Patent application number | Description | Published |
20080231520 | MODEM CARD WITH THREE-DIMENSIONAL ANTENNA ARRANGEMENT - A modem card is configured to provide communication between a computer and a communications system. The modem card includes a case holding electronics. A corner extends along a top side of the case. An antenna body is connected to the case such that the antenna body bends around the corner of the case. An antenna is positioned in the antenna body such that the antenna bends around the corner of the case. The antenna is in electrical communication with the electronics in the case. | 09-25-2008 |
20090091508 | CO-LOCATION INSENSITIVE MULTI-BAND ANTENNA - Co-location insensitive multi-band antenna. The present example provides a co-location insensitive multi-band antenna. The antenna may be co-located with an antenna operated at another band and tends to reject interference from that antenna. The co-location insensitive multi-band antenna tends to provide a compact design that may be printed on a printed wiring board (“PWB”), on a case of a radio, such as a cellular telephone or may be self supporting. In general, the desired in band performance and out of band signal rejection may be achieved by a meander line coupled to a upper band patch. The meander line tends to provide a good lower bad match, and the upper band patch tends to provide a good high bad match, or resonance. The upper band patch also tends to cause a sharp roll off in return loss before the high band, that tends to reject frequencies from a co-located antenna transmitting below the high band. | 04-09-2009 |
20100127950 | RECONFIGURABLE RADIATION DENSENSITIVITY BRACKET SYSTEMS AND METHODS - A method and device bracket are presented for reconfigurable radiation desensitivity. The method includes: accepting a radiated wave from a source such as a transmitter, antenna, microprocessor, electrical component, integrated circuit, camera, connector, or signal cable; in response to the radiated wave, creating a first current per units square (I/units | 05-27-2010 |
20120113873 | Multi-Band and Multi-Mode Antenna System and Method - An antenna system is disclosed. A wireless device includes two antennas. The first antenna is optimized at a first frequency band. The second antenna is optimized at a second frequency band. The signals received from respective optimized frequency bands are used as primary received signals. The signals having frequencies beyond respective optimized frequency bands are used as diversity signals. Likewise, the signals transmitted from a transceiver to base stations are sent to respective antennas based upon their frequency bands. By employing this optimized antenna configuration, the wireless device can provide high quality wireless signals for both frequency bands. | 05-10-2012 |
20130060517 | Wireless Dongle Angular Position Sensor - An apparatus comprising a connector, a transceiver connected to the connector, and a processor configured to detect the connector's angular position relative to the transceiver based on a Hall voltage (V | 03-07-2013 |
20130099983 | Wireless Communication Device with an Antenna Adjacent to an Edge of the Device - A wireless communication device comprising a housing comprising a plurality of edges and configured to serve as an external surface for the wireless communication device, and an antenna adjacent to at least a first edge of the housing, wherein the antenna comprises at least a conductive strip and at least one slot and wherein the antenna is configured to receive and transmit wireless signals, wherein the first edge of the housing is one of an edge of the housing nearest an ear piece and an edge of the housing that is opposite the edge of the housing nearest the ear piece, and wherein the conductive strip and the slot are adjacent to at least the first edge of the housing. | 04-25-2013 |
20130230026 | Compact Transceiver Architecture for Achieving Device to Device (D2D) Communication Using Uplink and Downlink Carrier Frequencies - A system and method for device-to-device (D2D) communication is disclosed. A preferred embodiment comprises a frequency synthesizer configured to provide a first carrier frequency and a second carrier frequency, an up-converter coupled to the frequency synthesizer and configured to up-convert a first baseband signal into a cellular uplink signal when receiving the first carrier frequency from the frequency synthesizer, and configured to up-convert the first baseband signal into a first device-to-device signal when receiving the second carrier frequency from the frequency synthesizer, and a down-converter coupled to the frequency synthesizer and configured to down-convert a second device-to-device signal into a second baseband signal when receiving the first carrier frequency from the frequency synthesizer, and configured to down-convert a cellular downlink signal into the second baseband signal when receiving the second carrier frequency from the frequency synthesizer. | 09-05-2013 |
20140078017 | Multi Layer 3D Antenna Carrier Arrangement for Electronic Devices - An antenna comprising a plurality of carrier blocks, wherein each carrier block is coupled to at least one other carrier block, and a plurality of radiators, wherein each radiator is connected to at least one carrier block. Further, an antenna comprising a plurality of carrier blocks, wherein each carrier block is coupled with at least one other carrier block, and a radiator connected to at least two of the plurality of carrier blocks. | 03-20-2014 |
20140132465 | Tunable Dual Loop Antenna System - An apparatus comprising a first antenna, a second antenna, wherein the first antenna and the second antenna comprise a common conductor, a variable load connected between the common conductor and a ground connection, wherein an impedance of the variable load is variable, and wherein an operating frequency of the first antenna and the second antenna depends on the impedance, and a selection switch coupled to the first antenna and the second antenna, wherein the selection switch is configured to activate the first antenna and deactivate the second antenna in a first state, and wherein the selection switch is configured to activate the second antenna and deactivate the first antenna in a second state. | 05-15-2014 |
20140134958 | Dual Feed Antenna System - In one embodiment, the disclosure includes an apparatus for use in a wireless communication device comprising a plurality of antennas, and a selection switch coupled to the plurality of antennas, wherein the selection switch is configured to select a first antenna for use when the wireless communication device is in use in a first physical orientation with respect to a user, and select a second antenna for use when the wireless communication device is in use in a second physical orientation with respect to a user, and wherein the first physical orientation is different from the second physical orientation. | 05-15-2014 |
20140135058 | METHOD TO ESTIMATE HEAD RELATIVE HANDSET LOCATION - In one embodiment, the disclosure includes an apparatus comprising a processor configured to estimate a position of a wireless communication device relative to a user's body part based on an output of at least one sensor, wherein the position is selected from a group comprising: a left side position, a right side position, and a front-facing position, and configure at least one wireless communication device setting based on the estimated position. In another embodiment, the disclosure includes a mobile device comprising at least one sensor, an antenna subsystem, a transceiver subsystem coupled to the antenna subsystem, and a processor coupled to the transceiver subsystem and the sensor, and wherein the processor is configured to determine that the mobile device is in use, obtain a tilt angle of the mobile device from the sensor, and estimate the mobile device location relative to a user's body using the tilt angle. | 05-15-2014 |
20140187284 | Simultaneous Voice-Long Term Evolution Dual Antenna System - A mobile device may include a first antenna and a second antenna. A first radio frequency (RF) transceiver may be coupled to the first antenna, and a second RF transceiver may be coupled to the second antenna. A baseband chipset may be coupled to the first RF transceiver and the second RF transceiver. One or more switches may be connected within a first transmit path, a second transmit path, a first receive path, and a second receive path, wherein one or more of the first transmit path, the second transmit path, the first receive path, and the second receive path associated with the coupling of one or more of the first antenna, the second antenna, the first RF transceiver, the second RF transceiver, and the baseband chipset. | 07-03-2014 |
20140213324 | Apparatuses and Methods for a Flexible Display on a Mobile Device - Embodiments are provided for mobile phones, and similar sized electronics devices, with flexible displays, which allow suitable viewing sizes for different applications. The embodiment devices combine, into one compact package, the benefits of a small carry size with those of a large display. An embodiment mobile phone with a flexible display includes a first part having a first surface and a first edge, and a second part having a second surface and a second edge. A rotatable hinge couples the first edge of the first part is coupled to the second edge of the second part. The flexible display of the mobile phone is a continuous flexible display which has a back surface disposed on the first surface of the first part and on the second surface of the second part. The viewing surface of the flexible display is opposite to the back surface. | 07-31-2014 |
20150015445 | Capacitively Coupled Loop Inverted F Reconfigurable Antenna - System and method embodiments are provided for capacitive coupled loop inverted F reconfigurable multiband antenna. The embodiments enable tuning and adjustment of the low frequency response of the antenna without appreciably effecting the high frequency response of the antenna. In an embodiment, a reconfigurable multiband antenna includes a first antenna section comprising a first end and a second end, wherein the second end is coupled to an antenna feed, a second antenna section comprising a third end and a fourth end, wherein the third end is coupled to ground, and a switch coupling the second end to the third end, wherein the first end and the fourth end are capacitively coupled. | 01-15-2015 |