Abstract: An automatic charging device and method is described that is positionable to access an underside of an electrical vehicle that facilitates hands-free connection of a vehicle-side electrical connector with a floor unit electrical connector. The automatic charging device includes a floor unit, a first slidable carriage disposed in the floor unit, a second slidable carriage disposed in the floor unit, a pivotal link coupled to the floor unit electrical connector, and a lift mechanism connected to the second slidable carriage and the pivotal link. The floor unit electrical connector is arranged to rise away from the floor unit in a direction of the vehicle-side electrical connector to facilitate a mating of the vehicle-side electrical connector and the floor unit electrical connector. The first and the second slidable carriages are configured to move in a linear xy-direction, respectively, and the lift mechanism is configured to move in a linear z-direction.

Abstract: Devices, methods and software for automated electrical connector positioning for electric vehicle (EV) charging are provided. Using, for example, the disclosed automatic charging device, a method for charging an EV includes determining receipt of an EV-side electrical connector to a charging zone of an EV charging environment. The method includes actuating a charger-side electrical connector from an initial position outside of the charging zone to a final position inside of the charging zone. The final position corresponds to the charger-side electrical connector matingly engaged with the EV-side electrical connector.

Abstract: A protective arrangement for an electric vehicle charging system includes a floor unit forming a recess and a linkage disposed in the recess. The linkage is extendable from the recess from a stowed position to an extended position. A cleaning device is disposed to discourage accumulation of debris into the recess and on the linkage when the linkage is in the stowed position.

Abstract: Systems and method for underside charging of electric vehicles (EVs) are provided. With the EV positioned in a charging environment having a ground surface, a floor unit device actuates an electrical connector toward a charge receptacle of an EV vehicle unit, and the vehicle unit actuates the charge receptacle toward the electrical connector. The actuation facilitates coupling between the connector and the charge receptacle. A flow of electrical current is initiated through the coupled connector and charge receptacle to charge the EV power storage device. Upon completion of the EV charging process, the electrical connector and the charge receptacle are actuated away from one another to facilitate decoupling therebetween.

Abstract: A method and apparatus for determining a location and/or orientation of at least a portion of an electric vehicle relative to at least a portion of a charging station. A camera system can include a camera housing having outer, intermediate, and inner layers that are concentric to each other. The outer, protective layer and the intermediate layer can each have wiper assemblies that wipe debris from a surface of the intermediate layer or inner layer, respectively, as the associated outer or intermediate layer is rotated. The intermediate layer also include one or more lenses that are selectively to capture an image(s) of the vehicle by a camera. The camera housing can be lifted from a recessed position in an assembly housing while the outer layer is simultaneously rotatably retracted so that the camera can capture an image through the inner layer and a selected lens of the intermediate layer.

Abstract: A connector arrangement for charging an electric vehicle includes a first connector disposed adjacent a slide surface and having a pin extending from the first connector. A second connector has a second connector body and is moveable along the slide surface by a linkage mechanism. A socket extends through the second connector body between two opposed openings, and at least one sensor is associated with the second connector body. The at least one sensor provides information indicative of a location of the second connector body on the slide surface to the linkage mechanism.

Abstract: A deployment system for an inspection vehicle operable in a housing having a liquid medium is disclosed in the present application. The deployment system includes a mount connectable to the housing through an aperture formed in a wall thereof. An extendable arm is connected to the mount and positioned within the housing. A tether is slidably coupled to the extendable arm and adapted to connect with the inspection vehicle. A control mechanism is operable to control deployment of the tether and the position of the extendable arm.

Abstract: Devices, systems, and methods for charging an electric vehicle are disclosed. The system includes a floor unit and a vehicle unit, each having an electrical connector. The method includes positioning the floor unit electrical connector with reference to the mating vehicle unit electrical connector. The method includes inserting the floor unit electrical connector into the mating vehicle unit electrical connector. The method includes initiating an electric vehicle charging process by selectively enabling a flow of electric current from an electric power supply through the matingly coupled vehicle unit and floor unit electrical connectors.

Abstract: A submersible inspection device used for inspection of, for example, liquid cooled electrical transformers can include a number of separate cameras for imaging the internal structure of the transformer. The submersible can be configured to communicate to a base station using a number of wireless transmitters and receivers. Signals transmitted to the submersible include command signals useful to effect an action on the submersible but also a heartbeat signal to indicate health of the transmitted signal. A redundant channel selection logic is provided to switch from a channel which no longer receives a heartbeat to another channel that includes a current heartbeat. Multiple signals can be received and evaluated in software, and another signal received via a firmware radio.

Abstract: A tether control system for an inspection vehicle operable in a housing having a liquid medium is disclosed in the present application. The tether system includes a tether connected between the inspection vehicle and an electronic controller. A controllable buoyancy system associated with the tether is operable for moving the tether in a desired location. The controllable buoyancy system includes one or more floating bodies having a propulsion system and one or more buoyant elements having variable buoyancy capabilities.

Abstract: A conductor arrangement includes a first connector having a first connector body made from an electrically insulated material and including a first electrical conductor. A pin extends from the first connector body and includes a core made from an electrically conductive material. The core is electrically connected with the first electrical conductor. A second connector has a second connector body made from an electrically insulated material and includes a second electrical conductor. A socket extends through the second connector body between two opposed openings. A sleeve made from an electrically conductive material is disposed along the socket and is electrically connected with the second electrical conductor. An electrical connection between the first and second electrical conductors is established when the pin is fully disposed within the socket such that the core is electrically connected with the sleeve.

Abstract: Devices, systems, and methods for charging an electric vehicle are disclosed. The system includes a floor unit and a vehicle unit, each having an electrical connector. The method includes positioning the floor unit electrical connector with reference to the mating vehicle unit electrical connector. The method includes inserting the floor unit electrical connector into the mating vehicle unit electrical connector. The method includes initiating an electric vehicle charging process by selectively enabling a flow of electric current from an electric power supply through the matingly coupled vehicle unit and floor unit electrical connectors.

Abstract: A conductor arrangement includes a first connector having a first connector body made from an electrically insulated material and including a first electrical conductor. A pin extends from the first connector body and includes a core made from an electrically conductive material. The core is electrically connected with the first electrical conductor. A second connector has a second connector body made from an electrically insulated material and includes a second electrical conductor. A socket extends through the second connector body between two opposed openings. A sleeve made from an electrically conductive material is disposed along the socket and is electrically connected with the second electrical conductor. An electrical connection between the first and second electrical conductors is established when the pin is fully disposed within the socket such that the core is electrically connected with the sleeve.

Abstract: A protective arrangement for an electric vehicle charging system includes a floor unit forming a recess and a linkage disposed in the recess. The linkage is extendable from the recess from a stowed position to an extended position. A cleaning device is disposed to discourage accumulation of debris into the recess and on the linkage when the linkage is in the stowed position.

Abstract: A connector arrangement for charging an electric vehicle includes a first connector disposed adjacent a slide surface and having a pin extending from the first connector. A second connector has a second connector body and is moveable along the slide surface by a linkage mechanism. A socket extends through the second connector body between two opposed openings, and at least one sensor is associated with the second connector body. The at least one sensor provides information indicative of a location of the second connector body on the slide surface to the linkage mechanism.

Abstract: A vehicle-side receptacle unit is described that is positionable on an underside of an electrical vehicle (EV) and a method for operating such unit. The vehicle-side receptacle facilitates hands-free connection of a vehicle-side electrical connector with a floor unit electrical connector of a floor-positioned recharging unit. The vehicle-side receptacle unit includes a unit frame including a ground-facing surface, a sliding cover including a leading edge, and a gap containing an interface of the vehicle-side electrical connector. The sliding cover is arranged to linearly slide on a plane parallel with the ground-facing surface to guide, using the leading edge, a shuttle carrying the floor unit electrical connector toward the gap to facilitate a mating of corresponding electrical contacts of the vehicle-side electrical connector and the floor unit electrical connector.

Abstract: A method and system for acquiring, manipulating and displaying inspection data obtained by sensors associated with submersible inspection vehicle within a housing having a liquid medium is disclosed in the present application. A control system including an electronic controller is operably coupled with the inspection vehicle and is configured to display data transmitted from the sensor and overlay input data from an operator on the display to facilitate real time analysis during the inspection event.

Abstract: An inspection vehicle operable for performing one or more maintenance and repair operations in a housing filled at least partially with a liquid medium is disclosed in the present application. The inspection vehicle includes a propulsion device operable in the liquid medium and includes at least one sensor operable for sensing and transmitting data associated therewith. A control system including an electronic controller is in electronic communication with the inspection vehicle to transmit and receive communication signals to/from the inspection vehicle. One or more maintenance tools operable with the inspection vehicle are configured to perform maintenance and/or repair operations within the liquid filled housing.

Abstract: A deployment system for an inspection vehicle operable in a housing having a liquid medium is disclosed in the present application. The deployment system includes a mount connectable to the housing through an aperture formed in a wall thereof. An extendable arm is connected to the mount and positioned within the housing. A tether is slidably coupled to the extendable arm and adapted to connect with the inspection vehicle. A control mechanism is operable to control deployment of the tether and the position of the extendable arm.

Abstract: A submersible inspection system for inspection of liquid cooled electrical transformers having a wirelessly controlled submersible inspective device. A submersion depth of the submersible can be controlled using a ballast system. The system can also include an input/output selector to switch between camera images from the submersible. A heartbeat signal indicative of a health of the transmitted signal can be transmitted to the submersible, and redundant channel selection logic can facilitate switching to a channel that includes a current heartbeat. A plurality of status interrogation systems disposed on the submersible can capture data regarding inspection procedures performed on the transformer, and the submersible can include tools for repair procedures. Data transmitted from the submersible, and overlayed with input data from an operator, can facilitate real time inspection analysis. The system can also form a model of an internal in the transformer, as well as produce a three-dimensional field of view.