Abstract: The invention relates to a strain relief/bending protection apparatus for a cable, in particular a high speed cable, connected to a plug connector, comprising a base section which can be fastened to a housing of the plug connector and a sleeve section projecting from the base section for surrounding the cable in a region disposed outside the housing, wherein the sleeve section continuously has a round cross-section and the cross-sectional area of the sleeve section reduces as the spacing from the base section increases.

Abstract: A method of manufacturing a solid oxide fuel cell stack having an electrically conductive interconnect, including the steps of: (a) providing a first fuel cell and a second fuel cell, (b) providing a substrate having an iron-chromium alloy, (c) depositing a layer of metallic cobalt over a portion of substrate surface, (d) subjecting the layer of metallic cobalt to reducing conditions, (e) then exposing the remaining portion of the layer of metallic cobalt to oxidizing conditions for a predetermined time and temperature, such that the surface portion of the layer of metallic cobalt is oxidized to cobalt oxide, thereby forming the electrically conductive interconnect having a layer of metallic cobalt sandwiched between a surface layer of cobalt oxide and the layer of cobalt-iron-chromium alloy, and (f) sandwiching the substrate between the first and second fuel cells.

Abstract: A connector that is configured to be inserted within a cavity of a shroud defined by a mating connector along a longitudinal axis, including a connector body which defines a first resilient member and a first wedge member that is configured to urge the first resilient member into compressive contact with the shroud of the mating connector along a vertical or longitudinal axis. The connector may include a plurality of pairs of resilient members and wedge members to provide compressive contact along more than one axis. The wedge members may be incorporated into a connector position assurance device (CPA).

Abstract: A connector having a connector body defining a first protrusion and a connector position assurance (CPA) device in the form of a sleeve axially surrounding the connector body that is moveable along a mating axis. The sleeve defines a second protrusion configured to engage the first protrusion when a first force is applied to the sleeve as the connector is mated with a corresponding mating connector. The second protrusion is configured to slide over the first protrusion and then disengage the first protrusion when a second force is applied to the sleeve, thereby producing a vibratory response in the sleeve. The vibratory response is a tactile vibration or an audible vibration. The second force applied to the sleeve is greater than the first force and the second force may be applied to the sleeve in the same direction as the first force or in the opposite direction.

Abstract: A geothermic heater system for heating a geological formation includes a fuel cell stack assembly disposed at the surface of the geological formation and includes a plurality of fuel cells which convert chemical energy from a fuel into electricity through a chemical reaction with an oxidizing agent, thereby producing an anode exhaust and a cathode exhaust. The geothermic fuel cell system also includes a combustor disposed within a bore hole of the geological formation. The combustor combusts a mixture at least one of the anode exhaust and the cathode exhaust to produce a heated combustor exhaust. The combustor discharges the heated combustor exhaust to heat the geological formation.

Abstract: A communication plate extends along and is sandwiched between cylindrical communication manifolds of a first heat exchanger assembly and a second heat exchanger assembly. The communication plate includes a saddling surface arcuate in one direction and a saddling surface arcuate in the opposite direction for engaging in saddle-like fashion the cylindrical shape of the manifolds. The communication plate defines a plurality of communication plate orifices disposed along the communication plate and aligned co-axial with a plurality of communication orifices disposed along the manifolds to seal the communication orifices of the manifolds and establish distributed and sealed fluid communication between the heat exchanger assemblies.

Abstract: An electrical distribution center having a base connected to one or several wiring harnesses and a connector body that is configured to be electrically and mechanically connected to the base. The connector body houses electrical devices such as relays, fuses, and control modules. The connector body is secured to the base by a pair of slides having dog-leg shaped slots that engage studs on the base. A single slide lever having two arms attached to each of the slides is pivotably attached to the connector body and the slides and is configured to simultaneously move the dog-leg shaped slots relative to the studs on the base, thereby securing the connector body to the base.

Abstract: A method is provided for attaching a termination arrangement to a shielded cable which includes a conductive core, a core insulation layer, a conductive shield layer, and an outer insulation layer. A length of the outer insulation layer is removed to expose an end portion of the conductive shield layer and a length of the core insulation layer is removed to expose a portion of the conductive core. The termination assembly is provided having a terminal, a core crimp section in electrical communication with the terminal, and an inner ferrule section connected to the core crimp section. The core crimp section is positioned adjacent to the exposed conductive core and crimped around said conductive core in electrical contact therewith. The inner ferrule section is positioned adjacent to the exposed conductive shield layer and crimped around the core insulation layer. The core crimp section is separated from the inner ferrule section.

Abstract: A fuel cell stack assembly includes a fuel cell stack wherein a plurality of fuel cell cassettes is coupled together by a joining material. A spring strap is coupled to the fuel cell stack in a manner effective to apply a first compressive force to the fuel cell stack. A first load distribution plate is located intermediate the fuel cell stack and the spring strap. The first load distribution plate is configured to distribute the first compressive force over the fuel cell stack in a manner effective to normalize the first compressive force on the joining material. A diaphragm is configured to define a cavity and is configured to apply a second compressive force to the fuel cell stack dependent on a cavity pressure of oxidant within the cavity. The cavity pressure is dependent upon an oxidant pressure of oxidant provided to the fuel cell stack.

Abstract: An electrical connector assembly is provided. The assembly includes a terminal, a housing, and a seal. The seal is configured to create a moisture barrier between the housing and a mating connector. The seal defines a retainer portion that cooperates with the housing to retain the terminal to the housing.

Abstract: An evaporator having a manifold and a plurality of refrigerant tubes extending downward in the direction of gravity from the manifold. The evaporator includes at least one PCM housing engaging the upper portion of the refrigerant tube for storing a phase change material. When operating in a first operating mode, heat is transferred from the phase change material to the refrigerant to freeze and cool the phase change material. When operating in a second operating mode, heat is transferred from the refrigerant to the frozen phase change material to condense the refrigerant. The condensed refrigerant falls downwardly through the tubes and receives heat from a flow of air to cool the air and evaporate the refrigerant. The evaporated refrigerant rises upwardly back to the low pressure of the cold manifold.

Abstract: A ceramic short circuit resistant capacitor that is bendable and/or shapeable to provide a multiple layer capacitor that is extremely compact and amenable to desirable geometries. The capacitor that exhibits a benign failure mode in which a multitude of discrete failure events result in a gradual loss of capacitance. Each event is a localized event in which localized heating causes an adjacent portion of one or both of the electrodes to vaporize, physically cleaning away electrode material from the failure site. A first metal electrode, a second metal electrode, and a ceramic dielectric layer between the electrodes are thin enough to be formed in a serpentine-arrangement with gaps between the first electrode and the second electrode that allow venting of vaporized electrode material in the event of a benign failure.

Abstract: An electrical connector system having a male and female connector. The male connector includes a U-shaped shroud axially surrounding a male terminal having an opening generally perpendicular to the male terminal's longitudinal axis. The female connector includes a female terminal having two openings, one generally parallel with the female terminal's longitudinal axis and another generally perpendicular to that axis. The male and female terminals mate in a parallel configuration having the male terminal axis generally parallel to the female terminal axis or in a perpendicular configuration having the male terminal axis generally perpendicular to the female terminal axis. A connector body holds the female terminal. The connector body defines a locking means that releasably secures the connector body to the shroud in both the parallel and perpendicular mating configurations. The locking means may include a triangular shaped lock tab that engages a similarly shaped lock aperture.

Abstract: An electrical terminal for automotive vehicle connectors comprising a cage extending in a terminal insertion direction between a front opening and a tail. A locking lance extends longitudinally substantially in the insertion direction above the top wall from a joint to a free end. The locking lance is astride an intermediate bar which extends substantially along the insertion direction from a front portion to a rear portion respectively linked to the front end and the rear end of the cage.

Abstract: A camshaft phaser includes a housing having a housing bore extending along an axis and a plurality of lobes extending radially inward. The camshaft phaser also includes a stroke limiter having a central hub with a plurality of vanes extending radially outward such that the vanes are interspersed with lobes. The camshaft phaser also includes a harmonic gear drive unit disposed operationally between the housing and the stroke limiter, the harmonic gear drive unit being connected to a rotational actuator for imparting rotation on the harmonic gear drive unit such that rotation of the harmonic gear drive unit by the rotational actuator causes relative rotation between the housing and the stroke limiter. The amount of relative rotation between the housing and the stroke limiter is limited by at least one of the plurality of lobes and at least one of the plurality of vanes.

Abstract: An electrical connection system configured to terminate electrical connectors and to transmit digital electrical signals having a data transfer rate of 5 Gigabits per second (Gb/s) or higher. The system includes a first parallel mirrored pair of terminals having a planar connection portion and a second pair of parallel mirrored terminals having a cantilever beam portion and a contact points configured to contact the first terminals. The cantilever beam portions are generally perpendicular to the planar connection portions. The terminals cooperate to provide consistent characteristic impedance. The connection system further includes an electromagnetic shield that longitudinally surrounds the terminals. The connection system is suited for terminating wire cables transmitting digital signals using data transfer protocols such as Universal Serial Bus (USB) 3.0 and High Definition Multimedia Interface (HDMI) 1.3.

Abstract: A multiple input multiple output (MIMO) antenna for a radar system that includes a first transmit antenna, a second transmit antenna, and a receive antenna. The first transmit antenna is configured to emit a first radar signal toward a target. The first transmit antenna is formed of a first vertical array of radiator elements. The second transmit antenna is configured to emit a second radar signal toward the target. The second transmit antenna is formed of a second vertical array of radiator elements distinct from the first vertical array. The receive antenna is configured to detect radar signals reflected by a target toward the receive antenna. The receive antenna is formed of a plurality of paired vertical arrays of detector elements.

Abstract: A multiple input multiple output (MIMO) antenna for a radar system that includes a receive antenna, a first transmit antenna, and a second transmit antenna. The receive antenna is configured to detect radar signals reflected by a target toward the receive antenna. The first transmit antenna is formed of a first vertical array of radiator elements. The second transmit antenna is formed of a second vertical array of radiator elements distinct from the first vertical array. The second transmit antenna is vertically offset from the first transmit antenna by a vertical offset distance selected so an elevation angle to the target can be determined.

Abstract: A dual-electrode occupant detection system configured to determine an occupant presence on a seat assembly. The system includes two electrodes that each generates an electric field in response to an applied excitation signal. The two electrode signals arising therefrom can be measured individually and/or combined to detect more reliably an occupant. Such a configuration advantageously avoids the added expense and complication of an electrode arrangement that relies on an underlying shield layer to reduce electrode signal degradation caused by a seat heater element.

Abstract: A liquid cooled power electronics assembly configured to use electrically conductive coolant to cool power electronic devices that uses dielectric plates sealed with a metal sleeve around the perimeter of the dielectric plates to form a device assembly. The configuration allows for more direct contact between the electronic device and the coolant, while protecting the electronic device from contact with potentially electrically conductive coolant. Material used to form the dielectric plates and the housing are selected to have similar coefficients of thermal expansion (CTE) so that the reliability of the seals is maximized.