Class / Patent application number | Description | Number of patent applications / Date published |
439075000 | Connected by transversely inserted pin | 16 |
20080207015 | Press-fit pin and board structure - Provided is a printed wiring board formed with a through-hole into which a press-fit pin is press-fitted. The printed wiring board includes at least one signal transmission layer, a signal transmission wiring pattern formed in the signal transmission layer, and an electrode portion of the signal transmission wiring pattern exposed at an inner circumferential surface of the through-hole. The electrode portion is not formed covering the entire inner circumferential surface of the through-hole but at a part of the inner circumferential surface of the through-hole. | 08-28-2008 |
20080227312 | Multilayer wiring substrate - A first wiring pattern formed on a first layer of a multilayer wiring substrate, a second wiring pattern formed on a layer different from the first layer on which the first wiring pattern is formed, a penetration hole penetrating the front surface and the back surface of the substrate, and a penetration hole penetrating a front surface and a back surface of the substrate; and a fitting connector having a conductor part on a side surface inscribed in the penetration hole and fitting into the penetration hole are provided. The first wiring pattern and the second wiring pattern are exposed from the internal surface of the penetration hole, and the fitting connector connects a first end part of the conductor part and a second end part with an exposed part of the first wiring pattern and an exposed part of the second wiring pattern, respectively. | 09-18-2008 |
20080293267 | ELECTRICAL CONNECTOR WITH STRESS-DISTRIBUTION FEATURES - A connector capable of being mounted onto a substrate is disclosed. Such a connector may include a housing, and a contact mounted within the housing. The contact may include a body, terminal pins extending from a first edge of the body, contact beams extending from a second edge of the body, and a flared portion. The edges of a first contact beam and a second contact beam of the contact beams may be positioned proximate respective adjacent surfaces of the housing. The flared portion may also be positioned proximate a respective adjacent surface of the housing. The relationship between the first contact beam and its respective adjacent surface, the relationship between the second contact beam and its respective adjacent surface, and the relationship between the flared portion and its respective surface may inhibit bowing of the body of the contact when the connector is mounted on the substrate. | 11-27-2008 |
20090011622 | Plug-in connector - The invention relates to a plug-in connector ( | 01-08-2009 |
20090061656 | BOARD-TO-BOARD CONNECTOR - A thin board-to-board connector with high density in which there is no connection between three-dimensional complex metal springs. The board-to-board connector ( | 03-05-2009 |
20090246985 | PASS-THROUGH ADAPTER WITH CRYPTO IGNITION KEY (CIK) FUNCTIONALITY - A pass-through adapter includes an adapter body having at least two connector pin interfaces, with one configured for coupling to an external device such as a communications device. Each connector pin interface includes a plurality of connector pins, including a plurality of pass-through connector pins operative with each other for in-line, pass-through signaling when the pass-through adapter is coupled to the external device. A crypto ignition key (CIK) circuit is contained within the adapter body and connected to at least one of the connector pins to provide a secure mode of operation for the external device. | 10-01-2009 |
20100029103 | FIXTURE FOR INSTALLING A GUIDE PIN - A fixture is provided for installing a guide pin to a substrate. The fixture includes an elongate body extending a length along a longitudinal axis between a mounting end portion and a receiving end portion. The mounting end portion is configured to be mounted on a support member. An opening extends into the body through the receiving end portion of the body and along the longitudinal axis. The opening is configured to receive at least a portion of the guide pin therein. | 02-04-2010 |
20100093194 | CONNECTOR ASSEMBLY WITH VARIABLE STACK HEIGHTS HAVING POWER AND SIGNAL CONTACTS - A connector assembly includes a housing, a signal contact and a power contact. The housing has a mounting body and a mating body coupled together and separated by a gap. The gap permits air to flow between the lower and mating bodies. The mating body is configured to engage an upper substrate and the mounting body is configured to engage a lower substrate to mechanically interconnect the upper and lower substrates. The signal contact extends between and protrudes from the mating and mounting bodies and is configured to communicate a data signal between the mating and mounting bodies. The power contact extends between and protrudes from the mating and mounting bodies and is configured to communicate electrical power between the upper and lower substrates. The housing separates the upper and lower substrates by a predetermined stack height. | 04-15-2010 |
20100093195 | CONNECTOR ASSEMBLY HAVING MULTIPLE CONTACT ARRANGEMENTS - A connector assembly includes a housing and substantially identical contacts. The housing is configured to mate with a mating connector. The contacts are arranged in a plurality of sets in the housing. The contacts are configured to electrically couple with the mating connector. Each set of contacts is arranged to communicate a different type of data signal with the mating connector. Optionally the contacts are formed as substantially identical pins. The different sets of contacts may concurrently communicate the different types of data signals. | 04-15-2010 |
20110008977 | Electrical connector - An electrical connector includes a base having a through hole, a cover body slidably located on the base, a plurality of pins received in the base, a pushing piece installed on the upper surface of the cover body and having an opening, and a driving device for pushing the cover body and the base to have a relative motion. The cover body has a receiving hole that passes through the upper surface and the lower surface of the cover body. The driving device is received in the through hole, the opening, and the receiving hole. The driving device has an upper blocking portion and a lower blocking portion. The pushing piece, the cover body, and the base are located between the upper blocking portion and the lower blocking portion, in order to prevent the cover body from warping to cause the driving device being operated abnormally. | 01-13-2011 |
20110124209 | Converter - This specification discloses a converter whose first electrical connector of a first standard is fixed on a first circuit board and whose second electrical connector of a second standard is connected to a second circuit board. The second circuit board is thus electrically connected to the first circuit board. Therefore, the converter expands the second connector to the first circuit board. This achieves the goal of connecting circuit boards of different connecting designs. | 05-26-2011 |
20130089992 | STRUCTURE FOR STACKING PRINTED BOARD ASSEMBLIES IN ELECTRONIC DEVICE - A structure for stacking Printed Board Assemblies (PBAs) in an electronic device is provided. The structure for stacking PBAs in an electronic device includes a clip mounted on a main Printed Circuit Board (PCB), a sub-PCB including a ground portion, a sub-PBA including the sub-PCB, and a clip header mounted on a lower part of the sub-PBA, wherein the clip header is inserted into the clip. Therefore, electronic components mounted on a main PCB can be shielded from outer electromagnetic waves while reducing material costs without using a shield can, and a sub-PBA can be stacked on the main PBA. | 04-11-2013 |
20150079817 | CONNECTOR - A board-to-board connector capable of preventing a short-circuit from occurring between contacts when connectors are fitted to each other. Pin-shaped male-side contact portions protrude from one surface of a male-side insulating film, and male-side terminal portions are provided on the other surface of said male-side insulating film. This makes it possible to prevent a short-circuit from occurring between adjacent female-side contacts by the male-side contacts. | 03-19-2015 |
20150303596 | ELECTRONIC SUBSTRATE CONNECTING STRUCTURE - An electronic substrate connecting structure is used to electrically connect a pair of electronic substrates arranged to face each other. The electronic substrate connecting structure includes a plurality of pins erected on one of the electronic substrates to electrically connect the one of the electronic substrates and the other electronic substrate, and a pin guide that has a plurality of guide holes where the pins are inserted and defines positions of the pins such that the pins are connectable to the other electronic substrate while the pins are installed in the one of the electronic substrates. | 10-22-2015 |
20160190716 | SOCKET THAT ENGAGES A PLURALITY OF ELECTRONIC PACKAGES - Some forms relate to a socket having a housing. A first receiving pin field is formed as part of the housing. The first pin receiving field includes a first plurality of electrical contacts. A second receiving pin field is formed as part of the housing. The second pin field includes a second plurality of electrical contacts. An actuation mechanism is configured to engage the first plurality electrical contacts with a first set of pins on a first electronic package and the second plurality electrical contacts with a second set of pins on a second electronic package. | 06-30-2016 |
20160190717 | ELECTRONIC ASSEMBLY THAT INCLUDES A PLURALITY OF ELECTRONIC PACKAGES - Some forms relate to an electronic assembly that includes a plurality of electronic package. The electronic assembly includes a frame and a first electronic package mounted on the frame. The first electronic package includes a first pin grid array. The electronic assembly further includes a second electronic package mounted on the frame. The second electronic package includes a second pin grid array. The electronic assembly further includes an actuation mechanism on the frame. The actuation mechanism is configured to move the first electronic package and the second electronic package relative to the frame during operation of the actuation mechanism. | 06-30-2016 |