Patent application number | Description | Published |
20090139508 | Magnetic nock system - An arrow nock system for holding an arrow and permitting true release from a bow wherein an arrow nock is positioned on an end of an arrow shaft and is magnetically engageable with a ball nock having an at least partially spherical outer surface attached to a bowstring. | 06-04-2009 |
20100006079 | Drop-away arrow rest - An arrow rest that drops away or otherwise moves away from a discharging shaft of an arrow or another projectile. An arrow holder is operable between two support positions and a launch position. A support force is used to keep or maintain the arrow holder in the support position. A movement force can be transferred to the arrow holder for overcoming the support force and moving the arrow rest into a launch position, away from a discharging arrow shaft and the corresponding fletching. | 01-14-2010 |
20100265005 | PCB Mounted Directional Coupler Assembly - A coupler assembly includes a monolithic body ( | 10-21-2010 |
20120302088 | Capacitivly Coupled Flat Conductor Connector - A capacitivly coupled flat conductor connector provided with a male connector body and a female connector body. An alignment insert is coupled to the male connector body, the alignment insert dimensioned to support a predefined length of an inner conductor. An alignment receptacle coupled to the female connector body, the alignment receptacle dimensioned to receive a connector end of the alignment insert to seat an overlapping portion of an inner conductor and an inner conductor trace parallel with one another against opposite sides of a spacer. | 11-29-2012 |
20130037299 | Stripline RF Transmission Cable - A stripline RF transmission cable has a flat inner conductor surrounded by a dielectric layer that is surrounded by an outer conductor. The outer conductor has a flat top section and a flat bottom section which transition to a pair of edge sections that interconnect the top section with the bottom section. The top section, bottom section and the inner conductor may be provided with generally equal widths. | 02-14-2013 |
20130037300 | Low Attenuation Stripline RF Transmission Cable - A stripline RF transmission cable has a flat inner conductor surrounded by a dielectric layer that is surrounded by an outer conductor. The outer conductor has a top section and a bottom section which transition to a pair of edge sections that interconnect the top section with the bottom section. The top section, bottom section and the inner conductor may be provided with generally equal widths. An average dielectric constant of the dielectric layer may be lower between the inner conductor edges and the edge sections than between a mid section of the inner conductor and the top and the bottom sections and/or spacing between the inner conductor and the dielectric layer may be reduced proximate a mid section of the inner conductor. | 02-14-2013 |
20130037301 | Multi-Conductor Stripline RF Transmission Cable - A stripline RF transmission cable has a plurality of generally planar inner conductors surrounded by a dielectric layer that is surrounded by an outer conductor. The inner conductors may be aligned coplanar, inner conductor edge to inner conductor edge, separated by the dielectric layer. Alternatively, the inner conductors may be provided in a vertical stack. A shield element may be applied between the inner conductors. The shield element may be electrically coupled to the outer conductor to entirely isolate the inner conductors from one another. | 02-14-2013 |
20130037320 | Hybrid Stripline RF Coaxial Cable - A hybrid stripline RF transmission cable has a generally flat inner conductor surrounded by a dielectric layer that is surrounded by an outer conductor. Additional conductors may be applied within the dielectric layer and/or within a jacket surrounding the outer conductor. The additional conductors may be, for example, power, data and/or optical conductors. | 02-14-2013 |
20130038410 | Thermally Conductive Stripline RF Transmission Cable - A thermally conductive stripline RF transmission cable has a flat inner conductor surrounded by a dielectric layer that is surrounded by an outer conductor. The dielectric layer may include a base polymer and a thermally conductive material to increase a thermal conductivity of the cable. A thermal conductivity of the dielectric layer may be increased between a midsection of the inner conductor and the outer conductor. A jacket may surround the outer conductor, the jacket including a base polymer and a thermally conductive material. Additional conductors may be applied within the dielectric layer and/or in the jacket, proximate the outer conductor. | 02-14-2013 |
20130038411 | Self-Supporting Stripline RF Transmission Cable - A stripline RF transmission cable has a flat inner conductor surrounded by a dielectric layer that is surrounded by an outer conductor. A jacket with an attachment feature surrounds the outer conductor. The attachment feature may be a fin aligned parallel or normal to the inner conductor. The attachment feature may be continuous or periodic along a longitudinal extent of the cable. The attachment feature may include male and female portions dimensioned to couple with one another, enabling adjacent cables to be attached to one another. | 02-14-2013 |
20130038412 | Corrugated Stripline RF Transmission Cable - A stripline RF transmission cable has a generally planar inner conductor surrounded by a dielectric layer that is surrounded by a corrugated outer conductor. The corrugations may be, for example, annular or helical. The outer conductor has a top section and a bottom section which transition to a pair of edge sections that interconnect the top section with the bottom section. The top section, bottom section and the inner conductor may be provided with generally equal widths. A spacing between the inner conductor and the dielectric layer may be reduced proximate a mid section of the inner conductor. The inner conductor may also be corrugated generally normal to a longitudinal extend of the inner conductor. | 02-14-2013 |
20130065422 | Capacitively Coupled Flat Conductor Connector - A capacitively coupled flat conductor connector is provided with a male connector body and a female connector body. An alignment insert is coupled to the male connector body, the alignment insert dimensioned to support a predefined length of an inner conductor. An alignment receptacle is coupled to the female connector body, the alignment receptacle dimensioned to receive a connector end of the alignment insert to seat an overlapping portion of an inner conductor and an inner conductor trace parallel with one another against opposite sides of a dielectric spacer. An outer conductor dielectric spacer, which may be a ceramic coating, isolates the contacting elements of the outer conductor signal path between the male and female connectors. | 03-14-2013 |
20140027153 | Flexible Electrical Power Cable - An electrical cable has a plurality of generally rectangular cross-section conductors superposed in a stack, the stack surrounded by a polymer jacket. The stack may be provided with a lubrication layer provided between at least two of the conductors. Conductors of the stack may have a thickness that is greater proximate the middle of the stack than at the top and bottom of the stack and/or a width that is less at the top and the bottom than at the middle. Further stacks may also be provided parallel and coplanar with the first stack, also surrounded by the polymer jacket. | 01-30-2014 |
20150034381 | HYBRID CABLE WITH FLAT POWER CONDUCTORS - A cable reduces loop inductance by changing the cross-sectional shape of the conductive elements of power supply and return conductors to something other than the traditional circular cross sectional shape, e.g., to a thin generally rectangular shape. The power supply and return conductors are also controlled in placement along the length of the cable, so that mutual inductance is maximized within a given power supply circuit, and minimized between the given power supply circuit and other power supply circuits within the cable. The return power supply conductor may optionally be sized for multiple power supply circuits, which may further reduce loop inductance and reduce crosstalk noise between different power supply circuits within a common cable. The power supply and return conductors may be part of a hybrid cable used to power and communicate with plural remote radio units proximate a top of a tower. | 02-05-2015 |