also includes at least one controller that is configured to predict future powertrain oscillation based on input indicative of a wheel speed and a total brake torque. The controller is also configured to control the motor to reduce the regenerative brake torque prior to the powertrain oscillation.

Abstract: An internal combustion engine has an engine shut-down system that automatically interrupts engine operation when vehicle operation indicates that no torque is required from the engine. An air conditioner compressor operates to cool a passenger compartment of the vehicle and is actuated in a first phase time, and is not actuated in a second phase time. An override system compares the time the compressor is in the enabled first phase time to the time the compressor is in the disabled second phase time. The override system disables the engine shut-down system unless it is determined that a ratio of the disabled second phase time to the enabled first phase time has a low rate of change, that the ratio is greater than a predetermined value, and that the time the compressor is in the disabled second phase is greater than a predetermined value.

Abstract: An active motor damping system and method for dampening oscillations of a driveline in a vehicle includes generating a commanded torque indicative of an actual torque which would counteract the oscillations if delivered by a motor to the driveline. The commanded torque is adjusted as a function of a phase lag between the commanded torque and an actual torque which the motor would deliver in response to the commanded torque such that in response to the adjusted commanded torque the motor delivers the actual torque which counteracts the oscillations.

Abstract: An information display system includes an information display that communicates relevant information relating to the operation of a vehicle. The information display conveys a score representing lifetime or long-term driving or operating efficiency of the vehicle. The score can be conveyed numerically or graphically using a number of indicators, or both. Each indicator may correspond to a different achievement level attained for efficient driving or vehicle use behavior.

Abstract: An information display system includes an information display that communicates relevant information relating to the operation of a vehicle. The information display conveys a score representing lifetime or long-term driving or operating efficiency of the vehicle. The score can be conveyed numerically or graphically using a number of indicators. Each indicator may correspond to a different achievement level attained for efficient driving or vehicle use behavior.

Abstract: A hybrid electric vehicle (HEV) manages engine operation in the event of an engine cooling system malfunction by operating the engine with fewer than the total number of engine cylinders, while extracting power, particularly during transient operation, from not only the engine, but also the vehicle's traction motor and battery.

Abstract: An active motor damping system and method for dampening oscillations of a driveline in a vehicle includes generating a commanded torque indicative of an actual torque which would counteract the oscillations if delivered by a motor to the driveline. The commanded torque is adjusted as a function of a phase lag between the commanded torque and an actual torque which the motor would deliver in response to the commanded torque such that in response to the adjusted commanded torque the motor delivers the actual torque which counteracts the oscillations.

Abstract: An internal combustion engine has an engine shut-down system that automatically interrupts engine operation when vehicle operation indicates that no torque is required from the engine. An air conditioner compressor operates to cool a passenger compartment of the vehicle and is actuated in a first phase time, and is not actuated in a second phase time. An override system compares the time the compressor is in the enabled first phase time to the time the compressor is in the disabled second phase time. The override system disables the engine shut-down system unless it is determined that a ratio of the disabled second phase time to the enabled first phase time has a low rate of change, that the ratio is greater than a predetermined value, and that the time the compressor is in the disabled second phase is greater than a predetermined value.

Abstract: An information display system includes an information display that communicates relevant information relating to the operation of a vehicle. The information display conveys a score representing lifetime or long-term driving or operating efficiency of the vehicle. The score can be conveyed numerically or graphically using a number of indicators, or both. Each indicator may correspond to a different achievement level attained for efficient driving or vehicle use behavior.

Abstract: A hybrid electric vehicle powertrain includes an electrical power source with an electric motor, a generator and a battery. A mechanical power source is an engine with a direct-start fuel injection feature. The direct-start feature provides engine starting torque at high vehicle speeds during a transition from a fully electric drive mode to a drive mode using both power sources.

Abstract: A strategy controls alternate anti-vibration modes in a switchable powertrain mount using vehicle operational status sensors and pre-selected thresholds. The switchable mount modes can include engine off-idle and an idle mode. Vehicle sensors and pre-selected thresholds can determine whether the engine is off-idle, or running in idle mode, whether the engine will likely remain in idle mode. From these determinations, the controller can command the switchable mount to engine idle mode when the controller determines the engine is in idle mode and will likely remain in idle mode. The switching means for the switchable mount can use a three-way vacuum solenoid valve (VSV), or a mechanical or electrical switch. In the case of the VSV configuration, the VSV is communicatively attached to the controller, a vacuum line connects the VSV to the switchable mount, and a second vacuum line connects the VSV to an engine intake manifold.