TESLA MOTORS, INC. Patent applications |
Patent application number | Title | Published |
20160107619 | Battery Swapping System and Techniques - A battery pack lift system includes: a frame having nutrunners mounted thereon according to a battery pack fastener pattern for a vehicle; a lift configured to raise and lower the frame with regard to the vehicle; a first air bearing positioned between the frame and the lift, the first air bearing configured to allow relative movement between the frame and the lift; and a second air bearing positioned on the frame, the second air bearing configured to allow relative movement between a battery pack and the frame. | 04-21-2016 |
20160036256 | INTER-PROTOCOL CHARGING ADAPTER - An inter-protocol charging adapter for equipment to be charged via a bus includes: first connectors corresponding to a first charging protocol that requires the bus to be energized before the equipment closes onto the bus; second connectors corresponding to a second charging protocol that does not energize the bus before the equipment closes onto the bus; and a boost converter coupled to the bus and to at least one of the second connectors, wherein the boost converter uses energy from the second connector to energize the bus before the equipment closes onto the bus. | 02-04-2016 |
20150342092 | HEATSINK WITH INTERNAL CAVITY FOR LIQUID COOLING - A heatsink with an internal cavity for liquid cooling includes: a first part having a first group of fins extending into the internal cavity; a second part attached to the first part so that the internal cavity is formed, the second part having a second group of fins that extend into the internal cavity and that are configured to fit among the first group of fins; an inlet into the internal cavity on at least one of the first and second parts; and an outlet from the internal cavity on at least one of the first and second parts. | 11-26-2015 |
20150318106 | Bobbin Design for Conduction-Cooled, Gapped, High-Permeability Magnetic Components - A coil former, also referred to herein as a bobbin, is provided for use in conduction-cooled magnetic components that contain an air gap. The diameter of the disclosed bobbin is increased and ribs/splines or tabs are created to keep the winding centered about the core center post while allowing thermally conductive silicone-based or equivalent encapsulant to fill the voids between the coil former and the core, the coil former and the windings and/or both depending on the placement of the locating tabs. The disclosed bobbin may be fabricated from traditional injection molding resins or from high-thermal conductivity resins. As a result of the disclosed bobbin designs, the achievable power density is increased while maintaining acceptable temperatures. | 11-05-2015 |
20150306974 | CHARGING STATION PROVIDING THERMAL CONDITIONING OF ELECTRIC VEHICLE DURING CHARGING SESSION - A method of thermally conditioning an energy storage of a vehicle while charging includes: receiving, at a charging station, thermal information about the energy storage; supplying, by the charging station, electric energy to the energy storage in a charging session; and providing, by the charging station and based on the thermal information, thermal conditioning of the energy storage during at least part of the charging session. | 10-29-2015 |
20150298744 | TORQUE BOX WITH SHEAR PLANES AT INNER JOINT - A torque box for a vehicle includes: first and second clamshells joined to each other at respective top and bottom edges and configured to form at least first and second enclosures with an inner joint in between, the first and second enclosures configured to provide top and bottom shear planes at the top and bottom edges, respectively, and at least first and second shear planes at the inner joint. | 10-22-2015 |
20150298741 | SUBFRAME CONFIGURED TO DETACH UPON IMPACT - A subframe for a vehicle has a front attachment to a crush rail in the vehicle, and a rear attachment to the vehicle, the subframe comprising at least one initiator configured to cause the subframe to fold downward in event of impact, the subframe configured so that the front attachment detaches as a result of the impact and the subframe is deflected downward, while the rear attachment does not detach. | 10-22-2015 |
20150298740 | ADAPTER FOR CRUSH RAIL AND TORQUE BOX - An adapter for a vehicle includes: an adapter body configured to bridge between a crush rail at a vehicle end and a back-up structure, the adapter body having a socket configured to receive and enclose four sides of the crush rail, the adapter body having a plug configured to fit into the back-up structure; and an opening in the adapter body configured to have a drive shaft extend through the adapter. | 10-22-2015 |
20150298633 | VEHICLE CRUSH RAIL WITH SUBSTANTIALLY SQUARE CELLS AND INITIATORS - A vehicle crush rail includes: a body configured to be at least partially crushed along an axis between first and second ends thereof, the body having a cross section profile that comprises first, second and third cells that are substantially square, wherein at least one of the first, second and third cells extends from the first end to the second end, wherein the first, second and third cells have respective initiators arranged according to a crush pattern for the crush rail. | 10-22-2015 |
20150298520 | CONTROLLING A COMPRESSOR FOR AIR SUSPENSION OF ELECTRIC VEHICLE - A method of controlling a compressor for an air suspension of an electric vehicle includes: determining a state of a reservoir in the electric vehicle, the reservoir coupled to drive air springs of a suspension system; determining whether the electric vehicle is connected to an external source of electric energy for charging an energy storage of the electric vehicle; in response to determining that the electric vehicle is connected to the external source, applying a first value as a threshold for whether to replenish the reservoir by a compressor; and in response to determining that the electric vehicle is not connected to the external source, applying a second value, different from the first value, as the threshold for whether to replenish the reservoir by the compressor. | 10-22-2015 |
20150244036 | ENERGY STORAGE SYSTEM WITH HEAT PIPE THERMAL MANAGEMENT - An energy storage system includes: multiple cells, each cell having a first end with anode and cathode terminals, and a second end opposite the first end, the cells arranged so that the second ends are aligned; for each of the cells, electrical connections coupled to the anode and cathode terminals at the first end; and a heat pipe having a flat evaporation surface facing the second ends. | 08-27-2015 |
20150222162 | PRESSURIZED AND GRAVITY-FED LIQUID COOLING OF ELECTRIC MOTOR - A liquid cooling system for an electric motor includes: a pump for liquid to cool the electric motor; a heat exchanger that removes heat from the liquid; a manifold extending above a stator of the electric motor, the manifold receiving the liquid under pressure and having a first opening that directs a first liquid jet onto the stator; and a first tray above first end turns of the stator, the manifold having a second opening that directs a second liquid jet onto the first tray, the first tray having a third opening that performs gravity-fed liquid distribution onto the first end turns. | 08-06-2015 |
20150217654 | COOLING OF CHARGING CABLE - A charging system for an electric vehicle includes: a power supply; a cable having first and second ends, the first end attached to the power supply, the cable comprising a charging conductor and a cooling conduit, each of which extends from the first end to the second end; and a connector attached to the second end of the cable, the connector having a form factor corresponding to a charge port of the electric vehicle; wherein the cooling conduit is adapted to convey a fluid that cools the charging conductor. | 08-06-2015 |
20150155112 | Electromagnetic Switch with Damping Interface - An electromagnetic switch includes: a stationary electrical contact; a moveable electrical contact; an actuated member to which the moveable electrical contact is attached for driving the moveable electrical contact into and out of contact with the stationary electrical contact; and a damping interface between the moveable electrical contact and the actuated member. | 06-04-2015 |
20150123511 | Flux Shield for Electric Motor - An electric motor includes: a stator; a shaft; a rotor mounted on the shaft, the rotor having an end ring that is concentric with the shaft; and a flux shield around the shaft inside the end ring. | 05-07-2015 |
20150111082 | Cell Module Assemblies - A method includes: assembling a thermal-exchange tube in a module housing for an energy storage pack; assembling cells in the module housing, wherein the thermal-exchange tube runs between rows of the cells; applying an adhesive that affixes the cells and the thermal-exchange tube to the module housing; curing a first portion of the adhesive by radiation, wherein a second portion of the adhesive is shielded from the radiation by the cells or the thermal-exchange tube; and curing at least the second portion of the adhesive by a chemical cure mechanism. | 04-23-2015 |
20150039180 | CONTROLLER APPARATUS AND SENSORS FOR A VEHICLE DOOR HANDLE - In a vehicle door assembly, controllers processes signals from an extension force sensor and a retraction force sensor to control a door handle. As a motor retracts the handle, a swing arm in the vehicle door presses against the retraction force sensor causing the handle controller to stop the motor. Pushing on the retracted handle presses the swing arm against the retraction force sensor a second time causing the controllers to operate the motor and extend the handle. As the handle extends, the swing arm presses against the extension force sensor and the handle controller stops the motor as the handle is fully extended. Subsequently, a hand pulling on the door handle presses the swing arm against the extension force sensor a second time causing the controllers to unlatch a latch holding the vehicle door shut, and thereby allow the vehicle door to open. | 02-05-2015 |
20140376995 | Air-tight Slip-on Structural Joint Not Using Sealant - A method includes: assembling first and second pieces in a slip-fit joint without applying adhesive or sealant, wherein the first piece covers a portion of the second piece in the slip-fit joint; and injecting adhesive through the first piece until the adhesive fills a gap of the slip-fit joint, wherein the adhesive makes the slip-fit joint air tight without applying the sealant. An air-tight slip-fit joint consists essentially of: first and second pieces assembled without applying adhesive or sealant, wherein the first piece covers a portion of the second piece in the slip-fit joint; and adhesive injected through the first piece until the adhesive fills a gap of the slip-fit joint, wherein the adhesive makes the slip-fit joint air tight without applying the sealant. | 12-25-2014 |
20140368082 | LIMITING RADIAL EXPANSION IN ROTOR BALANCING - A rotor including: a shaft; a structure comprising at least one end ring and rotor bars, wherein at least the end ring comprises a material subject to expansion or movement radially outward from the shaft upon a rotor balancing process that involves spinning of the structure; a core that at least partially encloses the rotor bars; and means for limiting the expansion or movement of the structure radially outward. A method including: providing a structure comprising at least one end ring and rotor bars, wherein at least the end ring comprises a material subject to expansion or movement radially outward from the shaft upon spinning of the structure; assembling a rotor from the structure and a core, the core at least partially enclosing the rotor bars; spinning the rotor in a rotor balancing process; and limiting the expansion or movement of the structure radially outward in the rotor balancing process. | 12-18-2014 |
20140347018 | Location Based Charging Control System - A method for automatically charging the battery pack of an electric vehicle in accordance with a set of location sensitive charging instructions is provided. Exemplary location sensitive charging instructions include preset charging schedules and preset charge level limits. Different charging schedules and different charge level limits may be preset for different charging stations and locations, thus allowing the user to preset the charging instructions for each of multiple locations where the user routinely charges their car. Default charging instructions are used at those charging stations and locations where a set of location sensitive charging instructions has not been preset. | 11-27-2014 |
20140339950 | Rotor Assembly with Electron Beam Welded End Caps - A rotor assembly and a method for fabricating the same are provided in which a pair of end caps, positioned at either end of the stack of laminated discs, are fusion welded to the rotor bars using an electron beam welder, thereby yielding improved electrical and mechanical characteristics in a low weight assembly. | 11-20-2014 |
20140333086 | Folding and Stowing Rear-Facing Vehicle Seat - A rear-facing seat for a vehicle comprises: a seat portion connected to the vehicle by a hinge so that the rear-facing seat assumes at least a stowed position and an unstowed position; and a back portion connected to the seat portion, wherein in the unstowed position the back portion assumes at least an up position and a down position, wherein in the up position (i) a hook on the back portion engages a first striker on a vehicle wall, and (ii) a latch on the back portion engages a second striker of a back of a forward-facing seat. | 11-13-2014 |
20140332085 | Self-Activated Draining System - A method of managing leakage of liquid inside a battery system comprises: containing leaking liquid in a non-liquid sensitive region of the battery system so as to protect internal electrical components of the battery system from coming in contact with the leaking liquid; and in direct response to the leakage, expunging the leaking liquid from the battery system. A drain device includes: a body with a port therethrough, the body configured to be positioned in a wall of a container; means for opening the port in response to a first liquid contacting the drain device on an inside of the container; and means for resisting ingress into the container by a second liquid that contacts the drain device on an outside of the container. | 11-13-2014 |
20140326351 | EXTRUSION PIECE WITH DISSIMILAR ENDS - A method includes: determining a design for a longitudinal piece of a particular length, wherein first and second ends of the longitudinal piece have dissimilar shapes; extruding a piece that is at least twice the particular length, wherein a profile throughout the extruded piece has the first end shape; hydroforming the extruded piece to generate an expanded portion between ends of the extruded piece, wherein the ends retain essentially the first end shape; and cutting through the expanded portion to obtain a piece wherein one end has the first end shape and another end has the second end shape. | 11-06-2014 |
20140257613 | CONTROL SYSTEM FOR AN ALL-WHEEL DRIVE ELECTRIC VEHICLE - Electric vehicles and, more particularly, a control system for an all-wheel drive electric vehicle. | 09-11-2014 |
20140253023 | FAST CHARGING OF BATTERY USING ADJUSTABLE VOLTAGE CONTROL - A battery cell charger for rapidly charging a lithium ion battery cell (or string of series-parallel connected cells) having a maximum battery cell voltage the battery cell charging system including: a circuit for charging the battery cell using an adjustable voltage charging-profile to apply a charging voltage and a charging current to the battery cell wherein the adjustable voltage charging-profile includes: a first charging stage with a constant first stage charging current and an increasing battery cell voltage with the first stage charging current provided until the first stage charging voltage is about equal to a first stage complete voltage less than the maximum battery cell voltage; one or more intermediate charging stages, each intermediate stage selected from the group consisting of one or more of an intermediate constant voltage stage that provides a decreasing charging current, an intermediate constant current stage that produces an increasing battery cell voltage, and combinations thereof; and a final charging stage with a constant final stage charging voltage about equal to an intermediate stage complete voltage and a decreasing final stage charging current with the final stage charging voltage provided until the final stage charging current reaches a desired charge complete level. | 09-11-2014 |
20140212708 | Battery Pack Exhaust Nozzle - A thermal management system is provided that minimizes the effects of thermal runaway within a battery pack. The system includes a sealed battery pack enclosure configured to hold a plurality of batteries and at least one exhaust nozzle assembly. The exhaust nozzle assembly includes an exhaust nozzle that passes and directs the flow of hot gas from within the battery pack to the ambient environment during a thermal runaway event, a nozzle seal mounted within the exhaust nozzle that seals the exhaust nozzle during normal operation of the battery pack, and a nozzle seal mounting nut that holds the nozzle seal within the exhaust nozzle during normal operation and then melts during a thermal runaway event, thereby allowing the nozzle seal to be ejected through the exhaust nozzle during the event. | 07-31-2014 |
20140212695 | FLEXIBLE PRINTED CIRCUIT AS HIGH VOLTAGE INTERCONNECT IN BATTERY MODULES - A system and method for improving on conventional techniques for connecting energy storage elements of a high-voltage battery pack. A tuned flexible printed circuit individually coupled to each electrode of each cell of a matrix of cells of the battery pack provides improved manufacturability and reliability. | 07-31-2014 |
20140209344 | POWER ELECTRONICS INTERCONNECTION FOR ELECTRIC MOTOR DRIVES - The bus bar includes a first bus bar layer formed of a first generally uniform thickness of a first bus bar conductor; a first dielectric layer overlying a top surface of the first bus bar layer; and a second bus bar layer formed of a second generally uniform thickness of a second bus bar conductor overlying a top surface of the first dielectric layer and the top surface of the first bus bar layer wherein: the first bus bar layer includes a first via for receipt of a first electrical lead of an electrical component and a second via for receipt of a second electrical lead of the electrical component and wherein: the first dielectric layer and the second bus bar layer each include a via aligned with the first via wherein the first electrical lead is extendable from beneath the first bus bar layer through the first dielectric layer and through the second bus bar layer. | 07-31-2014 |
20140193683 | Battery Pack Base Plate Heat Exchanger - A heat exchanger integrated into an electric vehicle's battery pack enclosure is provided, where the heat exchanger conduits are mechanically and thermally coupled to the inside surface of the enclosure base plate and where the battery pack enclosure is mounted such that ambient air flows over the outside surface of the enclosure base plate during vehicle motion. A thermal management system is coupled to, and controls operation of, the integrated battery pack heat exchanger such that in a first operational mode the heat exchanger is thermally coupled to the batteries within the battery pack, and in a second operational mode the heat exchanger is thermally decoupled from the batteries within the battery pack. | 07-10-2014 |
20140182958 | SYSTEM FOR ABSORBING AND DISTRIBUTING SIDE IMPACT ENERGY UTILIZING AN INTEGRATED BATTERY PACK - An energy absorbing and distributing side impact system for use with a vehicle is provided, the system utilizing a battery pack enclosure that includes a plurality of cross-members that transverse the battery pack enclosure and absorb and distribute at least a portion of the load received when either the first or second side of the vehicle receives a side impact. The battery pack enclosure is positioned between the front and rear vehicle suspension assemblies and mounted between, and mechanically coupled to, vehicle structural members (e.g., rocker panels) located on either side of the vehicle. In addition to providing rigidity, strength and impact resistance, the battery pack cross-members segregate the batteries contained within the battery pack enclosure into battery groups. | 07-03-2014 |
20140178722 | BATTERY MOUNTING AND COOLING SYSTEM - A battery system is provided in which the batteries are mounted between a pair of substrates, the system further including at least one cooling tube mounted next to the batteries, the cooling tube used to withdraw heat from the batteries via a circulating liquid coolant. | 06-26-2014 |
20140153150 | DYNAMIC CURRENT PROTECTION IN ENERGY DISTRIBUTION SYSTEMS - An electric circuit, including an electric load operable from an operating current; an energy storage system providing the operating current at both a first mode and a second mode with the first mode having a first current in a first range of zero to a first particular current value and with the second mode having a second current in a second range of the first particular current value to a second particular current value; and an active protection coupled to the energy storage system, the active protection dynamically reconfigurable between a first mode and a second mode, the first mode applying a first overcurrent protection rating to the operating current when the operating current is operating in the first mode and the second mode applying a second overcurrent protection rating to the operating current when the operating current is operating in the second mode. | 06-05-2014 |
20140152315 | TRANSIENT DETECTION OF AN EXCEPTIONAL CHARGE EVENT IN A SERIES CONNECTED BATTERY ELEMENT - A system and method for identifying and responding to exceptional charge events of series-connected energy storage elements. | 06-05-2014 |
20140152260 | RESPONSE TO DETECTION OF AN OVERDISCHARGE EVENT IN A SERIES CONNECTED BATTERY ELEMENT - A system and method for identifying and responding to exceptional charge events of series-connected energy storage elements. | 06-05-2014 |
20140152259 | RESPONSE TO DETECTION OF AN OVERCHARGE EVENT IN A SERIES CONNECTED BATTERY ELEMENT - A system and method for identifying and responding to exceptional charge events of series-connected energy storage elements. | 06-05-2014 |
20140152258 | STEADY STATE DETECTION OF AN EXCEPTIONAL CHARGE EVENT IN A SERIES CONNECTED BATTERY ELEMENT - A system and method for identifying and responding to exceptional charge events of series-connected energy storage elements. | 06-05-2014 |
20140121866 | FAST CHARGE MODE FOR EXTENDED TRIP - A system and method for early identification of an impending fast-charge or fast-charge opportunity and use of that information to prepare the battery cells for the fast-charge. | 05-01-2014 |
20140096069 | Method of Selecting an Application Target Window in a User Interface - A method for controlling application windows is provided for use with a graphical user interface (GUI) display which is divided into at least first and second application windows. Various software applications may be launched in the first and second application windows. In order to switch locations of the software applications launched in the first and second application windows the user selects a swap window button, for example by tapping or clicking on a swap window icon on the GUI display. | 04-03-2014 |
20140096051 | Method of Launching an Application and Selecting the Application Target Window - A method of launching a software program or application is provided for use with a graphical user interface (GUI) display. One portion of the GUI display includes a taskbar while a second portion is divided into a plurality of windows. To launch one of the programs/applications represented by the icons within the taskbar, the user first selects the icon representing the icon to be launched. When the user drags the selected icon into one of the windows and then releases the icon, the selected program/application is launched in the selected window. | 04-03-2014 |
20140096050 | Method of Launching an Application and Selecting the Application Target Window - A method of launching a software program or application is provided for use with a graphical user interface (GUI) display. One portion of the GUI display includes a taskbar while a second portion is divided into a plurality of windows. To launch one of the programs/applications represented by the icons within the taskbar, the user first selects the icon representing the icon to be launched. Once an icon is selected, a visual cue is displayed, where the visual cue includes a plurality of mini-windows representing the plurality of display windows. When the user drags the selected icon into one of the mini-windows and then releases the icon, the selected program/application is launched in the window that corresponds to the selected mini-window. | 04-03-2014 |
20140096003 | Vehicle Audio System Interface - A vehicle audio system interface is provided, as well as a method of using same, in which a visual representation of the vehicle's passenger cabin is displayed on the vehicle's touch-screen. Also displayed on the touch-screen is a touch sensitive balance slide controller and a touch sensitive fade slide controller. As the user makes left-right balance selections on the balance controller, and front-rear fader selections on the fade controller, an acoustic sweet spot designator is presented on the displayed representation of the passenger cabin. The acoustic sweet spot designator, which corresponds to the pre-determined acoustic sweet spot, is based on the combination of the current left-right balance and front-rear fader settings. | 04-03-2014 |
20140095997 | Audio System Optimization Interface - An audio system interface is provided, as well as a method of using same, in which a visual representation of the vehicle's passenger cabin is displayed on the vehicle's touch-screen. When a user's touch registers on the visual representation of the passenger compartment, the system matches the touch with one of a plurality of pre-defined acoustic sweet spots within the passenger compartment, and then adjusts the left-right speaker balance controller and the front-rear speaker fade controller to the specific left-right speaker balance setting and the specific front-rear speaker fader setting defined by the selected acoustic sweet spot. | 04-03-2014 |
20140095031 | Sunroof Control Interface Utilizing Position Presets - A sunroof control interface, as well as a method of using the interface, is provided. The interface may use a visual representation of the vehicle's exterior and/or a slide controller to help the user to quickly identify the desired sunroof position. Preset sunroof positions are used with the control interface to simplify sunroof positioning. Assuming a touch-screen interface, the user can simply tap on the visual representation of the vehicle, or tap on the slide controller, to select a preset sunroof position. The preset sunroof position may also be selected using a mouse controller. The visual depiction of the vehicle may include a phantom sunroof overlay to further aid the user in selecting the desired sunroof position. A numerical indicator may be used with either the overlay or the slide controller to indicate the selected sunroof position relative to a fully open or fully closed sunroof. | 04-03-2014 |
20140095029 | Sunroof Control Interface - A sunroof control interface, as well as a method of using the interface, is provided. The interface may use a visual representation of the vehicle's exterior and/or a slide controller to help the user to quickly identify the desired sunroof position. Assuming a touch-screen interface, the user can simply tap on the visual representation of the vehicle, or tap on the slide controller, to select the desired sunroof position. The desired sunroof position may also be selected using a mouse controller. The visual depiction of the vehicle may include a phantom sunroof overlay to further aid the user in selecting the desired sunroof position. A numerical indicator may be used with either the overlay or the slide controller to indicate the selected sunroof position relative to a fully open or fully closed sunroof. | 04-03-2014 |
20140095023 | Vehicle Air Suspension Control System - A method of automatically adjusting the ride height of a vehicle each time the vehicle is in a particular location is provided, where the automatic ride height adjustment is based on location and ride height information previously gathered from a user. | 04-03-2014 |
20140093107 | Automated Audio Optimization System - An audio system is provided, as well as a method of using same, which utilizes a plurality of sensors integrated into the vehicle's seats to determine which of the seats are occupied. The system selects a pre-defined optimum acoustic sweet spot from a plurality of stored acoustic sweet spots based on which seats are occupied and based on a set of acoustic optimization configuration instructions. The system automatically adjusts the left-right speaker balance controller and the front-rear speaker fade controller to the specific left-right speaker balance setting and the specific front-rear speaker fader setting defined by the optimum acoustic sweet spot. The acoustic optimization configuration instructions, which define the optimum acoustic sweet spot for each combination of occupied vehicle seats, may be stored in the system's memory by a vehicle manufacturer, third party, or end user. | 04-03-2014 |
20140088809 | DETECTION OF OVER-CURRENT IN A BATTERY PACK - A controller identifies a condition of a hazardous internal short by comparing patterns of series element voltages to the last known balance condition of the series elements. If the loaded or resting voltage of one or more contiguous series elements uniformly drop from the previously known condition by an amount consistent with an over-current condition, an over-current internal short circuit fault is registered. The desired response is to prevent the affected series elements from heating to a hazardous temperature by summoning the maximum heat rejection capability of the system until the short ceases and the affected elements cool, the cooling function is no longer able to operate due to low voltage, or the affected series string has drained all of its energy through the short. Also includes are responses that allow the battery pack to continue to power the cooling system even though it may enter an over-discharged state. | 03-27-2014 |
20130337705 | HIGH VOLTAGE CABLE CONNECTOR - A system and method for a shielded coaxial cable including a collar including a cylindrical housing having a cylindrical inner bore, the inner bore having top and bottom openings the top opening having a diameter about equal to an outer diameter of an outer insulating layer of the cable and the bottom opening having a diameter about equal to an outer diameter of a shield layer of the cable with a terminating portion of the shield layer exposed and returned over an exterior portion of said collar near the bottom opening with the terminating portion overlapping said exterior portion; and a termination ferrule joined to the terminating portion that overlaps the exterior portion to simultaneously provide an electrical communication between the shield layer and the collar and provide a strain relief for the shielded cable disposed within the inner bore. | 12-19-2013 |
20130328531 | Charge Rate Modulation of Metal-Air Cells as a Function of Ambient Oxygen Concentration - A method for charging a metal-air battery pack at the maximum possible rate while maintaining an ambient oxygen concentration below a preset concentration is provided, thereby minimizing the risks associated with generating oxygen during the charging cycle. | 12-12-2013 |
20130327511 | PASSIVE AIR BLEED FOR IMPROVED COOLING SYSTEMS - An apparatus, including a sealed housing defining a manifold having an inlet port for receiving an input fluid stream into the manifold and an outlet port for exiting an output fluid stream from the manifold; and a bleed structure having a proximal end, a distal end, and a hollow channel communicating a first opening at the proximal end to a second opening at the distal end, the distal end disposed within the manifold and the proximal end disposed in the outlet port outside of the manifold. | 12-12-2013 |
20130307491 | BIDIRECTIONAL POLYPHASE MULTIMODE CONVERTER INCLUDING BOOST AND BUCK-BOOST MODES - A charging method using a multiphase line voltage for charging an energy storage system (ESS) using a polyphase motor drive circuit communicated to a polyphase motor, the polyphase motor drive circuit including a plurality M of driver stages, one driver stage for each phase of the polyphase motor with each driver stage coupled across the energy storage system. | 11-21-2013 |
20130307480 | SELF-DISCHARGE FOR HIGH VOLTAGE BATTERY PACKS - A system and method for providing energy management and maintenance of a high energy battery pack through use self-discharge features and processes. A battery pack is configured with self-discharger enabled-components that selectively discharge energy from the battery pack without the battery pack providing operational power. | 11-21-2013 |
20130307478 | SECONDARY SERVICE PORT FOR HIGH VOLTAGE BATTERY PACKS - A system and method for providing energy management and maintenance of a high energy battery pack that does not require installation of the battery pack into an operational EV. A secondary service port is provided to enable certain maintenance operations while by-passing battery pack interlocks and protection mechanisms used when the battery pack is installed into an operating environment. | 11-21-2013 |
20130307476 | METHOD AND SYSTEM FOR SERVICING HIGH VOLTAGE BATTERY PACKS - A system and method for providing energy management and maintenance of a high energy battery pack that does not require installation of the battery pack into an operational EV. A battery service unit has multiple access mechanisms to charge or discharge a high energy battery pack through a primary or secondary high voltage port of the pack, irrespective of whether the battery pack is installed into an operating environment by adding a capability of providing a signature duplicating installation of the pack in the operating environment when necessary. | 11-21-2013 |
20130307475 | CHARGE RATE OPTIMIZATION - A charging system for a battery pack, including a charging station transferring energy to the battery pack at a maximum fast charge rate in a first operational mode and transferring energy to the battery pack at a slower charge rate in a second operational mode; a data collection system acquiring data indicating a state of charge of the battery pack and one or more desired charge optimization parameters; and a station control, responsive to the data and to the desired charge optimization parameters, automatically establishing a charging profile for the battery pack to assert a control signal and operate the charging station in the second operational mode whenever the charging station is able to transfer sufficient energy to the battery pack at the slower charge rate to meet an SOC target and a charge completion time target. | 11-21-2013 |
20130297954 | HOST INITIATED STATE CONTROL OF REMOTE CLIENT IN COMMUNICATIONS SYSTEM - A system and method for low-cost, fault tolerant, EMI robust data communications, particularly for an EV environment. A data communications method, including a) enabling a transmission of a wake signal from a host to a remote client through an isolator disposed at the remote client when the wake signal is asserted from the host at a host-portion of the isolator concurrent with a periodic enablement of a client-portion of the isolator by the remote client; and thereafter b) transmitting the wake signal from the host to the remote client through the isolator; c) controlling enablement of the client-portion responsive to the wake signal transmitted through the isolator; and thereafter d) disabling the transmission by deassertion of the wake signal at the host. | 11-07-2013 |
20130294530 | REDUNDANT MULTISTATE SIGNALING - A data communications system having a plurality of communication devices including a host having a first receiver and a second receiver; and one or more clients, each client including a transmitter coupled between a signal node and a transmitter node, the transmitter selectively transmitting a multistate signal from the signal node to the transmitter node; and a single conductor daisy-chain loop redundantly communicating each multistate signal from each the transmitter to both receivers, the single conductor daisy-chain loop electrically communicating each transmitter node to the receivers. A data communications method including a) transmitting selectively a multistate signal from each of one or more clients; b) communicating electrically each multistate signal to a first location on a host using a single conductor coupled to each the client; and c) communicating electrically each multistate signal to a second location on the host using the single conductor. | 11-07-2013 |
20130294529 | ROBUST COMMUNICATIONS IN ELECTRICALLY NOISY ENVIRONMENTS - A system and method for low-cost, fault tolerant, EMI robust data communications, particularly for an EV environment. | 11-07-2013 |
20130294222 | HOST COMMUNICATIONS ARCHITECTURE - A system and method for low-cost, fault tolerant, EMI robust data communications, particularly for an EV environment. | 11-07-2013 |
20130293251 | WIRE BREAK DETECTION IN REDUNDANT COMMUNICATIONS - A system and method for low-cost, fault tolerant, EMI robust data communications, particularly for an EV environment. | 11-07-2013 |
20130285602 | INTEGRATED INDUCTIVE AND CONDUCTIVE ELECTRICAL CHARGING SYSTEM - An apparatus and method efficiently integrating inductive and conductive charging systems, including embodiments directed towards enabling user selection of either, or both, of conductive and inductive charging. Conductive charging and inductive charging both have, in certain contexts or when judged by different criteria, advantages over the other. Systems and methods relying on one or the other would not have as wide-spread value to a user with opportunities to access both types of charging modalities. | 10-31-2013 |
20130284559 | PARK LOCK FOR NARROW TRANSMISSION - A park lock of a transmission, including a park gear; a park pawl rotating about a pawl shaft, the park pawl having a pawl portion locking the park gear, the park pawl including a cam contact portion; a park rod responsive to an operation of a controller, the park rod having a cam portion pressing the cam contact portion to have park pawl engage the park gear; a park sleeve receiving the cam portion and defining a first contact point providing a reactive force to the cam contact portion of the park pawl pressing against the cam portion at a second contact point; a pawl torsional spring biasing the park pawl towards disengagement; and a pawl stopper limiting the rotation of the park pawl wherein motions are constrained within a plane of the transmission and components are rotatingly disposed in parallel axis bores in one half of a transmission case. | 10-31-2013 |
20130270749 | EMBEDDED OPTICS IN MODULAR ASSEMBLIES - An enhanced multiobject potting fixture for exposure to a curing modality that sets an adhesive includes a fixture housing supporting a plurality of objects, the fixture housing having a wall defining a plurality of bonding wells with each the bonding well receiving a first portion of one of the objects, each the bonding well including an aperture in the wall proximate the first portion wherein each bonding well includes a target zone for selective cure of the adhesive to inhibit the adhesive from exiting the aperture; and a fixture enhancement structure integrated into the wall concentrating the curing modality in each the target zone. | 10-17-2013 |
20130260192 | Battery Pack Pressure Monitoring System for Thermal Event Detection - A system for detecting thermal events, e.g., thermal runaway, within a sealed battery pack based on a characterization of monitored pressure variations within the pack is provided. The system includes at least one pressure sensor coupled to the battery pack and to a pressure monitoring system that outputs pressure data representative of the battery pack pressure over time; a system controller that analyzes the pressure data and outputs a control signal when the pressure data fits a specific curve shape; and a thermal event response subsystem that performs a preset response upon receipt of the control signal from the system controller. The system may include a secondary effect monitoring system, wherein the thermal event response subsystem performs the preset response when the pressure data fits a specific curve shape and the secondary effect is detected by the secondary effect monitoring system. | 10-03-2013 |
20130241445 | Method of Operating a Dual Motor Drive and Control System for an Electric Vehicle - A method for optimizing the torque applied by each motor of a dual motor drive system of an all-electric vehicle is provided, the torque adjustments taking into account wheel slip as well as other vehicular operating conditions. | 09-19-2013 |
20130234648 | LOW TEMPERATURE FAST CHARGE - An automated charge preparation method periodically determines critical parameters for the set of relevant operating conditions, determines whether fast charging is possible, applies fast charging when possible, otherwise applies a dynamically scaled charging rate that is optimized based upon current critical parameters (while optionally heating the individual battery cells as long as fast charging is not available) to reduce/eliminate a risk of lithium-plating. | 09-12-2013 |
20130228431 | Electrical Interface Interlock System - A high voltage (HV) interface housing is provided that includes an assembly of levers within the housing that detect whether or not the HV lines are coupled to the interface housing. If the HV lines are not in place, the lever assembly prevents the interface cover from being fully installed onto the interface housing, thereby preventing the HV interlock loop switch from being closed. As a result, when the HV cables are not in place, the HV interlock loop switch prevents power from being applied to the HV circuit. If, however, the HV lines are properly positioned within the interface housing, the levers of the lever assembly automatically retract, thus allowing the interface cover to be fully installed onto the interface housing. In this state, the interface cover closes the HV interlock loop switch, thus closing the HV interlock loop and allowing power to be applied to the HV circuit. | 09-05-2013 |
20130221928 | Electric Vehicle Battery Lifetime Optimization Operational Mode - A method of setting the operational mode of an electric vehicle is provided, where the operational mode is selected from a plurality of operational modes that include at least a Battery Life mode and a Standard mode, wherein the Battery Life mode is configured to select operating and charging parameters that emphasize battery health and battery life over vehicle range and/or vehicle performance. The system includes a thermal management system for maintaining the vehicle's battery pack to within any of a plurality of temperature ranges, and a charging system for charging the vehicle's battery pack to any of a plurality of minimum and maximum SOC levels and at any of a plurality of charging rates. | 08-29-2013 |
20130221916 | Electric Vehicle Battery Lifetime Optimization Operational Mode - A multi-mode operating system for an electric vehicle is provided, the system including means for a user to select a preferred mode of operation from a plurality of operational modes that include at least a Battery Life mode and a Standard mode, wherein the Battery Life mode is configured to select operating and charging parameters that emphasize battery health and battery life over vehicle range and/or vehicle performance. The system includes a thermal management system for maintaining the vehicle's battery pack to within any of a plurality of temperature ranges, and a charging system for charging the vehicle's battery pack to any of a plurality of minimum and maximum SOC levels and at any of a plurality of charging rates. | 08-29-2013 |
20130211579 | CONTROL FOR AUTOMATED SOLDERING - A robotic processing system includes a microprocessor-controlled workpiece processor having a mobile processing element to be positioned independently in three orthogonal dimensions with respect to each of a plurality of target locations on a workpiece, with each particular target location of the plurality of target locations including an element to be processed, the mobile processing element processing the element at each particular target location by first moving to an initial location that is offset from the particular target location in a single dimension and then second moving along the single dimension towards the element at the particular target location until a contact signal is detected; and a control, coupled to the workpiece and to the mobile processing element, communicating the contact signal to the workpiece processor when the processing element makes physical contact with the element at the particular target location. | 08-15-2013 |
20130196184 | BATTERY MODULE WITH INTEGRATED THERMAL MANAGEMENT SYSTEM - A controller identifies a condition of a hazardous internal short by comparing patterns of series element voltages to the last known balance condition of the series elements. If the loaded or resting voltage of one or more contiguous series elements uniformly drop from the previously known condition by an amount consistent with an over-current condition, an over-current internal short circuit fault is registered. The desired response is to prevent the affected series elements from heating to a hazardous temperature by summoning the maximum heat rejection capability of the system until the short ceases and the affected elements cool, the cooling function is no longer able to operate due to low voltage, or the affected series string has drained all of its energy through the short. Also includes are responses that allow the battery pack to continue to power the cooling system even though it may enter an over-discharged state. | 08-01-2013 |
20130187591 | Electric Vehicle Extended Range Hybrid Battery Pack System - A power source comprised of a first battery pack (e.g., a non-metal-air battery pack) and a second battery pack (e.g., a metal-air battery pack) is provided, wherein the second battery pack is only used as required by the state-of-charge (SOC) of the first battery pack or as a result of the user selecting an extended range mode of operation. Minimizing use of the second battery pack prevents it from undergoing unnecessary, and potentially lifetime limiting, charge cycles. The second battery pack may be used to charge the first battery pack or used in combination with the first battery pack to supply operational power to the electric vehicle. | 07-25-2013 |
20130181511 | Electric Vehicle Extended Range Hybrid Battery Pack System - A power source comprised of a first battery pack (e.g., a non-metal-air battery pack) and a second battery pack (e.g., a metal-air battery pack) is provided, wherein the second battery pack is used when the user selects an extended range mode of operation. Minimizing use of the second battery pack prevents it from undergoing unnecessary, and potentially lifetime limiting, charge cycles. | 07-18-2013 |
20130179012 | DETECTION OF OVER-CURRENT IN A BATTERY PACK - A controller identifies a condition of a hazardous internal short by comparing patterns of series element voltages to the last known balance condition of the series elements. If the loaded or resting voltage of one or more contiguous series elements uniformly drop from the previously known condition by an amount consistent with an over-current condition, an over-current internal short circuit fault is registered. The desired response is to prevent the affected series elements from heating to a hazardous temperature by summoning the maximum heat rejection capability of the system until the short ceases and the affected elements cool, the cooling function is no longer able to operate due to low voltage, or the affected series string has drained all of its energy through the short. Also includes are responses that allow the battery pack to continue to power the cooling system even though it may enter an over-discharged state. | 07-11-2013 |
20130160376 | SEALING MECHANISM OF AUTOMOBILE DOOR - A sealing mechanism of an automobile door including a sliding window pane configured to be raised or lowered to/from the door window part and a side panel, includes: a retainer fixed to the side panel; and a glass run held by the retainer. The glass run includes a hollow seal part, and the base of the seal part has a slit. A pair of engagement parts of the retainer is engaged with both sides of the base of the seal part. A ridge located between the engagement parts of the retainer is fitted in the slit of the base. | 06-27-2013 |
20130160374 | GLASS-RUN RETAINER FOR AUTOMOBILE DOOR AND DOOR STRUCTURE OF AUTOMOBILE - An integrated retainer in which an inner part of a retainer upper part extending above a door belt line and an inner part of a retainer lower part extending below the door belt are continuous without a joint line is employed for an automobile door. The retainer lower part has an approximate U shape including an inner part and an outer part as glass-run holding parts. The retainer upper part includes only an inner part as a glass-run holding part. | 06-27-2013 |
20130154352 | Pyrotechnic High Voltage Battery Disconnect - A system for decoupling a HV source from an electric vehicle's electrical system is provided that includes (i) at least one electrical contactor, where the HV source is electrically connected to the vehicle's electrical system when the electrical contactor is in a closed state and not electrically connected to the vehicle's electrical system when the electrical contactor is in an open state; (ii) a supplemental restraint system (SRS) that monitors collision data from a plurality of impact sensors and outputs an activation signal in response to monitored collision data; and (iii) a pyrotechnic switch, where the pyrotechnic switch has a pre-activated first state that provides a conductive path that allows the HV source to be electrically connected to the vehicle's electrical system and an activated second state that severs the conductive path and prevents the HV source from being electrically connected to the vehicle's electrical system. | 06-20-2013 |
20130153317 | Vehicle Battery Pack Thermal Barrier - An integration assembly for a battery pack mounted between the passenger cabin floor panel of an electric vehicle and the driving surface is provided, the assembly utilizing a multi-layer thermal barrier interposed between the battery pack enclosure and the passenger cabin floor panel, where the multi-layer thermal barrier provides noise isolation, thermal isolation and vibration damping, and where the multi-layer thermal barrier is compressed when the battery pack enclosure is mounted to the vehicle. The multi-layer thermal barrier is comprised of a first layer formed from a compressible and conformable elastic material and a second layer formed from a conformable thermally insulating material. The multi-layer thermal barrier may also include a moisture barrier layer that encases the first and second layers, for example a moisture barrier layer fabricated from a plastic. A sealant may be used to seal and bond the moisture barrier layer to the battery pack enclosure. | 06-20-2013 |
20130099524 | Control System for Use with a Dual Hinged Vehicle Door - A control system for use with a vehicle's dual hinged door assembly is provided, the control system including a door switch, upper and lower door portions, primary and secondary door drive systems and a controller. The upper door portion pivots about a primary axis formed by its juncture with a structural member in the roof while the lower door portion pivots about a secondary axis formed by its juncture with the upper door portion. Primary and secondary drive systems provide independent powered motion of the upper and lower door portions. The controller monitors door switch activation and determines whether activation corresponds to a door open or door closed command; performs preset door opening and closing sequences using the drive systems; and modifies the preset door opening and closing sequences based on data from proximity sensors, pinch sensors, latch sensors, drive system motor speed and the current draw by the drive systems. | 04-25-2013 |
20130099523 | Dual Hinged Vehicle Door - A dual hinged door assembly for a vehicle is provided, the assembly including an upper door portion and a lower door portion. The upper door portion, which may include a window, pivots about a primary axis formed by its juncture with a structural member in the roof. The lower door portion, which may include a window, pivots about a secondary axis formed by its juncture with the upper door portion. Primary and secondary drive systems may be used to provide independent powered motion of the upper and lower door portions. Each drive system may include a powered strut, e.g., a hydraulic strut, and a non-powered strut, e.g., a gas strut. | 04-25-2013 |
20130097940 | Method of Controlling a Dual Hinged Vehicle Door - A method of controlling the operation of a vehicle's dual hinged door assembly is provided, where the dual hinged door assembly includes a first door portion hingeably coupled to a structural member within the vehicle's roof such that it pivots about a primary axis formed by its juncture with the structural roof member, a second door portion hingeably coupled to the first door portion such that it pivots about a secondary axis formed by its juncture with the first door portion, a primary drive system providing powered motion for the first door portion about the primary axis, a secondary drive system providing powered motion for the second door portion about the secondary axis, and a controller coupled to the drive systems that provides independent motion control of the first and second door portions via the primary and secondary drive systems. | 04-25-2013 |
20130088051 | Sunroof Positioning and Timing Elements - Continuous cross sectional profile guide tracks in an outer sliding sunroof/moonroof are provided where both the front and rear mechanism or mechanism links travel fore/aft in the same channels as each other and have fore/aft travel that is limited only by vehicle architecture. The guide track channel is partly or entirely outside/outboard of the primary water/wind sealing system of the sunroof. | 04-11-2013 |
20130088045 | System for Absorbing and Distributing Side Impact Energy Utilizing a Side Sill Assembly with a Collapsible Sill Insert - An energy absorbing and distributing side impact system for use with a vehicle is provided, the system utilizing a collapsible side sill assembly along with multiple vehicle cross-members to achieve the desired level of vehicle side impact resistance, the combination of these elements absorbing and distributing the impact load throughout the vehicle structure. The collapsible side sill assembly includes a side sill insert, the insert divided into a collapsible portion designed to absorb impact energy and a reacting portion designed to distribute the impact energy to the vehicle cross-members. | 04-11-2013 |
20130088044 | System for Absorbing and Distributing Side Impact Energy Utilizing an Integrated Battery Pack and Side Sill Assembly - An energy absorbing and distributing side impact system for use with a vehicle is provided, the system utilizing a collapsible side sill along with multiple vehicle cross-members to achieve the desired level of vehicle side impact resistance, the combination of these elements absorbing and distributing the impact load throughout the vehicle structure. A battery pack enclosure that includes a plurality of cross-members that transverse the battery pack enclosure also help to absorb and distribute at least a portion of the load received when either the first or second side of the vehicle receives a side impact. In this configuration the battery pack enclosure is positioned between the front and rear vehicle suspension assemblies and mounted between, and mechanically coupled to, the side sill assemblies. In addition to providing rigidity, strength and impact resistance, the battery pack cross-members segregate the batteries contained within the battery pack enclosure into battery groups. | 04-11-2013 |
20130082489 | Sunroof Utilizing Two Independent Motors - Continuous cross sectional profile guide tracks in an outer sliding sunroof/moonroof are provided where both the front and rear mechanism or mechanism links travel fore/aft in the same channels as each other and have fore/aft travel that is limited only by vehicle architecture. The guide track channel is partly or entirely outside/outboard of the primary water/wind sealing system of the sunroof. | 04-04-2013 |
20130082488 | Mechanism Components Integrated Into Structural Sunroof Framework - Continuous cross sectional profile guide tracks in an outer sliding sunroof/moonroof are provided where both the front and rear mechanism or mechanism links travel fore/aft in the same channels as each other and have fore/aft travel that is limited only by vehicle architecture. The guide track channel is partly or entirely outside/outboard of the primary water/wind sealing system of the sunroof. | 04-04-2013 |
20130082487 | In-Line Outer Sliding Panorama Sunroof Tracks - Continuous cross sectional profile guide tracks in an outer sliding sunroof/moonroof are provided where both the front and rear mechanism or mechanism links travel fore/aft in the same channels as each other and have fore/aft travel that is limited only by vehicle architecture. The guide track channel is partly or entirely outside/outboard of the primary water/wind sealing system of the sunroof. | 04-04-2013 |
20130082486 | Sunroof Mechanism Linkage with Continuous One Part Guide Track - Continuous cross sectional profile guide tracks in an outer sliding sunroof/moonroof are provided where both the front and rear mechanism or mechanism links travel fore/aft in the same channels as each other and have fore/aft travel that is limited only by vehicle architecture. The guide track channel is partly or entirely outside/outboard of the primary water/wind sealing system of the sunroof. | 04-04-2013 |
20130078900 | Air Outlet Directional Flow Controller with Integrated Shut-Off Door - A vehicle air vent is provided that includes a plurality of air control vanes, the orientation of which determines the direction of air flow exiting the air vent; a shut-off door that allows air to flow through the air vent when it is in a first position and blocks air flow through the air vent when it is in a second position; a control tab mechanically coupled to the plurality of air control vanes; and a linkage assembly mechanically coupling the control tab to the shut-off door. Adjustment of the control tab within a first range of positions controls the orientation of the air control vanes while maintaining the shut-off door in an open position. Adjustment of the control tab within a second range of positions, however, moves the shut-off door between the first and second positions, thereby controlling air flow through the air vent. | 03-28-2013 |
20130078841 | Electromechanical Pawl for Controlling Vehicle Charge Inlet Access - A charge connector latching mechanism integrated into a vehicle's charge inlet is provided, where the latching mechanism includes a retractable latching pawl. The retractable pawl is configured to be positioned in at least a first, default position where the pawl extends through an inlet surface of the charge inlet, and a second position where the pawl is retracted and does not extend through the inlet surface. In the first position the retractable pawl prevents insertion of a charge connector into the charge inlet if the charge connector is uncoupled from the inlet, and prevents removal of the charge connector if the charge connector is coupled to the inlet. In the second position the retractable pawl allows insertion/withdrawal of the charge connector into/from the charge inlet. The front surface of the retractable pawl may include a nub configured to fit within a recess within the front face of the charge connector. | 03-28-2013 |
20130078839 | Funnel Shaped Charge Inlet - A vehicle charge inlet integrated into a port assembly surface is provided. The charge inlet includes an inlet housing with a perimeter that is curvilinear, non-cylindrical and shaped so that only a single orientation of a complementary sized and shaped electrical connector may be inserted into the inlet. A plurality of electrical contacts, a latching mechanism and a divider are also integrated into the charge inlet housing, the divider extending from the bottom surface of the inlet housing and configured to fit within a complementary slot of the charge connector, the divider providing further electrical isolation between the electrical contacts. A funneling surface connects the open end of the inlet housing to the port assembly surface. | 03-28-2013 |
20130078494 | Rigid Cell Separator for Minimizing Thermal Runaway Propagation within a Battery Pack - A spacer assembly, comprised of a plurality of rigid spacers, is provided that is configured for use with a cell mounting bracket within a battery pack. The spacer assembly maintains the positions of the batteries within the battery pack during a thermal event and after the cell mounting bracket loses structural integrity due to the increased temperature associated with the thermal event. By keeping the battery undergoing thermal runaway in its predetermined location within the battery pack, the minimum spacing between cells is maintained, thereby helping to minimize the thermal effects on adjacent cells while ensuring that the cooling system, if employed, is not compromised. As a result, the risk of thermal runaway propagation is reduced. | 03-28-2013 |
20130076076 | Angled Front Hood Sealing Assembly - A seal assembly for use with the front trunk, motor or engine compartment of an automobile is provided, the seal assembly including a sealing flange, a sealing member attached to an end portion of the sealing flange, and a hood assembly that includes an upper panel and an inner surface comprised of a sealing surface. The sealing surface of the hood assembly is configured to form a seal with the sealing member when the hood assembly is in a closed position. The sealing surface of the hood assembly is spaced apart from the end portion of the sealing flange, thereby allowing the sealing surface to pass by the end portion of the sealing flange when a downward force, such as that experienced during a head-on collision with a pedestrian, is applied to the hood causing the hood assembly to be downwardly displaced past the closed position. | 03-28-2013 |
20130076059 | Charge Port Door with Electromagnetic Latching Assembly - A door latching system for the door covering the charge port of an electric vehicle, or for the door covering the fuel filler port of a conventional vehicle, is provided. The door latching system is comprised of a ferromagnetic member attached to an interior surface of the door, and a latching assembly integrated into the port housing, where the latching assembly includes an assembly case, an electromagnet, and a permanent magnet that maintains the door in a closed position when the electromagnet is not energized and releases the door when the electromagnet is energized. The latching assembly may include a magnetic flux sensor that monitors when the port door is open or closed. The magnetic flux sensor may be coupled to a system controller that performs a preset response when the magnetic flux sensor determines that the door is open. | 03-28-2013 |
20130076051 | Integrated Energy Absorbing Vehicle Crash Structure - A crash structure is provided that is integrated within a vehicle side rail, the crash structure providing relatively level loading during a collision. The structure includes an actuator member coupled to the bumper, the actuator member passing into, and slidably disposed within, a hollow housing of the crash structure. The hollow housing contains a plurality of deformable members that at least partially surround a first portion of the actuator member. A second portion of the actuator member, which is between the bumper and the first portion of the actuator member, has a larger diameter than that of the first portion of the actuator member and is configured to deform the deformable members during a collision. | 03-28-2013 |
20130074985 | Vehicle Port Door with Wirelessly Actuated Unlatching Assembly - A port door unlatching system is provided that may be used to open the door covering the charge port of an electric vehicle, or the door covering the fuel filler port of a conventional vehicle. The system includes a fuel delivery subsystem with a fuel coupler (e.g., a charging connector or a gas nozzle) designed to transfer fuel from the source to the vehicle via the vehicle's fuel port. The fuel coupler includes a switch that when toggled, causes a control signal to be wirelessly transmitted over a short distance. Upon receipt of the control signal by a receiver integrated into a vehicle that is in close proximity to the fuel port, an unlatching actuator within the vehicle unlatches the port door, thereby allowing it to open and provide port access. | 03-28-2013 |
20130074525 | Thermal Management System with Heat Exchanger Blending Valve - A thermal management system and method of use are provided, the system including a heat exchanger, a refrigeration system, a coolant loop thermally coupled to the heat exchanger, and a by-pass valve that regulates the amount of coolant within the coolant loop that either passes through the heat exchanger or is diverted away from the heat exchanger. The coolant loop is thermally coupled to the battery pack of an electric vehicle. | 03-28-2013 |
20130074411 | Fuel Coupler with Wireless Port Door Unlatching Actuator - A fuel delivery system and method of use are provided that may be used to open the door covering the charge port of an electric vehicle, or the door covering the fuel filler port of a conventional vehicle. The system includes a fuel coupler (e.g., a charging connector or a gas nozzle) designed to transfer fuel from the source to the vehicle via the vehicle's fuel port. The fuel coupler includes a switch that when toggled, causes a control signal to be wirelessly transmitted over a short distance. Upon receipt of the control signal by a receiver integrated into a vehicle that is in close proximity to the fuel port, an unlatching actuator within the vehicle unlatches the port door, thereby allowing it to open and provide port access. | 03-28-2013 |
20130073234 | Response to Low Voltage Electrolysis in a Battery Pack - An apparatus and method providing for detecting and responding to low voltage electrolysis within an electric vehicle battery detecting and responding to low voltage electrolysis within an electric vehicle battery enclosure to limit a possible hazard condition of battery enclosure. A microprocessor-implemented response system for low voltage electrolysis in a battery pack, includes an evaluator to monitor, using the microprocessor, a low voltage electrolysis flag indicative of a possible low voltage electrolysis of fluid within an enclosure that generates a flammable gas including a plurality of electrically-coupled battery modules storing energy for the battery pack; and a remediation system, coupled to the enclosure and responsive to the possible low voltage electrolysis when the evaluator detects a likelihood of the possible low voltage electrolysis, to decrease risks associated with the possible low voltage electrolysis when the remediation system is active. | 03-21-2013 |
20130073233 | Detection of Low Voltage Electrolysis in a Battery Pack - An apparatus and method providing for detecting and responding to low voltage electrolysis within an electric vehicle battery detecting and responding to low voltage electrolysis within an electric vehicle battery enclosure to limit a possible hazard condition of battery enclosure. The present invention includes embodiments directed towards detection algorithms and apparatus for promoting the use of sensors (e.g., hydrogen, voltage, current, and immersion sensors) for the purpose of detecting low voltage electrolysis. Additionally, the present invention includes response processes and structures to address low voltage electrolysis. | 03-21-2013 |
20130073229 | Detection of High Voltage Electrolysis of Coolant in a Battery Pack - An apparatus and method providing for detecting and responding to high voltage electrolysis within an electric vehicle battery enclosure to limit possible excessive thermal condition of the individual battery cells and modules. The present invention includes embodiments directed towards detection algorithms and apparatus for promoting the use of voltage, current, humidity, temperature, and pressure sensors for the purpose of detecting high voltage electrolysis. Additionally, the present invention includes response processes and structures to address high-voltage electrolysis. | 03-21-2013 |
20130071701 | Response to High Voltage Electrolysis of Coolant in a Battery Pack - An apparatus and method providing for detecting and responding to high voltage electrolysis within an electric vehicle battery enclosure to limit possible excessive thermal condition of the individual battery cells and modules. A microprocessor-implemented response system for high voltage electrolysis in a battery pack an evaluator to monitor, using the microprocessor, a high voltage electrolysis flag indicative of a possible high voltage electrolysis within an enclosure including a plurality of electrically-coupled battery modules storing energy for the battery pack and a coolant distribution system disposed among and electrically isolated from the plurality of battery modules; and a remediation system, coupled to the enclosure and responsive to the possible high voltage electrolysis when the evaluator detects a likelihood of the possible high voltage electrolysis, to decrease risks associated with the possible high voltage electrolysis when operated. | 03-21-2013 |
20130069476 | Rotor Design for an Electric Motor - A rotor assembly is provided in which a solid rotor ring is formed at either end of a stack of laminated discs, the solid rotor rings yielding improved electrical and mechanical characteristics in a low weight assembly. The solid rotor rings are fabricated by brazing slugs between the end portions of the rotor bars, the braze joints contacting a large percentage (at least 90%) of the rotor bar end portions. | 03-21-2013 |
20130066506 | Dual Mode Range Extended Electric Vehicle - A dual mode battery charging system and method of use are provided for use in an electric vehicle. The system utilizes at least two user selectable, charging operational modes. In a first operational mode, a state of charge circuit powers on the engine/generator system whenever the battery state of charge falls below a first level and until the battery state of charge reaches a second level, where the second level is higher than the first level. In a second operational mode, the state of charge circuit powers on the engine/generator system whenever the battery state of charge falls below a third level and until the battery state of charge reaches the second level, where the third level is lower than both the first and second levels. | 03-14-2013 |
20130066505 | Dual Mode Range Extended Electric Vehicle - A dual mode battery charging system and method of use are provided for use in an electric vehicle. The system utilizes at least two user selectable, charging operational modes. In a first operational mode, a state of charge circuit cycles an engine/generator system on/off between a first level and a second level, where the second level is higher than the first level. In a second operational mode, the state of charge circuit cycles the engine/generator system on/off between a third level and a fourth level. After the fourth state of charge has been reached once, the state of charge circuit cycles the engine/generator system on/off between a fifth level and the fourth level, where the fifth level is higher than the third level and lower than the fourth level, and where the fourth level is lower than both the first and second levels. | 03-14-2013 |
20130066504 | Dual Mode Range Extended Electric Vehicle - A dual mode battery charging system and method of use are provided for use in an electric vehicle. The system utilizes at least two user selectable, charging operational modes. In a first operational mode, a state of charge circuit powers on the engine/generator system whenever the battery state of charge falls below a first level and until the battery state of charge reaches a second level, where the second level is higher than the first level. In a second operational mode, the state of charge circuit powers on the engine/generator system whenever the battery state of charge falls below a third level and until the battery state of charge reaches a fourth level, where the fourth level is higher than the third level, and where both the third and fourth levels are lower than both the first and second levels. | 03-14-2013 |
20130059181 | Battery Cap Assembly with High Efficiency Vent - A battery cell design is disclosed that provides a predictable pathway through a portion of the cell (e.g., the cell cap assembly) for the efficient release of the thermal energy that occurs during thermal runaway, thereby reducing the chances of a rupture in an undesirable location. Furthermore the disclosed design maintains the functionality of the cell cap as the positive terminal of the cell, thereby having minimal impact on the manufacturability of the cell as well as its use in a variety of applications. | 03-07-2013 |
20130057210 | Method of Operating a Multiport Vehicle Charging System - A method of distributing charging power among a plurality of charge ports of a battery charging station is provided, where the battery charging station includes a plurality of power stages where each power stage includes an AC to DC converter and provides a portion of the charging station's maximum available charging power, the method comprising the steps of (i) monitoring battery charging station conditions and operating conditions for each charging port; (ii) determining current battery charging station conditions, including current operating conditions for each charging port; (iii) determining power distribution for the battery charging station and the charging ports in response to the current battery charging conditions and in accordance with a predefined set of power distribution rules; and (iv) coupling the power stages to the charging ports in accordance with the power distribution. | 03-07-2013 |
20130057209 | Multiport Vehicle DC Charging System with Variable Power Distribution - A battery charging station is provided that includes a plurality of charge ports, a plurality of power stages where each power stage includes an AC to DC converter and where each power stage provides a portion of the charging station's maximum available charging power, a switching system that is used to couple the output of the power stages to the charging ports, a system monitor that determines current charging station and vehicle conditions, and a controller that controls operation of the switching system in accordance with a predefined set of power distribution rules and on the basis of the current charging station and vehicle conditions. Current charging station and vehicle conditions may include vehicle arrival time, usage fees, vehicle and/or customer priority information, battery pack SOC, and/or intended departure time. | 03-07-2013 |
20130027049 | Method for Determining Battery Pack Isolation Resistance Via Dual Bus Monitoring - A method for measuring and calculating the isolation resistance of a battery pack is provided, the method being invulnerable to changes in the bus voltage that may take place between measurements. | 01-31-2013 |
20130015823 | Charge Rate Modulation of Metal-Air Cells as a Function of Ambient Oxygen Concentration - A method for charging a metal-air battery pack at the maximum possible rate while maintaining an ambient oxygen concentration below a preset concentration is provided, thereby minimizing the risks associated with generating oxygen during the charging cycle. | 01-17-2013 |
20130015814 | Charge Disruption Monitoring and Notification SystemAANM Kelty; Kurt RussellAACI Palo AltoAAST CAAACO USAAGP Kelty; Kurt Russell Palo Alto CA USAANM Kohn; Scott IraAACI Redwood CityAAST CAAACO USAAGP Kohn; Scott Ira Redwood City CA US - A system and method for notifying a designated party when an electric vehicle charging operation is unexpectedly disrupted is provided. The system monitors the connection between the electric vehicle and the external battery pack charging source, issues a command to a notification system to send a notification message to the designated party when an interruption is detected, and then issues the notification message in accordance with a set of notification instructions. The notification instructions may include one or more criteria for determining whether the disruption is authorized, thus not requiring the transmittal of the notification message. Criteria for accepting the change in battery pack charging status as authorized includes user/device proximity to the vehicle, achievement of a target battery pack SOC, and location of the vehicle within a safe zone. | 01-17-2013 |
20130004820 | Battery Coolant Jacket - A battery coolant jacket for use with a plurality of cells is provided, the jacket comprised of a hollow enclosure configured to permit a liquid coolant to flow through the enclosure, entering via a coolant inlet and exiting via a coolant outlet; a plurality of cell apertures that extend completely through the hollow enclosure, where each cell aperture is sized to fit a cell; and a plurality of coolant segregation walls that are integrated into the hollow enclosure and separate the cells into groups of cells, and where each coolant segregation wall forms a barrier between the cell group contained within that coolant segregation wall and the liquid coolant flowing through the hollow enclosure. The coolant jacket may include at least one flow control wall integrated within the hollow enclosure that controls the coolant flow pathway between the enclosure's coolant inlet and outlet, for example causing the coolant flow pathway to alternate directions between adjacent cell groups. | 01-03-2013 |
20130002173 | TRACTION MOTOR CONTROLLER WITH DISSIPATION MODE - An apparatus in an electric vehicle including a propulsion electric motor powered by energy from an energy storage system, including a field oriented motor controller generating motor control signals for the electric motor, the motor control signals responsive to a flux command signal and a torque command signal; a torque command calculator, coupled to the motor controller, generating the torque command signal to command a desired torque; an optimal efficiency controller, coupled to the torque command calculator, generating an operating efficiency flux to operate the electric motor at a first determinable efficiency using a first power from the energy storage system while providing the desired torque; an excess dissipation controller generating an inefficient flux to operate the electric motor at a second determinable efficiency using a second power from the energy storage system independent of the desired torque wherein the second power is greater than the first power; and a mode controller setting the flux command signal using one of the optimal efficiency flux and the inefficient flux. | 01-03-2013 |
20120315517 | Battery Pack Dehumidifier with Active Reactivation System - A battery pack dehumidifier system for controlling the relative humidity within a battery pack enclosure is provided, the dehumidifier system including a desiccant that absorbs/adsorbs water vapor from the battery pack enclosure. The system heats and reactivates the desiccant at predetermined time intervals or when the humidity within the system reaches a preset level, thereby allowing the desiccant to regain its potential for absorbing/adsorbing water vapor. | 12-13-2012 |
20120312615 | Vehicle Battery Pack Ballistic Shield - An improved protection system for a battery pack mounted between the passenger cabin floor panel of an electric vehicle and the driving surface is provided, the system utilizing a ballistic shield mounted under the electric vehicle and interposed between the battery pack enclosure and the driving surface, where the ballistic shield is spaced apart from the enclosure bottom panel. A layer of a compressible material is interposed between the ballistic shield and the battery pack enclosure. | 12-13-2012 |
20120308859 | Battery Pack Enclosure with Controlled Thermal Runaway Release System - A battery pack thermal management system is provided that is comprised of at least one enclosure failure port integrated into at least one wall of a battery pack enclosure, where the enclosure failure port(s) remains closed during normal operation of the battery pack, and opens during a battery pack thermal runaway event, thereby providing a flow path for hot gas generated during the thermal runaway event to be exhausted out of the battery pack enclosure in a controlled fashion. | 12-06-2012 |
20120308858 | Battery Pack Enclosure with Controlled Thermal Runaway Release System - A battery pack thermal management system is provided that is comprised of at least one enclosure failure port integrated into at least one wall of a battery pack enclosure, where the enclosure failure port(s) remains closed during normal operation of the battery pack, and opens during a battery pack thermal runaway event, thereby providing a flow path for hot gas generated during the thermal runaway event to be exhausted out of the battery pack enclosure in a controlled fashion. | 12-06-2012 |
20120308857 | Method and Apparatus for Maintaining Cell Wall Integrity Using a High Yield Strength Outer Casing - A method and apparatus is provided in which a pre-formed secondary can comprised of one or more layers of a high yield strength material is positioned around the pre-formed battery case, the pre-formed secondary can inhibiting the flow of hot, pressurized gas from within the battery through perforations formed in the battery casing during a thermal runaway event. | 12-06-2012 |
20120305283 | POWER ELECTRONICS INTERCONNECTION FOR ELECTRIC MOTOR DRIVES - The bus bar includes a first bus bar layer formed of a first generally uniform thickness of a first bus bar conductor; a first dielectric layer overlying a top surface of the first bus bar layer; and a second bus bar layer formed of a second generally uniform thickness of a second bus bar conductor overlying a top surface of the first dielectric layer and the top surface of the first bus bar layer wherein: the first bus bar layer includes a first via for receipt of a first electrical lead of an electrical component and a second via for receipt of a second electrical lead of the electrical component and wherein: the first dielectric layer and the second bus bar layer each include a via aligned with the first via wherein the first electrical lead is extendable from beneath the first bus bar layer through the first dielectric layer and through the second bus bar layer. | 12-06-2012 |
20120280662 | CHARGING EFFICIENCY USING VARIABLE ISOLATION - A method for charging an energy storage system (ESS) from an AC line voltage having differing input voltages (e.g., 120Vac or 240Vac), the method includes a) determining which of the AC line voltages is provided for charging the ESS as a charging AC voltage; b) boosting the charging AC voltage to an intermediate voltage responsive to the provided AC line voltage; c) scaling, responsive to the particular one of the AC line voltages, the intermediate voltage to a secondary voltage using a scaling factor; and d) converting the secondary voltage to a charging voltage applied to the ESS. | 11-08-2012 |
20120270080 | Integrated Battery Pressure Relief and Terminal Isolation System - A system for integrating the venting feature of a battery with a means for simultaneously disconnecting the cell from the battery pack, thereby isolating the cell, is provided. The provided battery interconnect system is comprised of a battery, a connector plate for electrically coupling the battery to a battery pack, and an interruptible electrical connector for electrically coupling the connector plate to a battery terminal vent. The venting region, defined by scoring on the battery terminal, ruptures when the internal battery pressure exceeds the predefined battery operating range, causing the interruptible electrical connector to break and disrupt electrical continuity between the connector plate and the battery terminal. | 10-25-2012 |
20120266914 | CLEANING FEATURE FOR ELECTRIC CHARGING CONNECTOR - A contamination cleaner for a socket of a charging connector used with a charging station for an electric vehicle wherein the charging connector mates to a charging coupler of the electric vehicle during charging includes a housing mechanically configured generally similarly to the charging coupler enabling the housing to mechanically mate to the charging connector; and a cleaning contact, coupled to the housing and complementary to the socket, for engaging the socket and removing surface contaminants from the socket whenever the housing mechanically mates to the charging connector. | 10-25-2012 |
20120237803 | Battery Pack Directed Venting System - A thermal management system is provided that minimizes the effects of thermal runaway within a battery pack, the system using an integrated battery venting assembly comprised of an integrated exhaust port, a valve retention plate that covers the exhaust port and includes a plurality of retention plate ports, and a plurality of valves that are configured to seal the retention plate ports under normal conditions and unseal the retention plate ports during thermal runaway. As hot gas passes through the retention plate ports, the plate is configured to melt and be ejected, thereby allowing subsequent hot gas to pass through the larger exhaust port. A perforated cover plate may be used to protect the external surfaces of the retention plate and valves. An internally mounted exhaust guide may be used to direct the flow of hot gas expelled during the thermal runaway event. | 09-20-2012 |
20120231306 | Battery Pack Venting System - A thermal management system is provided that minimizes the effects of thermal runaway within a battery pack. The system is comprised of a sealed battery pack enclosure configured to hold a plurality of batteries, where the battery pack enclosure is divided into a plurality of sealed battery pack compartments. The system also includes a plurality of battery venting assemblies, where at least one battery venting assembly is integrated into each of the sealed battery pack compartments, and where each of the battery venting assemblies includes an exhaust port integrated into an outer wall of the battery pack compartment and a valve, the valve being configured to seal the exhaust port under normal operating conditions and to unseal the exhaust port when at least one of the batteries within the battery pack compartment enters into thermal runaway. | 09-13-2012 |
20120229098 | CHARGING EFFICIENCY USING SELECTABLE ISOLATION - The apparatus for charging an energy storage system (ESS) from an AC line voltage includes a boost stage for converting the AC line voltage to a first ESS charging voltage; an isolation stage, coupled to the boost stage, for converting the first ESS charging voltage to a second ESS charging voltage with the second ESS charging voltage less than the first ESS charging voltage, the isolation stage removing a common mode current between the ESS and the boost stage; a configurator, responsive to a control signal, to set a direct communication of the first ESS charging voltage to the ESS in a bypass mode and to open the direct communication of the first ESS charging voltage to the ESS in an isolation mode; and a controller, coupled to the configurator, for setting the modes responsive to a battery voltage, a peak of the AC line voltage, and a total leakage current at an input of the AC line voltage, the controller asserting the control signal to the configurator. | 09-13-2012 |
20120222833 | Active Louver System for Controlled Airflow in a Multi-Function Automotive Radiator and Condenser System - A vehicle thermal management system is provided that includes two or more heat exchangers configured in a non-stacked arrangement, where separate air inlets corresponding to each of the heat exchangers allow a direct intake of ambient air. Active louver systems consisting of sets of adjustable louvers and a control actuator are used to control and regulate air flowing directly into one or more of the heat exchangers, where the adjustable louvers are either adjustable between two positions, i.e., opened and closed, or adjustable over a range of positions. Air ducts may be used to couple the output from one heat exchanger to the input of a different heat exchanger. | 09-06-2012 |
20120195087 | FAST SWITCHING FOR POWER INVERTER - An apparatus includes an inverter including a high-side switch coupled to a low-side switch, the inverter generating a time-varying drive current from a plurality of drive control signals, a positive rail voltage, and a negative rail voltage wherein controlling the switches to generate the time-varying drive current produces a potential transitory overshoot condition for one of the switches of the inverter; a drive control, coupled to the inverter, to generate the drive control signals and to set a level of each of the rail voltages responsive to a plurality of controller signals; and a controller monitoring one or more parameters indicative of the potential transitory voltage overshoot condition, the controller dynamically adjusting, responsive to the monitored parameters, the controller signals to reduce a risk of occurrence of the potential transitory voltage overshoot condition. | 08-02-2012 |
20120195085 | FAST SWITCHING FOR POWER INVERTER - An apparatus includes an inverter including a high-side switch coupled to a low-side switch, the inverter generating a time-varying drive current from a plurality of drive control signals, a positive rail voltage, and a negative rail voltage wherein controlling the switches to generate the time-varying drive current produces a potential transitory overshoot condition for one of the switches of the inverter; a drive control, coupled to the inverter, to generate the drive control signals and to set a level of each of the rail voltages responsive to a plurality of controller signals; and a controller monitoring one or more parameters indicative of the potential transitory voltage overshoot condition, the controller dynamically adjusting, responsive to the monitored parameters, the controller signals to reduce a risk of occurrence of the potential transitory voltage overshoot condition. | 08-02-2012 |
20120195079 | FAST SWITCHING FOR POWER INVERTER - An apparatus includes an inverter including a high-side switch coupled to a low-side switch, the inverter generating a time-varying drive current from a plurality of drive control signals, a positive rail voltage, and a negative rail voltage wherein controlling the switches to generate the time-varying drive current produces a potential transitory overshoot condition for one of the switches of the inverter; a drive control, coupled to the inverter, to generate the drive control signals and to set a level of each of the rail voltages responsive to a plurality of controller signals; and a controller monitoring one or more parameters indicative of the potential transitory voltage overshoot condition, the controller dynamically adjusting, responsive to the monitored parameters, the controller signals to reduce a risk of occurrence of the potential transitory voltage overshoot condition. | 08-02-2012 |
20120194119 | FAST SWITCHING FOR POWER INVERTER - An apparatus includes an inverter including a high-side switch coupled to a low-side switch, the inverter generating a time-varying drive current from a plurality of drive control signals, a positive rail voltage, and a negative rail voltage wherein controlling the switches to generate the time-varying drive current produces a potential transitory overshoot condition for one of the switches of the inverter; a drive control, coupled to the inverter, to generate the drive control signals and to set a level of each of the rail voltages responsive to a plurality of controller signals; and a controller monitoring one or more parameters indicative of the potential transitory voltage overshoot condition, the controller dynamically adjusting, responsive to the monitored parameters, the controller signals to reduce a risk of occurrence of the potential transitory voltage overshoot condition. | 08-02-2012 |
20120183826 | Apparatus for the External Application of Battery Pack Encapsulant - An apparatus for simplifying battery pack encapsulation is provided. The battery pack includes a pair of complementary housing members with each housing member including a plurality of cell constraints into which the ends of corresponding battery cells are inserted during assembly. One or both housing members also include at least one, and preferably a plurality, of raised encapsulant injection ports. The raised encapsulant injection ports are designed to extend above the surface of the respective housing members and beyond the injected encapsulation material, thus ensuring that the ports remain open after encapsulation material injection. | 07-19-2012 |
20120183815 | Thermal Management System with Dual Mode Coolant Loops - A dual mode, thermal management system for use in a vehicle is provided. At a minimum, the system includes a first coolant loop in thermal communication with a battery system, a second coolant loop in thermal communication with at least one drive train component (e.g., electric motor, power electronics, inverter), a dual mode valve system that provides means for selecting between a first mode where the two coolant loops operate in parallel and a second mode where the two coolant loops operate in series, and a coolant reservoir that is coupled to both coolant loops when the two coolant loops are operating in series and only coupled to the drive train coolant loop when the two coolant loops are operating in parallel. | 07-19-2012 |
20120180997 | Coolant De-Aeration Reservoir - A coolant de-aeration system is provided that includes a coolant reservoir, a plurality of de-aeration chambers within the reservoir, a plurality of de-aeration chamber apertures that direct coolant flow through the de-aeration chambers, a reservoir inlet and a reservoir outlet that share a common coolant flow pathway that allows the majority of coolant to flow directly between the reservoir inlet and the reservoir outlet, and a reservoir inlet aperture that directs a portion of coolant passing along the common coolant flow pathway through the reservoir's de-aeration chambers for de-aeration prior to being returned to the common coolant flow pathway. | 07-19-2012 |
20120175916 | Swept Front Torque Box - A front structure for a vehicle is provided, the structure including (i) a pair of front rails spaced apart in a widthwise direction with each rail extending lengthwise, and where each rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel with the upper and lower channels sharing a common wall; and (ii) a pair of curvilinear torque boxes, where one curvilinear torque box is mechanically attached to the upper and lower polygonal-shaped channels of each front rail, where each curvilinear torque box is mechanically coupled to a rocker panel, where the upper polygonal-shaped channel of each front rail is in a horizontal plane located above the top surface of the corresponding rocker panel, and where the lower polygonal-shaped channel of each front rail is in a horizontal plane that is aligned with the corresponding rocker panel. | 07-12-2012 |
20120175900 | Dual Load Path Design for a Vehicle - A system for absorbing and distributing front impact forces in a vehicle is provided, the system including a primary impact system and a secondary impact system, each of which includes a bumper and a structure for transferring impact loads. The primary impact system includes a primary bumper and a pair of front rails spaced apart in a widthwise direction with each rail extending lengthwise, where one end portion of each rail is mechanically coupled to the vehicle's bumper and the other end portion of each rail is mechanically coupled to a torque box. The secondary impact system includes a secondary bumper and an assembly of sub-frame components separate from the front rails that allow impact loads to be transferred in parallel through the front rails and the sub-frame. | 07-12-2012 |
20120175899 | Front Rail Reinforcement System - A front structure for a vehicle is provided, the structure including (i) a pair of front rails (i.e., front left hand rail and front right hand rail) spaced apart in a widthwise direction with each rail extending lengthwise, where one end portion of each rail is mechanically coupled to the vehicle's bumper and the other end portion of each rail is mechanically coupled to a torque box, and where each rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel, and where the upper and lower channels share a common wall; and (ii) a pair of rail reinforcement members, where one rail reinforcement member is mechanically mounted within each front rail, and where a plurality of features corresponding to each reinforcement member determines how the rails react to front impact loads. | 07-12-2012 |
20120175898 | Bumper Mounting Plate for Double Channel Front Rails - A front structure for a vehicle is provided, the structure including (i) a pair of front rails (i.e., front left hand rail and front right hand rail) spaced apart in a widthwise direction with each rail extending lengthwise, and where each rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel with the upper and lower channels sharing a common wall; and (ii) a pair of bumper mounting plates, where one bumper mounting plate is interposed between the end portion of each channel of each rail and the vehicle's bumper, and where each bumper mounting plate aligns the upper rail channels with the vehicle's bumper while transferring impact loads to both the upper and lower rail channels. | 07-12-2012 |
20120175897 | Front Rail Configuration for the Front Structure of a Vehicle - A front structure for a vehicle is provided that includes a pair of front rails (i.e., front left hand rail and front right hand rail) spaced apart in a widthwise direction with each rail extending lengthwise and mechanically coupled to the vehicle's bumper and a torque box. Each front rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel, where the upper and lower channels share a common wall. | 07-12-2012 |
20120169089 | Rear Vehicle Torque Box - A rear structure for a vehicle is provided, the structure including (i) a pair of single piece rear torque boxes; (ii) a pair of rocker panels mechanically coupled to the rear torque boxes; (iii) a pair of rear rails mechanically coupled to the rear torque boxes; and (iv) at least one cross-member interposed between and mechanically coupled to the rear torque boxes. | 07-05-2012 |
20120169023 | Vehicle Front Shock Tower - A front structure for a vehicle is provided, the structure including a single piece shock tower and an upper control arm, where the front coupling of the upper control arm is attached to the shock tower at a location directly above a corresponding surface of the shock tower such that the front coupling is exposed from above, and where the rear coupling of the upper control arm is attached to the shock tower at a location directly below a corresponding surface of the shock tower such that the rear coupling is unexposed from above. | 07-05-2012 |
20120168125 | Multi-Function Automotive Radiator and Condenser Airflow System - A vehicle thermal management system is provided that includes two or more heat exchangers configured in a non-stacked arrangement, where separate air inlets corresponding to each of the heat exchangers allow a direct intake of ambient air. Corresponding to each heat exchanger is a set of adjustable louvers that control ambient air flowing directly into the heat exchanger. The adjustable louvers may be adjustable between two positions; fully opened or fully closed. Alternately, the adjustable louvers may be adjustable over a range between fully opened and fully closed. Alternately, each set of adjustable louvers may be comprised of multiple groups of independently controllable louvers. Air ducts may be used to couple the output from one heat exchanger to the input of a different heat exchanger. | 07-05-2012 |
20120161472 | System for Absorbing and Distributing Side Impact Energy Utilizing an Integrated Battery Pack - An energy absorbing and distributing side impact system for use with a vehicle is provided, the system utilizing a battery pack enclosure that includes a plurality of cross-members that transverse the battery pack enclosure and absorb and distribute at least a portion of the load received when either the first or second side of the vehicle receives a side impact. The battery pack enclosure is positioned between the front and rear vehicle suspension assemblies and mounted between, and mechanically coupled to, vehicle structural members (e.g., rocker panels) located on either side of the vehicle. In addition to providing rigidity, strength and impact resistance, the battery pack cross-members segregate the batteries contained within the battery pack enclosure into battery groups. | 06-28-2012 |
20120161429 | Augmented Vehicle Seat Mount - A vehicle seat mounting assembly is provided in which the seat mounts are attached to body cross-members that are, in turn, mechanically coupled to battery pack cross-members contained within a battery pack enclosure mounted under the vehicle. | 06-28-2012 |
20120160583 | Integration System for a Vehicle Battery Pack - An improved integration system for a battery pack mounted between the passenger cabin floor panel of an electric vehicle and the driving surface is provided, the system utilizing at least one insulating layer interposed between the battery pack enclosure and the passenger cabin floor panel, where the insulating layer provides noise isolation, thermal isolation and vibration damping, and where the insulating layer is compressed when the battery pack enclosure is mounted to the vehicle. | 06-28-2012 |
20120160088 | Vehicle Battery Pack Ballistic Shield - An improved protection system for a battery pack mounted between the passenger cabin floor panel of an electric vehicle and the driving surface is provided, the system utilizing a ballistic shield mounted under the electric vehicle and interposed between the battery pack enclosure and the driving surface, where the ballistic shield is spaced apart from the enclosure bottom panel. A layer of a compressible material may be interposed between the ballistic shield and the battery pack enclosure. | 06-28-2012 |
20120153901 | Method of Withdrawing Heat from a Battery Pack - A method for withdrawing heat from a battery pack is provided, wherein the heat is transferred from at least one electrode of each cell comprising the battery pack, via an electrically and thermally conductive tab, through a current collector plate and through a thermal interface layer to a temperature control panel that is coupled to an external temperature control system. | 06-21-2012 |
20120153718 | Thermal Management System for Use with an Integrated Motor Assembly - An integrated drive system assembly is provided that combines an electric motor, a power inverter assembly and a gearbox into a single, multi-piece enclosure. Combining these components into a single enclosure reduces weight, reduces drive system complexity, reduces system volume, simplifies assembly integration into an electric vehicle, reduces manufacturing cost, allows the flexible and lengthy electrical cables between the power inverter and the electric motor to be replaced with short, low loss, rigid bus bars, and simplifies component cooling by allowing the use of a common thermal management system. The common thermal management system includes a liquid coolant loop that is thermally coupled to the electric motor, the power inverter assembly and the gearbox. | 06-21-2012 |
20120153682 | Single Piece Vehicle Rocker Panel - A vehicle rocker panel is provided that is extruded as a single piece. As extruded, the rocker panel may include one or more interior reinforcing walls as well as interior and exterior design features. | 06-21-2012 |
20120153675 | Reinforced B-Pillar Assembly with Reinforced Rocker Joint - A reinforced B-pillar assembly that achieves improved side impact resistance is provided in which the B-pillar assembly is mechanically coupled to an outer mounting surface of the rocker panel as well as to an extended brace that is attached to the upper and rear mounting surfaces of the rocker. | 06-21-2012 |
20120151843 | Vehicle Door Secondary Sealing System - A seal for use with a vehicle door is provided, the seal preferably used as a secondary or tertiary seal to provide additional passenger cabin sound isolation and weather proofing. The seal is attached to a seam within the door jamb, the seal formed by coupling a central body panel flange to a rear quarter panel flange. | 06-21-2012 |
20120111445 | PERFORATION APPARATUS AND METHOD FOR ELECTRIC VEHICLE BATTERY ENCLOSURE - A perforation tool for a battery enclosure system of a vehicle battery pack, comprising: an engaging tip configured to mechanically breach a thermal-control-agent-retaining enclosure of a traction battery pack including a plurality of interconnected batteries with the enclosure reinforced for mechanical protection of the batteries when installed in an electric vehicle; a port for receiving a thermal-control agent having a pressure in a range of about 5-100 psi; and a housing, coupled to the tip and to the port, wherein the tip includes an aperture and wherein the housing includes a channel communicating the port to the aperture wherein the pressurized thermal-control agent is produced at the tip at about the pressure. | 05-10-2012 |
20120111444 | FILL PORT FOR ELECTRIC VEHICLE BATTERY ENCLOSURE - An apparatus and method providing for coolant agent ingress of a high energy density battery enclosure during an internal thermal event. A solution includes a specialized battery enclosure and, in some embodiments, an associated vehicle structure providing a normally closed, pressure activated fill port. Preferably the fill port is positioned so an operator of the fill port is clear from any hot gases exiting from the enclosure. | 05-10-2012 |
20120105015 | Battery Pack Overcharge Protection System - An overcharge protection device (OPD) is provided that may be used alone, or in combination with conventional charging protection systems, to protect a battery pack from the occurrence of a potentially damaging overcharging event. The OPD is designed to be coupled to, and interposed between, the terminals of the battery pack. During normal system operation, the OPD has no effect on the operation of the charging system or the battery pack. During an overcharging event, if overcharging is not prevented by another conventional system, the OPD of the invention creates a short across the terminals of the battery pack causing a battery pack fuse designed to provide battery pack short circuit protection to blow, thereby interrupting the current path from the charger to the battery pack and preventing the battery pack from being overcharged. | 05-03-2012 |
20120098501 | EFFICIENT LEAD ACID BATTERY CHARGING - An apparatus and method for improving use efficiencies of lead-acid batteries, and more particularly to 12V external lead-acid batteries used in vehicles of all types, load-leveling installations, and backup power applications. A method includes the steps of: a) determining a state of charge (SOC) for a lead-acid battery; b) comparing the SOC against a predetermined charge zone, the charge zone having an upper bound no more than about 90% maximum charge and more preferably no more than about 85% maximum charge and the charge zone having a lower bound no less than about 70% maximum charge and more preferably no less than about 75% maximum charge; and c) maintaining a charge of the lead-acid battery wherein the SOC is within the charge zone. | 04-26-2012 |
20120091953 | AC CURRENT CONTROL OF MOBILE BATTERY CHARGERS - A charging system and method that improves utilization of available AC power during onboard charging of energy storage systems of electric vehicles. An onboard charging method for an energy storage system of an electric vehicle, the method using an AC power source, includes a) establishing a maximum DC charging current for the energy storage system responsive to a control signal indicating real-time available current/power from the AC source; and b) controlling a charging system to provide an actual DC charging current, up to the maximum DC charging current, to the energy storage system. | 04-19-2012 |
20120046815 | Method for Optimizing Battery Pack Temperature - A method for limiting the adverse effects of temperature on the electrical energy storage system (ESS) of an electric vehicle after the vehicle has been turned off is provided. In general, whether or not coolant is circulated through a coolant loop coupled to the ESS depends on the difference between the ambient temperature and a preset temperature, the preset temperature typically corresponding to the temperature of the ESS. | 02-23-2012 |
20120046795 | METHOD AND APPARATUS FOR EXTENDING LIFETIME FOR RECHARGEABLE STATIONARY ENERGY STORAGE DEVICES - A flexible management system and method for efficiently operating energy storage devices to extend the lifetime and decrease costs includes (a) determining an active energy consumption period for the energy storage device; (b) determining an inactive energy consumption period for the energy storage device; (c) operating the energy storage device in a usage mode during the active energy consumption period; and (d) operating the energy storage device in a storage mode during the inactive energy consumption period. | 02-23-2012 |
20120041628 | Control, Collection and Use of Metal-Air Battery Pack Effluent - A system and method for maintaining an ambient oxygen concentration below a preset concentration while charging a metal-air battery pack is provided, the system utilizing an on-board means for collecting and storing the oxygen-rich effluent generated during the charge cycle. | 02-16-2012 |
20120041627 | Efficient Dual Source Battery Pack System for an Electric Vehicle - A method of optimizing the operation of the power source of an electric vehicle is provided, where the power source is comprised of a first battery pack (e.g., a non-metal-air battery pack) and a second battery pack (e.g., a metal-air battery pack). The power source is optimized to minimize use of the least efficient battery pack (e.g., the second battery pack) while ensuring that the electric vehicle has sufficient power to traverse the expected travel distance before the next battery charging cycle. Further optimization is achieved by setting at least one maximum speed limit based on vehicle efficiency and the state-of-charge (SOC) of the first and second battery packs. | 02-16-2012 |
20120041626 | Efficient Dual Source Battery Pack System for an Electric Vehicle - A method of optimizing the operation of the power source of an electric vehicle is provided, where the power source is comprised of a first battery pack (e.g., a non-metal-air battery pack) and a second battery pack (e.g., a metal-air battery pack). The power source is optimized to minimize use of the least efficient battery pack (e.g., the second battery pack) while ensuring that the electric vehicle has sufficient power to traverse the expected travel distance before the next battery charging cycle. Further optimization is achieved by setting at least one acceleration limit based on vehicle efficiency and the state-of-charge (SOC) of the first and second battery packs. | 02-16-2012 |
20120041625 | Efficient Dual Source Battery Pack System for an Electric Vehicle - A method of optimizing the operation of the power source of an electric vehicle is provided, where the power source is comprised of a first battery pack (e.g., a non-metal-air battery pack) and a second battery pack (e.g., a metal-air battery pack). The power source is optimized to minimize use of the least efficient battery pack (e.g., the second battery pack) while ensuring that the electric vehicle has sufficient power to traverse the expected travel distance before the next battery charging cycle. | 02-16-2012 |
20120041624 | Electric Vehicle Extended Range Hybrid Battery Pack System - A power source comprised of a first battery pack (e.g., a non-metal-air battery pack) and a second battery pack (e.g., a metal-air battery pack) is provided, wherein the second battery pack is only used as required by the state-of-charge (SOC) of the first battery pack or as a result of the user selecting an extended range mode of operation. Minimizing use of the second battery pack prevents it from undergoing unnecessary, and potentially lifetime limiting, charge cycles. The second battery pack may be used to charge the first battery pack or used in combination with the first battery pack to supply operational power to the electric vehicle. | 02-16-2012 |
20120041623 | Charge Rate Modulation of Metal-Air Cells as a Function of Ambient Oxygen Concentration - A system and method for charging a metal-air battery pack at the maximum possible rate while maintaining an ambient oxygen concentration below a preset concentration is provided, thereby minimizing the risks associated with generating oxygen during the charging cycle. | 02-16-2012 |
20120041622 | Charge Rate Modulation of Metal-Air Cells as a Function of Ambient Oxygen Concentration - A system and method for charging a metal-air battery pack at the maximum possible rate while maintaining an ambient oxygen concentration below a preset concentration is provided, thereby minimizing the risks associated with generating oxygen during the charging cycle. | 02-16-2012 |
20120040255 | Hazard Mitigation Through Gas Flow Communication Between Battery Packs - A system and method for mitigating the effects of a thermal event within a non-metal-air battery pack is provided in which the hot gas and material generated during the event is directed into the metal-air cells of a metal-air battery pack. The metal-air cells provide a large thermal mass for absorbing at least a portion of the thermal energy generated during the event before it is released to the ambient environment. As a result, the risks to vehicle passengers, bystanders, first responders and property are limited. | 02-16-2012 |
20120040253 | Collection, Storage and Use of Metal-Air Battery Pack Effluent - A system and method for collecting, storing and using the oxygen-rich effluent generated when charging a metal-air battery pack is provided. | 02-16-2012 |
20120040212 | Hazard Mitigation Within a Battery Pack Using Metal-Air Cells - A system and method for mitigating the effects of a thermal event within a battery pack is provided in which the hot gas and material generated during the thermal runaway of at least one non-metal-air cell of a plurality of non-metal-air cells is directed through one or more metal-air cells, the metal-air cells absorbing at least a portion of the thermal energy generated during the event before it is released to the ambient environment. As a result, the risks to vehicle passengers, bystanders, first responders and property are limited. | 02-16-2012 |
20120040210 | Thermal Energy Transfer System for a Power Source Utilizing Both Metal-Air and Non-Metal-Air Battery Packs - A power source comprised of a metal-air battery pack and a non-metal-air battery pack is provided, wherein thermal energy from the metal-air battery pack is used to heat the non-metal-air battery pack. In one aspect, a thermal energy transfer system is provided that controls the flow of thermal energy from the metal-air battery pack to the non-metal-air battery pack. In another aspect, the flow of thermal energy from the metal-air battery pack to the non-metal-air battery pack is controlled and used to heat the non-metal-air battery pack prior to charging the non-metal-air battery pack. | 02-16-2012 |
20120038314 | Electric Vehicle Extended Range Hybrid Battery Pack System - A power source comprised of a first battery pack (e.g., a non-metal-air battery pack) and a second battery pack (e.g., a metal-air battery pack) is provided, wherein the second battery pack is only used as required by the state-of-charge (SOC) of the first battery pack or as a result of the user selecting an extended range mode of operation. Minimizing use of the second battery pack prevents it from undergoing unnecessary, and potentially lifetime limiting, charge cycles. The second battery pack may be used to charge the first battery pack or used in combination with the first battery pack to supply operational power to the electric vehicle. | 02-16-2012 |
20120037310 | SELECTIVE CURE OF ADHESIVE IN MODULAR ASSEMBLIES - The system includes a module fixture supporting a plurality of elements, the module fixture defining a plurality of bonding wells with each bonding well accepting a first portion of one or more of the elements with the module fixture including one or more apertures communicated with one or more of the bonding wells with the bonding wells having a nominal depth; and a dispensing system, coupled to the module fixture, for dispensing a high-wettability adhesive into each the bonding well and surrounding each the element substantially filling the bonding well up to the nominal depth without significant overfill, the adhesive being selectively curable upon application of a curing modality; and a curing structure for selectively exposing the adhesive to the curing modality as the adhesive emerges from the apertures during dispensation of the adhesive. | 02-16-2012 |
20120034501 | Battery Pack Configuration to Reduce Hazards Associated with Internal Short Circuits - A battery pack, or battery pack module, is provided that is configured to respond to a short circuit of moderate current in a manner that minimizes the risk of an initial thermal runaway event propagating throughout the battery pack/battery pack module. In general, the battery pack/battery module allows pre-selection of which cell of the cells comprising the battery pack/battery pack module will be the last cell to respond to the short circuit. As a result, a thermal isolation barrier may be used to separate the preselected cell from the other cells of the battery pack/battery pack module, thereby minimizing the risk of excessive heating and extensive collateral damage. | 02-09-2012 |
20120034497 | Battery Pack with Cell-Level Fusing - A battery pack, or battery pack module, is provided that achieves improved battery pack performance, system reliability and system safety while impacting only a small region of the battery pack/battery module, and thus having only a minor impact on battery pack cost, complexity, weight and size. The battery pack/battery module is designed such that the fusible interconnects associated with a single battery, or a specific fusible interconnect associated with a single battery, will be the last interconnect(s) to fuse during a short circuit event. The risk of sustained arcing for the predetermined interconnect(s) is minimized through the use of rapid clearing interconnects. As a result, the risk of damage and excessive heating is also minimized. | 02-09-2012 |
20120030932 | Method of Controlled Cell-Level Fusing Within a Battery Pack - A method is provided that achieves improved battery pack performance, system reliability and system safety while impacting only a small region of the battery pack/battery module, and thus having only a minor impact on battery pack cost, complexity, weight and size. The battery pack/battery module is designed such that the fusible interconnects associated with a single battery, or a specific fusible interconnect associated with a single battery, will be the last interconnect(s) to fuse during a short circuit event. The risk of sustained arcing for the predetermined interconnect(s) is minimized through the use of rapid clearing interconnects. As a result, the risk of damage and excessive heating is also minimized. | 02-09-2012 |
20120025765 | Charge State Indicator for an Electric Vehicle - One embodiment of the present subject matter includes a battery mounted to a vehicle, with a charge state circuit located in the electric vehicle and coupled to the battery, the charge state circuit configured to provide a charge state signal indicative of the charge state of the battery. The embodiment includes a charging coupler port located proximate to a user accessible exterior of the electrical vehicle and coupled to the battery, the charging coupler port to conduct charging energy to the battery and to provide a charger connection signal indicative of a connection to an external power source. The embodiment also includes a lighting circuit coupled to the charging coupler port and the charge state circuit to control the brightness and color of an illuminated indicator responsive to the charge state signal and the charger connection signal. | 02-02-2012 |
20120021258 | Method of Controlling System Temperature to Extend Battery Pack Life - A method for actively cooling the battery pack of an electric vehicle after the vehicle has been turned off, thereby limiting the adverse effects of temperature on battery life, is provided. Different battery pack cooling techniques are provided, thus allowing the cooling technique used in a particular instance to be selected not only based on the thermal needs of the battery pack, but also on the thermal capacity and energy requirements of the selected approach. | 01-26-2012 |
20120019212 | BIDIRECTIONAL POLYPHASE MULTIMODE CONVERTER INCLUDING BOOST AND BUCK-BOOST MODES - A charging method using a multiphase line voltage for charging an energy storage system (ESS) using a polyphase motor drive circuit communicated to a polyphase motor, the polyphase motor drive circuit including a plurality M of driver stages, one driver stage for each phase of the polyphase motor with each driver stage coupled across the energy storage system, the method including the steps of: (a) determining a charge mode responsive to a comparison of the multiphase line voltage to a voltage of the energy storage system, the determined charge mode including a boost mode when the voltage of the energy storage system has a first predetermined relationship to the multiphase line voltage and the determined charge mode including a boost-buck mode when the voltage of the energy storage system has a second predetermined relationship to the multiphase line voltage; (b) converting, when the charge mode includes the boost mode, the multiphase line voltage to a first charging voltage using a first set of N number of the plurality of driver stages, with N less than M, wherein the first charging voltage is communicated to the energy storage system, and wherein the first charging voltage is greater than the multiphase line voltage; and (c) converting, when the charge mode includes the boost-buck mode, the multiphase line voltage to a second charging voltage using a second set of P number of the plurality of driver stages when in the boost-buck mode, with P greater than N, wherein the second charging voltage is communicated to the energy storage system, and wherein the second charging voltage is less than the multiphase line voltage. | 01-26-2012 |
20120019194 | LEAKAGE CURRENT REDUCTION IN COMBINED MOTOR DRIVE AND ENERGY STORAGE RECHARGE SYSTEM - A charging method using an alternating current (AC) line voltage for conductive charging of an energy storage system (ESS) coupled to a polyphase motor drive circuit communicated to a polyphase motor, the polyphase motor drive circuit including a plurality M of driver stages, one driver stage for each phase of the polyphase motor with each driver stage coupled across the energy storage system, the method including the steps of: (a) coupling a first connector providing the line voltage to a second connector coupled to the plurality of driver stages; (b) interrupting selectably the line voltage from communication with the plurality of driver stages; (c) measuring both an ESS common mode voltage of the energy storage system with respect to a voltage reference and a line common mode voltage of the line voltage with respect to the voltage reference while the line voltage communication to the plurality of driver stages is interrupted; (d) operating a particular one of the driver stages to power a common mode voltage driver to align the ESS common mode voltage with the line common mode voltage while the line voltage communication to the plurality of driver stages is interrupted; and thereafter (e) suspending the interrupting step (b) when a difference between aid ESS common mode voltage and the line common mode voltage is less than a first predetermined value, the suspending step (e) communicating the line voltage to the plurality of driver stages; and thereafter (f) converting the line voltage to a charging voltage communicated to the energy storage system using a set of the plurality of driver stages not including the particular one driver stage. | 01-26-2012 |
20120013341 | Method and Apparatus for Electrically Cycling a Battery Cell to Simulate an Internal Short - A test apparatus and corresponding method for simulating an internal cell short and initiating thermal runaway in a battery cell is disclosed whereby the cell is internally heated through rapid charge and discharge cycles at high currents. The magnitude of the selected current may be modulated to simulate a cell short with the desired power profile without unrealistically heating neighboring cells or interfering with the thermal environment of the cell within the module. | 01-19-2012 |
20120007532 | Rotor Temperature Estimation and Motor Control Torque Limiting for Vector-Controlled AC Induction Motors - A system and method including a runtime thermal model that estimates individual component temperatures, permitting the system to only limit power when necessary or desirable. A power-limiting system for a vector-controlled AC induction motor includes a torque command system for generating a torque command; a thermal protection system determining a runtime estimate for a temperature of a component of a rotational electro-magnetic component of the vector-controlled AC induction motor; and a controller configured to generate a motor control signal for the vector-controlled AC induction motor responsive to the torque command, wherein the thermal protection system determines the runtime estimate responsive to a multi-node thermal model of the vector-controlled AC induction motor, and wherein the controller limits a power of the vector-controlled AC induction motor to maintain a component temperature below its critical temperature. | 01-12-2012 |
20110298417 | METHODOLOGY FOR CHARGING BATTERIES SAFELY - An apparatus and method for identifying a presence of a short circuit in a battery pack. A fault-detection apparatus for a charging system that rapidly charges a collection of interconnected lithium ion battery cells, the safety system includes a data-acquisition system for receiving a set of data parameters from the collection while the charging system is actively charging the collection; a monitoring system evaluating the set of data parameters to identify a set of anomalous conditions; and a controller comparing the set of anomalous conditions against a set of predetermined profiles indicative of an internal short in one or more cells of the collection, the controller establishing an internal-short state for the collection when the comparing has a predetermined relationship to the set of predetermined profiles. | 12-08-2011 |
20110296855 | Thermal Management System with Dual Mode Coolant Loops - A dual mode, thermal management system for use in a vehicle is provided. At a minimum, the system includes a first coolant loop in thermal communication with a battery system, a second coolant loop in thermal communication with at least one drive train component (e.g., electric motor, power electronics, inverter), and a dual mode valve system that provides means for selecting between a first mode where the two coolant loops operate in parallel, and a second mode where the two coolant loops operate in series. | 12-08-2011 |
20110267004 | Method of Operating a Recharging System Utilizing a Voltage Dividing Heater - A method of charging a rechargeable battery pack installed in an electric vehicle is provided in which the charging system includes a switching circuit that is operable in at least a first mode and a second mode. In the first mode the switching circuit couples the power supply and an external power source to both a heater and the charging circuit, the heater providing a voltage divider circuit within the charging circuit. In the second mode the switching circuit couples the power supply and the external power source only to the charging circuit, bypassing the heater. | 11-03-2011 |
20110262783 | Battery Cell with Center Pin Comprised of an Intumescent Material - A center pin for a battery cell that is designed to improve the thermal behavior of a cell during a thermal runaway event is provided in which the center pin is comprised, at least in part, of an intumescent material. The intumescent material may be used to fill a void within the center pin, or to cover an outer surface of the center pin. When the intumescent material covers the center pin, a secondary non-intumescent material may surround the intumescent material, for example in the form of a sleeve, thereby minimizing or preventing chemical reactions from occurring between the intumescent material and the materials comprising the electrode assembly. | 10-27-2011 |
20110254512 | TRICKLE CHARGER FOR HIGH-ENERGY STORAGE SYSTEMS - A voltage converter for charging an energy storage module from an alternating current line voltage, includes a first charging stage, coupled to the energy storage module, converting the line voltage to a first rectified direct current module charging voltage communicated to the energy storage module, the first rectified direct current module charging voltage greater than the line voltage, the first charging stage including an inductance for communicating a first charging current to the energy storage module; a second charging stage, switchably coupled serially with the first charging stage, down-converting the alternating current line voltage to a second rectified direct current module voltage, the second rectified direct current module voltage less than the first rectified direct current module charging voltage, wherein the second charging stage produces a second charging current not greater than the first charging current; and a controller for selectably switching the second charging stage serially with the first charging stage when the line voltage has a peak value greater than a predefined relationship to a voltage of the energy storage module wherein the second charging stage communicates the second charging current to the energy storage module through the inductance. | 10-20-2011 |
20110214808 | SELECTIVE CURE OF ADHESIVE IN MODULAR ASSEMBLIES - Methods and systems for decreasing costs (expense, mass, and/or cure time) associated with use of adhesives when assembling modularized components, particularly for assemblies having many elements such as for example battery modules used in electric vehicles. The methods and systems enable use of high-wettability adhesives (defined generally in this application as low viscosity and/or low surface tension adhesives) for assembling such modularized components. A first method including (a) dispensing a high-wettability adhesive into a first module fixture populated with a plurality of elements wherein the first module fixture provides a plurality of bonding wells with each bonding well accepting a first portion of one or more of the elements with the module fixture including one more apertures communicated with one or more of the bonding wells, the adhesive being selectively curable upon application of a curing modality; (b) applying the curing modality selectively to a first portion of the dispensed adhesive in a seal zone, the seal zone including one or more regions surrounding the apertures wherein the dispensed adhesive in the seal zone is sufficiently cured to inhibit significant quantities of the adhesive from emerging from the apertures while the adhesive continues to be dispensed into the module fixture wherein the curing modality is not applied to a second portion of the adhesive outside of the seal zone; and (c) applying the curing modality to the second portion of the dispensed adhesive. | 09-08-2011 |
20110212356 | Extruded and Ribbed Thermal Interface for use with a Battery Cooling System - A cooling manifold assembly for use in a battery pack thermal management system is provided. The cooling manifold assembly includes a coolant tube that is interposed between at least a first row of cells and a second row of cells, where the first and second rows of cells are adjacent and preferably offset from one another. A thermal interface layer is attached to the cooling tube, the thermal interface layer including a plurality of pliable fingers that extend away from the cooling tube and are interposed between the cooling tube and the first row of cells, and interposed between the cooling tube and the second row of cells, where the pliable fingers are deflected by, and in thermal contact with, the cells of the first and second rows of cells. | 09-01-2011 |
20110206969 | Overmolded Thermal Interface for use with a Battery Cooling System - A cooling manifold assembly for use in a battery pack thermal management system is provided. The cooling manifold assembly includes a coolant tube that is interposed between at least a first row of cells and a second row of cells, where the first and second rows of cells are adjacent and preferably offset from one another. A thermal interface layer is overmolded onto the cooling tube, the thermal interface layer including a plurality of pliable fingers that extend away from the cooling tube and are interposed between the cooling tube and the first row of cells, and interposed between the cooling tube and the second row of cells, where the pliable fingers are deflected by, and in thermal contact with, the cells of the first and second rows of cells. | 08-25-2011 |
20110198963 | Dual Layer Winding Pattern - A dual-winding layer arrangement for a three-phase, four pole motor is provided. | 08-18-2011 |
20110198962 | Induction Motor Lamination Design - A high efficiency, high torque density, high speed induction motor is provided, the motor utilizing (i) stator teeth with parallel side surfaces; (ii) rotor teeth with parallel side surfaces; (iii) wide open stator slots; (iv) closed rotor slots with thick tooth bridges; and (v) deep stator and rotor slots. | 08-18-2011 |
20110198961 | Triple Layer Winding Pattern and Methods of Manufacturing Same - A triple-winding layer arrangement for a three-phase, four pole motor is provided as well as a method of manufacturing the same. | 08-18-2011 |
20110198960 | Dual Layer Winding Pattern and Methods of Manufacturing Same - A dual-winding layer arrangement for a three-phase, four pole motor is provided as well as a method of manufacturing the same. | 08-18-2011 |
20110197431 | Manufacturing Methods for a Triple Layer Winding Pattern - A method of manufacturing a triple-winding layer arrangement for a three-phase, four pole motor is provided. | 08-18-2011 |
20110174556 | Battery Pack Gas Exhaust System - A thermal management system is provided that minimizes the effects of thermal runaway within a battery pack. The system is comprised of a multi-sided, substantially airtight battery pack enclosure configured to hold a plurality of batteries, where at least one side of the battery pack enclosure includes at least one cavity. An inner wall of the enclosure includes a plurality of perforations configured to pass gas from within the enclosure to the cavity within the at least one side member. The system is further comprised of at least one gas exhaust port integrated into an outer wall of the enclosure and configured to pass gas from within the cavity of the enclosure side member to the ambient environment when one or more batteries contained within the battery pack undergo thermal runaway. | 07-21-2011 |
20110165446 | Corrosion resistant cell mounting well - A battery mounting structure, preferably for use within a battery pack housing, is provided that prevents condensation-induced corrosion from occurring between the terminals of a battery. | 07-07-2011 |
20110156661 | FAST CHARGING WITH NEGATIVE RAMPED CURRENT PROFILE - A battery cell charging system, including a charger and a controller, for rapidly charging a lithium ion battery cell, the battery cell charging system having a circuit for charging the battery cell using an adjustable voltage charging-profile to apply a charging voltage and a charging current to the battery cell wherein the adjustable voltage charging-profile includes: a first charging stage with a constant first stage charging current and an increasing battery cell voltage with the first stage charging current provided until the first stage charging voltage is about equal to a first stage complete voltage less than a maximum battery cell voltage; an intermediate ramped charging stage, the intermediate ramped charging stage including both an increasing ramped voltage and a decreasing ramped iBat current for the battery cell for the voltage charging range of the first stage complete voltage to about the maximum battery cell voltage; and a final charging stage with a constant final stage charging voltage about equal to the maximum battery cell voltage and a decreasing final stage charging current with the final stage charging voltage provided until the final stage charging current reaches a desired charge complete level. | 06-30-2011 |
20110156641 | STATE OF CHARGE RANGE - A system and method for improving cycle lifetimes for a lithium-ion battery pack, particularly for adapting to a dynamic use profile for a user. A battery cell pack charging system, including a charger and a controller, for charging a lithium-ion battery cell pack, the battery cell pack charging system has a circuit for charging the battery cell pack using an adjustable charging system including an adjustable charge profile to charge the battery cell pack wherein the adjustable charge profile includes: an operational parameter identifying a next operation post-charge performance characteristic for the battery cell pack wherein a controller determines a next cycle plan for the battery cell pack that provides the performance characteristic while concurrently enhancing an attribute of the battery cell pack and wherein the attribute is measured over a plurality of applied cycles; and one or more charging stages to produce an energy ending point for the plan; wherein the adjustable charge plan is implemented by the charger in anticipation of a post-charging operation associated with the operational parameter. | 06-30-2011 |
20110117403 | Battery Cell with a Center Pin Comprised of a Low Melting Point Material - A battery is provided that includes a cell case, an electrode assembly and a center pin within the electrode assembly, where the electrode assembly is wrapped around the center pin, and where the center pin is comprised of a material that is rigid within the normal operating temperature range of the battery and deforms, and/or melts, when the battery temperature exceeds the normal operating temperature range of the battery. | 05-19-2011 |
20110091760 | System and Method for Inhibiting the Propagation of an Exothermic Event - A system and method disperses a sudden increase in heat generated by one battery cell to a large area including multiple battery cells, thereby preventing the sudden increase from being absorbed primarily by a small number of other battery cells, such as a single battery cell, that could otherwise cause the other battery cells to fail or release their own heat. | 04-21-2011 |