A method for influencing the efficiency of an electrical grid includes coordinating operation of a first electrified vehicle and a second electrified vehicle traveling along an inductive roadway and having opposite power needs in a manner that influences an amount of energy supplied by the electrical grid during an inductive roadway event.

A method for influencing the efficiency of an electrical grid includes coordinating operation of a first electrified vehicle and a second electrified vehicle traveling along an inductive roadway and having opposite power needs in a manner that influences an amount of energy supplied by the electrical grid during an inductive roadway event.

A method for influencing the efficiency of an electrical grid includes coordinating operation of a first electrified vehicle and a second electrified vehicle traveling along an inductive roadway and having opposite power needs in a manner that influences an amount of energy supplied by the electrical grid during an inductive roadway event.

A hybrid energy system is provided in a vehicle including an autonomous power supply and being connectable to an external power supply infrastructure along the route of the vehicle, and which vehicle is arranged to operate in an autonomous power supply mode and/or in an external power supply mode. The system includes a first high voltage circuit including a first traction motor connected to an energy storage system by a first power converter for propelling the vehicle; a second high voltage circuit including a second traction motor connectable to an external power supply by a second power converter for propelling the vehicle; and where the first high voltage circuit and the second high voltage circuit are connectable by a third power converter between the first and the second power converters. A method for operating the hybrid energy system is also provided.

Provided is an electric vehicle capable of reciprocally supplying electricity with another vehicle which includes: a power connector; a communication connector; a DC/DC converter used for charging or discharging an internal battery pack; a charging relay for preventing an inrush current during charging; and a display. While moving at the same speed as the other vehicle, the electric vehicle is capable of performing charging or discharging when a connection is maintained between a power connector of the other vehicle and the power connector of the electric vehicle.

A motor vehicle includes at least one electric motor for driving the motor vehicle, at least one electrical energy storage device via which the electric motor can be supplied with electrical current, and a charging device having at least one coil via which electrical energy can be inductively transmitted for charging the electrical energy storage device. An internal combustion engine of the motor vehicle includes a reservoir in which lubricant for lubricating the internal combustion engine can be received and on which the coil, and optionally at least one electronics component associated with the coil, is arranged.

A minivan-type plug-in hybrid electric vehicle includes a fuel tank, a battery, an exhaust pipe, and a high-voltage component that receives a high voltage. The plug-in hybrid electric vehicle further includes a first-row seat and a second-row seat, which are disposed on a floor panel forming a floor surface of a passenger compartment. In the vehicle front-rear direction, the first-row seat is positioned rearward of the front wheels, and the second-row seat is positioned rearward of the first-row seat and forward of the rear wheels. The second-row seat is slidable on the floor panel in the vehicle front-rear direction. The battery, the fuel tank, and the exhaust pipe are disposed below the floor panel. The high-voltage component is disposed under the first-row seat and above the floor panel.