Patent application number | Description | Published |
20080267556 | Flexible Printed Circuits Capable of Transmitting Electrical and Optical Signals - A flexible printed circuit capable of transmitting electrical and optical signals is disclosed. The flexible printed circuit includes a set of optical waveguides for transmitting optical signals and a set of conductors for transmitting electrical signals. Each of a subset of the optical waveguides is enclosed by a respectively one of the conductors. The optical waveguide is made of glass or plastic. The conductors are formed within a first building block constructed by a first dielectric layer and a first substrate layer, and a second building block constructed by a second dielectric layer and a second substrate layer. | 10-30-2008 |
20090056998 | METHODS FOR MANUFACTURING A SEMI-BURIED VIA AND ARTICLES COMPRISING THE SAME - Disclosed herein is a method comprising drilling a first hole in a multilayered device; the multilayered device comprising a fill layer disposed between and in intimate contact with two layers of a first electrically conducting material; the fill layer being electrically insulating; plating the first hole with a slurry; the slurry comprising a magnetic material, an electrically conducting material, or a combination comprising at least one of the foregoing materials; filling the first hole with a fill material; the fill material being electrically insulating; laminating a first layer and a second layer on opposing faces of the multilayered device to form a laminate; the opposing faces being the faces through which the first hole is drilled; the first layer and the second layer each comprising a second electrically conducting material; drilling a second hole through the laminate; the second hole having a circumference that is encompassed by a circumference of the first hole; and plating the surface of the second hole with a third electrically conducting material. | 03-05-2009 |
20090188712 | Flexible Multilayer Printed Circuit Assembly with Reduced EMI Emissions - A flexible multilayer printed circuit assembly with shield fences. The flexible multilayer printed circuit assembly with multiple conductive layers includes logic ground vias that connect logic ground plane layers together, and shield vias that connect a top and a bottom shield plane layer together. Each of the shield fences is formed between the shield vias on an outside perimeter of each of the conductive layers. Each of the shield fences contains the logic ground vias inside, and also contains each corresponding conductive layer in the horizontal direction to which each layer extends. | 07-30-2009 |
20090213565 | EMC SHIELDING FOR PRINTED CIRCUITS USING FLEXIBLE PRINTED CIRCUIT MATERIALS - Exemplary embodiments of the present invention relate to a method for making multilayer flexible printed circuit carrier. The method comprises producing a first flexible conductor layer having a first width, producing a second flexible conductor layer having a second width larger than the first width, and separating a first side of the first flexible conductor and a first side of the second flexible conductors with a first insulator. The method also comprises placing a second insulator over at least a portion of a second surface of the first flexible conductor, and wrapping a portion of the second flexible conductor over the at least a portion of the second surface of the first flexible conductor. | 08-27-2009 |
20090277670 | High Density Printed Circuit Board Interconnect and Method of Assembly - A printed circuit board assembly having an edge joined first and second sub-circuit board is provided. The first sub-circuit board includes an edge with a stair-step profile interconnection wherein each of the stairs on the profile exposes an area of a signal layer. Each exposed portion of the signal layer has a plurality of signal pads thereon. The second sub-circuit board includes an edge with an inverse stair-step profile interconnection. A pad-on-pad connector is positioned in-between and electrically interconnects the respective signal layers on each sub-circuit board. | 11-12-2009 |
20100084160 | SPLIT FLEX CABLE - A cable assembly for interconnecting a plurality of circuit boards together by using a connector assembly connected to each of the circuit boards. The cable assembly includes a first cable having a first end part and a second cable having a second end part. A first periphery of the first end part has a plurality of first half vias that collectively form a column along a width direction of the connector assembly. A second periphery of the second end part has a plurality of second half vias that collectively form a column along the width direction of the connector assembly. The first and second end parts are coupled together to form a connecting unit, such that the first half vias and the second half vias are joined together to form full vias. | 04-08-2010 |
20120088376 | SPLIT FLEX CABLE - A cable assembly for interconnecting a plurality of circuit boards together by using a connector assembly connected to each of the circuit boards. The cable assembly includes a first cable having a first end part and a second cable having a second end part. A first periphery of the first end part has a plurality of first half vias that collectively form a column along a width direction of the connector assembly. A second periphery of the second end part has a plurality of second half vias that collectively form a column along the width direction of the connector assembly. The first and second end parts are coupled together to form a connecting unit, such that the first half vias and the second half vias are joined together to form full vias. | 04-12-2012 |
20120275798 | PROGRAMMABLE OPTICAL INTERCONNECT FOR MULTI-NODE COMPUTER SYSTEMS - A device for connecting a plurality of assemblage-mounted optical transmitters to a plurality of assemblage-mounted optical receivers mounted on a selected side of an assemblage includes a planar frame configured to be coupled to the selected side of the assemblage. A plurality of first redirecting structures is affixed to the planar frame and each is configured to receive a first optical signal from a different assemblage-mounted optical transmitter. Each first redirecting structure transmits a second optical signal, corresponding to the first optical signal, along a preselected path. A plurality of second redirecting structures is affixed to the planar frame and each is configured to receive the second optical signal from a different one of the first redirecting structures. Each of the second redirecting structures transmits a third optical signal, corresponding to the second optical signal, to a different one of the assemblage-mounted optical receivers. | 11-01-2012 |
20130177697 | IMPLEMENTING ENHANCED OPTICAL MIRROR COUPLING AND ALIGNMENT UTILIZING TWO-PHOTON RESIST - A method, system and computer program product for implementing an enhanced optical mirror coupling and alignment mechanism utilizing two-photon resist. An initial placement is provided for one or more vias on a printed circuit board. A via is filled with a resist. A series of tightly focused light beams suitably exposes the resist at varying depths in the via, the varying depths defining a sloped polymer in the via after removing resist that had not been at the focus of the light beam. The sloped polymer is coated with reflective material to reflect light into or out of the via. | 07-11-2013 |
20130240250 | CIRCUIT APPARATUS HAVING A ROUNDED DIFFERENTIAL PAIR TRACE - A first artwork layer having a first adaptable-mask section allows a graded amount of light to pass into an underlying first photoresist layer. Subsequent to developing the first photoresist layer, the graded amount of light creates a rounded geometric void used as a mold or sidewall for the creation of at least a lower portion of a rounded trace. A dielectric layer is laminated upon the lower portion and a second artwork layer having an second adaptable-mask section allows a graded amount of light to pass into a second photoresist layer. Subsequent to developing the second photoresist layer, the graded amount of light creates a rounded geometric void used as a mold or sidewall for the creation of at least an upper portion of a rounded trace. The photoresist and dielectric layers are removed resulting in a circuit apparatus having a rounded differential pair trace. | 09-19-2013 |
20140005818 | IMPLEMENTING ENHANCED LOW LOSS, THIN, HIGH PERFORMANCE FLEXIBLE CIRCUITS | 01-02-2014 |
20140142883 | IMPLEMENTING FREQUENCY SPECTRUM ANALYSIS USING CAUSALITY HILBERT TRANSFORM RESULTS OF VNA-GENERATED S-PARAMETER MODEL INFORMATION - A method, system and computer program product are provided for implementing frequency spectrum analysis of noise in a device under test using causality (Hilbert Transform) results of Vector Network Analyzer (VNA) VNA-generated S-parameter model Information. A plurality of S-parameter samples are collected from the VNA generated S-parameter model Information. A Hilbert Transform of the collected plurality of S-parameter samples is used for error magnitude per frequency point analysis. An average error magnitude of predefined collected error magnitude samples is calculated to identify environmental noise in the device under test and used to identify acceptable environmental effects on the device under test. | 05-22-2014 |
20140192483 | THERMAL DISSIPATIVE RETRACTABLE FLEX ASSEMBLY - Embodiments of the present invention provide an apparatus comprising a flexible circuit having a proximal end, a distal end, and a plurality of longitudinal conductors. Further, the apparatus includes a substantially cylindrical retractor capable of retracting the flexible circuit around an exterior surface. Further still, the apparatus includes a plurality of thermal energy transfer turrets attached to the flexible circuit near the plurality of longitudinal conductors. | 07-10-2014 |
20140205232 | IMPLEMENTING EMBEDDED HYBRID ELECTRICAL-OPTICAL PCB CONSTRUCT - Methods and structures are provided for implementing embedded hybrid electrical-optical printed circuit board (PCB) constructs. The embedded hybrid electrical-optical PCB construct includes electrical channels and optical channels within a single physical PCB layer. The embedded hybrid electrical-optical PCB construct includes an electrically conductive sheet or a copper sheet, and a reflective mesh adhesive layer provided with the electrical channels and optical channels within the single physical PCB layer. | 07-24-2014 |
20140259653 | FLEXIBLE REWORK DEVICE - A rework device in form of a flexible circuit is provided in order to repair a printed circuit assembly. The printed circuit assembly includes one or more through vias and interconnections. The flexible circuit includes a lead in portion and a tail portion. The flexible circuit also includes a first distended head portion proximal to the lead in portion and a second distended head portion proximal to the tail portion. Further, the second distended head portion is connected to the first distended head portion through a coverlay portion. The flexible circuit provided is adapted to be threaded through a through via to repair the printed circuit assembly. | 09-18-2014 |