Patent application number | Description | Published |
20080248759 | Apparatus For Coupling A Wireless Communication Device To A Physical Device - A wireless communication device may be configured to transmit and receive data through a physical device, such as a cable. Relatively higher transmit radio frequency (RF) signals from the wireless communication device may be shifted to a relatively lower frequency, thereby enabling the relatively lower frequency signals to be carried by the physical device. Similarly, relatively lower frequency signals from the physical device may be shifted to relatively higher frequencies, thereby enabling the wireless communication device to receive the signals from the physical device. In one embodiment, the frequency of the RF signals may be between 2.3 and 2.7 GHz and the frequency of the relatively lower frequency shifted signals may be between 900 and 1100 MHz. | 10-09-2008 |
20120171969 | Apparatus For Coupling A Wireless Communication Device To A Physical Device - A wireless communication device may be configured to transmit and receive data through a physical device, such as a cable. Relatively higher transmit radio frequency (RF) signals from the wireless communication device may be shifted to a relatively lower frequency, thereby enabling the relatively lower frequency signals to be carried by the physical device. Similarly, relatively lower frequency signals from the physical device may be shifted to relatively higher frequencies, thereby enabling the wireless communication device to receive the signals from the physical device. In one embodiment, the frequency of the RF signals may be between 2.3 and 2.7 GHz and the frequency of the relatively lower frequency shifted signals may be between 900 and 1100 MHz. | 07-05-2012 |
20140062823 | Circular Antenna Array Systems - Antenna arrays providing high gain during wireless communications are highly desirable for many applications including, but not limited to, multiple-in multiple-out (MIMO) streams and video transmissions. Optimized antenna arrays should also ensure ease of manufacture, thereby enhancing commercial viability. Circular antenna arrays including horn antennas or Yagi antennas are described, each circular antenna array ensuring ease of manufacture. | 03-06-2014 |
20140078914 | SYSTEM AND METHOD FOR PROGRAMMABLE MATCHING OF DETUNED RF COMPONENTS - Systems and methods are disclosed for returning RF components which exhibit a mismatch with a coupled load. A tuning circuit may be coupled to a signal path of the RF component, wherein the tuning circuit includes a plurality of loads, a switching element associated with each load, wherein each switching element brings the associated load into and out of the signal path, a control line for each switching element, and a phase stage configured to introduce a phase shift, such as 90°, between a first subset of the loads and a second subset of the loads. The disclosure also includes routines for establishing optimum settings for the tuning circuit. | 03-20-2014 |
Patent application number | Description | Published |
20080223897 | FASTENER GUN - An example fastener gun includes a housing having a plunger and a power spring for driving a fastener into a workpiece, and a trigger arm pivotally attached to the housing at a trigger pivot. The trigger arm lifts the plunger to bias the power spring when the trigger arm pivots in a first direction. The example fastener gun also includes a handle extending upwardly from the housing and pivotally attached to the housing at a handle pivot, and a roller for pivoting trigger arm in the first direction when the handle moves toward the housing. The roller moves away from the trigger pivot when the handle moves toward the housing. | 09-18-2008 |
20080290133 | FASTENER GUN - A fastener gun includes a housing having a plunger and a power spring for driving a fastener into a workpiece, and a trigger arm pivotally attached to the housing at a trigger pivot. One end of the trigger arm lifts the plunger to bias the power spring when the trigger arm pivots in a first direction toward the housing. A member contacting the trigger arm is provided that moves away from the trigger pivot as the handle moves toward the housing, so that force is applied at different locations on the trigger arm when the handle is squeezed, increasing the mechanical advantage of using the fastener gun. | 11-27-2008 |
20090145944 | CONTINUOUS FEED CAP MECHANISM - A continuous cap feed mechanism for use with fastener driving device includes a housing for receiving a coiled strip of interconnected caps removably mounted the fastener driving device. The housing includes a passageway for guiding the strip of caps from the coil to a position beneath a fastener to be driven by the fastener driving device and an advancing mechanism for moving the leading cap on said strip from the passage to the position beneath the fastener to be driven after the fastener driving device drives a prior fastener into a cap and as it is moved away from the previously driven fastener. The advancing mechanism includes a driver movably mounted in the housing for movement between an extended and retracted position adjacent the location on the fastener driving device at which the fastener driving device drives fasteners. The driver is moved from its extended to its retracted position as it engages a work piece to which a cap is to be fastened is biased towards its extended position and includes a pusher mechanism for engaging a cap in the strip in the housing and urging the strip in the passageway towards the fastener driving device as the driver returns to its extended position when the housing is moved away from the work piece. | 06-11-2009 |
20100155449 | CONTINUOUS FEED CAP MECHANISM - A continuous cap feed mechanism for use with fastener driving device includes a housing for receiving a coiled strip of interconnected caps removably mounted the fastener driving device. The housing includes a passageway for guiding the strip of caps from the coil to a position beneath a fastener to be driven by the fastener driving device and an advancing mechanism for moving the leading cap on said strip from the passage to the position beneath the fastener to be driven after the fastener driving device drives a prior fastener into a cap and as it is moved away from the previously driven fastener. The advancing mechanism includes a driver movably mounted in the housing for movement between an extended and retracted position adjacent the location on the fastener driving device at which the fastener driving device drives fasteners. The driver is moved from its extended to its retracted position as it engages a work piece to which a cap is to be fastened is biased towards its extended position and includes a pusher mechanism for engaging a cap in the strip in the housing and urging the strip in the passageway towards the fastener driving device as the driver returns to its extended position when the housing is moved away from the work piece. | 06-24-2010 |
20120118934 | STAPLE GUN WIRE GUIDE - A staple gun tacker includes a wire guide mechanism in its forward end which includes a wire guide plate having a recessed lower end for engaging a wire when the plate is in an extended position and a rotatable cam for moving the plate between extended and retracted positions which includes a circular slot formed therein having one end thereof located closer to the axis of rotation of the cam then the other receiving and engaged with a projection on the cam plate so that rotation of the cam is translated into linear movement of the wire guide plate. | 05-17-2012 |
20120298717 | STAPLE GUN WIRE GUIDE - A staple gun tacker includes a wire guide mechanism in its forward end which includes a wire guide plate having a recessed lower end for engaging a wire when the plate is in an extended position and a rotatable cam for moving the plate between extended and retracted positions which includes a circular slot formed therein having one end thereof located closer to the axis of rotation of the cam then the other receiving and engaged with a projection on the cam plate so that rotation of the cam is translated into linear movement of the wire guide plate. | 11-29-2012 |
Patent application number | Description | Published |
20150290606 | MAGNETIC MIXING SYSTEM AND METHOD - A mixing system typically for use in a container for mixing its contents, the mixing system including a cap unit, an extension unit and a magnetic mixing unit that is attached to the cap unit by the extension unit. The magnetic mixing unit can be folded to permit insertion and/or removal of the system via a mouth of the container. The extension unit and magnetic mixing unit connect via a hinge formed by upper and lower hinge portions that meet at a pivot point. The hinge portions extend from the pivot point along a first axis. The magnetic mixing unit includes a first magnetic elongate member that extends from the lower hinge portion along a second axis that is substantially perpendicular to the first axis, and a second magnetic elongate member that extends from the lower hinge portion along the second axis in the opposite direction relative to the first elongate member. The magnetic member(s) may be provided by a plastic coated magnetic stir bar. | 10-15-2015 |
20160108356 | MIXING AND FILTERING SYSTEM AND METHOD - An apparatus for growing and separating cells or micro carriers from fluid medium in an aseptic environment, has a sealed, air and liquid tight, container having a port to allow for the introduction of fluid, gas or components, a filter with a filtration medium mounted centrally around an axis extending through the container, a mixing assembly that rotates around the filtration medium to allow for suspension of media or agitation thereof, and the mixing assembly has vanes containing a magnetic unit in a lower portion thereof that allows for coupling to a stir plate for driving the vanes of the mixing assembly. The vanes are preferably suspended by a central bearing located above the filter, and preferably the vanes extend downward to proximate the bottom of the container to the same extent as the filter and a diptube located along the axis of the filter and vanes. | 04-21-2016 |