| Patent application number | Description | Published |
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| 20090039092 | Transportation Frame for Oversize Container and Method of Installing the Frame Onto the Container - The present invention provides a transportation frame for an oversize container or the like and a method of installing the frame onto the container or the like. The transportation frame includes a top frame body comprising two top corner fittings each provided with a top corner fitting hole, a bottom frame body comprising two bottom corner fittings each provided with a bottom corner fitting hole, and a plurality of posts each having two ends connected to the top frame body and the bottom frame body respectively. The orientations of the two top corner fitting holes and the distance therebetween, and the orientations of the two bottom corner fitting holes and the distance therebetween satisfy the requirements for coupling with corner fittings of neighboring stacked containers. With the invention, non-standard containers may be easily hoisted, stacked and transported. Moreover, the transportation frame can be easily operated and stored while being reusable. | 02-12-2009 |
| 20090127151 | CONTAINER - The present invention discloses a container comprising a base frame, bottom side rails are provided respectively at both sides of the base frame and extends along a lengthwise direction of the container, and corner fittings are provided respectively at positions close to both ends of the each bottom side rail, the each bottom side rail is provided with a twist lock receiving groove which is formed by notching upward vertically from a bottom of the each bottom side rail, a bottom side of which is open, and a position of which corresponds to a position of a twist lock provided on a container carrier and disposed below the each bottom side rail. In the container of the present invention, it will be effective to prevent impact or press on the bottom side rails from twist locks provided on the container carrier, and the service life of the container is increased. | 05-21-2009 |
| Patent application number | Description | Published |
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| 20140002188 | POWER AMPLIFIER MODULES INCLUDING RELATED SYSTEMS, DEVICES, AND METHODS | 01-02-2014 |
| 20140016277 | RACETRACK DESIGN IN RADIO FREQUENCY SHIELDING APPLICATIONS - Aspects of the present disclosure relate to determining a layout of a racetrack that forms part of an RF isolation structure of a packaged module and the resulting RF isolation structures. Locations of where the racetrack can be adjusted (for example, narrowed) and/or removed without significantly degrading the EMI performance of the RF isolation structure can be identified. In certain embodiments, a portion of the racetrack can be removed to create a break and/or a portion of the racetrack can be narrowed in a selected area. | 01-16-2014 |
| 20140091813 | SYSTEMS AND METHODS RELATED TO NEAR-FIELD ELECTROMAGNETIC SCANNERS - Disclosed are systems, devices and methods related to scanners that can be utilized for multiple electrical and/or magnetic field measurements at different locations of a radio-frequency (RF) module. In some embodiments, a scanning system can include a miniature probe such as a magnetic probe, a fixture system configured to hold a device under test (DUT) such as an RF module, an operating system configured to operate the DUT, and a measurement system configured to obtain field strength measurements through the miniature probe at different locations of the DUT. Such measurements can yield a near-field distribution over a plurality of selected areas of the DUT, with each of the selected areas being smaller than an overall lateral area of the DUT. In some implementations, such a scanning system can be utilized to facilitate applications such as electromagnetic (EM) shielding designs. | 04-03-2014 |
| 20140091972 | SYSTEMS, DEVICES AND METHODS RELATED TO NEAR-FIELD ELECTRIC AND MAGNETIC PROBES - Disclosed are systems, devices and methods related to miniature probes that can be utilized for electrical and/or magnetic field strength measurements for areas that are smaller than an area of a radio-frequency (RF) module. In some embodiments, an electrical probe can be configured to include an unshielded inner conductor at an end of a coaxial assembly to allow an electrical field to induce differential-mode currents in the coaxial assembly. In some embodiments, a magnetic probe can be configured to include a loop connected to inner and outer conductors of a coaxial assembly to induce a common mode current by a change in magnetic field flux through the loop. In some implementations, such probes can be utilized to obtain near-field measurements to facilitate applications such as electromagnetic (EM) shielding designs. | 04-03-2014 |
| 20140094129 | MULTI-MODE POWER AMPLIFIER - A multi-mode power amplifier includes a high-power mode amplifier circuit, a mid-power mode amplifier circuit, and a low power amplifier circuit, where the low-power mode amplifier circuit comprises a plurality of independently selectable power cell/amplifier branches. The multi-mode power amplifiers selectively enable or disable amplifier branches to provide multiple levels of amplification. Selectively enabling certain of a plurality of split collector amplifier branches provides multiple low power and ultra-low power amplifier modes without the impedance mismatch or board layout problems associated with an RF switch. | 04-03-2014 |
| 20140175621 | SYSTEMS AND METHODS FOR PROVIDING INTRAMODULE RADIO FREQUENCY ISOLATION - A radio frequency (RF) module comprises RF-shielding structure for providing three-dimensional electromagnetic interference shielding with respect to one or more RF devices disposed on the module. The RF-shielding may comprise wirebond structures disposed adjacent to or surrounding an RF device. Two or more intramodule devices may have wirebond structures configured to at least partially block certain types of RF signals disposed between the devices, thereby reducing effects of cross-talk between the devices. | 06-26-2014 |
| 20140175622 | SEGMENTED CONDUCTIVE TOP LAYER FOR RADIO FREQUENCY ISOLATION - A radio frequency (RF) module comprises a conductive top layer configured to improve RF interference-shielding functionality with respect to one or more RF devices disposed on the module. The conductive top layer may be segmented as to form one or more segments of the top layer that are at least partially electrically isolated from surrounding segments or devices. A module may have a plurality of devices disposed thereon, wherein separate, at least partially isolated, top conductive layers correspond to different devices of the module. The top layer may be etched or cut to achieve such segmentation. | 06-26-2014 |
