Abstract: Driver braking performance feedback may be conveyed to a vehicle operator as a braking efficiency score using a vehicle display system. The display system may include a vehicle display for displaying a braking efficiency indicator or gauge corresponding to the braking efficiency score. The braking efficiency score may be based on a comparison of the total regenerative braking energy recaptured during at least one braking event to a either a maximum amount of braking energy that may be recaptured during the at least one braking event or an actual total braking energy expended during the at least one braking event. The braking efficiency score may be displayed upon the completion of a braking event or upon a completion of a trip including a plurality of braking events. The display may also convey a distance corresponding to a portion of a trip distance achieved through regenerative braking.

Abstract: Driver braking performance feedback may be conveyed to a vehicle operator as a braking efficiency score using a vehicle display system. The display system may include a vehicle display for displaying a braking efficiency indicator or gauge corresponding to the braking efficiency score. The braking efficiency score may be based on a comparison of the total regenerative braking energy recaptured during at least one braking event to a either a maximum amount of braking energy that may be recaptured during the at least one braking event or an actual total braking energy expended during the at least one braking event. The braking efficiency score may be displayed upon the completion of a braking event or upon a completion of a trip including a plurality of braking events. The display may also convey a distance corresponding to a portion of a trip distance achieved through regenerative braking.

Abstract: A system and method for controlling engine starting in a hybrid electric vehicle that includes a battery, an engine and a generator acting as a motor control generator power during engine starting so that generator torque complements or assists the engine to develop a stable running speed throughout an engine start event, particularly a cold engine start event, without violating battery power limits.

Abstract: A system and method for controlling engine starting in a hybrid electric vehicle that includes a battery, an engine and a generator acting as a motor control generator power during engine starting so that generator torque complements or assists the engine to develop a stable running speed throughout an engine start event, particularly a cold engine start event, without violating battery power limits.

Abstract: A vehicle includes a cabin, a high voltage traction battery, an electric motor powered by the traction battery, and a charger connected to the traction battery. The charger converts alternating current (AC) to high voltage direct current (DC) to charge the traction battery when the charger is plugged into an alternating current (AC) power supply. A forced air system includes an air inlet duct, a first air outlet duct directing exhaust air to the outside of the cabin, a second air outlet duct directing exhaust air to the inside of the cabin, a fan, and a valve for controlling air flow through the first and second air outlet ducts. The forced air system is arranged such that forced air flows through the air inlet duct, removes heat from the charger, and flows through at least one of the first and second air outlet ducts to assist with vehicle preconditioning.

Abstract: A total power demand including a wheel power demand may be observed. The wheel power demand may be modified to determine a modified total power demand including a modified wheel power demand if the total power demand falls within a target range of power values defined by upper and lower threshold power values such that the modified total power demand is generally equal to the lower threshold power value.

Abstract: The method of the invention controls engine speed during engine starting for a hybrid electric vehicle that includes a battery, an engine and a generator, acting as a motor, whereby generator torque assists the engine to develop a stable running speed throughout an engine start event, particularly a cold engine start event, without violating battery power limits.

Abstract: One or more embodiments may include a method for selectively charging a vehicle. The method may include receiving at one or more computers one or more periods for charging a vehicle. The vehicle charging periods may be stored in memory. Further, pricing rates for charging the vehicle during the one or more vehicle charging periods may be received at the computer(s). Based on the one or more pricing rates and the vehicle charging periods, one or more low cost charging periods may be determined. The one or more low cost charging periods may be automatically adjusted if the one or more pricing rates change. The vehicle may be charged during at least part of the one or more low cost charging periods.

Abstract: An electric vehicle includes a traction battery, an auxiliary battery, and a controller. The controller is configured to prevent the traction battery from charging the auxiliary battery while the auxiliary battery has more than a minimum energy. The controller is further configured to, upon the auxiliary battery having the minimum energy, enable the traction battery to charge the auxiliary battery such that the auxiliary battery is maintained at the minimum energy.

Abstract: An automotive vehicle may include a container, a battery disposed within the container and configured to provide motive power for the vehicle, and a battery climate system configured to move air from the cabin to the container. The vehicle may also include at least one controller configured to, while the vehicle is in a non-propulsion mode, receive a request to activate the battery climate system and, in response to the request, activate the battery climate system.

Abstract: The method of the invention controls engine speed during engine starting for a hybrid electric vehicle that includes a battery, an engine and a generator, acting as a motor, whereby generator torque assists the engine to develop a stable running speed throughout an engine start event, particularly a cold engine start event, without violating battery power limits.