A hybrid power train structure for off-road vehicles (ATVs, UTVs and SSVs) uses an internal combustion engine (“ICE”) rotating a crankshaft through a continuously variable transmission (“CVT”) as a primary source of locomotion torque, but also includes a driving/generator motor which, in certain established conditions, can either provide an additional or alternative source of locomotion torque or can harvest electricity from the torque created by the internal combustion engine. The driving/generator motor is an axial flux motor of small size for its relative torque output, which can either be directly coupled to the CVT output shaft or, when additionally used as a starter motor for the ICE in an automatic ICE starting and stopping routine.

A mobile automobile service and charging Center 50 with a trailer opening to intake multiple vehicles simultaneously by using multiple walls extending to the exterior used to lift and transverse automobiles to the interior for service. Interior mechanisms are hydraulic, magnetic, and air pressure operated to further lift and modify the position of the vehicle in service. The interior includes multiple electric charging stations, an interactive maintenance display center, multiple automated sensing devices used to detect car type and diagnose malfunctions, internal/external part delivery portals, lounge, a restroom, conference room, and mechanic sanitation areas. In all configurations the mobile automobile service and charging Center is a powered double decker, solar power supplemented mobile trailer. When dispatched for diagnostic and maintenance the Center will externally to the trailer or internally lift automobiles to an appropriate height based on the best ergonomic position for the mechanic and transverse the vehicles in to the mobile Center based on sensor feedback and mechanic biometrics. The Center provides multiple options for service from below or above the automobile, with floors that lower and a roof that will open to allow for above automobile servicing. Telescopic and piston driven support chairs and platforms are internally deployed to allow mechanics an efficient ergonomic seating, standing, or lying position to provide service without discomfort. Contained within the mobile service center are sensors designed to diagnose, track automobile location and service history, track tools and to display technologies to facilitate high efficiency automobile service; such as alternator replacements, oil changes, battery charging, hose replacements, spark plug replacements and other diagnostic, service, and charging services. All data gathered by the interactive service Center is logged and analyzed by intelligent predicting software to provide customers with the best performance and service data for each Automobile that enters and exits the Center.

A method for producing a high-voltage energy storage device which is designed for storing electric energy, for a motor vehicle, in which storage modules are at least partially arranged in a receptacle space of a storage box of the high-voltage energy storage device, having the following steps: providing a base cooling structure of the storage box wherein the base cooling structure includes two cover elements spaced apart from one another and cooling ducts, which extend between the cover elements and through which a coolant fluid can flow.

A pair of end plates are disposed at both end surfaces of a battery stack in which the plurality of battery cells are stacked, end plates are coupled to a bind bar, the battery stack is sandwiched between the end plates to be held, an elastic sheet that is elastically deformable in a thickness direction is disposed in a compressed state between the bind bar and a facing side surface of the battery stack, and the elastic sheet in the compressed state elastically holds the battery stack and the bind bar in a pressurized state.

An energy-storage arrangement for, e.g., an electric or hybrid vehicle includes an energy-storage device including energy-storage cells arranged in a housing. The housing includes an inlet and an outlet for a temperature-control fluid, that may provide for direct temperature control of the energy-storage cells in the housing. The energy-storage arrangement further includes a temperature-control-fluid circuit, in which the housing, a pump for conveying the temperature-control fluid, and a heat-transfer device are arranged. A water-separator for separating or discharging water from the temperature-control fluid may be provided in the temperature-control-fluid circuit.

A motor vehicle having a vehicle body an electrical traction machine, and at least one electrical energy accumulator designed as a traction battery for temporarily storing electrical energy for operating the traction machine. The vehicle body and/or a battery housing of the traction battery is/are provided at least in some regions within intumescent fire protection coating.

A battery pack system and methods for operating the battery pack system are disclosed. In one example, the battery pack system may simultaneously output two different voltages from a stack of battery cells. One voltage may be applied to a first group of electric power consumers and the second voltage may be applied to a second group of electric power consumers.

Systems and methods for providing solar-generated power to a display unit mounted to a vehicle are provided. One or more mounting supports connect a housing for an electronic display to the vehicle. A solar energy harvesting device is secured to an upper portion of the vehicle and is electrically connected to the electronic display.

The present disclosure relates to a mobility system and an update management method thereof. An exemplary embodiment of the present disclosure provides a mobility system including: one or more controllers; one or more batteries; and an update management apparatus configured to determine an order of update target controllers and a battery to supply power to the update target controllers by using at least one of relative importance of the one or more controllers, a present state of the one or more batteries, or a vehicle driving state.

An energy storage system comprising at least one energy storage module adapted to supply electrical energy to a hybrid vehicle. The energy storage module comprises an enclosure, at least one battery array located within the enclosure, and an energy storage controller module located within the enclosure and electrically connected to the battery array. The energy storage module further comprises a compliant tipped thermistor which may be installed within a flexible clip. The thermistor is positioned to monitor the temperature of one or more of the batteries within the energy storage system.