Patent application number | Description | Published |
20100323533 | WIRE TO BOARD CONNECTOR - An electrical connector for connecting wires to components includes an insulative body member having a longitudinally extending leg defined between opposite longitudinal ends. A plurality of spaced apart side walls define adjacently disposed connector positions along the leg. A wire insertion opening is defined in a front wall of the body member at each of the connector positions. A connector element is disposed transverse to the leg at each of the connector positions. The connector element includes a first resilient contact arm extending above the side walls for pressing mating contact with a conductive pad of a separate respective component. The connector element includes a second resilient contact arm in biased engagement against a shoulder of the body member. Upon insertion of an exposed conductive wire core through the wire insertion opening, the wire core causes the second resilient contact arm to flex towards and remain in biased electrical contact engagement against the wire core. | 12-23-2010 |
20110019398 | TWO-PART LOADING CARD EDGE CONNECTOR AND COMPONENT ASSEMBLY - An LED light assembly includes a plurality of LED printed circuit boards (PCB), with each LED PCB having at least one LED bulb and electrical connector pads configured at each opposite end of the boards. A top loading two-component surface mount electrical connector is configured to connect one end of a first LED PCB to an end of a second said LED PCB such that the first and second LED PCBs are electrically connected in an abutting end-to-end configuration. The connected LED PCBs may be configured in a light tube that includes connector end caps for mounting the light tube in a light fixture. | 01-27-2011 |
20110021061 | WIRE TO BOARD CONNECTOR - An electrical connector configured for connecting wires to components includes a female component defining a socket with electrical contacts therein. A male component includes an insulative base body with contacts having a first section configured for receipt of a conductive core of an insulated wire, and an insulative plug member that extends transversely from the base body. The electrical contacts have a second section that extends at least partially onto the plug member. In mating contact of the male and female components, the plug member is inserted into the socket such that the electrical contacts on the plug member engage against the electrical contacts in the socket to electrically connect the wires to the electrical component. | 01-27-2011 |
20110059632 | CAPPED INSULATION DISPLACEMENT CONNECTOR (IDC) - An electrical insulation displacement connector (IDC) assembly includes a body having at least one channel with an open top side configured for receipt of an insulated conductive core wire therein. A contact element is fixed in the body with a first insulation displacement end defined by opposed blades oriented across the channel, and a second end extending from a bottom surface of the body and configured for electrical contact with a PCB. The IDC assembly includes a cap having a size and configuration so as to engage over the body, with the cap including a recess with an open bottom that is aligned with the body channel in a fitted configuration of the cap on the body. The wires may be initially received in the cap recesses wherein upon pressing engagement of the cap onto the body, the insulated conductive core wire is pressed into the body channel between and into the contact element. | 03-10-2011 |
20110256754 | CAPPED INSULATION DISPLACEMENT CONNECTOR (IDC) - An electrical insulation displacement connector (IDC) assembly includes a body having at least one channel with an open top side configured for receipt of an insulated conductive core wire therein. A contact element is fixed in the body with a first insulation displacement end defined by opposed blades oriented across the channel, and a second end extending from a bottom surface of the body and configured for electrical contact with a PCB. The IDC assembly includes a cap having a size and configuration so as to engage over the body, with the cap including a recess with an open bottom that is aligned with the body channel in a fitted configuration of the cap on the body. The wires may be initially received in the cap recesses wherein upon pressing engagement of the cap onto the body, the insulated conductive core wire is pressed into the body channel between and into the contact element. | 10-20-2011 |
20120003850 | INSULATION DISPLACEMENT CONNECTOR (IDC) - An electrical insulation displacement connector includes a bare single-wire contact element having a first end defined by opposed blades that define a receipt aperture for an insulated wire, and a second end configured for direct electrical contact at a contact position on a printed circuit board. Retaining structure is defined on the blades. A cap is configured for fitting over the exposed bare blades. The cap includes side walls and end walls with a slot defined in each of he end walls that align with the blade aperture. The side walls are engaged by the retaining structure upon pressing the cap onto the blades. The slots in the end walls of the cap have a width and height such that upon fully pressing the cap onto the blades, the slots engage and longitudinally align the insulated wire into the blade aperture so that the blades pierce and make electrical contact with a core in the insulated wire. | 01-05-2012 |
20120238127 | CAPPED INSULATION DISPLACEMENT CONNECTOR (IDC) - An electrical insulation displacement connector (IDC) assembly includes a body having at least one channel with an open top side for receipt of an insulated conductive core wire. A contact element is fixed in the body with a first insulation displacement end defined by opposed blades oriented across the channel, and a second end extending from a bottom surface of the body for electrical contact with a PCB. The IDC assembly includes a cap having a size and configuration to engage over the body, with the cap including a recess with an open bottom that is aligned with the body channel in a fitted configuration of the cap on the body. The wires may be initially received in the cap recesses wherein upon pressing engagement of the cap onto the body, the insulated conductive core wire is pressed into the body channel between the contact element. | 09-20-2012 |
20120238154 | WIRE-TO-WIRE CONNECTOR - A wire-to-wire electrical connector includes an insulative body member and an internal connector position. A wire insertion opening is defined in each end wall of the body member at the connector position. A first contact element is disposed in the connector position coaxial with the wire insertion openings and includes opposite end portions with a respective contact tab configured thereon. The contact tabs are biased to a closed position across the respective wire insertion opening. An actuator is configured with each wire insertion opening. The actuators are movably displaceable through an opening in a wall of the body member and include an engagement end in contact with a respective end portion of the first contact element. The actuators are manually depressible to move the contact tabs to an open position for insertion of a conductive core of a wire into the wire insertion opening beyond the contact tab, whereby upon release and return of the actuators, the contact tabs are biased against the conductive cores of opposite wires. | 09-20-2012 |
20130164968 | Insulation Displacement Connector (IDC) - An electrical insulation displacement connector includes a bare single-wire contact element having a first end defined by opposed blades that define a receipt aperture for an insulated wire, and a second end configured for direct electrical contact at a contact position on a printed circuit board. Retaining structure is defined on the blades. A cap is configured for fitting over the exposed bare blades. The cap includes side walls and end walls with a slot defined in each of he end walls that align with the blade aperture. The side walls are engaged by the retaining structure upon pressing the cap onto the blades. The slots in the end walls of the cap have a width and height such that upon fully pressing the cap onto the blades, the slots engage and longitudinally align the insulated wire into the blade aperture so that the blades pierce and make electrical contact with a core in the insulated wire. | 06-27-2013 |
20130178108 | Through-Board Card Edge Connector and Component Assembly - A through-board card edge connector has an insulative body defining a top end and a male plug portion extending transversely from the top end. The male plug portion has outer circumferential dimensions so as to extend through a mounting hole in a first electronic component, such as a PCB. An open socket is defined in an end of the male plug portion opposite from the top end and defines a first slot having first dimensions for receipt of a first card edge, and a second slot having second dimensions for receipt of a second card edge having dimensions different than the first card edge. A spring biased connector element is disposed within the open socket and is configured to make electrical contact with an edge terminal of either of a first or second card edge inserted into either of the first or second slots. | 07-11-2013 |
20130224988 | CAP BODY INSULATION DISPLACEMENT CONNECTOR (IDC) - A single molding electrical insulation displacement connector assembly includes a cap body having a passage therethrough at a contact position for receipt of an insulated conductive core wire. A contact element is movably retained in the cap body with a first insulation displacement end defined by opposed blades and a second opposite end configured for electrical contact with a printed circuit board. The contact element is movable relative to the cap body from a first position wherein the opposed blades do not block insertion of the wire into the passage to a second position wherein the opposed blades engage the wire. The wire is initially inserted into the cap body through the passage with the contact element in the first position. The cap body is subsequently pressed towards the second end of the contact element causing the opposed blades to slide within the cap body and engage the wire. | 08-29-2013 |
20140120748 | Board-to-Board Connectors with Integral Detachable Transfer Carrier Plate - An electrical connector assembly for mounting to contact pads on a printed circuit board (PCP) includes a carrier plate. A first connector component and a second connector component are attached to the carrier plate. The first and second connector components are spaced apart on the carrier plate a distance corresponding to spacing of the contact pads on the PCB. A frangible connection is defined between each of the first and second connector components and the carrier plate such that after mounting the connector assembly to the PCB, the carrier plate is detached from the first and second connector components. | 05-01-2014 |
20140120783 | SINGLE ELEMENT WIRE TO BOARD CONNECTOR - A single element electrical connector includes a single conductive contact element formed into a cage structure having a wire insert end and a wire contact end along a longitudinal centerline axis of the connector. The cage structure defines an upper pick-up surface having a surface area suitable for placement of a suction nozzle of a vacuum transfer device, as well as a pair of contact tines biased towards the centerline axis to define a contact pinch point for an exposed core of a wire inserted into the connector. A contact surface is defined by a member of the cage structure for electrical mating contact with a respective contact element on a component on which the connector is mounted. | 05-01-2014 |
20140120786 | SINGLE ELEMENT WIRE TO BOARD CONNECTOR - A single element electrical connector includes a single conductive contact element formed into a cage structure having a wire insert end and a wire contact end along a longitudinal centerline axis of the connector. The cage structure defines an upper pick-up surface having a surface area suitable for placement of a suction nozzle of a vacuum transfer device, as well as a pair of contact tines biased towards the centerline axis to define a contact pinch point for an exposed core of a wire inserted into the connector. A contact surface is defined by a member of the cage structure for electrical mating contact with a respective contact element on a component on which the connector is mounted. | 05-01-2014 |
20140242854 | SINGLE ELEMENT WIRE TO BOARD CONNECTOR - A single element electrical connector includes a single conductive contact element formed into a cage structure having a wire insert end and a wire contact end along a longitudinal centerline axis of the connector. The cage structure defines an upper pick-up surface having a surface area suitable for placement of a suction nozzle of a vacuum transfer device, as well as a pair of contact tines biased towards the centerline axis to define a contact pinch point for an exposed core of a wire inserted into the connector. A contact surface is defined by a member of the cage structure for electrical mating contact with a respective contact element on a component on which the connector is mounted. | 08-28-2014 |
20140302693 | SINGLE ELEMENT WIRE TO BOARD CONNECTOR - A single element electrical connector includes a single conductive contact element formed into a cage structure having a wire insert end and a wire contact end along a longitudinal centerline axis of the connector. The cage structure defines an upper pick-up surface having a surface area suitable for placement of a suction nozzle of a vacuum transfer device, as well as a pair of contact tines biased towards the centerline axis to define a contact pinch point for an exposed core of a wire inserted into the connector. A contact surface is defined by a member of the cage structure for electrical mating contact with a respective contact element on a component on which the connector is mounted. | 10-09-2014 |