Patent application number | Description | Published |
20110014814 | ELECTRICAL CONNECTOR WITH SHIELDING MEANS FOR GROUNDING AND IMPEDANCE METCHING - An electrical connector ( | 01-20-2011 |
20110032681 | ELECTRICAL CONNECTION ARRANGEMENT HAVING PCB WITH CONTACTS RECEIVED THEREIN - An electrical connection arrangement includes an IC package, and a PCB having a plurality of receiving holes for receiving a plurality of contacts therein. The contact having a contacting portion engaged with the IC package that seated upon the PCB. A retaining device is provided for securing the IC package onto the PCB. Since there is no socket utilized in the present invention, the total profile of the arrangement and the cost are effectively reduced. | 02-10-2011 |
20110075975 | OPTICAL FIBER CONNECTOR - An optical fiber connector includes a pair of optical fibers and a seat defining a pair of lenses at a front edge thereof and passageways aligned with the lenses respectively and receiving the optical fibers. The seat defines a pair of first apertures at a first surface thereof communicating with the passageways, and a pair of second aperture at a second surface thereof opposite to the first surface communicating with the passageways. Rear insides of the first apertures are aligned with front insides of the second apertures. | 03-31-2011 |
20110085762 | OPTICAL FIBER CONNECTOR WITH REFERENCE HOLE - An optical fiber connector includes a mating portion defining a coupled direction and including pairs of lenses and a pair of guiding portions. The pair of guiding portions each defines a guiding hole through a front face thereof in the coupled direction. Each guiding hole has a cross section of a polygon shape in the coupled direction and is configured with an imaginary circle perpendicular to the coupled direction. | 04-14-2011 |
20110096323 | OPTICAL-FIBER CONNECTOR WITH ACCURATE MEASURING REFERENCE - An optical-fiber connector includes an insulative main body having a pair of optical components extending forwardly therefrom. Each optical component defines at least one lens and a guiding post located at outside of the lens. Each guiding post defines a through hole extend through the guiding post and the main body in a front-to-back direction and fulfilled with the air for transmitting a test light. The test light from the through hole of the guiding post acts as an accurate measuring reference of the true position between the lens and the fiber because of having no displacement of the light path through a through hole. | 04-28-2011 |
20110103747 | OPTICAL FIBER CONNECTOR CONFIGURED WITH SEPARATED SEAT MEMBER AND LENS MEMBER - An optical fiber connector includes a lens member integrally forming pairs of lens at a front face thereof, a seat member assembly retained on a rear face of the lens member and fiber cables. The seat member defines slim grooves aligned with the lens and the fiber cables are received and retained in the slim grooves. | 05-05-2011 |
20110111607 | CONTACT TERMINAL HAVING FOOTHOLD ARRANGEMENT CAPABLE OF INTERLOCKING VIA OF PRINTED CIRCUIT BOARD - An electrical contact used in an electrical connector adapted for electrically connecting with an IC package and a printed circuit board is provided. Each contact comprises a base section, an upper resilient arm and a lower elastic arm extending from two opposite ends of the base section, respectively. The electrical connector comprises an insulative housing and a plurality of contacts retained in the insulative housing. The insulative housing includes a mating surface, a mounting surface, and a plurality of contact passageways passing through the mating surface and the mounting surface. The lower elastic arm of the contact at least partially projects below the mounting surface of the insulative housing. The lower elastic arm includes a first resisting portion for guiding the contact to be inserted into a via of the printed circuit board and resisting against inner wall of the via of the printed circuit board. | 05-12-2011 |
20110111616 | LOW PROFILE ELECTRICAL CONNECTOR EMBEDDED WITH PRINTED CIRCUIT BOARD - An electrical connector assembly includes a printed circuit board having an aperture and an electrical connector. The electrical connector comprises an insulative substrate with a plurality of contacts. The electrical connector is embedded in the aperture and electrically connects with the printed circuit board. | 05-12-2011 |
20110151689 | ELECTRICAL CONNECTOR HAVING IMPROVED INSULATIVE HOUSING - An electrical connector includes a substrate, an upper plate, a lower plate, and a number of contacts. The substrate has a number of passageways. The upper plate and the lower plate are mounted upon and below the substrate, respectively. The upper plate and the lower plate both have a number of apertures corresponding to the passageways and a recess to receive the substrate. The contacts are received in the passageways and the apertures. | 06-23-2011 |
20110157723 | NON-SPHERICAL LENS MODULE FOR EASY MANUFACTORY - A manufacture method of a non-spherical lens module includes: firstly, forming a housing having a row of through holes running through a first surface and a second surface thereof; secondly, providing and filling liquid waveguide with the through holes and forming two convex portions at jointing positions of the through holes and said two surfaces respectively; lastly, cooling the liquid waveguide to form the waveguide in the through hole, cooling the two convex portions to form first and second lens portions. | 06-30-2011 |
20110158585 | PHOTOELECTRIC CONNECTOR ASSEMBLY WITH A LENS MEMBER HAVING LENSES AT OPPOSITE FACES THEREOF - A photoelectric connector assembly includes a first lens member connecting with fiber cables and defining convex lenses opposite to fiber cables, a connector and a substrate embedded with waveguides. The connector defines a mating cavity running through a front face thereof and inserted with said first lens member. The connector includes terminals with contacting sections exposing to the mating cavity, a second lens members. The second lens member is located at back of the first lens member and defines first convex lenses at a front face thereof and second convex lenses at a rear face thereof. The first convex lenses are coupled with the convex lens of the first lens member. The substrate defines light ports at free ends of the waveguides. The substrate is seated with the connector and the light ports are coupled with the second convex lenses of the second lens member. | 06-30-2011 |