Patent application number | Description | Published |
20080253092 | Heat Dissipation System for Photovoltaic Interconnection System - A heat dissipation system for a photovoltaic array interconnection system includes an enclosure and a heat dissipating assembly. The heat dissipating assembly includes a heat dissipating portion and at least one heat emitting electrical component. Each heat emitting electrical component has a heat sink element attached thereto for dissipating heat generated by the heat emitting electrical component. The heat dissipating portion is sufficiently proximate to at least an additional portion of the at least one heat emitting electrical component to further dissipate heat generated by the at least one heat emitting electrical component. The heat dissipating portion includes at least one electrical contact electrically connected to the at least one heat emitting electrical component. The enclosure is configured for receiving at least a portion of the heat dissipating portion and for receiving external power input wiring by electrical contact with the at least one electrical contact. | 10-16-2008 |
20080274641 | LED CONNECTOR ASSEMBLY WITH HEAT SINK - A universal mounting supports high intensity LEDs in a lighting fixture with heat removal and electrical connection facilities. A holder includes a peripheral sidewall defining a cavity for accepting a printed circuit board assembly. A support member supports the printed circuit board assembly along the peripheral sidewall. Electrical contact elements are provided the printed circuit board. A thermal conduction member is in thermal communication with the printed circuit board assembly. The receptacle portion removably engages with the holder portion. A plurality of contact sockets conductively engages the electrical contact elements of the holder portion to interconnect the contact elements to external wires. An aperture in the receptacle portion accepts the thermal conduction member, wherein the thermal conduction member passes through the aperture and into a space for dissipating heat from the printed circuit board. | 11-06-2008 |
20080277161 | BUSSING CONNECTOR - A low-profile electrical connector and connector system having a connector body. The connector body includes at least one bussing interconnection capable of electrically connecting to electrical devices and including at least one structure configured to receive a receptacle body having a plurality of arms configured to apply a contact force in the direction of an opposing plate. The connector body also includes an opening configured to receive a corresponding plug. The connector body further includes a plurality of latch arms having features that engage the plug and extension arms extending from the body and being in close proximity with the latch arms. The engagement of the opening and the corresponding plug form a seal that substantially prevents the infiltration of moisture into the connector body. | 11-13-2008 |
20080305651 | CARD EDGE CABLE CONNECTOR - An electrical connector for connecting a cable to a card edge interface has a housing portion. The housing portion has a first surface, and a second surface opposite said first surface, and the surfaces are spaced apart to define a housing portion slot for the card edge interface. Furcated contact elements are disposed within the housing. Each contact element has a first tine portion with an exposed contact interface portion, a second tine portion; a web portion connecting the first and second tine portions, and a wire termination portion for terminating a conductor of the cable. The first and second tine portions are arranged within the housing portion with the contact interface exposed for mating with a respective contact surface of the card edge interface. | 12-11-2008 |
20090009103 | WIRELESS CONTROLLED LIGHT EMITTING ASSEMBLY - A light emitting assembly and a system utilizing a plurality of light emitting assemblies having a plurality of light emitting elements arranged and disposed within a sub-assembly. The assembly also includes a controller in communication with the elements, the controller being capable of receiving wireless signals and/or transmitting wireless signals, the controller also being capable of driving the elements to emit light in response to the wireless signals. The assembly further includes a power source arranged and disposed to provide electrical power to the light emitting elements. A method for providing a light emitting element display is also disclosed. | 01-08-2009 |
20090009998 | WIRELESSLY CONTROLLED LIGHT EMITTING DISPLAY SYSTEM - A light emitting assembly, and wirelessly controlled light emitting assembly for use in a lighted display having a housing body configured to receive a light emitting device having a plurality of wirelessly controlled light emitting elements. The housing body includes at least one mounting feature arranged and disposed to maintain a relative positioning of the light emitting assembly with respect to another light emitting assembly. | 01-08-2009 |
20090075519 | LED SOCKET - A connector for mounting an LED to a printed circuit board (PCB) includes a hollow cylindrical body portion with an interior sidewall that defines a hollow cavity at one end to receive the LED threaded base section. The second end has a plurality of conductive contact elements with which to electrically contact the LED. A first electrical contact element includes at least one prong extending partially into the cavity. The prong is flexible for the threaded portion to pass the prong for insertion, and partially return to electrically engage the threaded portion to maintain the threaded portion inside the cavity. The prong also permits removal of the LED rotationally with respect to the cavity. The contact elements are in electrical communication with the LED and the threaded base section when the threaded base section is inserted within the body portion. | 03-19-2009 |
20090117775 | Wire retention connector system - A wire retaining connector, connector system and method of connecting wires to connectors to reduce or eliminate unintentional wire disconnection from wire connectors, including disconnection of poke-in connectors. The connectors and connector systems include a connector body having at least one opening configured to receive a wire, the wire including a partially exposed conductor and insulation. The connector body further includes a wire retention member having at least one surface onto which a wire may be engaged. The wire retention member provides sufficient retention of the wire to resist disconnection of the wire from the connector body. A method for connecting wires to the connectors is also provided. | 05-07-2009 |
20090130889 | LED SOCKET - An LED electrical connector is attachable to a display panel or surface. The LED connector includes a housing having a base, a backplate, and a contact arrangement. The base and backplate form a housing for the contact arrangement and a channel for a cable. The base has a collar to receive an LED, with apertures for the LED contact legs. The contact arrangement includes a first contact having points, and a first terminal in common with the points. The first terminal engages the anode or cathode leg of the LED. A second contact has points and a second terminal interconnected to the points by a resistor. The second terminal configured to frictionally engage an anode or cathode leg. The first and the second contact points pierce insulation on the electrical cord to electrically engage the respective conductors of the cable, to energize the LED. | 05-21-2009 |
20090170361 | CONNECTOR ASSEMBLY FOR TERMINATION OF MINIATURE ELECTRONICS - Connector and connector assemblies for use with miniature high power electrical components, and specifically with miniature LEDs. Although the connectors and connector assemblies are designed for use with miniature LEDs, these devices are not so limited and can also be used with other miniature electronic devices. These connectors and connector assemblies provide a mechanical connection between the miniature electronic component and electrical contacts instead of a soldered connection, providing a reliable electrical contact between the component, whether used in a PCB-type drop-in connection or some other connection. The connector also includes a heat sink to remove heat from the connector assembly generated by the LED and provides for a reliable mechanical connection between the LED and heat sink. | 07-02-2009 |
20090203254 | LED CONNECTOR ASSEMBLY WITH HEAT SINK - A universal mounting supports high intensity LEDs in a lighting fixture with heat removal and electrical connection facilities. A holder includes a peripheral sidewall defining a cavity for accepting a printed circuit board assembly. A support member supports the printed circuit board assembly along the peripheral sidewall. Electrical contact elements are provided the printed circuit board. A thermal conduction member is in thermal communication with the printed circuit board assembly. The receptacle portion removably engages with the holder portion. A plurality of contact sockets conductively engages the electrical contact elements of the holder portion to interconnect the contact elements to external wires. An aperture in the receptacle portion accepts the thermal conduction member, wherein the thermal conduction member passes through the aperture and into a space for dissipating heat from the printed circuit board. | 08-13-2009 |
20090218923 | INTEGRATED LED DRIVER FOR LED SOCKET - A mounting assembly for supporting an LED in a lighting fixture. A first substrate containing the LED has contact pads in electrical communication with the LED. A contact carrier has a plurality of contacts that correspond with the contact pads of the first substrate. A second substrate has electronic components to power the LED. A first contact arrangement on the second substrate engages the integral electrical contact portions of the contact carrier, and a second contact arrangement provides external connections to the electronic components. A heat sink portion is engaged in thermal contact with the contact carrier and the first substrate. The heat sink portion includes finned members for dissipation of heat generated by the LED disposed within the heat sink portion. A slot is provided in the heat sink projecting axially of the heat sink portion, for receiving and securing the second substrate. | 09-03-2009 |
20090219732 | LED WITH LIGHT PIPE ASSEMBLY - An LED light pipe assembly includes a light pipe; a heat sink portion; an LED mounted on a substrate in optical communication with the light pipe; and a carrier portion for receiving the light pipe and providing electrical interconnections to the LED. The heat sink portion includes a plurality of fins and a plurality of hollow frame portions configured to dissipate heat generated by the light pipe assembly. Attachment features are provided on the heat sink for attaching the heat sink to the carrier portion. The heat sink portion also includes a hollow cavity for receiving the substrate. The carrier portion is insertable into the cavity in abutting relation with the substrate to secure the substrate in contact against the heat sink. | 09-03-2009 |
20090317990 | THROUGH BOARD INVERTED CONNECTOR - A connector assembly includes a housing and a contact. The housing extends from a front end to an opposite back end. The housing includes an interior chamber inwardly extending from the front end that is configured to receive a mating connector through the front end of the housing. The contact is joined with the housing and extends between a mating end and a mounting surface. The mating end is configured to engage a mating contact of the mating connector. The mounting surface is configured to be mounted to a substrate to electrically couple the mating connector with the substrate. The housing extends through an opening in the substrate such that the housing protrudes from opposite sides of the substrate. | 12-24-2009 |
20100015826 | SEALED CONNECTOR ASSEMBLY - A sealed connector system and components thereof is disclosed. The sealed connector system has a sealed cable assembly and a printed circuit board header assembly. The sealed cable assembly has a cable housing and a cable terminated thereto. A cover, as described above, is overmolded over a portion of the cable housing and a portion of the cable. The cover is one continuous member that acts as a seal to prevent contaminants from entering the cable housing. A printed circuit board header assembly is mated to the cable housing. The header assembly has recesses provided proximate a circuit board mounting surface, with the recesses being configured to provide additional space on a circuit board on which the header assembly is mounted. Legs or ribs may be provided proximate the ends of the circuit board contact area. The ribs provide stability to the printed circuit board connector and prevent the printed circuit board connector from being rotated relative to the printed circuit board. The sealed connector system may be provided with a cable housing ground shield proximate the header mating end of the cable housing and a header assembly ground shield may be provided in a cable housing receiving opening of the header assembly, whereby the cable housing ground shield and the header assembly ground shield are placed in electrical engagement with each other. | 01-21-2010 |
20100035443 | CARD EDGE CONNECTOR WITH IDC WIRE TERMINATION - A card edge connector and a card edge assembly that utilizes the individual card end connectors are disclosed. The card edge connectors have slotted insulation displacement terminals to connect to wires. Each electrical connector has a housing with first mounting project extends from a first sidewall of the housing and a mounting recess extends from an oppositely facing second sidewall. The mounting projection is dimensioned to be received in the mounting recess of a second electrical connector, thereby allowing the connectors to be mounted to each other. This type of connector assembly allows the connector assembly to be built according to the needs of the end user. This modular aspect of the connector assembly adds flexibility while reducing the overall cost of manufacture. In addition, the use of the slotted insulation displacement terminals further enhances the flexibility of the connector assembly, as various wiring schemes can be effectively and cost efficiently utilized. | 02-11-2010 |
20100068925 | POKE-IN CONNECTOR - A connector having a housing and a contact are described. The connector includes an electrically conductive contact and a housing. The housing has a cavity to receive and secure the contact, a first alignment feature for receiving a first conductive cable into the contact and a second alignment feature for receiving a second conductive cable into the contact. The housing also includes at least one attachment point protruding from the housing to attach and secure the connector to a surface and at least one flexible flange to substantially prevent movement of the connector on a surface. The contact receives and secures the first conductive cable and the second conductive cable to provide an electrical connection between the first conductive cable and the second conductive cable. The attachment point attaches and secures the connector to a surface. | 03-18-2010 |
20100093231 | SOLAR BOX AND TWO POSITION SOLAR CONNECTORS - A connecting box, gland nut, and electrical connector for the solar connector industry is disclosed. The connecting box, the gland nut, and the electrical connector require a tool to disengage, are being resistant to external environmental stressors, and/or provide the ability to monitor information regarding the connecting box, the gland nut, and/or the electrical connector. | 04-15-2010 |
20100290236 | LIGHTING DEVICE - A lighting device includes an outer assembly, a light emitting device, and a contact. The outer assembly extends between a base end and a light emitting end. The outer assembly includes a contact carrier sub-assembly that extends from the base end to an outer end disposed proximate to the light emitting end. The light emitting device is disposed proximate to the light emitting end of the outer assembly. The contact is held in the contact carrier sub-assembly and extends from the base end of the outer assembly to the outer end of the contact carrier subassembly. The contact is electrically coupled with the light emitting device to provide a continuous electrically conductive path from the base end of the outer assembly to the outer end of the contact carrier sub-assembly. The contact is configured to supply electric current to the light emitting device. | 11-18-2010 |
20100317212 | END CAP ASSEMBLY FOR A LIGHT TUBE - An end cap assembly for a light tube that has a circuit board with lighting devices mounted thereto includes an end cap body coupled to the light tube. The end cap body has an external mating face configured to mate with a socket connector of a fixture. The end cap body includes contact bores therethrough extending along parallel bore axes between inner ends and outer ends. Contacts are received in the contact bores along the bore axes. The contacts have socket mating ends extending from the contact bores beyond the outer ends for mating with the socket connector. The contacts have wire termination ends opposite to the socket mating ends. Wires are terminated to the wire termination ends of the contacts. The wires are configured to be electrically connected to the circuit board. Optionally, the contacts may be crimped to the wires. Alternatively, the contacts may be poke-in wire contacts that receive the wires. | 12-16-2010 |
20110028015 | QUICK INSERTION LAMP ASSEMBLY - A lamp assembly includes a light source, a contact base, a center contact and an outer contact. The contact base extends from a lower end to an upper end along a center axis. The upper end is interconnected with the light source and the lower end is configured to be received in a socket to mate the contact base with the socket. The center contact is disposed proximate the lower end of the contact base and is electronically coupled with the light source. The outer contact includes a ring body and an elongated contact line. The ring body encircles the center contact proximate the lower end of the contact base. The center contact and the outer contact are mechanically and electrically coupled with the socket and electrically join the light source with an electric ground reference. | 02-03-2011 |
20110053421 | ELECTRICAL CONNECTOR FOR TERMINATING THE END OF AN ELECTRICAL CABLE - A connector and armored cable assembly includes an armored cable having an electrical wire, and a connector. The connector includes a connector housing having a mating interface. The connector housing is configured to mate with a mating connector along the mating interface. The mating interface is a separable interface such that the connector housing is separable from the mating connector at the mating interface after the connector housing and the mating connector have been mated together. A connector contact is held by the connector housing. The connector contact is configured to engage a mating contact of the mating connector. The connector contact is electrically connected to the electrical wire of the armored cable. | 03-03-2011 |
20110133668 | SOLID STATE LIGHTING SYSTEM - A solid state lighting system includes an electronic driver having a power input configured to receive power from a power source and the electronic driver having a power output. The electronic driver controls the power supply to the power output according to a control protocol, and the electronic driver has at least one expansion port having a separable interface. The system also includes a light emitting diode (LED) subassembly having an LED board having at least one LED that receives power from the power output of the electronic driver to power the LED. The system further includes a first expansion module configured to be coupled to the at least one expansion port of the electronic driver having a first functionality affecting the control protocol, and a second expansion module configured to be coupled to the at least one expansion port of the electronic driver having a second functionality affecting the control protocol. The first and second expansion modules are selectively coupled to the at least one expansion port to change the control protocol. | 06-09-2011 |
20110136374 | SOCKET ASSEMBLY WITH A THERMAL MANAGEMENT STRUCTURE - A socket assembly includes a lighting package and a socket housing having a receptacle that removably receives the lighting package. A thermal management structure is coupled to the socket housing and is positioned at the receptacle in thermal engagement with the lighting package. The thermal management structure is configured to engage a heat sink to dissipate heat from the lighting package to the heat sink. Optionally, at least one of the socket housing and the thermal management structure may have mounting features configured to mount the socket assembly to a heat sink, where the lighting package is removable from the receptacle while the socket assembly remains mounted to the heat sink. The thermal management structure may be coupled to the socket housing such that the thermal management structure and the socket housing are coupled to a heat sink as a unit. | 06-09-2011 |
20110136394 | LED SOCKET ASSEMBLY - A socket assembly includes a light emitting diode (LED) package having an LED printed circuit board (PCB) with an LED mounted thereto. The LED package has a power contact configured to receive power from a power source to power the LED. The socket assembly also includes a socket housing having a receptacle that removably receives the LED package. The socket housing has a securing feature engaging the LED PCB to secure the LED PCB within the receptacle, where the securing feature is configured to release the LED PCB to remove the LED PCB from the receptacle. Optionally, the socket housing may include mounting features configured to mount the socket housing to a base, where the LED package is removable from the socket housing while the socket housing remains mounted to the base. A second LED package may be provided, where the LED package is removable from the receptacle and is replaced by the second LED package. | 06-09-2011 |
20110140136 | LED LIGHTING ASSEMBLIES - A lighting assembly for a light emitting diode (LED) package having an LED chip on the top of a mounting substrate with power leads on the top of the mounting substrate arranged proximate to a first edge of the mounting substrate, which is mounted to a base, includes power contacts defining separable interfaces for contacting the power leads on the mating substrate of the LED package and supplying power to the LED chip. The power contacts have compliant beams extending to the separable interfaces that are deflected when contacting the power leads such that the power contacts are biased against the power leads. The power contacts are terminated to corresponding power conductors opposite the separable interfaces. The lighting assembly also includes a dielectric housing holding the power contacts, with the housing having mounting features for securing the housing to the base independent of the LED package. | 06-16-2011 |
20110267831 | LED SOCKET ASSEMBLY - A socket assembly is provided for mounting on a base of a lighting fixture. The socket assembly includes a socket housing having a base side, a clip side, and a side wall extending from the base side to the clip side. The base side of the socket housing is configured to be mounted on the base of the lighting fixture. The socket housing includes a receptacle extending therein. A light emitting diode (LED) is held within the receptacle of the socket housing. The socket assembly further includes a mounting clip having a strap and an arm that extends from the strap. The strap extends over and is engaged with the clip side of the socket housing. The arm extends outwardly from the strap along the side wall of the socket housing and is configured to engage the base of the lighting fixture to hold the socket housing on the base. | 11-03-2011 |
20110310628 | LIGHT EMITTING DIODE INTERCONNECTION SYSTEM - A light emitting diode (LED) interconnection system is provided. The system includes a cable having a driver end and a termination end. The cable has conductive pathways extending between the driver end and the termination end. The driver end is configured to engage a driver to carry an electrical current to the conductive pathways. The termination end is configured to terminate the conductive pathways. A connector is provided having a cable contact and a LED contact joined to the cable contact. The cable contact pierces the cable and engages the conductive pathways to electrically join the connector to the conductive pathways. A LED board is provided having a circuit board including circuit board contacts. A LED is positioned on the circuit board and electrically joined to the circuit board contacts. The LED contact of the connector engages the circuit board contacts to electrically join the connector to the LED. | 12-22-2011 |
20120204637 | SENSOR SUBSYSTEM FOR A LIGHTING ASSEMBLY - A sensor module includes a housing having a top and a bottom. A mounting surface is positioned proximate to the bottom of the housing. A sensor is positioned within the housing. A fixed component extends from the top of the housing. A moveable component is provided having a mounting surface. The moveable component is selectively coupled to the fixed component to variably position the mounting surface of the moveable component relative to the mounting surface of the housing. | 08-16-2012 |
20120220161 | SOLID STATE LIGHTING ASSEMBLY HAVING A STRAIN RELIEF MEMBER - A solid state lighting assembly includes a housing configured to hold a solid state lighting module. The housing has a cavity. A contact is positioned within the cavity. The contact has a wire end and a mating end. The wire end is configured to be coupled to a insertion segment of a wire. The wire extends from the cavity to an exterior of the housing. A strain relief member extends from the exterior of the housing. The strain relief member is configured to engage a portion of the wire upstream from the insertion segment of the wire. | 08-30-2012 |
20130122729 | LED SOCKET ASSEMBLY - A socket housing is provided for light emitting diode (LED) packages having an LED printed circuit board (PCB). The socket housing includes first and second housing segments that define a recess therebetween for receiving an LED package therein. The first and second housing segments are configured to engage the LED PCB of the LED package to secure the LED package within the recess. A relative position between the first and second housing segments is selectively adjustable such that a size of the recess is selectively adjustable for receiving differently sized LED packages therein. | 05-16-2013 |
20130201701 | LED SOCKET ASSEMBLY - A socket assembly includes a light emitting diode (LED) package having an LED printed circuit board (PCB) with an LED mounted thereto. The socket assembly also includes a clamp for holding the LED package to a support structure. The clamp includes a base that is configured to be mounted to the support structure such that the base engages the support structure. The clamp also includes a spring finger that extends from the base such that the base and the spring finger define a unitary body of the clamp. The spring finger is configured to engage the LED PCB of the LED package and apply a clamping force to the LED PCB that acts in a direction toward the support structure. | 08-08-2013 |
20140051305 | MODULAR PLUG FOR POWER APPLICATIONS - A modular plug includes a plug housing having a mating end and a cable end and plug contacts at the mating end. The plug housing and the plug contacts are shaped and positioned to define an RJ-45 modular plug mating interface. The plug contacts are arranged into a first group and a second group with each of the plug contacts in the first group being electrically commoned to form a first power circuit and each of the plug contacts in the second group being electrically commoned to form a second power circuit. The first and second power circuits are terminated to different wires of a cable. | 02-20-2014 |
20140242833 | ELECTRICAL CONNECTOR HAVING POKE-IN WIRE CONTACT - An electrical connector includes a housing having a receptacle that is configured to receive an electrical wire therein. An electrical contact is held by the housing. The electrical contact includes a contact beam that includes a wire interface that is configured to engage the electrical wire. The contact beam is movable between a closed position and an open position. The wire interface is configured to engage the electrical wire when the contact beam is in the closed position. The wire interface is configured to be disengaged from the electrical wire when the contact beam is in the open position. The electrical connector includes a push-button actuator having a resiliently deflectable spring that is configured to slidably engage the contact beam to thereby move the contact beam from the closed position to the open position. | 08-28-2014 |
20150062929 | LIGHT BULB ASSEMBLY - A light bulb assembly includes a bulb housing that is configured to be mounted to a base that includes an electrically conductive shell configured to be connected to a light bulb socket. The shell defines a negative terminal of the light bulb assembly. A light bulb is held by the bulb housing and includes a printed circuit board (PCB). The assembly includes an electrical connector having a connector housing, a negative contact, and a positive terminal of the light bulb assembly. The electrical connector is mounted to the PCB such that the positive terminal and the negative contact are electrically connected to the PCB. The negative contact is configured to mate with the shell of the base. The positive terminal is configured to be exposed for mating with a corresponding terminal of the light bulb socket when the bulb housing is mounted to the base. | 03-05-2015 |