Class / Patent application number | Description | Number of patent applications / Date published |
370273000 | QUADRUPLEX | 11 |
20130163482 | MOBILE COMMUNICATION TERMINAL AND METHOD FOR SIMULTANEOUS COMMUNICATION USING A PLURALITY OF FREQUENCIES - In order to enable simultaneous communication using a plurality of frequencies, provided is a mobile communication terminal including: a first combining circuit | 06-27-2013 |
20140003300 | ANTENNA INTERFACE CIRCUITS FOR CARRIER AGGREGATION ON MULTIPLE ANTENNAS | 01-02-2014 |
20140133364 | ANTENNA INTERFACE CIRCUITS WITH QUADPLEXERS - Techniques for supporting data transmission and reception on multiple bands for carrier aggregation are disclosed. In an exemplary design, an apparatus (e.g., a wireless device) includes first and second antenna interface circuits coupled to first and second antennas, respectively. The first antenna interface circuit includes a first quadplexer for first and second bands. The second antenna interface circuit includes a second quadplexer for the first and second bands. The first quadplexer may be a duplicate of the second quadplexer, which may simplify implementation. Each antenna interface circuit may further include a diplexer, a duplexer, a triplexer, another quadplexer, switches, etc. The first and second quadplexers may support data transmission and reception on two bands in a first band group. Other circuits in the first and second antenna interface circuits may support data transmission and/or reception on additional bands, possibly in one or more other band groups. | 05-15-2014 |
20150124660 | Microwave Backhaul System Having Quadruple Capacity - A microwave backhaul system having quadruple capacity. In one embodiment, an outdoor communication unit in a microwave backhaul system is provided, which includes a first and second dual channel processing modules that are each configured to process two transmission/reception channels. The outdoor communication unit also includes two transmitter modules that are each configured to upconvert two channels for transmission at vertical polarization and a horizontal polarization. | 05-07-2015 |
20160056945 | Circuit Arrangement - A circuit arrangement includes an antenna port, a first receiving port, a second receiving port, a first transmission port, and a second transmission port. A number of 90 degree hybrids are configured to transfer an input signal into two output signals that are phase shifted relative to each other. Two quadplexers each include a first duplexer and a second duplexer. The quadplexers and the 90 degree hybrids are interconnected such that a leakage signal travelling from one of the transmission ports to one of the receiving ports destructively interferes at the receiving port. | 02-25-2016 |
20190149312 | MULTIPLEXER, RADIO-FREQUENCY FRONT-END CIRCUIT, AND COMMUNICATION APPARATUS | 05-16-2019 |
370275000 | Duplex diplex | 5 |
20080232278 | Method and Apparatus for Communicating Downlink and Uplink Sub-Frames in a Half Duplex Communication System - A method communicating downlink and uplink sub-frames between a base and at least one half duplex user equipment. For a scheduled synchronization time, beginning of reception of an effective part of the uplink sub-frame is separated from end of transmission of an effective part of the first downlink sub-frame by a duration of the difference between a single idle period and an incremental timing advance value. The single idle period, having a duration greater than or equal to summation of downlink/uplink and uplink/downlink required minimum idle durations, is reserved in the end of the first downlink sub-frame or the beginning of the uplink sub-frame, or both. The incremental timing advance value is greater than or equal to the uplink/downlink required minimum idle duration and lower than or equal to the difference between the duration of the single idle period and the downlink/uplink required minimum idle duration. | 09-25-2008 |
20080240000 | SYSTEM AND METHOD FOR RADIO OPERATION IN UMTS BANDS I AND IV UTILIZING A SINGLE RECEIVING PORT - A portable electronic device comprises a multi-band wireless transceiver for communication with a remote device. The portable electronic device comprises a transceiver: i) generating a first band modulated carrier at a first transmitter port; ii) generating a second band modulated carrier at a second transmitter port; and iii) including a low noise amplifier receiving port. A front-end circuit couples the transceiver to an antenna. The front-end circuit includes a first band modulated carrier transmission signal path from the first transmitter port to the antenna comprising: i) a coupling of a first band modulated carrier from the first transmitter port of the transceiver to a low pass port of a diplexer; ii) the diplexer comprising a low pass filter coupling the first band modulated carrier from the low pass port of the diplexer to a common port of the diplexer; and iii) a coupling of the first band modulated carrier from the common port of the diplexer to the antenna. A second band modulated carrier transmission signal path from the second transmitter port to the antenna comprises: i) a coupling of the second band modulated carrier from the second transmitter port of the transceiver to a transmit port of a duplexer; ii) the duplexer comprising a low band pass filter coupling the second band modulated carrier from the transmit port of the duplexer to a common port of the duplexer; iii) a coupling of the second band modulated carrier from the common port of the duplexer to a high pass port of the diplexer; iv) the diplexer comprising a high pass filter coupling the second band modulated carrier from the high pass port of the diplexer to the common port of the diplexer; and v) a coupling of the second band modulated carrier from the common port of the diplexer to the antenna. A modulated carrier received signal path from the antenna to the receiving port comprises: i) a coupling of a modulated carrier from the antenna to the common port of the diplexer; ii) the high pass filter of the diplexer coupling the modulated carrier from the common port to the high pass port of the diplexer; iii) a coupling of the modulated carrier from the high pass port of the diplexer to the common port of the duplexer; iv) the duplexer comprising a high band pass filter coupling the modulated carrier from the common port of the duplexer to a receive port of the duplexer while attenuating the second band modulated carrier; and v) a coupling for the modulated carrier from the receive port of the duplexer to the receiving port of the transceiver. | 10-02-2008 |
20130016632 | Methods for Coordinated Signal Reception Across Integrated Circuit Boundaries - A wireless electronic device having first and second baseband processors is provided. In one suitable arrangement, radio-frequency power splitters and adjustable low noise amplifiers may be form in the receive paths. The use of power splitters allow signals associated with the first and second baseband processors to be received in parallel. In another suitable arrangement, radio-frequency switches are used in place of the power splitters. The states of the switches may be controlled using at least one of the first and second baseband processors. The use of switches instead of power splitters requires that wake periods associated with the first baseband processor and wake periods associated with the second baseband processor are non-overlapping. To ensure minimal wake period collision, a wake period associated with the second baseband processor may be positioned at a midpoint between two successive wake periods associated with the first baseband processor. | 01-17-2013 |
20150318975 | RF STRUCTURE OF USER TERMINAL FOR SUPPORTING MULTI-CARRIER AGGREGATION AND VARIOUS COMMUNICATION RADIO ACCESS TECHNOLOGIES - According to one embodiment of the present specification, a user terminal is provided. The user terminal can comprise: a tunable antenna capable of adjusting a band; a diplexer connected to the tunable antenna to synthesize and separate sub-carriers; one or more antenna switches connected to the diplexer to synthesize and separate low-band sub-carriers and middle-band and high-band sub-carriers; and a sub-carrier processing unit connected to the one or more antenna switches to synthesize and separate a plurality of low-band sub-carriers, a plurality of middle-band sub-carriers and a plurality of high-band sub-carriers. A low-noise amplifier can be connected to the sub-carrier processing unit in order to prevent an increase in a reception sensitivity loss and a noise index occurring on a reception path of the diplexer, the one or more antenna switches and the sub-carrier processing unit. | 11-05-2015 |
20160099800 | TRANSCEIVER AND OPERATION METHOD THEREOF - A receiver, a transceiver, and method of operating the transceiver are provided. The receiver includes a diplexer configured to separate a first band signal and a second band signal, the first band signal including a plurality of first subband signals; a first multi-mode switch configured to generate one or more signal paths corresponding to one or more of the plurality of first subband signals; and a plurality of first band pass filters configured to filter the plurality of first subband signals, wherein the plurality of first band pass filters and the first multi-mode switch are electrically coupled, and one or more of the plurality of first band pass filters, corresponding to one or more of the plurality of first subband signals, filter the plurality of first subband signals, respectively. | 04-07-2016 |