Abstract: Methods and systems for electric vehicles, such as a battery electric vehicle (BEV) and a plug-in hybrid electric vehicle (PHEV), include pre-cooling a traction battery of the vehicle upon an indication that the vehicle is being driven to a charging station. The pre-cooling is done by an on-board battery cooling system. The pre-cooling depends on the distance between the vehicle and the charging station.

Abstract: A wheel guide for a vehicle charging station includes front and back sides, and a top extending between the front and back sides. The top defines an aperture sized to circumscribe a wireless transmitter of the charging station. The wheel guide further includes a pair of spaced apart wheel slots recessed into the top. Each wheel slot includes an entrance defined in the front side and a pair of longitudinal walls extending from the entrance toward the back side. At least a portion of each of the walls is configured such that a slope of the wall is shallowest at the entrance and becomes increasingly vertical in a direction towards the back side to guide a wheel of a vehicle towards a centerline of the slot.

Abstract: A battery system of a vehicle includes a battery, a battery tray configured to support the battery, and a battery pouch. The pouch has a plurality of side walls and a bottom defining a space sized to accommodate the battery. The side walls each include an absorbent layer containing a base, such as sodium bicarbonate, and an outer layer impervious to the electrolyte and the base. One of the side walls is a front side wall that includes a wedge that is configured to mate with a front of the battery and the tray. The wedge cooperates with a bottom lip of the battery to secure the battery to the tray.

Abstract: A charge plate receiver assembly for an electric vehicle includes an inductive charge plate receiver and a swing arm pivotally secured to a mounting surface. The charge plate receiver is pivotally secured to the swing arm such that the charge plate receiver travels along an arc defined by a length of the swing arm when the assembly moves between a retracted position and a deployed position. When retracted, the charge plate receiver may retract into a cavity, defined by under-body components. The charge plate receiver has a planar surface and the planar surface is generally perpendicular to a horizontal plane of the vehicle in the retracted position and parallel with the horizontal plane of the vehicle in the deployed position.

Abstract: Methods and systems for electric vehicles, such as a battery electric vehicle (BEV) and a plug-in hybrid electric vehicle (PHEV), include pre-cooling a traction battery of the vehicle upon an indication that the vehicle is being driven to a charging station. The pre-cooling is done by an on-board battery cooling system. The pre-cooling depends on the distance between the vehicle and the charging station.

Abstract: A vehicle charging system may include a drive system mounted to a chassis, a positionable electrical connector assembly, a position sensor, a proximity sensor, and a control module. The control module may be programmed to operate the drive system to place the chassis proximate a vehicle electrical connector and operate the positionable electrical connector assembly to releasably engage the vehicle electrical connector.

Abstract: A battery is assembled from cells arranged along an axis. The cells have end faces parallel to the line and first and second sides perpendicular to the faces. The first side of a first cell contacts the second side of a second cell. A sealed piping circuit includes a first heat exchanger in contact with, and spanning, the end faces and a second heat exchanger in fluid communication with the first heat exchanger for heat transfer between the heat exchangers.

Abstract: A vehicle includes a traction battery having a plurality of battery cells positioned in an array with a non-conductive bus bar housing having a plurality of compartments insulated from one another and containing one or more bus bars each having an integrally formed voltage sense connector. Each compartment may accommodate terminals of a pair of adjacent battery cells to be coupled by the associated bus bar. The voltage sense connector may include fingers for crimping and securing a voltage sense wire or a welding pad for welding, soldering, or similar connection. The voltage sense wires connect to a battery control module.

Abstract: A vehicle traction battery assembly includes a bus bar insulator having a recess configured to receive a bus bar and an opposite side covering the bus bar and defining a welding slot sized to permit a welding beam to weld the bus bar to two adjacent battery cells and to inhibit human contact with the bus bar through the welding slot. A method for assembling a vehicle traction battery having battery cells includes positioning bus bars within corresponding openings of a bus bar insulator that covers one side of each bus bar and has welding slots with a welding slot for each of the battery cells and welding the bus bars to the associated battery cells through the welding slots.

Abstract: A hybrid electric vehicle includes an internal combustion engine and an electrical power storage unit. The engine and power storage unit are configured to provide motive power for the vehicle. The vehicle also includes a heater core in fluid communication with the engine, power storage unit and vehicle's cabin.

Abstract: A vehicle ready light control method includes providing a vehicle having a vehicle ready light and illuminating the vehicle ready light when a powertrain of the vehicle is enabled and at least one of the following conditions exists: the vehicle is in park mode or neutral mode; an engine RPM speed of the vehicle is below a predetermined RPM value and a wheel speed of the vehicle is below a predetermined wheel speed. A vehicle ready light control system is also disclosed.

Abstract: A vehicle ready light control method includes providing a vehicle having a vehicle ready light and illuminating the vehicle ready light when a powertrain of the vehicle is enabled and at least one of the following conditions exists: the vehicle is in park mode or neutral mode; an engine RPM speed of the vehicle is below a predetermined RPM value and a wheel speed of the vehicle is below a predetermined wheel speed. A vehicle ready light control system is also disclosed.

Abstract: A hybrid electric vehicle includes an internal combustion engine and an electrical power storage unit. The engine and power storage unit are configured to provide motive power for the vehicle. The vehicle also includes a heater core in fluid communication with the engine, power storage unit and vehicle's cabin.

Abstract: An engine of a hybrid electric vehicle is started following a determination that the vehicle is not moving, the ignition system is in a run state, a door is open, and the engine is not running to alert a driver that the vehicle is in a drive state.

Abstract: An engine of a hybrid electric vehicle is started following a determination that the vehicle is not moving, the ignition system is in a run state, a door is open, and the engine is not running to alert a driver that the vehicle is in a drive state.

Abstract: An occupant of a vehicle is presented with discussion groups of interest to the occupant. The discussion groups are selected based on the degree to which interests of friends of the occupant coincide with the interests of the occupant. Once a discussion group is chosen, a telematics gateway connects the occupant to the discussion group.

Abstract: A non-contacting transmission range sensor system, which includes a control device, is disclosed. The system includes a shaft coupled to the control device. A non-contacting range sensor, coupled to the shaft, generates a pulse-width modulated signal in response to rotation of the shaft. A control module, electrically attached to the non-contacting range sensor, is subject to receive the pulse-width modulated signal.

Abstract: A non-contacting transmission range sensor system, which includes a control device, is disclosed. The system includes a shaft coupled to the control device. A non-contacting range sensor, coupled to the shaft, generates a pulse-width modulated signal in response to rotation of the shaft. A control module, electrically attached to the non-contacting range sensor, is subject to receive the pulse-width modulated signal.